CN203876085U - Regenerated rubber powder production device - Google Patents

Regenerated rubber powder production device Download PDF

Info

Publication number
CN203876085U
CN203876085U CN201420265763.4U CN201420265763U CN203876085U CN 203876085 U CN203876085 U CN 203876085U CN 201420265763 U CN201420265763 U CN 201420265763U CN 203876085 U CN203876085 U CN 203876085U
Authority
CN
China
Prior art keywords
rubber
belt conveyor
rubber powder
steel wire
screen box
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201420265763.4U
Other languages
Chinese (zh)
Inventor
王文
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CHONGQING JUYI RUBBER PRODUCT Co Ltd
Original Assignee
CHONGQING JUYI RUBBER PRODUCT Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by CHONGQING JUYI RUBBER PRODUCT Co Ltd filed Critical CHONGQING JUYI RUBBER PRODUCT Co Ltd
Priority to CN201420265763.4U priority Critical patent/CN203876085U/en
Application granted granted Critical
Publication of CN203876085U publication Critical patent/CN203876085U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/52Mechanical processing of waste for the recovery of materials, e.g. crushing, shredding, separation or disassembly
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies
    • Y02W30/62Plastics recycling; Rubber recycling

Abstract

The utility model discloses a regenerated rubber powder production device. A coarsely ground blocky tire is subjected to magnetic separation after being ground into coarse particles through a coarse rubber grinding machine. Compared with the prior art in which rubber is subjected to magnetic separation after being directly ground into powder, the regenerated rubber powder production device has the advantages that a steel wire is not completely ground into iron powder, the magnetic separation efficiency is high, and the removal rate of iron is high. Secondly, the coarse particles are subjected to magnetic separation through a full-magnetic drum before reaching to a rubber powder grinding machine, so that iron-contained rubber particles are removed, and iron-contained rubber can be returned to the coarse rubber grinding machine so as to be ground. In such a way that the coarse particles are subjected to magnetic separation twice through the full-magnetic drum, the clearance rate of the steel wire is up to more than 99%. The content of the iron powder in a finished product of rubber powder is greatly reduced, and the production efficiency is high. An elastic part of a second vibrating screen is replaced with a swing structure composed of a swing arm and a portal frame, so that the screening efficiency becomes higher, and the service life is greatly prolonged.

