CN102555104B - Production line for stripping and recycling flocking films - Google Patents

Abstract

The invention discloses a production line for stripping and recycling flocking films. The production line is characterized in that a crushing machine is connected with a first-stage dust separator, the first-stage dust separator is connected with a square dust hopper, the first-stage dust separator is connected with a first-stage oscillating screen, a first-stage suction nozzle which is arranged on the first-stage oscillating screen is connected with the square dust hopper, a first-stage receiving hopper which is arranged below the first-stage oscillating screen is connected with a flocking film stripping machine, the flocking film stripping machine is connected with a second-stage dust separator, the second-stage dust separator is connected with the square dust hopper, the second-stage dust separator is connected with a second-stage oscillating screen, a second-stage suction nozzle which is arranged on the second-stage oscillating screen is connected with the flocking film stripping machine, a second-stage receiving hopper which is arranged below the second-stage oscillating screen is connected with a third-stage dust separator, the third-stage dust separator is connected with the square dust hopper, the third-stage dust separator is connected with a third-stage oscillating screen, a third-stage suction nozzle which is arranged on the third-stage oscillating screen is connected with the square dust hopper, a third-stage receiving hopper which is arranged below the third-stage oscillating screen is connected with a material storage bin, and the square dust hopper is connected with a material compression bin. The production line has the advantages of being easy to operate, preventing environmental pollution and increasing recovery efficiency.

Description

Chorion is peeled off remanufacture line

Technical field

The present invention relates to a kind of chorion that chorion on plastic plate can be peeled off and reclaimed and peel off remanufacture line.

Background technology

Present stage, after motor vehicle liquidation, for roof of the vehicle chorion, generally adopt burning method or landfill method to process, roof of the vehicle chorion consists of the chorion being attached on plastic plate, wherein plastic plate and chorion are all one of outer broad-spectrum several renewable resources of Current Domestic, if adopt burning method to process roof of the vehicle chorion, not only can waste resource, and can cause serious atmosphere pollution, can cause soil pollution especially; Same, if adopt landfill method to process, owing to containing plastic plate in roof of the vehicle chorion, its degradation cycle is very long, landfill enters after soil, not only causes the huge waste of resource, more can cause serious soil pollution; And no matter be to adopt burning method or landfill method, all needing manpower to operate, labour intensity is large, inefficiency.

Summary of the invention

The object of the invention is in order to overcome deficiency of the prior art, provide a kind of simple to operate, environmentally safe, chorion that organic efficiency is high to peel off remanufacture line.

To achieve these goals, the present invention has adopted following technical scheme: described chorion is peeled off remanufacture line, comprise: disintegrating machine, dust separator, vibratory sieve, Flocky film peeling machine and square dust hopper, wherein: the discharging opening of described disintegrating machine send device to connect the charging aperture of one-level dust separator by wind, the top exit of described one-level dust separator send device to connect square dust hopper by wind, the below of described one-level dust separator is provided with one-level vibratory sieve, the front outlet top of described one-level vibratory sieve is provided with one-level suction nozzle, described one-level suction nozzle send device to connect square dust hopper by wind, the below of described one-level vibratory sieve is provided with one-level receiving hopper, described one-level receiving hopper send device to connect the charge door of Flocky film peeling machine by wind, the discharging opening of described Flocky film peeling machine send device to connect the charging aperture of secondary dust separator by wind, the top exit of described secondary dust separator send device to connect square dust hopper by wind, the below of described secondary dust separator is provided with secondary vibration sieve, the front outlet top of described secondary vibration sieve is provided with secondary suction nozzle, described secondary suction nozzle send device to connect the charge door of Flocky film peeling machine by wind, the below of described secondary vibration sieve is provided with secondary receiving hopper, described secondary receiving hopper send device to connect the charging aperture of three grades of dust separators by wind, the top exit of described three grades of dust separators send device to connect square dust hopper by wind, the below of described three grades of dust separators is provided with three grades of vibratory sieves, the front outlet top of described three grades of vibratory sieves is provided with three grades of suction nozzles, described three grades of suction nozzles send device to connect square dust hopper by wind, the below of described three grades of vibratory sieves is provided with three grades of receiving hoppers, described three grades of receiving hoppers send device to connect material storage silo by wind, described square dust hopper send device to connect material compression bin by wind.

Further, aforesaid chorion is peeled off remanufacture line, wherein: described wind send device to be comprised of blower fan and transfer pipeline.

