CN110560455A - method for treating residues in treatment process of industrial waste iron waste container - Google Patents

Abstract

The invention relates to the technical field of scrap iron recovery, and particularly discloses a method for treating residues in the treatment process of an industrial waste iron scrap container, wherein the iron scrap container is fed into a feed inlet I of a dust-removing crusher and then crushed into scrap iron blocks by a crushing mechanism, the scrap container impacts an obliquely arranged feed pipe, solid residues attached to a scrap iron barrel are lifted, a dust collection mechanism is started, and negative pressure is formed in the feed pipe by the dust collection mechanism to adsorb the solid residues; the waste iron blocks are sent into a pushing shell through a feeding hole II of the environment-friendly packer, the pushing plate pushes the waste iron blocks into a compression shell, the compression plate presses the waste iron blocks and simultaneously opens an adsorption mechanism, and the adsorption mechanism adsorbs waste liquid and residues flowing out when the waste iron blocks are pressed; and conveying the packed scrap iron blocks to a steelmaking electric furnace for smelting, wherein the smelting temperature is 1500-1600 ℃. Adopt the technical scheme of this patent, realized the recovery to the useless container of iron, simultaneously to the innocent treatment of waste liquid residue.

Description

Method for treating residues in treatment process of industrial waste iron waste container

Technical Field

The invention relates to the technical field of waste iron recovery, in particular to a method for treating residues in the treatment process of an industrial waste iron waste container.

Background

An iron waste container, taking a waste oil barrel as an example, is a barrel made of iron sheet after oil is used up. After the oil is used up, the waste oil barrel needs to be recycled, and the iron waste container is contaminated with industrial wastes such as waste mineral oil, waste gasoline engine oil and the like, so that the iron waste container contaminated with the waste liquid and residues needs to be disposed in the recycling process. The existing disposal technology usually mainly uses incineration landfill, and has the defects of high energy consumption, large sewage discharge capacity and occupation of landfill space. Based on the problems, the inventor designs a method for treating residues in the iron container treatment process, and carries out harmless treatment on industrial wastes through high temperature of an electric furnace on the residues in the processes of temporary storage, compression, packaging and feeding of industrial waste iron containers, and meanwhile, the iron resources are recycled.

Disclosure of Invention

The invention provides a method for treating residues in a treatment process of an industrial waste iron waste container, which aims to solve the problem that waste liquid and residues cannot be harmlessly treated when the iron waste container is recovered in the prior art.

In order to achieve the purpose, the technical scheme of the invention is as follows:

The treatment process of the industrial waste iron waste container comprises a crushing process, a packing process and electric furnace smelting; the method comprises the following steps: step 1, crushing process: feeding an iron waste container into a feeding hole I of a dust-removing type crusher, crushing the iron waste container into waste iron blocks by a crushing mechanism, impacting the waste container onto an obliquely arranged feeding pipe in the process, lifting solid residues attached to a waste iron barrel, simultaneously starting a dust suction mechanism, and forming negative pressure in the feeding pipe by the dust suction mechanism through a dust suction hole I to adsorb the solid residues;

Step 2, packaging process: the waste iron blocks crushed in the step 1 are sent into a pushing shell through a feeding hole II of an environment-friendly packer, the pushing plate pushes the waste iron blocks into a compression shell, the compression plate starts an adsorption mechanism while extruding the waste iron blocks, and the adsorption mechanism adsorbs waste liquid and residues flowing out when the waste iron blocks are extruded;

Step 3, electric furnace smelting: and (3) conveying the waste iron blocks packed in the step (2) and the waste liquid and the residues adsorbed in the step (2) to a steelmaking electric furnace for smelting, wherein the smelting temperature is 1500-1600 ℃.

The technical principle and the effect of the technical scheme are as follows:

1. In the step 1, solid residues attached to the iron waste container are lifted due to collision between the waste container and the feeding pipe, and are cleaned by the dust suction mechanism, so that the residues can be prevented from being lifted out of the crusher, and meanwhile, the attached residues in the waste iron blocks are reduced.