Description

Reclaimed rubber rubber powder process units
Technical field
The utility model relates to a kind of reclaimed rubber rubber powder process units.
Background technology
At present, the technique of utilizing junked tire to produce rubber rubber powder comprises carries out the separation of mouth circle by junked tire, and slitting, stripping and slicing, be then directly ground into the tire after stripping and slicing 30-32 object fine powder, then this fine powder is obtained to iron end and rubber powder through magnetic separation.Like this, because iron wire is directly ground into iron end, on the one hand large to the wearing and tearing of equipment, on the other hand, iron end is difficult for removing completely in magnetic separation, causes in final product iron end content large, affects the quality of last reclaimed rubber.
Secondly, at present, rubber grain general vibratory sieve that adopts when screening is realized, and current vibratory sieve, as Chinese patent CN202061199U, CN202539070U are all mainly comprised of frame, screening motor (or motor), screen box and screen cloth etc., described screen box is fixed on the top of frame, and both are connected by elastic supporting member for supporting optical member, there is like this problem, be exactly with after a period of time, elastic supporting member for supporting optical member just needs to change, and elastic supporting member for supporting optical member is short service life.
Therefore those skilled in the art be devoted to find a kind ofly the clearance rate at iron end in rubber powder can be improved, long service life the deironing apparatus of reclaimed rubber.
Utility model content
In order to solve the problems of the technologies described above, the utility model provides that a kind of deironing rate is high, the reclaimed rubber rubber powder process units of long service life.
To achieve these goals, the technical solution of the utility model is as follows: a kind of reclaimed rubber rubber powder process units, it is characterized in that: comprise rubber coarse crushing pulverizer and rubber rubber powder pulverizer, below rubber coarse crushing pulverizer and rubber rubber powder pulverizer, be respectively equipped with the first and second vibratory sieves, the thin rubber powder discharging opening of described the first vibratory sieve is connected with compound belt conveyor by the first belt conveyor, the coarse granule discharge bucket of described the first vibratory sieve material is out got back to coarse crusher for rubber by reclaiming belt conveyor, the setting that is inclined upwardly gradually from head end to end of described compound belt conveyor, end at compound belt conveyor is provided with rubber grain discharge bucket, near mixture belt conveyor end, be provided with the first full magnet drum, driven cylinder and the first full magnet drum are in the same plane, the separated belt conveyor of steel wire is enclosed within on the first full magnet drum and driven cylinder simultaneously, the head end of steel wire recovery belt conveyor is positioned at the below of the separated belt conveyor of steel wire, and be provided with steel wire discharge bucket at the end of described steel wire recovery belt conveyor, the below that described steel wire reclaims belt conveyor is provided with rubber grain belt conveyor, and the end cylinder of described rubber grain belt conveyor is the second full magnet drum, and described rubber grain discharge bucket lower end extends to the top of the head end of rubber grain belt conveyor, described rubber grain belt conveyor end is provided with rubber discharge bucket, described rubber discharge bucket material is out transported to rubber rubber powder pulverizer by the second belt conveyor, the below of the end of described rubber grain belt conveyor is also provided with circulation belt conveyor, and the end below of described circulation belt conveyor is for reclaiming the head end of belt conveyor,
Described the second vibratory sieve comprises frame, screen box, screen cloth and vibrating motor, described screen box is contained in frame, described screen cloth is arranged in screen box screen box is divided into upper strata vibrating bin and lower floor's material cavity, the tail down of described screen box is tilted, described frame comprises at least two door type frames, the two ends of the lower surface of the back timber of each door type frame are equipped with two vertical plates, between two vertical plates, rotating shaft is housed, the position of corresponding each door type frame in both sides of the base plate of described screen box is respectively equipped with swing arm, the upper end kink of described swing arm is in rotating shaft, the lower end of described swing arm is connected on screen box, the place ahead of described frame is provided with vibrating grid, on described vibrating grid, axle is housed, one end of described axle connects large belt wheel, the head end of described screen box is provided