CN212916976U - Processing apparatus that industry solid waste residue production cement was used - Google Patents

Abstract

The utility model discloses a processing device for producing cement by industrial solid waste residues, which comprises an auger conveying box arranged at the upper end of a non-metal crushing box, one side of the auger conveying box is fixedly connected with a first servo motor, the rotating shaft of the first servo motor penetrates through the auger conveying box through a shaft coupling and is fixedly connected with an auger transmission shaft arranged inside the auger conveying box, the upper end of the auger conveying box is fixedly connected with a belt magnetic separation device, the auger conveying box is fixedly connected at the upper end of the non-metal crushing box, the lower side of the other end of the belt magnetic separation device, which is far away from the auger conveying box, is provided with a metal crushing box, one side of the non-metal crushing box is provided with a feed pump, the non-metal crushing box is fixedly connected with a mixing proportioning box through a pipeline and the feed pump, the metal crushing box is connected with the mixing proportioning box, the industrial waste residue is fully crushed, and secondary pollution is prevented.

Description

Processing apparatus that industry solid waste residue production cement was used

Technical Field

The utility model relates to an industry solid waste handles technical field, specifically is a processing apparatus that industry solid waste production cement was used.

Background

Many industrial industries can produce a large amount of industrial waste residues, if the industrial waste residues are not treated in time, a large amount of land can be occupied, the environment can be polluted, the cement industry can utilize the industrial waste residues to be used as raw materials and mixed materials of cement, the industrial waste residues can be digested, the cost of the cement can be reduced, the economic benefit is improved, the industrial waste residues are required to be smashed, proportioned and the like when being used as raw materials of the cement, the performance of the cement is improved, the existing industrial waste residues are intensively smashed when being large, the deviation of the proportioning is large, the smashing of the industrial waste residues is insufficient, and the problems that secondary pollution is caused by flying dust generated during smashing and the like are solved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a processing apparatus that industry solid waste production cement was used, the deviation of ratio is little, and industry waste residue is smashed fully, absorbs the dust that produces through the sack dust catcher during smashing, prevents that dust from flying upward and causing secondary pollution, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a processing apparatus that industry solid waste slag production cement was used, includes the auger delivery box that sets up in nonmetal crushing case upper end, one side fixedly connected with servo motor one of auger delivery box, the pivot of servo motor one runs through auger delivery box and sets up in the auger transmission shaft fixed connection of auger delivery box inside through the shaft coupling, auger delivery box's upper end is for being equipped with charge-in pipeline, auger delivery box's upper end is open structure just auger delivery box's upper end fixedly connected with belt magnetic separation device, auger delivery box fixed connection is in nonmetal crushing case's upper end, just auger delivery box keeps away from the other end downside of servo motor one and is connected with nonmetal crushing case through the unloading pipe, nonmetal crushing incasement portion top is equipped with and holds storehouse and should hold storehouse internal fixation and be connected with servo motor two, servo motor two-pass through the shaft coupling and run through hold storehouse and cylindric cam reciprocating motion mechanism fixed connection, the reciprocating movement end of the cylindrical cam reciprocating mechanism is fixedly connected with a crushing plate, the lower end of the non-metal crushing box, which is positioned on the crushing plate, is fixedly connected with a crushing support plate, the crushing support plate is provided with a through hole, the lower end of the non-metal crushing box, which is positioned on the crushing support plate, is fixedly connected with a double-roller crushing device A, the lower side of the other end of the belt magnetic separation device, which is away from the auger conveying box, is provided with a metal crushing box, the metal crushing box is internally fixedly connected with an inclined support plate, the support plate is fixedly connected with a servo motor III and a metal crushing barrel, the auger crushing shaft is arranged in the metal crushing barrel, the rotating shaft of the servo motor III is fixedly connected with the auger crushing shaft through a shaft coupling, the lower side of the tail end of the metal crushing barrel is provided, the front side of the metal crushing box is provided with a mixing and proportioning box, one side of the non-metal crushing box is provided with a feeding pump, the non-metal crushing box is fixedly connected with the mixing and proportioning box through a pipeline and the feeding pump, and the metal crushing box is connected with the mixing and proportioning box through a discharging pipe.

Further, the terminal magnetic force of belt magnetic separation device is little, the incasement is smashed to the metal is equipped with the workbin and this workbin and the terminal position of belt magnetic separation device are corresponding, and this workbin is connected with the metal crushing section of thick bamboo, the flitch is scraped through baffle fixedly connected with at the end that is located belt magnetic separation device in the case top is smashed to the metal.

