CN105363757A - Pollution-free recycling production line for iron waste packages - Google Patents

Abstract

A pollution-free recycling production line for iron waste packages comprises a roller conveyor, a first conveyor, a four-axis shredder, a second conveyor, an iron waste package shredder, a third conveyor, a hammer crusher, a fourth conveyor, an iron waste separation device, a fifth conveyor, an iron waste stirring and cleaning device and an activated carbon filtration device. The first conveyor is installed on the right side of the roller conveyor and connected with the left end of the roller conveyor. The fourth-axis shredder is installed on the right side of the first conveyor and connected with the right end of the first conveyor. The second conveyor is installed on the right side of the fourth-axis shredder connected with the left end of the second conveyor. The pollution-free recycling production line for the iron waste packages has the beneficial effect that oil paint residues can be thoroughly separated from waste metal.

Description

A kind of irony discards the pollution-free recovery streamline of packing material

Technical field

The present invention relates to a kind of irony and discard the pollution-free recovery streamline of packing material, belong to field of mechanical technique.

Background technology

Irony waste packing articles and packing container, according to decision rule after the hazardous waste mixing of country " hazardous waste judging standard general rule " (GB50857-2007), belong to hazardous waste.Iron and steel enterprise is directly sold to after generally all adopting simple cleaning briquetting in Chan Fei enterprise, recovery process unit, the mode that more regular disposal unit adopts Mechanical Crushing to be separated, though paint residues and old metal can be separated, but still have portion of residual amount of pollutant to mix with old metal, thoroughly can not be separated, have impact on the recovery of old metal.Need to develop a paint residues that can make and be separated clean pollution-free recovery streamline in order to solve above-mentioned difficulties with old metal.Along with national environmental protection mechanism to discard the increasing of the control and management reinforcement of irony packing material and law enforcement dynamics to hazardous waste, and advocate Circular Economy and encourage the regeneration policy of hazardous waste after effective disposal..

Summary of the invention

The object of this invention is to provide a kind of irony and discard the pollution-free recovery streamline of packing material.

The problem to be solved in the present invention is the problem that paint residues and old metal cannot be separated by the mode of the Mechanical Crushing separation of prior art completely.

For realizing object of the present invention, the technical solution used in the present invention is:

A kind of irony discards the pollution-free recovery streamline of packing material, comprise roller conveyor, first conveyer, four axle shredders, second conveyor, irony discards packing material shredder, 3rd conveyer, hammer mill, 4th conveyer, irony discarded object separator, 5th conveyer, irony discarded object stirring and washing device and active carbon filtering device, described first conveyer is arranged on the right side of roller conveyor, first conveyer is connected with the left end of roller conveyor, four axle shredders are arranged on the right side of the first conveyer, four axle shredders are connected with the right-hand member of the first conveyer, on the right side of four axle shredders, second conveyor is installed, four axle shredders are connected with the left end of second conveyor, irony discards the right side that packing material shredder is arranged on second conveyor, irony is discarded packing material shredder and is connected with the right-hand member of second conveyor, irony is discarded on the right side of packing material shredder and is installed the 3rd conveyer, irony is discarded packing material shredder and is connected with the left end of the 3rd conveyer, hammer mill is arranged on the right side of the 3rd conveyer, hammer mill is connected with the right-hand member of the 3rd conveyer, on the right side of hammer mill, the 4th conveyer is installed, hammer mill is connected with the left end of the 4th conveyer, irony discarded object separator is arranged on the right side of the 4th conveyer, irony discarded object separator is connected with the right-hand member of the 4th conveyer, 5th conveyer is arranged on the right side of irony discarded object separator, irony discarded object separator is connected with the 5th conveyer left end, irony discarded object stirring and washing device is arranged on the right side of the 5th conveyer, irony discarded object stirring and washing device is connected with the 5th conveyer right-hand member, irony discarded object stirring and washing device is connected with active carbon filtering device by pipeline.

Described irony discards packing material shredder, comprises the first motor a, first support plate a, slide rail a, slide block a, first cylinder a, pressing plate a, entrance a, second movable block a, cutter a, outlet a, conveyer a, controller a, baffle plate a, second motor a, sieve plate a, second linear electric motors a, first movable block a, first linear electric motors a, second support plate a, second cylinder a and staving a, described staving a inner top installs the first motor a, the output shaft of the first motor a is installed the first support plate a, first support plate a each side installs slide block a, slide block a is arranged on slide rail a, slide rail a is arranged on staving a madial wall, first cylinder a is each side installed under the first support plate a, under the piston rod of the first cylinder a, pressing plate a is installed, under first support plate a, two the second cylinder a are installed, second support plate a is installed under the piston rod of two the second cylinder a, under second support plate a, two the first linear electric motors a are installed, installation first movable block a on first linear electric motors a, second linear electric motors a is installed under the first movable block a, second linear electric motors a makes installation second movable block a, under second movable block a, three cutter a are installed, entrance a is installed on the left of staving a, entrance is connected with second conveyor, mounted sieve a in staving a, in staving a, the second motor a respectively installed by left and right sides wall, the output shaft of the second motor a installs baffle plate a, baffle plate a is positioned at the below of sieve plate a, installation outlet a on the right side of staving a, in staving a, conveyer a is installed in lower end, conveyer a right-hand member stretches out staving a from outlet a, conveyer a is connected with the 3rd conveyer, controller a is arranged on staving a lateral wall, controller a by wire respectively with the first motor a, second motor a, conveyer a, second linear electric motors a is connected with the first linear electric motors a.

The built-in first magnetic valve a of described first cylinder a, the first magnetic valve a is connected with controller a by wire.

The built-in second magnetic valve a of described second cylinder a, the second magnetic valve a is connected with controller a by wire.

Described irony discarded object separator, comprises support b, pole b, entrance b, first pipeline b, controller b, flow to pipe b, flow to valve b, storage tank b, cell body b, flow out valve b, effuser b, waste tank b, second pipeline b, outlet b, cylinder b, permanent magnets b, arc b, slide rail b, slide block b and roller bearing b, under described roller bearing b rear and front end is respectively arranged on pole b, under pole b is arranged on support b, roller bearing b one end is by shaft coupling and motors, roller bearing b installs a more than cylinder b, cylinder b each side installs slide rail b, slide rail b is connected with roller bearing b, the piston rod of cylinder b installs permanent magnets b, permanent magnets b each side installs slide block b, slide block b is arranged on slide rail b, arc b is installed outside permanent magnets b, arc b and arc b is connected to form a cylinder, cell body b is set below cylinder, entrance b is installed on the left of cell body b and flows to pipe b, in entrance b, the first pipeline b is installed, first pipeline b is connected with the 4th conveyer, flow to installation on pipe b and flow to valve b, flow to pipe b to be connected with storage tank b, effuser b and outlet b is installed on the right side of cell body b, effuser b installs and flows out valve b, waste tank b is installed under effuser b, second pipeline b is installed below outlet b, second pipeline b is connected with the 5th conveyer, under second controller b is arranged on cell body b, controller b by wire respectively with the first pipeline b, flow to valve b, flow out valve b to be connected with the second pipeline b.