with torque arm, the end of described torque arm is enclosed within on axle, on the output shaft of described motor, be connected with small pulley, belt is enclosed within on small pulley and large belt wheel simultaneously, the tail end of described screen box is connected with the thick rubber powder discharge bucket in the upper strata being communicated with upper strata vibrating bin, position near tail end on the base plate of described screen box is provided with thin rubber powder discharging opening, on thin rubber powder discharging opening, be connected with thin rubber powder discharge bucket, the thick rubber powder discharge bucket in upper strata of described the second vibratory sieve material out is also got back to rubber rubber powder pulverizer by the second belt conveyor.
Adopt technique scheme, junked tire piece is first passed through to coarse crusher for rubber coarse crushing (8-10 object particle), like this, steel wire is not ground into iron end, easily separated.After steel wire separation first, there is more than 95% steel wire to realize separated with rubber grain.Then under the effect of the second full magnet drum, will contain the particle of steel wire and the steel wire of remainder in this separation.Rubber grain enters the operation of next step one-tenth rubber powder in small, broken bits.Particle and a small amount of steel wire containing steel wire enter again in coarse crushing technique and pulverize, and then get back to the magnetic separation stage and carry out magnetic separation.So, through the magnetic separation of twice full magnet drum, steel wire clearance rate reaches more than 99%.After crushed, in rubber powder, iron content reduces the operation that rubber grain enters next step one-tenth rubber powder in small, broken bits greatly, and the quality of reclaimed rubber improves greatly.
Moreover, the utility model the second vibratory sieve replaces to elastic supporting member for supporting optical member the swing type structure being comprised of portal, swing arm, again under the effect of motor, the continuous swing of screen box, to reach the object of screening, thick rubber powder discharge bucket is out from upper strata for the thick material in upper strata, through the second belt conveyor, being transported to rubber rubber powder pulverizer more further pulverizes, the qualified fine grained in bottom exports out from thin rubber powder, through meticulous rubber powder discharge bucket, arriving thin rubber powder again stacks in hole, the screening efficiency of the second vibratory sieve is high, has saved elastomeric element, longer service life.
In technique scheme: the drive roll of described compound belt conveyor is positioned at end, the drive roll of described steel wire recovery belt conveyor is positioned at below and the close first full magnet drum of the separated belt conveyor of steel wire, the drive roll of described compound belt conveyor is connected with the first full magnet drum by belt, the described first full magnet drum is connected with the drive roll that steel wire reclaims belt conveyor by belt, can only with a motor, drive three cylinders like this, reduce the input of equipment.The drive roll of same described circulation belt conveyor is positioned at the second full magnet drum below, and by same driven by motor.
In technique scheme: arrange for convenient, save occupation area of equipment.Described rubber grain belt conveyor is parallel with the circulation belt conveyor that is positioned at its below.
In technique scheme: for fear of spilling leakage from rubber grain discharge bucket material out.The place ahead of described rubber grain discharge bucket is provided with baffle plate, and described baffle plate is positioned at the top of rubber grain belt conveyor.
In technique scheme: in order to increase the intensity of screen box, the head end of the base plate of described screen box is connected with frame type frame, between described frame type frame and the head end plate of screen box, be connected with reinforcement, described torque arm is positioned at the outer middle side part of the transverse beam of frame type frame.
In technique scheme: described vibrating grid comprises left socle and right support, top at left socle and right support is respectively equipped with axis hole, the two ends of described axle are set in the axis hole of left socle and right support, and one end of described axle reaches outside vibrating grid, and on this external part, large belt wheel is housed.