Further, aforesaid chorion is peeled off remanufacture line, wherein: between material compression storehouse and square dust hopper, be also provided with balance blower fan and transfer pipeline.

Accompanying drawing explanation

Fig. 1 is that chorion of the present invention is peeled off the structural principle schematic diagram that remanufacture line is overlooked direction.

Fig. 2 is the structural principle schematic diagram that chorion of the present invention is peeled off Flocky film peeling machine in remanufacture line.

Fig. 3 is the structural representation of overlooking direction of Fig. 2.

Fig. 4 is the structural representation of the left apparent direction of Fig. 2.

Fig. 5 is the mounting structure schematic diagram of the space bar shown in B-B direction, guide rod and portable plate in Fig. 2.

Fig. 6 is the structural representation of the link position relation of the one-level dust separator shown in left apparent direction and one-level vibratory sieve in Fig. 1.

Fig. 7 is the structural representation of the square dust hopper shown in left apparent direction in Fig. 1.

Fig. 8 is the structural representation in the material compression storehouse shown in right apparent direction in Fig. 1.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

As shown in Figure 1, chorion of the present invention is peeled off remanufacture line, comprising: disintegrating machine 1, one-level dust separator 2, one-level vibratory sieve 3, one-level receiving hopper 4, Flocky film peeling machine 5, secondary dust separator 6, secondary vibration sieve 7, secondary receiving hopper 8, three grades of dust separators 9, three grades of vibratory sieves 10, three grades of receiving hoppers 11, material storage silo 12, material compression storehouse 13, square dust hopper 14, one-level suction nozzle 15, secondary suction nozzle 16, three grades of suction nozzles 17, each conveying fan and transfer pipelines, wherein: the discharging opening of disintegrating machine 1 send device to connect the charging aperture of one-level dust separator 2 by wind, the top exit of one-level dust seperator 2 send device to connect square dust hopper 14 by wind, the below of one-level dust separator 2 is provided with one-level vibratory sieve 3, the front outlet top of one-level vibratory sieve 3 is provided with one-level suction nozzle 15, and one-level suction nozzle 15 send device to connect square dust hopper 14 by wind, the below of one-level vibratory sieve 3 is provided with one-level receiving hopper 4, one-level receiving hopper 4 send device to connect the charge door of Flocky film peeling machine 5 by wind, the discharging opening of Flocky film peeling machine 5 send device to connect the charging aperture of secondary dust separator 6 by wind, the top exit of secondary dust separator 6 send device to connect square dust hopper 14 by wind, the below of secondary dust separator 6 is provided with secondary vibration sieve 7, the front outlet top of secondary vibration sieve 7 is provided with secondary suction nozzle 16, secondary suction nozzle 16 send device to connect the charge door of Flocky film peeling machine 5 by wind, the below of secondary vibration sieve 7 is provided with secondary receiving hopper 8, secondary receiving hopper 8 send device to connect the charging aperture of three grades of dust separators 9 by wind, the top exit of three grades of dust separators 9 send device to connect square dust hopper 14 by wind, the below of three grades of dust separators 9 is provided with three grades of vibratory sieves 10, the front outlet top of three grades of vibratory sieves 10 is provided with three grades of suction nozzles 17, three grades of suction nozzles 17 send device to connect square dust hopper 14 by wind, the below of three grades of vibratory sieves 10 is provided with three grades of receiving hoppers 11, three grades of receiving hoppers 11 send device to connect material storage silo 12 by wind, square dust hopper 14 send device to connect material compression bin 13 by wind.In the present embodiment, one-level dust separator 2 is all identical with the link position relation between one-level vibratory sieve 3, secondary dust separator 6 and secondary vibration 7, three grades of dust separators 9 of sieve and three grades of vibratory sieves 10, in Fig. 6, with one-level dust separator 2, is only that example has been carried out exemplary illustration with the link position pass of one-level vibratory sieve 3.