Described cylinder b internal solenoid valve b, magnetic valve b is connected with controller b by wire.

Described irony discarded object stirring and washing device, comprises the first motor c, first motor-driven valve c, carrier pipe c, shaft c, first cylinder c, first flake bearing c, bearing pin c, second flake bearing c, paddle c, friction column c, filter c, controller c, plate c, magnechuck c, pillar c, conveyer c, 3rd cylinder c, second cylinder c, discharge pipe c, bearing bracket stand c, expansion link c, screw c, leading screw c, second motor c, second motor-driven valve c, agitator c and support c, mounting base c on described agitator c, installation first motor c on support c, first motor c is connected with shaft c by shaft coupling, under shaft c, two paddle c are installed, a more than friction column c is installed under paddle c, carrier pipe c is installed on the left of agitator c, installation first motor-driven valve c on carrier pipe c, first cylinder c is each side installed in agitator c, the piston rod of the first cylinder c is arranged on the first flake bearing c, first flake bearing c is arranged on filter c, a more than bearing pin c is installed in filter c side, bearing pin c is arranged on the second flake bearing c, second flake bearing c is arranged on agitator c madial wall, discharge pipe c is installed on the right side of agitator c, installation second motor-driven valve c on discharge pipe c, discharge pipe c inner top installs the second motor c, second motor c is connected with leading screw c by shaft coupling, leading screw about c two ends are respectively arranged on bearing bracket stand c, bearing bracket stand c is arranged on discharge pipe c inner top leading screw c and installs screw c, built-in flexible bar c on the right side of screw c, expansion link c right-hand member is arranged on bearing bracket stand c, second cylinder c is installed under screw c, under the piston rod of the second cylinder c, the 3rd cylinder c is installed, mounting column c on the piston rod of the 3rd cylinder c, magnechuck c is installed under pillar c, under magnechuck c, plate c is installed, conveyer c is arranged in discharge pipe c, controller c is arranged on outside agitator c, controller c by wire respectively with the first motor c, first motor-driven valve c, magnechuck c, conveyer c, second motor c is connected with motor-driven valve.

The built-in first magnetic valve c of described first cylinder c, first magnetic valve c is connected with controller c by wire, the built-in second magnetic valve c of the second cylinder c, and the second magnetic valve c is connected with controller c by wire, the built-in 3rd magnetic valve c of 3rd cylinder c, the 3rd magnetic valve c is connected with controller c by wire.

Described active carbon filtering device, comprises air inlet pipe d, intake valve d, first activated carbon filtration plate d, 3rd motor d, screw d, activated carbon filtration ball d, second activated carbon filtration plate d, support d, casing d, second motor d, 3rd activated carbon filtration plate d, air bleeding valve d, blast pipe d, connecting axle d, first motor d, support d, leading screw d, bearing bracket stand d, slide block d, slide rail d, controller d and air accumulator d, described air accumulator d upper end is installed into tracheae d, air inlet pipe d is installed into air valve d, in air accumulator d, the first activated carbon filtration plate d and slide rail d is installed, slide rail d is positioned at below the first activated carbon filtration plate d, slide rail d installs slide block d, screw d is installed under slide block d, screw d is arranged on leading screw d, leading screw d left end is connected with the 3rd motor d by the first shaft coupling, 3rd motor d is arranged in air accumulator d, leading screw d right-hand member is arranged on bearing bracket stand d, bearing bracket stand d is arranged in air accumulator d, mounting base d under screw d, installation first motor d on support d, first motor d is connected with connecting axle d by the second shaft coupling, second shaft coupling is arranged on support d, under support d is arranged on support d, casing d is installed under connecting axle d, in casing d, two the second motor d are installed, the output shaft of the second motor d stretches out outside casing d, the output shaft of the second motor d installs two the second activated carbon filtration plate d, second activated carbon filtration plate d installs a more than activated carbon filtration ball d, 3rd activated carbon filtration plate d is arranged in air accumulator d, 3rd activated carbon filtration plate d is positioned at below slide rail d, blast pipe d is installed in air accumulator d lower end, blast pipe d installs air bleeding valve d, controller d is arranged on air accumulator d, controller d by wire respectively with intake valve d, 3rd motor d, second motor d, air bleeding valve d is connected with the first motor d.

Described first activated carbon filtration plate d is identical with the 3rd activated carbon filtration plate d thickness.

Advantage of the present invention is: roller conveyor transports paint kettle, paint kettle is transported in four axle shredders by the first conveyer, after the processing of four axle shredders, paint kettle is shredded into large packaged iron block, large packaged iron block second conveyor is transported to irony and discards in packing material shredder, large packaged iron block is transported to sieve plate a from entrance a, controller a controls energising or the power-off of the first magnetic valve a, the piston rod of the first cylinder a is made to do stretching routine, first pressing plate a is moved down, iron block is fixed by pressing plate a; The piston rod that controller a controls the second cylinder a does stretching routine, makes cutter a move down near iron block; Controller a controls the first linear electric motors a and starts, and the first movable block a is moved, cuts iron block before and after carry its tools a; Controller a controls the second linear electric motors a and starts, and the second movable block a is moved, cutter a is moved left and right, and expands the cut coverage of cutter a, whole iron block can be cut; Controller a controls the first motor a and rotates, and pressing plate a and cutter a is rotated, and makes pressing plate a can push down two other side of iron block, makes cutter a the iron block of having cut into inch strips can be carried out transverse cuts, makes the block structure that iron block becomes less; Controller a controls the second motor a and starts, and baffle plate a is rotated, makes baffle plate a away from sieve plate a, makes the little iron block on sieve plate a drop on conveyer a; Controller a controls conveyer a and starts, and is transported to by little iron block on the 3rd conveyer;

Little iron block is transported in hammer mill by the 3rd conveyer, and iron block is rubbed into iron ball by hammer mill, and iron ball is transported on the first pipeline b of irony discarded object separator by the 4th conveyer;