Beneficial effect: the utility model first will first become block tire to be first ground into compared with coarse granule through rubber coarse crushing pulverizer through coarse crushing, then magnetic separation.Directly magnetic separation after rubber pulverizing powdering is compared with existing, steel wire is not ground into iron end completely, and the efficiency of magnetic separation is high, and it is high that iron eliminates rate.Secondly, the utility model carried out magnetic separation through full magnet drum again before coarse granule reaches rubber rubber powder pulverizer, and the rubber grain of iron content is eliminated, and iron content rubber can be got back to rubber coarse crushing pulverizer and pulverize.So, through the magnetic separation of twice full magnet drum, steel wire clearance rate reaches more than 99%.The content that greatly reduces iron end in finished product rubber powder, production efficiency is high.The swing type structure that the elastomeric element of existing rubber powder vibratory sieve is replaced with to swing arm and door type frame composition, it is higher that screening efficiency becomes, and greatly extend service life.The swing type structure that the elastomeric element of the second vibratory sieve is replaced with to swing arm and door type frame composition, it is higher that screening efficiency becomes, and greatly extend service life.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation;
Fig. 2 is the structural representation of the utility model the second vibratory sieve;
Fig. 3 is the A-A cutaway view of Fig. 2;
Fig. 4 is the concrete scheme of installation of frame and screen box;
Fig. 5 is the concrete scheme of installation of torque arm, vibrating grid, large belt wheel, small pulley, belt, motor.
The specific embodiment
Below in conjunction with drawings and Examples, the utility model is described in further detail:
Embodiment 1, as Figure 1-5: reclaimed rubber rubber powder process units of the present utility model is by mixture belt conveyor 1, rubber grain discharge bucket 2, the first full magnet drum 3, driven cylinder 4, the separated belt conveyor 5 of steel wire, steel wire reclaims belt conveyor 6, steel wire discharge bucket 7, rubber grain belt conveyor 8, rubber discharge bucket 9, circulation belt conveyor 10, the second full magnet drum 11, baffle plate 12, rubber coarse crushing pulverizer 13, the first vibratory sieve 14, the first belt conveyor 15, reclaim belt conveyor 16, rubber rubber powder pulverizer 17, the second belt conveyor 18, the second vibratory sieve 19 parts such as grade form.
The structure of rubber coarse crushing pulverizer 13 and rubber rubber powder pulverizer 17 is prior art, at this, their a structure left side is not repeated.Below rubber coarse crushing pulverizer 13 and rubber rubber powder pulverizer 17, be respectively equipped with the first and second vibratory sieves 14,19, rubber coarse crushing pulverizer 13 and rubber rubber powder pulverizer 17 lay respectively at the top of the stem of the first and second vibratory sieves 14.19, the first vibratory sieve 14 is identical with the second vibratory sieve 19 structures, screen cloth in the middle part of comprising screen box and being arranged in screen box, screen cloth is divided into vibrating bin above and the thin rubber powder case of lower floor by screen box, this is prior art, at this, does not repeat.Junked tire first becomes the bulk of 40*40mm through coarse crushing, the thin rubber powder discharging opening that enters the first vibratory sieve 14. first vibratory sieves 14 after the particle that this niggerhead is ground into 8-10 order left and right through rubber coarse crushing pulverizer 13 is again connected with compound belt conveyor 1 by the first belt conveyor 15, and the coarse granule discharge bucket of the first vibratory sieve 14 material is out got back to coarse crusher for rubber 13 by reclaiming belt conveyor 16.
Reclaimed rubber rubber powder vibratory sieve is comprised of parts such as frame 19-1, screen box 19-2, screen cloth 19-3, motor 19-4, upper strata thick rubber powder discharge bucket 19-5, thin rubber powder discharge bucket 19-6, torque arm 19-7, vertical plate 19-8, rotating shaft 19-9, swing arm 19-10, reinforcement 19-11, vibrating grid 19-12, axle 19-13, large belt wheel 19-14, small pulley 19-15 and frame type frame 19-17.
Frame 19-1 comprises at least two door type frames, selects two here, and the two ends of the lower surface of the back timber of each door type frame are respectively equipped with two vertical plate 19-8, gapped between two vertical plate 19-8, between two vertical plate 19-8, is connected with rotating shaft 19-9.Door type frame is bolted on ground.
The tail down of screen box 19-2 is obliquely installed, screen box 19-2 is positioned at the below of two door type frames, two door type frames lay respectively at the close stem of screen box 19-2 and the position of afterbody, the position of corresponding each door type frame in the left and right sides of the base plate of screen box 19-2 is provided with swing arm 19-10, it is upper that the lower end of swing arm 19-10 is connected to screen box 19-2, and the upper end kink of swing arm 19-10 is contained on rotating shaft 19-9.Middle part in screen box 19-2 arranges screen cloth 19-3, screen cloth 19-3 is divided into upper strata vibrating bin and lower floor's material cavity by screen box 19-2, the head end of the base plate of screen box 19-2 is connected with frame type frame 19-17, between frame type frame 19-17 and the head end plate of screen box 19-2, be connected with reinforcement 19-11, torque arm 19-7 is connected to the outer middle side part of the transverse beam of frame type frame 19-17.The afterbody of screen box 19-2 is provided with the upper strata being communicated with upper strata vibrating bin thick rubber powder discharge bucket 19-5, and the position near tail end on the base plate of screen box 19-2 is provided with thin rubber powder discharging opening, on thin rubber powder discharging opening, is connected with thin rubber powder discharge bucket 19-6.