In the present embodiment, the structure that chorion of the present invention is peeled off Flocky film peeling machine in remanufacture line is as follows: as Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5, comprise: support 49, in support 49, be provided with casing 50, before casing 50, be provided with Qianmen 66, after casing 50, be provided with back door 67, the top of casing 50 is provided with top cover 51, in casing 50, be provided with main shaft 52, the two ends of main shaft 52 pass the rear expansion bearing of casing 50 on support 49, one end of main shaft 52 is fixed with driven pulley 61, motor 64 is installed on support 49, drive pulley 62 is installed on the output shaft of motor 64, between drive pulley 62 and driven pulley 61, be provided with driving belt 63, the other end at main shaft 52 is provided with flying wheel 60, on main shaft 52, be arranged at intervals with space bar 55, along the circumferential direction evenly be provided with altogether four guide rods 54, every guide rod 54 is all vertically through all space bars 55, the two ends of every guide rod 54 are installed on respectively on guide bar receiver 57, make guide rod 54 can not drop out space bar 55, guide bar receiver 57 is installed on main shaft 52, on the every guide rod 54 between adjacent two space bars 55, is movably set with respectively two portable plates 56, in casing 50, be also fixedly installed sieve plate 65,651,652, sieve plate 65 is positioned at the below of space bar 55 and portable plate 56, on top cover 51, be provided with charge door 511, in the bottom of casing 50, be provided with discharging opening 68.

The operation principle that chorion of the present invention is peeled off remanufacture line is as follows: waste and old roof of the vehicle chorion is dropped in disintegrating machine 1 and carries out fragmentation, the fragment that plastic plate and chorion attached thereto form after fragmentation arrives one-level dust separator 2 along transfer pipeline 31 under the transmission of blower fan 18, plastic plate fragment with chorion enters after one-level dust separator 2, the suede wherein coming off from plastic plate in shattering process is under the effect of blower fan 19, first from the top exit output of one-level dust separator 2, along transfer pipeline 32, enter in square dust hopper 14, other large sheet stock just directly falls into the one-level vibratory sieve 3 that is arranged on one-level dust separator 2 belows, under the effect of one-level vibratory sieve 3, the suede group that easily comes off in fragment will come off from plastic plate fragment, these suede groups that depart from plastic plate completely will float, and move forward to gradually suction nozzle 15, then under the transmission of blower fan 20, along transfer pipeline 33, enter square dust hopper 14, and those plastic plate fragments with chorion of falling one-level vibratory sieve 3 lower floors through 3 effects of one-level vibratory sieve will directly fall into the one-level receiving hopper 4 that is arranged on one-level vibratory sieve 3 belows, fragment in one-level receiving hopper 4 under the effect of blower fan 21 along transfer pipeline 34, transfer pipeline 35 arrives the charge door 511 of Flocky film peeling machine 5, from charge door 511, enter into casing 50, then starter motor 64, motor 64 drives the drive pulley 62 being arranged on motor 64 output shafts to carry out High Rotation Speed, drive pulley 62 drives driven pulley 61 to carry out High Rotation Speed by driving belt 63, the driven pulley 61 of high-band rotation drives main shaft 52 High Rotation Speeds, the portable plate 56 of High Rotation Speed pushes the plastic plate fragment with chorion continuously, and shock, simultaneously, two portable plates 56 between two adjacent space bars 55 also can be crumpled and friction fragment, finally make extremely most chorion separate from plastic plate fragment, chorion after separation and plastic plate fragment drop from the mesh of sieve plate 65,651 and 652, and drop out from discharging opening 68, and these chorions and plastic plate fragment will arrive in secondary dust separator 6 along transfer pipeline 36 and 37 under the effect of blower fan 22, enter after secondary dust separator 6, the suede grain obtaining through Flocky film peeling machine 5 separation and the suede of little group will be under the effects of blower fan 23, first from the top exit of secondary dust separator 6, along transfer pipeline 48, arrive square dust hopper 14, and remaining large sheet stock just directly falls into the secondary vibration sieve 7 that is arranged on secondary dust separator 6 belows, fall into the large sheet stock of secondary vibration sieve 7 after the effect of secondary vibration sieve 7, some relative masses are light, volume is large, separated incomplete fragment will float over the top of secondary vibration sieve 7, and can move forward to gradually suction nozzle 16, under the effect of blower fan 24, along transfer pipeline 38, come back in Flocky film peeling machine 5 and again peel off, and those are fallen through 7 effects of secondary vibration sieve, secondary vibration is sieved the chorion of 7 lower floors and the mixture of plastic plate fragment is arranged on by directly falling into the secondary receiving hopper 8 that secondary vibration is sieved 7 belows, the mixture that falls into secondary receiving hopper 8 will arrive three grades of dust separators 9 along transfer pipeline 39, transfer pipeline 40 under the effect at blower fan 25, enter three grades of chorion and plastic plate fragments in dust separator 9, suede grain wherein and the suede of little group are by under the effect at blower fan 26, top exit output from three grades of dust separators 9, and enter in square dust hopper 14 along transfer pipeline 41, and remaining plastic plate fragment will directly fall into three grades of vibratory sieves 10 that are arranged on three grades of dust separator 9 belows, now, chorion and the separated of plastic plate complete substantially, the material that falls into three grades of vibratory sieves 10 only contains a small amount of suede group, these suede groups are under the effect of three grades of vibratory sieves 10, the top of three grades of vibratory sieves 10 will be floated over, and can move forward to gradually suction nozzle 17, then under the effect of blower fan 27, along transfer pipeline 42, arrive in square dust hopper 14, at this moment the fragment of falling three grades of vibratory sieve 10 lower floors through the effect of vibration of three grades of vibratory sieves 10 is the plastic plate fragment completely of separation, these fragments will directly fall into three grades of receiving hoppers 11 that are arranged on three grades of vibratory sieve 10 belows, and these separated plastic plate fragments completely that fall into three grades of receiving hoppers 11 will arrive material storage silo 12 along transfer pipeline 43, transfer pipeline 44 under the work of blower fan 28, simultaneously, through above-mentioned flow process, enter into the suede group of square dust hopper 14, will be along transfer pipeline 46 under the effect of blower fan 30, transfer pipeline 47 arrives in material compression storehouse 13 and compresses, and in order to prevent that air pressure in material compression storehouse 13 is unbalance and to produce airborne dust, balance blower fan 29 has been installed on material compression storehouse 13, the suede group floating thing that material compression storehouse 13 produces will enter square dust hopper 14 along transfer pipeline 45 under the effect at balance blower fan 29, enter suede after square dust hopper 14 group floating thing by under the effect at blower fan 30 along transfer pipeline 46, transfer pipeline 47 enters material compression storehouse 13 and again compresses.So far, whole chorion separation completes.Above-mentioned chorion is peeled off remanufacture line and is had advantages of that simple to operate, environmentally safe, organic efficiency are high.