Iron ball is transported to after in entrance b and drops in cell body b by the first pipeline b, and controller b controls to flow to valve b and opens, and makes to flow to pipe b and carry current in cell body b; Motor driving roller bearing b rotates, and cylinder is rotated, and iron ball is attracted to take to above outlet b by permanent magnets b, and the paint residues on iron ball does not have magnetic, along with waste water is discharged in waste tank b from effuser b; The energising of controller b control cylinder b internal solenoid valve b or power-off, the piston rod of cylinder b is made to do stretching routine, make permanent magnets b and arc b outwards movement, slide block b is moved on slide rail b, the iron ball promoted near this arc b moves right, iron ball after paint-removing is dropped to the second pipeline b from outlet b smoothly, is transported to next link;

Iron ball is transported in the carrier pipe c of irony discarded object stirring and washing device by the second pipeline b, controller c controls the first magnetic valve c and starts, make iron ball from carrier pipe c, enter into agitator c internal controller c to control the first motor c and start, shaft c is rotated, paddle c and friction column c is rotated and cleans iron ball; Paddle c can press iron ball, and friction column c can rub with iron ball, plays clean effect; Controller c controls energising or the power-off of the built-in first magnetic valve c of the first cylinder c, makes the piston rod of the first cylinder c do stretching motion, filter c is shaken, dropping of the residue on accelerated filtration plate c; Controller c controls the unlatching of the second motor-driven valve c, and controller c controls the second motor c and rotates forward, and leading screw c is rotated forward, screw c is moved to the left; Expansion link c can avoid screw c to rotate; The piston rod that controller c controls the 3rd cylinder c does stretching routine, makes magnechuck c and plate c be moved to the left to above filter c; Controller c controls energising or the power-off of the second magnetic valve c, makes the piston rod of the second cylinder c do stretching motion, regulates the distance between magnechuck c and plate c and filter c; Controller c controls magnechuck c energising and has magnetic, is adsorbed onto by iron ball above conveyer c; Controller c controls motor reversal, leading screw c is reversed, screw c is moved right, and iron ball is pushed above conveyer c by plate c; Controller c controls conveyer c and starts, and is transported in storage device by the iron ball after removing paint and stores;

Controller d controls intake valve d and opens, and make air enter in air accumulator d, air filters through the first activated carbon filtration plate d; Controller d controls the 3rd motor d and starts, leading screw d is rotated, screw d is moved left and right, slide block d is moved on slide rail d, second activated carbon filtration plate d and activated carbon filtration ball d is moved left and right, the second activated carbon filtration plate d is fully contacted with air with activated carbon filtration ball d; Controller d is controlled the first motor d and is started, and the second activated carbon filtration plate d and activated carbon filtration ball d is longitudinally rotated, the second activated carbon filtration plate d is fully contacted with air with activated carbon filtration ball d; Controller d controls the second motor d and starts, and the second activated carbon filtration plate d and activated carbon filtration ball d is horizontally rotated, and the second activated carbon filtration plate d is fully contacted with air with activated carbon filtration ball d; After air enters the filtration of the 3rd activated carbon filtration plate d, be discharged in irony discarded object stirring and washing device through blast pipe d, promote that on iron ball be coming off of paint residues.

Accompanying drawing explanation

Fig. 1 is integral installation schematic diagram of the present invention;

Fig. 2 is that irony discards packing material shredder overall structure figure;

Fig. 3 is the top view of a portion structure;

Fig. 4 is the top view of b portion structure;

Fig. 5 is irony discarded object separator overall structure figure;

Fig. 6 is irony discarded object stirring and washing device overall structure figure;

Fig. 7 is active carbon filtering device overall structure figure;

In figure: 1, roller conveyor 2, first conveyer 3, four axle shredder 4, second conveyor 5, irony discard packing material shredder 6, the 3rd conveyer 7, hammer mill 8, the 4th conveyer 9, irony discarded object separator the 10, the 5th conveyer 11, irony discarded object stirring and washing device 12, active carbon filtering device;

101, the first motor a102, the first support plate a103, slide rail a104, slide block a105, the first cylinder a106, pressing plate a107, entrance a108, the second movable block a109, cutter a1010, outlet a1011, conveyer a1012, controller a1013, baffle plate a1014, the second motor a1015, sieve plate a1016, the second linear electric motors a1017, the first movable block a1018, the first linear electric motors a1019, the second support plate a1020, the second cylinder a1021, staving a;

201, support b202, pole b203, entrance b204, the first pipeline b205, controller b206, flow to pipe b207, flow to valve b208, storage tank b209, cell body b2010, flow out valve b2011, effuser b2012, waste tank b2013, the second pipeline b2014, outlet b2015, cylinder b2016, permanent magnets b2017, arc b2018, slide rail b2019, slide block b2020, roller bearing b;

301, first motor c302, first motor-driven valve c303, carrier pipe c304, shaft c305, first cylinder c306, first flake bearing c307, bearing pin c308, second flake bearing c309, paddle c3010, friction column c3011, filter c3012, controller c3013, plate c3014, magnechuck c3015, pillar c3016, conveyer c3017, 3rd cylinder c3018, second cylinder c3019, discharge pipe c3020, bearing bracket stand c3021, expansion link c3022, screw c3023, leading screw c3024, second motor c3025, second motor-driven valve c3026, agitator c3027, support c,

401, air inlet pipe d402, intake valve d403, first activated carbon filtration plate d404, 3rd motor d405, screw d406, activated carbon filtration ball d407, second activated carbon filtration plate d408, support d409, casing d4010, second motor d4011, 3rd activated carbon filtration plate d4012, air bleeding valve d4013, blast pipe d4014, connecting axle d4015, first motor d4016, support d4017, leading screw d4018, bearing bracket stand d4019, slide block d4020, slide rail d4021, controller d4022, air accumulator d.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further illustrated.

A kind of irony discards the pollution-free recovery streamline of packing material, comprise roller conveyor 1, first conveyer 2, four axle shredders 3, second conveyor 4, irony discards packing material shredder 5, 3rd conveyer 6, hammer mill 7, 4th conveyer 8, irony discarded object separator 9, 5th conveyer 10, irony discarded object stirring and washing device 11 and active carbon filtering device 12, described first conveyer 2 is arranged on the right side of roller conveyor 1, first conveyer 2 is connected with the left end of roller conveyor 1, four axle shredders 3 are arranged on the right side of the first conveyer 2, four axle shredders 3 are connected with the right-hand member of the first conveyer 2, on the right side of four axle shredders 3, second conveyor 4 is installed, four axle shredders 3 are connected with the left end of second conveyor 4, irony discards the right side that packing material shredder 5 is arranged on second conveyor 4, irony is discarded packing material shredder 5 and is connected with the right-hand member of second conveyor 4, irony is discarded on the right side of packing material shredder 5 and is installed the 3rd conveyer 6, irony is discarded packing material shredder 5 and is connected with the left end of the 3rd conveyer 6, hammer mill 7 is arranged on the right side of the 3rd conveyer 6, hammer mill 7 is connected with the right-hand member of the 3rd conveyer 6, on the right side of hammer mill 7, the 4th conveyer 8 is installed, hammer mill 7 is connected with the left end of the 4th conveyer 8, irony discarded object separator 9 is arranged on the right side of the 4th conveyer 8, irony discarded object separator 9 is connected with the right-hand member of the 4th conveyer 8, 5th conveyer 10 is arranged on the right side of irony discarded object separator 9, irony discarded object separator 9 is connected with the 5th conveyer 10 left end, irony discarded object stirring and washing device 11 is arranged on the right side of the 5th conveyer 10, irony discarded object stirring and washing device 11 is connected with the 5th conveyer 10 right-hand member, irony discarded object stirring and washing device 11 is connected with active carbon filtering device 12 by pipeline.