2. Because the waste iron piece is in the compression packing in-process in step 2, remaining waste liquid can carry the residue to flow on the waste iron piece, consequently clears up this part waste liquid and residue through adsorption mechanism, not only reduces the waste liquid and the residue of remaining in the baling press, has also improved the volume that the waste liquid residue was collected simultaneously, reduces the pollution of waste liquid residue to the environment.

3. in the step 3, the smelting of the scrap iron is realized by adopting the high temperature of 1500-1600 ℃, and the high-temperature treatment of the waste liquid residues is realized, the waste liquid is gasified at the temperature, and harmful substances (dioxin) generated by the gasification are decomposed at the high temperature and are discharged as harmless gas, so that the harmless treatment of the residues is realized.

further, step 1 is close to casing top one side at the inlet pipe and has been seted up the bar hole, and the bar downthehole buffer board that is equipped with, be connected with the bolster between buffer board and the bar hole, dust absorption hole I is seted up on the buffer board.

Has the advantages that: because the waste container entering the feeding pipe can impact the feeding pipe, and the elastic piece has certain absorption effect on vibration, the vibration of the buffer plate can be reduced, and the adverse effect on the dust collection mechanism is also reduced.

Furthermore, dust absorption hole I is equipped with a plurality ofly, and each dust absorption hole all is seted up on the buffer board.

Has the advantages that: the area of negative pressure effect can be enlarged in the setting of a plurality of dust absorption hole I to improve the effect of collecting the dust.

Further, the bottom of the dust-removing type crusher in the step 1 is provided with a belt conveyer, and one end of the belt conveyer, which is far away from the dust-removing type crusher, is positioned above the feeding hole II of the environment-friendly packing machine in the step 2.

Has the advantages that: the waste iron block after being crushed is discharged from the dust-removing crusher and then drops on the belt conveyor, and the belt conveyor conveys the waste iron block to the feed inlet II of the environment-friendly packing machine, so that the waste iron block is fast and convenient to convey.

Furthermore, a discharge port II opposite to the pushing plate is arranged on the side wall of the compression shell of the environment-friendly packaging machine in the step 2, and a door plate capable of being opened and closed is arranged at the discharge port II.

Has the advantages that: after the compression plate compresses and packs the waste iron blocks, the pushing plate can continue to push the packed waste iron blocks out of the compression shell after the door plate is opened, and the labor intensity of operators is reduced.

Further, be equipped with in the push plate of environmental protection baling press in step 2 and retrieve the chamber, a plurality of absorption holes I have been seted up towards compression casing one side to the push plate, and the push plate is kept away from compression casing one side and has been seted up the gas pocket, adsorption apparatus constructs and gas pocket intercommunication.

has the advantages that: set up like this and carry out propelling movement and compression in-process to the scrap iron piece, adsorption apparatus constructs and forms the negative pressure at retrieving the intracavity to make the waste liquid residue on the scrap iron piece be adsorbed to retrieving the intracavity through adsorption hole I, thereby reduced the content of waste liquid residue in the packing back scrap iron piece.

Further, a gap is formed between the bottom of the pushing plate and the surface of the bearing table, a strip-shaped adsorption hole II is formed in the bottom of the pushing plate, a plurality of brush strips are fixed on the periphery of the adsorption hole II, and the brush strips are in contact with the surface of the bearing table in the environment-friendly packaging machine.

has the advantages that: because useless iron plate is in compression process, most waste liquid carries the residue downward flow and has fallen on the bearing platform, consequently if push plate bottom and bearing platform laminate completely, then push plate is when removing to II departments of discharge gate, can be with the whole propelling movement discharge gate II of waste liquid residue, and in this scheme because have the clearance between push plate and the bearing platform, consequently push plate is at the removal in-process, waste liquid residue on the clearance board can be adsorbed by the negative pressure of adsorbing II departments of hole, and the brush strip is then in avoiding useless iron plate to enter into the clearance between push plate and the bearing platform, thereby influence push plate's removal.

Further, a recovery tank located in the compression shell is arranged on a bearing platform of the environment-friendly packaging machine in the step 2, a perforated plate is fixed at the top of the recovery tank, through holes communicated with the recovery tank are formed in multiple bottoms of the bearing platform, and the adsorption mechanism is communicated with the through holes through a pipeline.