Furthermore, the upper surface of the crushing support plate is of an inverted trapezoidal structure, and through holes are uniformly formed in the position, which is a plane, in the middle of the upper surface of the crushing support plate.

Furthermore, the auger crushing shaft is provided with a spiral cutter, the metal crushing barrel is internally and uniformly provided with crushing cutters, and the tail end of the metal crushing barrel is internally provided with a filter screen in a feeding pipe.

Furthermore, the lower end of the mixing proportioning box is provided with a weighbridge, and one sides of the non-metal crushing box and the metal crushing box are fixedly connected with a bag dust collector.

Compared with the prior art, the beneficial effects of the utility model are that: this processing apparatus that industry solid waste production cement was used, metal waste and non-metallic waste divide separately to smash, and metal waste and non-metallic waste all smash twice, smash abundant, the terrace is weighed dropping the metal waste at mixed ratio incasement, then PLC control feeding pump carries mixed ratio incasement with non-metallic waste, PLC controller control feeding pump stop work when reaching the ratio value that the weighbridge set for, the ratio deviation is little, collect the dust that produces when smashing the bits of broken glass to non-metallic crushing case and metal crushing case respectively through the sack dust catcher, the cyclic utilization of being convenient for, and can prevent to produce secondary pollution.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a side view of the auger conveying box of the present invention;

fig. 4 is a top view of the crushing support plate of the present invention.

In the figure: the device comprises a packing auger conveying box 1, a servo motor I2, a packing auger transmission shaft 3, a belt magnetic separation device 4, a nonmetal crushing box 5, a servo motor II 6, a cylindrical cam reciprocating mechanism 7, a crushing plate 8, a crushing support plate 9, a double-roller crushing device A10, a metal crushing box 11, a packing auger crushing shaft 12, a servo motor III 13, a double-roller crushing device B14, a mixing proportioning box 15, a feeding pump 16, a weighbridge 17 and a cloth bag dust collector 18.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a processing apparatus that industry solid waste slag production cement was used, including setting up in auger delivery case 1 of nonmetal crushing case 5 upper end, one side fixedly connected with servo motor 2 of auger delivery case 1, servo motor 2's pivot runs through auger delivery case 1 and sets up in auger delivery case 1 inside auger transmission shaft 3 fixed connection through the shaft coupling, auger delivery case 1's upper end is for being equipped with charge-in pipeline, auger delivery case 1's upper end is open structure just auger delivery case 1's upper end fixedly connected with belt magnetic separation device 4, auger delivery case 1 fixed connection is in nonmetal crushing case 5's upper end, just auger delivery case 1 keeps away from the other end downside of servo motor 2 and is connected with nonmetal crushing case 5 through the unloading pipe, nonmetal crushing case 5 inside top is equipped with holds the storehouse and should hold the storehouse in fixedly connected with servo motor two 6, the second servo motor 6 penetrates through the accommodating bin and the cylindrical cam reciprocating mechanism 7 through the coupler, the reciprocating end of the cylindrical cam reciprocating mechanism 7 is fixedly connected with the crushing plate 8, the lower end of the crushing plate 8 in the nonmetal crushing box 5 is fixedly connected with the crushing support plate 9, a through hole is formed in the crushing support plate 9, the lower end of the crushing support plate 9 in the nonmetal crushing box 5 is fixedly connected with a pair roller crushing device A10, the lower side of the other end of the belt magnetic separation device 4 far away from the auger conveying box 1 is provided with a metal crushing box 11, the metal crushing box 11 is internally fixedly connected with an inclined support plate, a third servo motor 13 and a metal crushing barrel are fixedly connected onto the support plate, the auger crushing shaft 12 is arranged in the metal crushing barrel, and the rotating shaft of the third servo motor 13 is fixedly connected with the auger crushing shaft 12 through the coupler, a blanking pipe is arranged at the lower side of the tail end of the metal crushing barrel, a double-roller crushing device 14 is fixedly connected at the lower end of the blanking pipe in the metal crushing box 11, a mixing proportioning box 15 is arranged at the front side of the metal crushing box 11, a feeding pump 16 is arranged at one side of the non-metal crushing box 5, the non-metal crushing box 5 is fixedly connected with the mixing proportioning box 15 through a pipeline and the feeding pump 16, the metal crushing box 5 is connected with the mixing proportioning box 15 through the blanking pipe, a PLC controller is arranged on the non-metal crushing box 5 and is electrically connected with an external power supply, a servo motor I2, a servo motor II 6, a servo motor III 13, the feeding pump 16, a driving motor of the double-roller crushing device A10 and a crushing motor of the double-roller crushing device B14 are electrically connected with the PLC controller, industrial waste residues are input into the auger conveying box 1 through the blanking pipeline, the auger transmission shaft 3 is driven by the servo motor I2, meanwhile, the metal in the industrial waste residue is magnetically separated by the belt magnetic separation device 4, the nonmetal industrial waste residue falls into the crushing support plate 9 through a feeding pipeline, the cylindrical cam reciprocating machine moving mechanism 7 drives the crushing plate 8 to vertically move the crushing support plate 9 through the rotation of the servo motor II 6 so as to crush the nonmetal industrial waste residue for the first time, the crushed nonmetal industrial waste residue falls onto the double-roller crushing device A10 through a through hole on the crushing support plate 9, the double-roller crushing device A10 crushes the nonmetal industrial waste residue again, the crushing is sufficient, the belt magnetic separation device 4 conveys the magnetically separated metal to the tail end and then falls into the metal crushing barrel in the metal crushing box 11, the auger crushing shaft is driven by the servo motor III 13 to rotate so as to crush the metal in the metal crushing barrel for the first time, and the crushed metal falls onto the double-roller crushing device B14, the double-roller crushing device B14 is used for crushing the metal waste slag again, the crushed metal waste slag falls into the mixing and proportioning box 15 through the blanking pipe, and the nonmetal waste slag in the nonmetal crushing box 5 is conveyed into the mixing and proportioning box 15 through the feed pump 16.