Described irony discards packing material shredder 5, comprise the first motor a101, first support plate a102, slide rail a103, slide block a104, first cylinder a105, pressing plate a106, entrance a107, second movable block a108, cutter a109, outlet a1010, conveyer a1011, controller a1012, baffle plate a1013, second motor a1014, sieve plate a1015, second linear electric motors a1016, first movable block a1017, first linear electric motors a1018, second support plate a1019, second cylinder a1020 and staving a1021, described staving a1021 inner top installs the first motor a101, the output shaft of the first motor a101 is installed the first support plate a102, controller a1012 controls the first motor a101 and rotates, pressing plate a106 and cutter a109 is rotated, make pressing plate a106 can push down two other side of iron block, make cutter a109 the iron block of having cut into inch strips can be carried out transverse cuts, make the block structure that iron block becomes less, first support plate a102 each side installs slide block a104, slide block a104 is arranged on slide rail a103, slide rail a103 is arranged on staving a1021 madial wall, first cylinder a105 is each side installed under the first support plate a102, the built-in first magnetic valve a of first cylinder a105, first magnetic valve a is connected with controller a1012 by wire, under the piston rod of the first cylinder a105, pressing plate a106 is installed, iron block is transported to sieve plate a1015 from entrance a107, controller a1012 controls energising or the power-off of the first magnetic valve a, the piston rod of the first cylinder a105 is made to do stretching routine, first pressing plate a106 is moved down, iron block is fixed by pressing plate a106, under first support plate a102, two the second cylinder a1020 are installed, the built-in second magnetic valve a of second cylinder a1020, second magnetic valve a is connected with controller a1012 by wire, second support plate a1019 is installed under the piston rod of two the second cylinder a1020, the piston rod that controller a1012 controls the second cylinder a1020 does stretching routine, makes cutter a109 move down near iron block, controller a1012 controls the first linear electric motors a1018 and starts, and the first movable block a1017 is moved, cuts iron block before and after carry its tools a109, under second support plate a1019, two the first linear electric motors a1018 are installed, installation first movable block a1017 on first linear electric motors a1018, second linear electric motors a1016 is installed under the first movable block a1017, second linear electric motors a1016 makes installation second movable block a108, controller a1012 controls the second linear electric motors a1016 and starts, and the second movable block a108 is moved, cutter a109 is moved left and right, expand the cut coverage of cutter a109, whole iron block can be cut, under second movable block a108, three cutter a109 are installed, entrance a107 is installed on the left of staving a1021, mounted sieve a1015 in staving a1021, in staving a1021, the second motor a1014 respectively installed by left and right sides wall, the output shaft of the second motor a1014 installs baffle plate a1013, baffle plate a1013 is positioned at the below of sieve plate a1015, controller a1012 controls the second motor a1014 and starts, baffle plate a1013 is rotated, make baffle plate a1013 away from sieve plate a1015, make the little iron block on sieve plate a1015 drop on conveyer a1011, installation outlet a1010 on the right side of staving a1021, in staving a1021, conveyer a1011 is installed in lower end, conveyer a1011 right-hand member stretches out staving a1021 from outlet a1010, controller a1012 controls conveyer a1011 and starts, little iron block is transported to next link, controller a1012 is arranged on staving a1021 lateral wall, and controller a1012 is connected with the first linear electric motors a1018 with the first motor a101, the second motor a1014, conveyer a1011, the second linear electric motors a1016 respectively by wire.

Described irony discarded object separator 9, comprises support b201, pole b202, entrance b203, first pipeline b204, controller b205, flow to pipe b206, flow to valve b207, storage tank b208, cell body b209, flow out valve b2010, effuser b2011, waste tank b2012, second pipeline b2013, outlet b2014, cylinder b2015, permanent magnets b2016, arc b2017, slide rail b2018, slide block b2019 and roller bearing b2020, under described roller bearing b2020 rear and front end is respectively arranged on pole b202, under pole b202 is arranged on support b201, roller bearing b2020 one end is by shaft coupling and motors, roller bearing b2020 installs a more than cylinder b2015, cylinder b2015 each side installs slide rail b2018, cylinder b2015 internal solenoid valve b, magnetic valve b is connected with controller b205 by wire, slide rail b2018 is connected with roller bearing b2020, the piston rod of cylinder b2015 installs permanent magnets b2016, permanent magnets b2016 each side installs slide block b2019, slide block b2019 is arranged on slide rail b2018, arc b2017 is installed outside permanent magnets b2016, arc b2017 and arc b2017 is connected to form a cylinder, cell body b209 is set below cylinder, motor driving roller bearing b2020 rotates, cylinder is rotated, iron ball is attracted to take to above outlet b2014 by permanent magnets b2016, paint residues on iron ball does not have magnetic, along with waste water is discharged in waste tank b2012 from effuser b2011, entrance b203 is installed on the left of cell body b209 and flows to pipe b206, in entrance b203, the first pipeline b204 is installed, iron ball is transported to after in entrance b203 and drops in cell body b209 by the first pipeline b204, flow to installation on pipe b206 and flow to valve b207, flow to pipe b206 to be connected with storage tank b208, controller b205 controls to flow to valve b207 and opens, and makes to flow to pipe b206 and carry current in cell body b209, effuser b2011 and outlet b2014 is installed on the right side of cell body b209, effuser b2011 installs and flows out valve b2010, waste tank b2012 is installed under effuser b2011, second pipeline b2013 is installed below outlet b2014, the energising of controller b205 control cylinder b2015 internal solenoid valve b or power-off, the piston rod of cylinder b2015 is made to do stretching routine, make permanent magnets b2016 and arc b2017 outwards movement, slide block b2019 is moved on slide rail b2018, the iron ball promoted near this arc b2017 moves right, the iron ball after paint-removing is made to drop to the second pipeline b2013 from outlet b2014 smoothly, be transported to next link, under controller b205 is arranged on cell body b209, controller b205 by wire respectively with the first pipeline b204, flow to valve b207, flow out valve b2010 to be connected with the second pipeline b2013.