The place ahead of frame 19-1 is provided with vibrating grid 19-12, and vibrating grid 19-12 comprises left socle and right support, and left socle and right support are bolted on ground respectively.Top at left socle and right support is respectively equipped with axis hole, and the two ends of axle 19-13 are set in the axis hole of left socle and right support, and one end of axle 19-13 reaches outside vibrating grid 19-12, and large belt wheel 19-14 is housed on this external part.It is upper that the end of torque arm 19-7 is enclosed within axle 19-13, and motor 19-4 is bolted on the ground in vibrating grid 19-12 the place ahead, is connected with small pulley 19-15 on the output shaft of motor 19-4, and belt 19-16 is enclosed within on small pulley 19-15 and large belt wheel 19-14 simultaneously.
Motor 19-4 rotates, and band moving axis 19-13 rotates, thereby torque arm 19-7 follows by action, and torque arm 19-7 pulls screen box, and swing arm 19-10 swings, thereby completes screening work.
The second vibratory sieve 19 fine powder is out our qualified rubber powder, and particle diameter is 30-32 order.From the upper strata thick rubber powder discharge bucket 19-5 of the second vibratory sieve 19 getting back to rubber rubber powder pulverizer 17 compared with coarse granule by the second belt conveyor 18 and continue to pulverize out.
Compound belt conveyor 1 setting that is inclined upwardly gradually from head end to end, end at compound belt conveyor 1 is provided with rubber grain discharge bucket 2, the drive roll of compound belt conveyor 1 is positioned at end, near mixture belt conveyor 1 end, be provided with the first full magnet drum 3, driven cylinder 4 and the first full magnet drum 3 are in the same plane, the separated belt conveyor 5 of steel wire is enclosed within on full magnet drum 3 and driven cylinder 4 simultaneously, the head end of steel wire recovery belt conveyor 6 is positioned at the below of the separated belt conveyor 5 of steel wire, and it is parallel with the separated belt conveyor 5 of steel wire that steel wire reclaims belt conveyor 6.And being provided with steel wire discharge bucket 7 at the end that steel wire reclaims belt conveyor 6, steel wire reclaims out from steel wire discharging opening 7.The drive roll of steel wire recovery belt conveyor 6 is positioned at below and the close first full magnet drum 3 of the separated belt conveyor 5 of steel wire.The drive roll of compound belt conveyor 1 is connected with the first full magnet drum 3 by belt, and the first full magnet drum 3 is connected with the drive roll that steel wire reclaims belt conveyor 6 by belt.They three by same driven by motor, rotate, save equipment investment.
The below that steel wire reclaims belt conveyor 6 is provided with rubber grain belt conveyor 8, and the end cylinder of rubber grain belt conveyor 8 is the second full magnet drum 11, and rubber grain discharge bucket 2 lower ends extend to the top of the head end of rubber grain belt conveyor 8.The place ahead of the discharging opening of rubber grain discharge bucket 2 is provided with baffle plate 12, and baffle plate 12 is positioned at the top of rubber grain belt conveyor 8.
Rubber grain belt conveyor 8 ends are provided with rubber discharge bucket 9 and iron content rubber grain receiving hopper 20, and iron content rubber grain material receiving port 20 is positioned at towards inner side, and rubber discharge bucket 9 toward the outer side.Rubber discharge bucket 9 material is out transported to rubber rubber powder pulverizer 17 by the second belt conveyor 18, the below of the end of rubber grain belt conveyor 8 is also provided with circulation belt conveyor 10, and the discharging opening of iron content rubber grain material receiving port 20 is positioned at the top of circulation belt conveyor 10.Rubber grain belt conveyor 8 is parallel with the circulation belt conveyor 10 that is positioned at its below, and the end below of circulation belt conveyor 10 is for reclaiming the head end of belt conveyor 16.The drive roll of circulation belt conveyor 10 is positioned at the second full magnet drum 11 belows, and by same driven by motor.
More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without creative work.Therefore, all technical staff in the art comply with design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should be in the determined protection domain by claims.