In the present embodiment, the structure of described square dust hopper 14 as shown in Figure 7, the structure in described material compression storehouse 13 as shown in Figure 8, in actual applications, screw feeding device 141 can also be set below the discharging opening in material compression storehouse 13, with convey materials more easily.Certainly; for realizing object of the present invention; can also adopt square dust hopper, material compression storehouse, material storage silo, Flocky film peeling machine, dust separator, vibratory sieve of other similar structures etc., this similar Structural Transformation all should belong to protection scope of the present invention.

Claims (3)

1. chorion is peeled off remanufacture line, comprise: disintegrating machine, dust separator, vibratory sieve, Flocky film peeling machine and square dust hopper, it is characterized in that: the discharging opening of described disintegrating machine send device to connect the charging aperture of one-level dust separator by wind, the top exit of described one-level dust separator send device to connect square dust hopper by wind, the below of described one-level dust separator is provided with one-level vibratory sieve, the front outlet top of described one-level vibratory sieve is provided with one-level suction nozzle, described one-level suction nozzle send device to connect square dust hopper by wind, the below of described one-level vibratory sieve is provided with one-level receiving hopper, described one-level receiving hopper send device to connect the charge door of Flocky film peeling machine by wind, the discharging opening of described Flocky film peeling machine send device to connect the charging aperture of secondary dust separator by wind, the top exit of described secondary dust separator send device to connect square dust hopper by wind, the below of described secondary dust separator is provided with secondary vibration sieve, the front outlet top of described secondary vibration sieve is provided with secondary suction nozzle, described secondary suction nozzle send device to connect the charge door of Flocky film peeling machine by wind, the below of described secondary vibration sieve is provided with secondary receiving hopper, described secondary receiving hopper send device to connect the charging aperture of three grades of dust separators by wind, the top exit of described three grades of dust separators send device to connect square dust hopper by wind, the below of described three grades of dust separators is provided with three grades of vibratory sieves, the front outlet top of described three grades of vibratory sieves is provided with three grades of suction nozzles, described three grades of suction nozzles send device to connect square dust hopper by wind, the below of described three grades of vibratory sieves is provided with three grades of receiving hoppers, described three grades of receiving hoppers send device to connect material storage silo by wind, described square dust hopper send device to connect material compression bin by wind.

2. chorion according to claim 1 is peeled off remanufacture line, it is characterized in that: described wind send device to be comprised of blower fan and transfer pipeline.

3. chorion according to claim 1 and 2 is peeled off remanufacture line, it is characterized in that: between material compression storehouse and square dust hopper, be also provided with balance blower fan and transfer pipeline.

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