Described irony discarded object stirring and washing device 11, comprises the first motor c301, first motor-driven valve c302, carrier pipe c303, shaft c304, first cylinder c305, first flake bearing c306, bearing pin c307, second flake bearing c308, paddle c309, friction column c3010, filter c3011, controller c3012, plate c3013, magnechuck c3014, pillar c3015, conveyer c3016, 3rd cylinder c3017, second cylinder c3018, discharge pipe c3019, bearing bracket stand c3020, expansion link c3021, screw c3022, leading screw c3023, second motor c3024, second motor-driven valve c3025, agitator c3026 and support c3027, mounting base c3027 on described agitator c3026, installation first motor c301 on support c3027, first motor c301 is connected with shaft c304 by shaft coupling, controller c3012 controls the first magnetic valve c and starts, make iron ball from carrier pipe c303, enter into agitator c3026 internal controller c3012 to control the first motor c301 and start, shaft c304 is rotated, paddle c309 and friction column c3010 is rotated and cleans iron ball, install two paddle c309 under shaft c304, install a more than friction column c3010 under paddle c309, paddle c309 can press iron ball, and friction column c3010 can rub with iron ball, plays clean effect, carrier pipe c303 is installed on the left of agitator c3026, installation first motor-driven valve c302 on carrier pipe c303, first cylinder c305 is each side installed in agitator c3026, the built-in first magnetic valve c of first cylinder c305, first magnetic valve c is connected with controller c3012 by wire, the piston rod of the first cylinder c305 is arranged on the first flake bearing c306, first flake bearing c306 is arranged on filter c3011, a more than bearing pin c307 is installed in filter c3011 side, bearing pin c307 is arranged on the second flake bearing c308, second flake bearing c308 is arranged on agitator c3026 madial wall, controller c3012 controls energising or the power-off of the built-in first magnetic valve c of the first cylinder c305, the piston rod of the first cylinder c305 is made to do stretching motion, filter c3011 is shaken, dropping of residue on accelerated filtration plate c3011, discharge pipe c3019 is installed on the right side of agitator c3026, installation second motor-driven valve c3025 on discharge pipe c3019, discharge pipe c3019 inner top installs the second motor c3024, second motor c3024 is connected with leading screw c3023 by shaft coupling, leading screw about c3023 two ends are respectively arranged on bearing bracket stand c3020, bearing bracket stand c3020 is arranged on discharge pipe c3019 inner top leading screw c3023 and installs screw c3022, built-in flexible bar c3021 on the right side of screw c3022, expansion link c3021 right-hand member is arranged on bearing bracket stand c3020, and expansion link c3021 can avoid screw c3022 to rotate, second cylinder c3018 is installed under screw c3022, the built-in second magnetic valve c of second cylinder c3018, second magnetic valve c is connected with controller c3012 by wire, controller c3012 controls the unlatching of the second motor-driven valve c3025, controller c3012 controls the second motor c3024 and rotates forward, leading screw c3023 is rotated forward, screw c3022 is moved to the left, controller c3012 controls energising or the power-off of the second magnetic valve c, makes the piston rod of the second cylinder c3018 do stretching motion, regulates the distance between magnechuck c3014 and plate c3013 and filter c3011, under the piston rod of the second cylinder c3018, the 3rd cylinder c3017 is installed, the built-in 3rd magnetic valve c of 3rd cylinder c3017,3rd magnetic valve c is connected with controller c3012 by wire, the piston rod that controller c3012 controls the 3rd cylinder c3017 does stretching routine, makes magnechuck c3014 and plate c3013 be moved to the left to above filter c3011, mounting column c3015 on the piston rod of the 3rd cylinder c3017, magnechuck c3014 is installed under pillar c3015, under magnechuck c3014, plate c3013 is installed, controller c3012 controls magnechuck c3014 energising and has magnetic, iron ball is adsorbed onto square controller c3012 on conveyer c3016 and controls motor reversal, leading screw c3023 is reversed, screw c3022 is moved right, iron ball is pushed above conveyer c3016 by plate c3013, under magnechuck c3014, plate c3013 is installed, conveyer c3016 is arranged in discharge pipe c3019, controller c3012 controls conveyer c3016 and starts, iron ball is transported to next link, controller c3012 is arranged on outside agitator c3026, and controller c3012 is connected with motor-driven valve with the first motor c301, the first motor-driven valve c302, magnechuck c3014, conveyer c3016, the second motor c3024 respectively by wire.

Described active carbon filtering device 12, comprise air inlet pipe d401, intake valve d402, first activated carbon filtration plate d403, 3rd motor d404, screw d405, activated carbon filtration ball d406, second activated carbon filtration plate d407, support d408, casing d409, second motor d4010, 3rd activated carbon filtration plate d4011, air bleeding valve d4012, blast pipe d4013, connecting axle d4014, first motor d4015, support d4016, leading screw d4017, bearing bracket stand d4018, slide block d4019, slide rail d4020, controller d4021 and air accumulator d4022, described air accumulator d4022 upper end is installed into tracheae d401, air inlet pipe d401 is installed into air valve d402, controller d4021 controls intake valve d402 and opens, air is made to enter in air accumulator d4022, in air accumulator d4022, the first activated carbon filtration plate d403 and slide rail d4020 is installed, air filters through the first activated carbon filtration plate d403, slide rail d4020 is positioned at below the first activated carbon filtration plate d403, slide rail d4020 installs slide block d4019, screw d405 is installed under slide block d4019, screw d405 is arranged on leading screw d4017, leading screw d4017 left end is connected with the 3rd motor d404 by the first shaft coupling, 3rd motor d404 is arranged in air accumulator d4022, leading screw d4017 right-hand member is arranged on bearing bracket stand d4018, bearing bracket stand d4018 is arranged in air accumulator d4022, mounting base d4016 under screw d405, controller d4021 controls the 3rd motor d404 and starts, leading screw d4017 is rotated, screw d405 is moved left and right, slide block d4019 is moved on slide rail d4020, second activated carbon filtration plate d407 and activated carbon filtration ball d406 is moved left and right, second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406, installation first motor d4015 on support d4016, first motor d4015 is connected with connecting axle d4014 by the second shaft coupling, controller d4021 is controlled the first motor d4015 and is started, second activated carbon filtration plate d407 and activated carbon filtration ball d406 is longitudinally rotated, the second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406, second shaft coupling is arranged on support d408, under support d408 is arranged on support d4016, casing d409 is installed under connecting axle d4014, in casing d409, two the second motor d4010 are installed, the output shaft of the second motor d4010 stretches out outside casing d409, controller d4021 controls the second motor d4010 and starts, and the second activated carbon filtration plate d407 and activated carbon filtration ball d406 is horizontally rotated, and the second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406, the output shaft of the second motor d4010 installs two the second activated carbon filtration plate d407, second activated carbon filtration plate d407 installs a more than activated carbon filtration ball d406, 3rd activated carbon filtration plate d4011 is arranged in air accumulator d4022, 3rd activated carbon filtration plate d4011 is positioned at below slide rail d4020, first activated carbon filtration plate d403 is identical with the 3rd activated carbon filtration plate d4011 thickness, after air enters the filtration of the 3rd activated carbon filtration plate d4011, discharge outside air accumulator d4022 through blast pipe d4013, blast pipe d4013 is installed in air accumulator d4022 lower end, blast pipe d4013 installs air bleeding valve d4012, controller d4021 is arranged on air accumulator d4022, controller d4021 by wire respectively with intake valve d402, 3rd motor d404, second motor d4010, air bleeding valve d4012 is connected with the first motor d4015.