Has the advantages that: because useless iron plate is in compression process, most waste liquid carry the residue downward flow and have fallen on the bearing bench, consequently the setting of accumulator and perforated plate for waste liquid residue can directly flow into the accumulator, and the back is cleared up by adsorption apparatus structure.

Further, retrieve the intracavity and be equipped with and clean the mechanism, clean the mechanism and include that the level rotates the pivot of connecting in retrieving the intracavity, be fixed with the cylinder brush in the pivot, the brush hair can stretch into in the accumulator on the cylinder brush.

Has the advantages that: set up like this when the push plate removes to compressing in the casing, pivoted cylinder brush can clear up the perforated plate, can block up the residue clean up in the perforated plate like this, and then reduces because of the perforated plate blocks up and remains waste liquid and residue in the useless iron plate of packing.

Furthermore, horizontal mounting grooves are formed in the side walls of the pushing shell and the compression shell, one end of the rotating shaft extends out of the pushing plate, a straight gear is fixed to one end, extending out of the pushing plate, of the rotating shaft, and a rack meshed with the straight gear is fixed in the mounting grooves.

has the advantages that: set up like this at the in-process that promotes push plate, straight-teeth wheel and rack meshing make the pivot take place to rotate to make the cylinder brush take place to rotate, will remain the waste liquid residue on the bearing platform surface and bring into and retrieve the intracavity, the clearance of the adsorption apparatus of being convenient for.

Drawings

Fig. 1 is a sectional view of a dust-type crusher in embodiment 1 of the present invention;

3 FIG. 3 2 3 is 3 a 3 cross 3- 3 sectional 3 view 3 A 3- 3 A 3 of 3 FIG. 3 1 3; 3

FIG. 3 is an enlarged view of portion B of FIG. 1;

FIG. 4 is a sectional view of the eco-friendly wrapping machine in embodiment 1 of the present invention;

FIG. 5 is a sectional view of the eco-friendly wrapping machine in embodiment 2 of the present invention;

Fig. 6 is a top cross-sectional view of the push plate of fig. 5.

Detailed Description

The following is further detailed by way of specific embodiments:

Reference numerals in the drawings of the specification include: the device comprises a shell 100, a discharge port I101, a feed hopper I102, a gear roller I103, a gear roller II 104, a roller shaft 105, a baffle 106, a feed pipe 107, a buffer plate 108, a spring 109, a dust suction hole I110, a filter box 111, a belt conveyor 112, a bearing table 200, a compression shell 201, a pushing shell 202, a feed hopper II 203, a compression plate 204, a pushing plate 205, a discharge port II 206, a door panel 207, a baffle strip 208, a hydraulic cylinder I209, a hydraulic cylinder II 210, a recovery cavity 211, an adsorption hole I212, an adsorption hole II 213, a brush strip 214, a recovery groove 215, a porous plate 216, a reinforcing rib 217, a rotating shaft 300, a roller brush 301, a straight gear 302 and a mounting groove 303.

Example 1:

The method for treating the residues in the treatment process of the industrial waste iron waste container comprises a crushing process, a packing process and an electric furnace smelting process, wherein a dust-type crusher is adopted in the crushing process, and an environment-friendly packer is adopted in the packing process.

Wherein dust type breaker, combine shown in fig. 1, including the support frame, be fixed with shell 100 on the support frame, the top of shell 100 is equipped with feed inlet I, be equipped with discharge gate I101 in the bottom of shell 100, I department of feed inlet is fixed with feed hopper I102 that is located the shell 100 outside, be equipped with crushing mechanism in shell 100, wherein crushing mechanism includes that the level rotates I103 of fluted roller and II 104 of fluted roller of connection in shell 100, I103 of fluted roller and II 104 of fluted roller rotate relatively, and the protruding tooth intermeshing on I103 of fluted roller and II 104 of fluted roller.