Claims (6)

1. a reclaimed rubber rubber powder process units, it is characterized in that: comprise rubber coarse crushing pulverizer (13) and rubber rubber powder pulverizer (17), below at rubber coarse crushing pulverizer (13) and rubber rubber powder pulverizer (17) is respectively equipped with the first and second vibratory sieves (14, 19), the thin rubber powder discharging opening of described the first vibratory sieve (14) is connected with compound belt conveyor (1) by the first belt conveyor (15), the coarse granule discharge bucket of described the first vibratory sieve (14) material is out got back to coarse crusher for rubber (13) by reclaiming belt conveyor (16), described compound belt conveyor (1) setting that is inclined upwardly gradually from head end to end, end at compound belt conveyor (1) is provided with rubber grain discharge bucket (2), near mixture belt conveyor (1) end, be provided with the first full magnet drum (3), driven cylinder (4) is in the same plane with the first full magnet drum (3), the separated belt conveyor of steel wire (5) is enclosed within on the first full magnet drum (3) and driven cylinder (4) simultaneously, the head end of steel wire recovery belt conveyor (6) is positioned at the below of the separated belt conveyor of steel wire (5), and be provided with steel wire discharge bucket (7) at the end of described steel wire recovery belt conveyor (6), the below that described steel wire reclaims belt conveyor (6) is provided with rubber grain belt conveyor (8), the end cylinder of described rubber grain belt conveyor (8) is the second full magnet drum (11), and described rubber grain discharge bucket (2) lower end extends to the top of the head end of rubber grain belt conveyor (8), described rubber grain belt conveyor (8) end is provided with rubber discharge bucket (9), described rubber discharge bucket (9) material is out transported to rubber rubber powder pulverizer (17) by the second belt conveyor (18), the below of the end of described rubber grain belt conveyor (8) is also provided with circulation belt conveyor (10), and the end below of described circulation belt conveyor (10) is for reclaiming the head end of belt conveyor (16),
Described the second vibratory sieve (19) comprises frame (19-1), screen box (19-2), screen cloth (19-3) and vibrating motor (19-4), described screen box (19-2) is contained in frame (19-1), described screen cloth (19-3) is arranged in screen box (19-2) screen box (19-2) is divided into upper strata vibrating bin and lower floor's material cavity, the tail down of described screen box (19-2) is tilted, described frame (19-1) comprises at least two door type frames, the two ends of the lower surface of the back timber of each door type frame are equipped with two vertical plates (19-8), rotating shaft (19-9) is housed between two vertical plates (19-8), the position of corresponding each door type frame in both sides of the base plate of described screen box (19-2) is respectively equipped with swing arm (19-10), the upper end kink of described swing arm (19-10) is in rotating shaft (19-9), the lower end of described swing arm (19-10) is connected on screen box (19-2), the place ahead of described frame (19-1) is provided with vibrating grid (19-12), axle (19-13) is housed on described vibrating grid (19-12), one end of described axle (19-13) connects large belt wheel (19-14), the head end of described screen box (19-2) is provided with torque arm (19-7), the end of described torque arm (19-7) is enclosed within on axle (19-13), on the output shaft of described motor (19-4), be connected with small pulley (19-15), belt (19-16) is enclosed within on small pulley (19-15) and large belt wheel (19-14) simultaneously, the tail end of described screen box (19-2) is connected with the thick rubber powder discharge bucket in the upper strata being communicated with upper strata vibrating bin (19-5), position near tail end on the base plate of described screen box (19-2) is provided with thin rubber powder discharging opening, on thin rubber powder discharging opening, be connected with thin rubber powder discharge bucket (19-6), the thick rubber powder discharge bucket in upper strata (19-5) of described the second vibratory sieve (19) material out is also got back to rubber rubber powder pulverizer (17) by the second belt conveyor (18).
2. reclaimed rubber rubber powder process units according to claim 1, it is characterized in that: the drive roll of described compound belt conveyor (1) is positioned at end, the drive roll of described steel wire recovery belt conveyor (6) is positioned at below and the close first full magnet drum (3) of the separated belt conveyor of steel wire (5), the drive roll of described compound belt conveyor (1) is connected with the first full magnet drum (3) by belt, and the described first full magnet drum (3) is connected with the drive roll that steel wire reclaims belt conveyor (6) by belt; The drive roll of described circulation belt conveyor (10) is positioned at the second full magnet drum (11) below, and by same driven by motor.
3. according to reclaimed rubber rubber powder process units described in claim 1 or 2, it is characterized in that: described rubber grain belt conveyor (8) is parallel with the circulation belt conveyor (10) that is positioned at its below.
4. according to reclaimed rubber rubber powder process units described in claim 1 or 2, it is characterized in that: the place ahead of described rubber grain discharge bucket (2) is provided with baffle plate (12), described baffle plate (12) is positioned at the top of rubber grain belt conveyor (8).
5. reclaimed rubber rubber powder process units according to claim 1, it is characterized in that: the head end of the base plate of described screen box (19-2) is connected with frame type frame (19-17), between the head end plate of described frame type frame (19-17) and screen box (19-2), be connected with reinforcement (19-11), described torque arm (19-7) is positioned at the outer middle side part of the transverse beam of frame type frame (19-17).
6. reclaimed rubber rubber powder process units according to claim 1, it is characterized in that: described vibrating grid (19-12) comprises left socle and right support, top at left socle and right support is respectively equipped with axis hole, the two ends of described axle (19-13) are set in the axis hole of left socle and right support, and one end of described axle (19-13) reaches outside vibrating grid (19-12), and large belt wheel (19-14) is housed on this external part.
CN201420265763.4U 2014-05-23 2014-05-23 Regenerated rubber powder production device Active CN203876085U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420265763.4U CN203876085U (en) 2014-05-23 2014-05-23 Regenerated rubber powder production device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420265763.4U CN203876085U (en) 2014-05-23 2014-05-23 Regenerated rubber powder production device