Using method of the present invention: roller conveyor 1 transports paint kettle, paint kettle is transported in four axle shredders 3 by the first conveyer 2, after the processing of four axle shredders 3, paint kettle is shredded into large packaged iron block, large packaged iron block second conveyor 4 is transported to irony and discards in packing material shredder 5, large packaged iron block is transported to sieve plate a1015 from entrance a107, controller a1012 controls energising or the power-off of the first magnetic valve a, the piston rod of the first cylinder a105 is made to do stretching routine, first pressing plate a106 is moved down, iron block is fixed by pressing plate a106; The piston rod that controller a1012 controls the second cylinder a1020 does stretching routine, makes cutter a109 move down near iron block; Controller a1012 controls the first linear electric motors a1018 and starts, and the first movable block a1017 is moved, cuts iron block before and after carry its tools a109; Controller a1012 controls the second linear electric motors a1016 and starts, and the second movable block a108 is moved, cutter a109 is moved left and right, and expands the cut coverage of cutter a109, whole iron block can be cut; Controller a1012 controls the first motor a101 and rotates, pressing plate a106 and cutter a109 is rotated, make pressing plate a106 can push down two other side of iron block, make cutter a109 the iron block of having cut into inch strips can be carried out transverse cuts, make the block structure that iron block becomes less; Controller a1012 controls the second motor a1014 and starts, and baffle plate a1013 is rotated, makes baffle plate a1013 away from sieve plate a1015, makes the little iron block on sieve plate a1015 drop on conveyer a1011; Controller a1012 controls conveyer a1011 and starts, and is transported to by little iron block on the 3rd conveyer 6;

Little iron block is transported in hammer mill 7 by the 3rd conveyer 6, and iron block is rubbed into iron ball by hammer mill 7, and iron ball is transported on the first pipeline b of irony discarded object separator 9 by the 4th conveyer 8;

Iron ball is transported to after in entrance b203 and drops in cell body b209 by the first pipeline b204, and controller b205 controls to flow to valve b207 and opens, and makes to flow to pipe b206 and carry current in cell body b209; Motor driving roller bearing b2020 rotates, and cylinder is rotated, and iron ball is attracted to take to above outlet b2014 by permanent magnets b2016, and the paint residues on iron ball does not have magnetic, along with waste water is discharged in waste tank b2012 from effuser b2011; The energising of controller b205 control cylinder b2015 internal solenoid valve b or power-off, the piston rod of cylinder b2015 is made to do stretching routine, make permanent magnets b2016 and arc b2017 outwards movement, slide block b2019 is moved on slide rail b2018, the iron ball promoted near this arc b2017 moves right, iron ball after paint-removing is dropped to the second pipeline b2013 from outlet b2014 smoothly, is transported to next link.

Iron ball is transported in the carrier pipe c303 of irony discarded object stirring and washing device 11 by the second pipeline b, controller c3012 controls the first magnetic valve c and starts, make iron ball from carrier pipe c303, enter into agitator c3026 internal controller c3012 to control the first motor c301 and start, shaft c304 is rotated, paddle c309 and friction column c3010 is rotated and cleans iron ball; Paddle c309 can press iron ball, and friction column c3010 can rub with iron ball, plays clean effect; Controller c3012 controls energising or the power-off of the built-in first magnetic valve c of the first cylinder c305, makes the piston rod of the first cylinder c305 do stretching motion, filter c3011 is shaken, dropping of the residue on accelerated filtration plate c3011; Controller c3012 controls the unlatching of the second motor-driven valve c3025, and controller c3012 controls the second motor c3024 and rotates forward, and leading screw c3023 is rotated forward, screw c3022 is moved to the left; Expansion link c3021 can avoid screw c3022 to rotate; The piston rod that controller c3012 controls the 3rd cylinder c3017 does stretching routine, makes magnechuck c3014 and plate c3013 be moved to the left to above filter c3011; Controller c3012 controls energising or the power-off of the second magnetic valve c, makes the piston rod of the second cylinder c3018 do stretching motion, regulates the distance between magnechuck c3014 and plate c3013 and filter c3011; Controller c3012 controls magnechuck c3014 energising and has magnetic, is adsorbed onto by iron ball above conveyer c3016; Controller c3012 controls motor reversal, leading screw c3023 is reversed, screw c3022 is moved right, and iron ball is pushed above conveyer c3016 by plate c3013; Controller c3012 controls conveyer c3016 and starts, and is transported in storage device by the iron ball after removing paint and stores;

Controller d4021 controls intake valve d402 and opens, and make air enter in air accumulator d4022, air filters through the first activated carbon filtration plate d403; Controller d4021 controls the 3rd motor d404 and starts, leading screw d4017 is rotated, screw d405 is moved left and right, slide block d4019 is moved on slide rail d4020, second activated carbon filtration plate d407 and activated carbon filtration ball d406 is moved left and right, the second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406; Controller d4021 is controlled the first motor d4015 and is started, and the second activated carbon filtration plate d407 and activated carbon filtration ball d406 is longitudinally rotated, the second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406; Controller d4021 controls the second motor d4010 and starts, and the second activated carbon filtration plate d407 and activated carbon filtration ball d406 is horizontally rotated, and the second activated carbon filtration plate d407 is fully contacted with air with activated carbon filtration ball d406; After air enters the filtration of the 3rd activated carbon filtration plate d4011, be discharged in irony discarded object stirring and washing device 11 through blast pipe d4013, promote that on iron ball be coming off of paint residues.