As shown in the combined figure 2, a driving mechanism I for driving the gear roller I103 and the gear roller II 104 to rotate is further arranged on the shell 100, a roller shaft 105 is fixed at one end of each of the gear roller I103 and the gear roller II 104, the roller shaft 105 penetrates through the shell 100 and is located outside the shell 100, the driving mechanism I comprises a speed reducing motor installed outside the shell 100, an output shaft of the speed reducing motor is fixed with the roller shaft 105 of the gear roller I103 (or the gear roller II 104) through a coupler, and gears meshed with each other are fixed on the roller shafts 105 of the gear roller I103 and the gear roller II 104.

Be fixed with the baffle 106 that is located between I and the broken mechanism of feed inlet in shell 100 horizontally, be equipped with the intercommunication mouth on the baffle 106, and the intercommunication mouth is located fluted roller I103 and the meshing department of fluted roller II 104 directly over, intercommunication mouth and I dislocation set of feed inlet, and the intercommunication mouth is in the vertical projection and the region that I does not have the overlapping of feed inlet, be fixed with inlet pipe 107 between intercommunication mouth and the inlet pipe 107, be close to shell 100 top one side at inlet pipe 107 and seted up the bar hole, combine and shown in fig. 3, be equipped with buffer board 108 in the bar hole, be fixed with the elastic component between buffer board 108 and the bar hole, the elastic component adopts spring 109 in this embodiment, a plurality of dust absorption holes I110 have been seted up on buffer board 108.

Be equipped with dust absorption mechanism on shell 100, wherein dust absorption mechanism includes aspirator pump I and rose box 111, and rose box 111 is fixed in shell 100 outsidely, has seted up air inlet I and gas outlet I on rose box 111, and gas outlet I passes through the pipeline intercommunication with aspirator pump I, and I department of air inlet is equipped with the filter screen, and air inlet I passes through the pipeline intercommunication with each dust absorption hole I110, sets up the mounting hole that supplies the pipeline to pass through on shell 100.

The bottom of the discharge port I101 is provided with a belt conveying mechanism, and the belt conveying mechanism adopts a movable belt conveyor 112 in the embodiment.

In addition, as shown in fig. 4, the environmental protection packaging machine includes a bearing table 200 fixed on a support frame, a vertically arranged compression casing 201 and a horizontally arranged push casing 202 are fixed on the bearing table 200, wherein the right side of the compression casing 201 is communicated with the left side of the push casing 202, a feed inlet ii is arranged at the top of the push casing 202, a feed hopper ii 203 is fixed at the feed inlet ii, a compression plate 204 is connected in the compression casing 201 in a sliding manner, a push plate 205 is arranged in the push casing 202, a discharge outlet ii 206 opposite to the push plate 205 is arranged on the left side wall of the compression casing 201, the height of the discharge outlet ii 206 is about 10cm higher than the packed height of the waste iron blocks, a door panel 207 capable of opening and closing is arranged at the discharge outlet ii 206, in this embodiment, the door panel 207 is connected at the discharge outlet ii 206 through a hinge, a latch is arranged at one end of the door panel 207 far away, wherein the bottom of the barrier strip 208 is closely attached to the bearing platform 200.

The supporting frame is further provided with a driving mechanism II for driving the compression plate 204 and the pushing plate 205 to move, the driving mechanism II comprises a hydraulic cylinder I209 vertically fixed on the supporting frame and a hydraulic cylinder II 210 transversely fixed on the supporting frame, a piston rod of the hydraulic cylinder I209 is fixed on the compression plate 204, and a piston rod of the hydraulic cylinder II 210 is in threaded connection with the pushing plate 205.

The recycling cavity 211 is arranged inside the pushing plate 205, a plurality of adsorption holes I212 are formed in one side, facing the compression shell 201, of the pushing plate 205, the aperture of each adsorption hole I212 is far smaller than the size of a scrap iron block, strip-shaped adsorption holes II 213 are formed in the bottom of the pushing plate 205, the distance between the bottom of the pushing plate 205 and the bearing platform 200 is about 2cm, a plurality of brush strips 214 are fixed on the periphery of each adsorption hole II 213, the brush strips 214 are in surface contact with the bearing platform 200, an air hole is formed in one side, far away from the compression shell 201, of the pushing plate 205, a recycling groove 215 located in the compression shell 201 is formed in the surface of the bearing platform 200, a porous plate 216 is fixed at the top of the recycling groove 215, the aperture of each hole in the porous plate 216 is 2-3 cm, a plurality of reinforcing ribs 217 are fixed between the porous plate 216 and the recycling groove 215, and.