Further, the terminal magnetic force of belt magnetic separation device 4 is little, it is corresponding with the terminal position of belt magnetic separation device 4 that the metal is equipped with the feed box and this feed box in smashing case 11, and this feed box is connected with the metal crushing barrel, 11 tops of metal crushing case scrape the flitch through baffle fixedly connected with at the end that is located belt magnetic separation device 4, through belt magnetic separation device 4's special construction with scrape the flitch, prevent that the metal of magnetic separation from not dropping at the metal crushing case 11 and causing the trouble on belt magnetic separation device 4.

Further, smash the upper surface of backup pad 9 and be the trapezium structure of inversion, just smash the middle planar position department of backup pad 9 upper surface and evenly be equipped with the through-hole, make the nonmetal waste residue that drops down from auger delivery case 1 through the special construction of smashing backup pad 9 carry out abundant crushing.

Further, be equipped with helical cutting knife on the auger crushing axle 12, evenly be equipped with crushing sword in the metal crushing barrel, be equipped with the filter screen in the end-to-end connection's the unloading pipe in the metal crushing barrel, through the helical cutting knife that is equipped with on the auger crushing axle 12 and the crushing sword that is equipped with in the metal crushing barrel, to the kibbling abundant and high-efficient of metal waste residue, be equipped with the filter screen in the unloading pipe through end-to-end connection in the metal crushing barrel, prevent not have kibbling metal to drop away, smash effectually.

Further, mix 1 lower extreme of ratio case and be equipped with the weighbridge 17, the equal fixedly connected with sack cleaner 18 in one side of non-metal crushing case 5 and metal crushing case 11, sack cleaner 18 and terrace 17 all are connected with the PLC controller electricity, the dust that produces when smashing garrulously is smashed to non-metal crushing case 5 and metal crushing case 11 respectively through sack cleaner 18 collects, the cyclic utilization of being convenient for, and can prevent to produce secondary pollution, weigh the metal waste residue that drops in mixing ratio case 1 through terrace 17, then carry the non-metal waste residue through 16 quantitative of charge-pump in mixing ratio case 1, the ratio is effectual.