Claims (10)

1. an irony discards the pollution-free recovery streamline of packing material, comprise roller conveyor (1), first conveyer (2), four axle shredders (3), second conveyor (4), irony discards packing material shredder (5), 3rd conveyer (6), hammer mill (7), 4th conveyer (8), irony discarded object separator (9), 5th conveyer (10), irony discarded object stirring and washing device (11) and active carbon filtering device (12), it is characterized in that: described first conveyer (2) is arranged on roller conveyor (1) right side, first conveyer (2) is connected with the left end of roller conveyor (1), four axle shredders (3) are arranged on the first conveyer (2) right side, four axle shredders (3) are connected with the right-hand member of the first conveyer (2), second conveyor (4) is installed on four axle shredder (3) right sides, four axle shredders (3) are connected with the left end of second conveyor (4), irony discards the right side that packing material shredder (5) is arranged on second conveyor (4), irony is discarded packing material shredder (5) and is connected with the right-hand member of second conveyor (4), irony is discarded packing material shredder (5) right side and is installed the 3rd conveyer (6), irony is discarded packing material shredder (5) and is connected with the left end of the 3rd conveyer (6), hammer mill (7) is arranged on the right side of the 3rd conveyer (6), hammer mill (7) is connected with the right-hand member of the 3rd conveyer (6), the 4th conveyer (8) is installed on hammer mill (7) right side, hammer mill (7) is connected with the left end of the 4th conveyer (8), irony discarded object separator (9) is arranged on the right side of the 4th conveyer (8), irony discarded object separator (9) is connected with the right-hand member of the 4th conveyer (8), 5th conveyer (10) is arranged on the right side of irony discarded object separator (9), irony discarded object separator (9) is connected with the 5th conveyer (10) left end, irony discarded object stirring and washing device (11) is arranged on the 5th conveyer (10) right side, irony discarded object stirring and washing device (11) is connected with the 5th conveyer (10) right-hand member, irony discarded object stirring and washing device (11) is connected with active carbon filtering device (12) by pipeline.

2. a kind of irony according to claim 1 discards the pollution-free recovery streamline of packing material, it is characterized in that: described irony discards packing material shredder (5), comprise the first motor a(101), first support plate a(102), slide rail a(103), slide block a(104), first cylinder a(105), pressing plate a(106), entrance a(107), second movable block a(108), cutter a(109), outlet a(1010), conveyer a(1011), controller a(1012), baffle plate a(1013), second motor a(1014), sieve plate a(1015), second linear electric motors a(1016), first movable block a(1017), first linear electric motors a(1018), second support plate a(1019), second cylinder a(1020) and staving a(1021), described staving a(1021) inner top installs the first motor a(101), first motor a(101) output shaft on the first support plate a(102 is installed), first support plate a(102) each side slide block a(104 is installed), slide block a(104) be arranged on slide rail a(103) on, slide rail a(103) be arranged on staving a(1021) on madial wall, first support plate a(102) under the first cylinder a(105 is each side installed), first cylinder a(105) piston rod under pressing plate a(106 is installed), first support plate a(102) under install two the second cylinder a(1020), two the second cylinder a(1020) piston rod under the second support plate a(1019 is installed), second support plate a(1019) under install two the first linear electric motors a(1018), first linear electric motors a(1018) upper installation first movable block a(1017), first movable block a(1017) under the second linear electric motors a(1016 is installed), second linear electric motors a(1016) make installation second movable block a(108), second movable block a(108) under install three cutter a(109), staving a(1021) left side installation entrance a(107), entrance is connected with second conveyor (4), staving a(1021) interior mounted sieve a(1015), staving a(1021) interior left and right sides wall respectively installs the second motor a(1014), second motor a(1014) output shaft on baffle plate a(1013 is installed), baffle plate a(1013) be positioned at sieve plate a(1015) below, staving a(1021) right side installation outlet a(1010), staving a(1021) interior lower end installation conveyer a(1011), conveyer a(1011) right-hand member from outlet a(1010) stretch out staving a(1021), conveyer a(1011) be connected with the 3rd conveyer (6), controller a(1012) be arranged on staving a(1021) on lateral wall, controller a(1012) by wire respectively with the first motor a(101), second motor a(1014), conveyer a(1011), second linear electric motors a(1016) with the first linear electric motors a(1018) be connected.

3. a kind of irony according to claim 2 discards the pollution-free recovery streamline of packing material, it is characterized in that: described first cylinder a(105) built-in first magnetic valve a, the first magnetic valve a is by wire and controller a(1012) be connected.

4. a kind of irony according to claim 2 discards the pollution-free recovery streamline of packing material, it is characterized in that: described second cylinder a(1020) built-in second magnetic valve a, the second magnetic valve a is by wire and controller a(1012) be connected.

5. a kind of irony according to claim 1 discards the pollution-free recovery streamline of packing material, it is characterized in that: described irony discarded object separator (9), comprise support b(201), pole b(202), entrance b(203), first pipeline b(204), controller b(205), flow to pipe b(206), flow to valve b(207), storage tank b(208), cell body b(209), flow out valve b(2010), effuser b(2011), waste tank b(2012), second pipeline b(2013), outlet b(2014), cylinder b(2015), permanent magnets b(2016), arc b(2017), slide rail b(2018), slide block b(2019) and roller bearing b(2020), described roller bearing b(2020) rear and front end is respectively arranged on pole b(202) under, pole b(202) be arranged on support b(201) under, roller bearing b(2020) one end is by shaft coupling and motors, roller bearing b(2020) the more than cylinder b(2015 of upper installation), cylinder b(2015) each side slide rail b(2018 is installed), slide rail b(2018) with roller bearing b(2020) be connected, cylinder b(2015) piston rod on permanent magnets b(2016 is installed), permanent magnets b(2016) each side slide block b(2019 is installed), slide block b(2019) be arranged on slide rail b(2018) on, permanent magnets b(2016) outside installation arc b(2017), arc b(2017) and arc b(2017) be connected to form a cylinder, cell body b(209 is set below cylinder), cell body b(209) left side installation entrance b(203) and flow to pipe b(206), entrance b(203) interior installation the first pipeline b(204), first pipeline b(204) be connected with the 4th conveyer (8), flow to pipe b(206) upper installation flows to valve b(207), flow to pipe b(206) with storage tank b(208) be connected, cell body b(209) right side installation effuser b(2011) and outlet b(2014), effuser b(2011) upper installation outflow valve b(2010), effuser b(2011) under waste tank b(2012 is installed), outlet b(2014) below installation the second pipeline b(2013), second pipeline b(2013) be connected with the 5th conveyer (10), second controller b(205) be arranged on cell body b(209) under, controller b(205) by wire respectively with the first pipeline b(204), flow to valve b(207), flow out valve b(2010) with the second pipeline b(2013) be connected.