Still be equipped with the adsorption apparatus structure (not shown in the figure) with gas pocket and through-hole intercommunication on the support frame, wherein adsorption apparatus structure includes aspirator pump II and collection box, and collection box and aspirator pump II are all fixed on the support frame, have seted up air inlet II and gas outlet II on the collection box, and gas outlet II passes through the pipeline intercommunication with aspirator pump II, and II departments of air inlet bond there is the filter cloth, and air inlet II communicates through the bellows respectively with gas pocket and through-hole.

The method comprises the following steps:

step 1, crushing process: an iron scrap barrel is fed into a feeding hole I of a dust-removing type crusher, a speed reduction motor is started and connected, when the speed reduction motor works, two roll shafts 105 are driven to rotate oppositely through gear transmission, a tooth roller I103 rotates clockwise, a tooth roller II 104 rotates anticlockwise, the iron scrap barrel is crushed into scrap iron blocks, then the scrap iron blocks are discharged from a discharging hole I101, fall on a belt conveyor and are conveyed to an environment-friendly packing machine; when the waste iron bucket strikes the inlet pipe 107 arranged obliquely, the solid residues attached to the waste iron bucket are lifted, the suction pump is started, negative pressure is formed in the inlet pipe 107 through the dust suction hole I110, and the lifted solid residues are adsorbed into the filter box 111 under the action of the negative pressure.

Step 2, packaging process: the broken waste iron blocks in the step 1 are sent into a pushing shell 202 through a feeding hole II of an environment-friendly packer, a hydraulic cylinder II 210 is started to push a pushing plate 205 to move leftwards, the waste iron blocks are completely pushed into a compression shell 201, the hydraulic cylinder II 210 is closed, the pushing plate 205 stops moving, a hydraulic cylinder I209 is started to enable a compression plate 204 to move downwards, the waste iron blocks are compressed, an air suction pump II in an adsorption mechanism is started at the same time, negative pressure is formed in a recovery groove 215 and a recovery cavity 211, and waste liquid residues flowing out of the waste iron blocks in the extrusion process of the waste iron blocks are cleaned.

Step 3, electric furnace smelting: and (3) conveying the waste iron blocks packed in the step (2) and the waste liquid and the residues adsorbed in the step (2) to a steelmaking electric furnace for smelting, wherein the smelting temperature is 1500-1600 ℃.

Example 2:

the difference from example 1 is that: in the environmental protection baling press in step 2, as shown in fig. 5, a cleaning mechanism is further disposed in the recycling cavity 211, the cleaning mechanism includes a rotating shaft 300 horizontally and rotatably connected in the recycling cavity 211, a roller brush 301 is fixed on the rotating shaft 300, and bristles on the roller brush 301 can extend into the recycling slot 215.

As shown in fig. 6, the right end of the rotating shaft 300 penetrates through the side wall of the push plate 205, a spur gear 302 is fixed to the right end of the rotating shaft 300, a communicating installation groove 303 is horizontally formed in the side walls of the push housing 202 and the compression housing 201, and a rack engaged with the spur gear 302 is fixed in the installation groove 303. In the moving process of the pushing plate 205, the spur gear 302 is meshed with the rack, so that the rotating shaft 300 rotates, and the roller brush wipes waste liquid residues on the surface of the bearing platform 200 and is adsorbed into the recovery box under the action of negative pressure.

And when push plate 205 entered into the compression cavity in, pivoted roller brush cleared up perforated plate 216, will probably block up the residue clean up in perforated plate 216, avoids the jam of perforated plate 216 like this, makes in the residue waste liquid can enter into accumulator 215 fast and is adsorbed the collection box, is convenient for to the collection and the transportation of waste liquid residue.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. the treatment process of the industrial waste iron waste container comprises a crushing process, a packing process and electric furnace smelting; the method is characterized in that: comprises the following steps of (a) carrying out,

Step 1, crushing process: feeding an iron waste container into a feeding hole I of a dust-removing type crusher, crushing the iron waste container into waste iron blocks by a crushing mechanism, impacting the waste container onto an obliquely arranged feeding pipe in the process, lifting solid residues attached to a waste iron barrel, simultaneously starting a dust suction mechanism, and forming negative pressure in the feeding pipe by the dust suction mechanism through a dust suction hole I to adsorb the solid residues;

Step 2, packaging process: the waste iron blocks crushed in the step 1 are sent into a pushing shell through a feeding hole II of an environment-friendly packer, the pushing plate pushes the waste iron blocks into a compression shell, the compression plate starts an adsorption mechanism while extruding the waste iron blocks, and the adsorption mechanism adsorbs waste liquid and residues flowing out when the waste iron blocks are extruded;

step 3, electric furnace smelting: and (3) conveying the waste iron blocks packed in the step (2) and the waste liquid and the residues adsorbed in the step (2) to a steelmaking electric furnace for smelting, wherein the smelting temperature is 1500-1600 ℃.

2. The method for treating industrial waste ferrous waste container treatment process residue according to claim 1, characterized in that: step 1 in the inlet pipe be close to casing top one side seted up the bar hole, the downthehole buffer board that is equipped with of bar, be connected with the bolster between buffer board and the bar hole, dust absorption hole I is seted up on the buffer board.

3. The method for treating industrial waste ferrous waste container treatment process residue according to claim 2, characterized in that: dust absorption hole I is equipped with a plurality ofly, and each dust absorption hole all is seted up on the buffer board.

4. The method for treating industrial waste ferrous waste container treatment process residue according to claim 3, characterized in that: and a belt conveyor is arranged at the bottom of the dust-removing type crusher in the step 1, and one end, far away from the dust-removing type crusher, of the belt conveyor is located above a feed inlet II of the environment-friendly packing machine in the step 2.

5. the method for treating industrial waste ferrous waste container treatment process residue according to claim 1, characterized in that: and in the step 2, a discharge hole II opposite to the pushing plate is formed in the side wall of the compression shell of the environment-friendly packer, and a door plate capable of being opened and closed is arranged at the discharge hole II.

6. the method for treating industrial waste ferrous waste container treatment process residue according to claim 5, characterized in that: and 2, a recycling cavity is arranged in the pushing plate of the environment-friendly packaging machine, a plurality of adsorption holes I are formed in one side, facing the compression shell, of the pushing plate, air holes are formed in one side, far away from the compression shell, of the pushing plate, and the adsorption mechanism is communicated with the air holes.

7. The method for treating industrial waste ferrous waste container treatment process residue according to claim 6, characterized in that: the bottom of the pushing plate is provided with a gap with the surface of the bearing table, the bottom of the pushing plate is provided with a strip-shaped adsorption hole II, a plurality of brush strips are fixed around the adsorption hole II, and the brush strips are in surface contact with the bearing table in the environment-friendly packaging machine.

8. the method for treating industrial waste ferrous waste container treatment process residue according to claim 7, characterized in that: and 2, a bearing platform of the environment-friendly packer in the step 2 is provided with a recovery tank positioned in the compression shell, the top of the recovery tank is fixed with a porous plate, the multiple bottoms of the bearing are provided with through holes communicated with the recovery tank, and the adsorption mechanism is communicated with the through holes through a pipeline.

9. the method for treating industrial waste ferrous waste container treatment process residue according to claim 8, characterized in that: the recycling cavity is internally provided with a cleaning mechanism, the cleaning mechanism comprises a rotating shaft which is horizontally and rotatably connected in the recycling cavity, a roller brush is fixed on the rotating shaft, and brush bristles on the roller brush can stretch into the recycling groove.

10. the method for treating industrial waste ferrous waste container treatment process residue according to claim 9, characterized in that: the lateral wall of propelling movement casing and compression casing all sets up horizontally mounting groove on, the push plate is stretched out to pivot one end, and the pivot stretches out and pushes away loose board one end and be fixed with the straight-teeth gear, the mounting groove internal fixation have with the rack of straight-teeth gear meshing.