When in use: industrial waste residues are conveyed into an auger conveying box 1 through a discharging pipeline, a first servo motor 2 drives an auger transmission shaft 3 to rotate so that the industrial waste residues are conveyed towards the tail end, metal in the industrial waste residues is magnetically separated through a belt magnetic separation device 4, non-metal industrial waste residues fall onto a crushing support plate 9 through the discharging pipeline, a second servo motor 6 rotates so that a cylindrical cam reciprocating machine moving mechanism 7 drives a crushing plate 8 to drive a crushing support plate 9 to move up and down to crush the non-metal industrial waste residues for the first time, the crushed non-metal industrial waste residues fall onto a double-roller crushing device A10 through a through hole in the crushing support plate 9, the double-roller crushing device A10 crushes the non-metal industrial waste residues again fully, the belt magnetic separation device 4 conveys the magnetically separated metal to the tail end and then falls onto a metal crushing barrel in a metal crushing box 11, and a third servo motor 13 drives an auger crushing shaft to rotate so as to crush the metal in the, the metal after smashing drops on pair roller reducing mechanism B14, pair roller reducing mechanism B14 smashes metal waste once more, smash abundant, the metal waste after smashing drops in mixed ratio case 15 through the unloading pipe, terrace 17 weighs the metal waste that drops in mixed ratio case 1, then PLC control feeding pump 16 carries nonmetal waste in the mixed ratio case 1, PLC controller control feeding pump 16 stop work when reaching the ratio value that the weighbridge set for, at kibbling in-process, sack cleaner 18 collects the dust that produces when smashing to nonmetal crushing case 5 and metal crushing case 11 respectively.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a processing apparatus that industry solid waste slag production cement was used, is including setting up in the auger delivery box of nonmetal crushing case upper end, its characterized in that: one side fixedly connected with servo motor one of auger delivery case, the pivot of servo motor one runs through auger delivery case and sets up in the auger transmission shaft fixed connection of auger delivery incasement portion through the shaft coupling, the upper end of auger delivery case is equipped with charge-in pipeline, the upper end of auger delivery case is open structure and the upper end fixedly connected with belt magnetic separation device of auger delivery case, auger delivery case fixed connection is in the upper end of nonmetal crushing case, just the auger delivery case is kept away from the other end downside of servo motor one and is connected with nonmetal crushing case through the unloading pipe, nonmetal crushing incasement portion top is equipped with and holds the storehouse and should hold the storehouse in fixedly connected with servo motor two, servo motor two runs through the shaft coupling hold storehouse and cylindric cam reciprocating motion fixed connection, the reciprocating motion end fixed connection of cylindric cam reciprocating motion has the crushing board, the lower end of the crushing plate in the nonmetal crushing box is fixedly connected with a crushing support plate, the crushing support plate is provided with a through hole, the lower end of the crushing support plate in the nonmetal crushing box is fixedly connected with a double-roller crushing device A, the lower side of the other end of the belt magnetic separation device, which is far away from the auger conveying box, is provided with a metal crushing box, the metal crushing box is fixedly connected with an inclined support plate, a servo motor III and a metal crushing barrel are fixedly connected onto the support plate, the auger crushing shaft is arranged in the metal crushing barrel, a rotating shaft of the servo motor III is fixedly connected with the auger crushing shaft through a shaft coupling, the lower side of the tail end of the metal crushing barrel is provided with a discharging pipe, the lower end of the discharging pipe in the metal crushing box is fixedly connected with the double-roller crushing device, the front side of the metal crushing box is provided with, the nonmetal grinding box is fixedly connected with the mixing and proportioning box through a pipeline and a feed pump, and the metal grinding box is connected with the mixing and proportioning box through a discharging pipe.

2. The processing device for producing cement by using industrial solid waste residue as claimed in claim 1, wherein: the terminal magnetic force of belt magnetic separation device is little, the incasement is smashed to the metal is equipped with the feed box and this feed box is corresponding with the terminal position of belt magnetic separation device, and this feed box is connected with the metal crushing section of thick bamboo, the flitch is scraped through baffle fixedly connected with at the end that is located belt magnetic separation device in the case top is smashed to the metal.

3. The processing device for producing cement by using industrial solid waste residue as claimed in claim 1, wherein: the upper surface of the crushing support plate is of an inverted trapezoidal structure, and through holes are uniformly formed in the position, which is a plane, in the middle of the upper surface of the crushing support plate.

4. The processing device for producing cement by using industrial solid waste residue as claimed in claim 1, wherein: the auger crushing shaft is provided with a spiral cutting knife, the metal crushing barrel is uniformly provided with crushing knives, and the tail end of the metal crushing barrel is connected with a discharging pipe in which a filter screen is arranged.

5. The processing device for producing cement by using industrial solid waste residue as claimed in claim 1, wherein: the lower end of the mixing proportioning box is provided with a weighbridge, and one sides of the nonmetal crushing box and the metal crushing box are fixedly connected with a bag dust collector.

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