6. a kind of irony according to claim 5 discards the pollution-free recovery streamline of packing material, it is characterized in that: described cylinder b(2015) internal solenoid valve b, magnetic valve b be by wire and controller b(205) be connected.

7. a kind of irony according to claim 1 discards the pollution-free recovery streamline of packing material, it is characterized in that: described irony discarded object stirring and washing device (11), comprise the first motor c(301), first motor-driven valve c(302), carrier pipe c(303), shaft c(304), first cylinder c(305), first flake bearing c(306), bearing pin c(307), second flake bearing c(308), paddle c(309), friction column c(3010), filter c(3011), controller c(3012), plate c(3013), magnechuck c(3014), pillar c(3015), conveyer c(3016), 3rd cylinder c(3017), second cylinder c(3018), discharge pipe c(3019), bearing bracket stand c(3020), expansion link c(3021), screw c(3022), leading screw c(3023), second motor c(3024), second motor-driven valve c(3025), agitator c(3026) and support c(3027), described agitator c(3026) upper mounting base c(3027), support c(3027) upper installation first motor c(301), first motor c(301) by shaft coupling and shaft c(304) be connected, shaft c(304) under install two paddle c(309), paddle c(309) under a more than friction column c(3010 is installed), agitator c(3026) left side installation carrier pipe c(303), carrier pipe c(303) upper installation first motor-driven valve c(302), agitator c(3026) in the first cylinder c(305 is each side installed), first cylinder c(305) piston rod be arranged on the first flake bearing c(306) on, first flake bearing c(306) be arranged on filter c(3011) on, filter c(3011) the more than bearing pin c(307 of side installation), bearing pin c(307) be arranged on the second flake bearing c(308) on, second flake bearing c(308) be arranged on agitator c(3026) on madial wall, agitator c(3026) right side installation discharge pipe c(3019), discharge pipe c(3019) upper installation second motor-driven valve c(3025), discharge pipe c(3019) inner top installs the second motor c(3024), second motor c(3024) by shaft coupling and leading screw c(3023) be connected, leading screw c(3023) two ends, left and right are respectively arranged on bearing bracket stand c(3020) on, bearing bracket stand c(3020) be arranged on discharge pipe c(3019) inner top leading screw c(3023) upper installation screw c(3022), screw c(3022) right side built-in flexible bar c(3021), expansion link c(3021) right-hand member is arranged on bearing bracket stand c(3020) on, screw c(3022) under the second cylinder c(3018 is installed), second cylinder c(3018) piston rod under install the 3rd cylinder c(3017), 3rd cylinder c(3017) piston rod on mounting column c(3015), pillar c(3015) under magnechuck c(3014 is installed), magnechuck c(3014) under plate c(3013 is installed), conveyer c(3016) be arranged on discharge pipe c(3019) in, controller c(3012) be arranged on agitator c(3026) outward, controller c(3012) by wire respectively with the first motor c(301), first motor-driven valve c(302), magnechuck c(3014), conveyer c(3016), second motor c(3024) be connected with motor-driven valve.

8. a kind of irony according to claim 7 discards the pollution-free recovery streamline of packing material, it is characterized in that: described first cylinder c(305) built-in first magnetic valve c, first magnetic valve c is by wire and controller c(3012) be connected, second cylinder c(3018) built-in second magnetic valve c, second magnetic valve c is by wire and controller c(3012) be connected, 3rd cylinder c(3017) built-in 3rd magnetic valve c, the 3rd magnetic valve c is by wire and controller c(3012) be connected.

9. a kind of irony according to claim 1 discards the pollution-free recovery streamline of packing material, it is characterized in that: described active carbon filtering device (12), comprise air inlet pipe d(401), intake valve d(402), first activated carbon filtration plate d(403), 3rd motor d(404), screw d(405), activated carbon filtration ball d(406), second activated carbon filtration plate d(407), support d(408), casing d(409), second motor d(4010), 3rd activated carbon filtration plate d(4011), air bleeding valve d(4012), blast pipe d(4013), connecting axle d(4014), first motor d(4015), support d(4016), leading screw d(4017), bearing bracket stand d(4018), slide block d(4019), slide rail d(4020), controller d(4021) and air accumulator d(4022), described air accumulator d(4022) upper end is installed into tracheae d(401), air inlet pipe d(401) on be installed into air valve d(402), air accumulator d(4022) interior installation the first activated carbon filtration plate d(403) and slide rail d(4020), slide rail d(4020) be positioned at the first activated carbon filtration plate d(403) below, slide rail d(4020) upper installation slide block d(4019), slide block d(4019) under screw d(405 is installed), screw d(405) be arranged on leading screw d(4017) on, leading screw d(4017) left end is by the first shaft coupling and the 3rd motor d(404) be connected, 3rd motor d(404) be arranged on air accumulator d(4022) in, leading screw d(4017) right-hand member is arranged on bearing bracket stand d(4018) on, bearing bracket stand d(4018) be arranged on air accumulator d(4022) in, screw d(405) under mounting base d(4016), support d(4016) upper installation first motor d(4015), first motor d(4015) by the second shaft coupling and connecting axle d(4014) be connected, second shaft coupling is arranged on support d(408) on, support d(408) be arranged on support d(4016) under, connecting axle d(4014) under casing d(409 is installed), casing d(409) interior installation two the second motor d(4010), second motor d(4010) output shaft stretch out casing d(409) outward, second motor d(4010) output shaft on install two the second activated carbon filtration plate d(407), second activated carbon filtration plate d(407) the more than activated carbon filtration ball d(406 of upper installation), 3rd activated carbon filtration plate d(4011) be arranged on air accumulator d(4022) in, 3rd activated carbon filtration plate d(4011) be positioned at slide rail d(4020) below, air accumulator d(4022) lower end installation blast pipe d(4013), blast pipe d(4013) upper installation air bleeding valve d(4012), controller d(4021) be arranged on air accumulator d(4022) on, controller d(4021) by wire respectively with intake valve d(402), 3rd motor d(404), second motor d(4010), air bleeding valve d(4012) with the first motor d(4015) be connected.

10. a kind of irony according to claim 9 discards the pollution-free recovery streamline of packing material, it is characterized in that: described first activated carbon filtration plate d(403) with the 3rd activated carbon filtration plate d(4011) thickness is identical.