Publications (1)

Publication Number Publication Date
CN203876085U true CN203876085U (en) 2014-10-15

Family

ID=51676627

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420265763.4U Active CN203876085U (en) 2014-05-23 2014-05-23 Regenerated rubber powder production device

Country Status (1)

Country Link
CN (1) CN203876085U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104002398A (en) * 2014-05-23 2014-08-27 重庆市聚益橡胶制品有限公司 Regenerated rubber powder production device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104002398A (en) * 2014-05-23 2014-08-27 重庆市聚益橡胶制品有限公司 Regenerated rubber powder production device

Similar Documents

Publication Publication Date Title
CN202781493U (en) Smashing and sorting unit for discarded tires
CN206652568U (en) A kind of feed screens pulverizer
CN103488070A (en) Recovery system and recovery method for selenium drum
CN108015263A (en) Easy to old sand and the shakeout of iron filings recycling and knockout
CN205199724U (en) Separation and recovery conveying equipment of steel wire in rubber powder
CN203876085U (en) Regenerated rubber powder production device
CN203874874U (en) Rubber powder production equipment
CN103977874B (en) A kind of production equipment of rubber rubber powder
CN1718748A (en) Production line of high efficiency energy saving steel slag breeze
CN203876086U (en) Cyclic grinding and deironing system for regenerated rubber
KR20100106172A (en) Wearing and grinding device for recycled aggregates
CN103978585B (en) The production technology of regeneration tyre surface rubber powder
CN103991149B (en) Iron removal system is pulverized in a kind of reclaimed rubber circulation
CN209985544U (en) Novel ore crushing device
CN104002398B (en) A kind of reclaimed rubber rubber powder process units
CN203842803U (en) Scrap tire tread rubber powder vibrating screen machine
CN203842802U (en) Scrap tire rubber powder vibrating screen machine
CN201500549U (en) Used sand production equipment provided with crusher
CN208759828U (en) A kind of plastic breaker
CN112156878A (en) Environment-friendly sand making building for increasing yield and sand making process
CN209829577U (en) Large-scale aerodynamic separation sieve
CN106423515A (en) Movable crushing station
CN103978586B (en) The preparation method of tyre surface rubber powder
CN207401541U (en) Civil engineering is classified stone crusher
CN104002397B (en) The preparation method of rubber rubber powder

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant