CN215757665U - Pre-baked anode carbon block grooving dust collecting device - Google Patents

Abstract

The utility model discloses a grooving dust collecting device for prebaked anode carbon blocks. A pre-baked anode carbon block slotting dust collecting device comprises a pre-baked anode carbon block jacking limiting device, a pre-baked anode carbon block slotting device and a pre-baked anode carbon block slotting fine dust collecting device, wherein the pre-baked anode carbon block jacking limiting device is arranged on the top surface of a mounting workbench; an electric appliance control device; the device also comprises a fine powder conveying device which conveys the fine powder collected by the dust collection bin to a mixing bin of the forming workshop. The utility model realizes the recovery and collection of fine dust generated in the grooving process of the prebaked anode carbon block, prevents the fine dust from diffusing, improves the field working environment and protects the health of workers; and the closed conveying of the fine powder collected by the dust collector is realized, the secondary pollution to the environment is prevented, and the conveying efficiency of the fine powder is improved.

Description

Pre-baked anode carbon block grooving dust collecting device

Technical Field

The utility model belongs to prebaked anode carbon block processing equipment, in particular to a grooving dust collecting device for prebaked anode carbon blocks.

Background

The prebaked anode carbon block is used as an electrode in the electrolytic aluminum and is placed in an electrolytic cell in the production of the electrolytic aluminum. The quality of the prebaked anode carbon block largely determines the production cost of the electrolytic aluminum. In order to solve the problem, two evenly distributed grooves are usually formed on two sides of a vertical central line at the bottom of the prebaked anode carbon block by using a prebaked anode carbon block slotting circular saw (the prebaked anode carbon block slotting circular saw comprises a double-disc saw blade, a rotating shaft and a speed reduction motor for driving the double-disc saw blade to rotate), the generated smoke can effectively enter an electrolytic aluminum smoke environment-friendly treatment system, and meanwhile, the pressure drop in the electrolytic process is greatly reduced, so that the green low-consumption production of electrolytic aluminum is realized. The pre-baked anode carbon block qualified in roasting generates a large amount of fine dust in the grooving process of the disc saw for grooving the pre-baked anode carbon block, the pre-baked anode carbon block is required to be in a dry state in the production of electrolytic aluminum, the pre-baked anode carbon block is not allowed to be cooled in a liquid mode in the grooving process, and the generated fine dust can only be treated in a dust removal mode. The conventional treatment method at present is generally as follows: an environment-friendly dust removal facility is arranged in the grooving process of the pre-baked anode carbon block grooving circular saw, a dust collection port is arranged above the pre-baked anode carbon block, fine dust generated in the grooving process of the pre-baked anode carbon block, enters a dust collector through a dust collecting pipeline, a discharge opening is arranged at the bottom of the dust collector, fine powder generated in the grooving process of the pre-baked anode carbon block is contained in a container through the discharge opening at the bottom, the fine powder of the sawing block of the pre-baked anode carbon block is transported to a forming workshop through a vehicle open type transportation mode and then is lifted to a fine powder bin through a lifter, adding a certain proportion of fine powder of pre-baked anode carbon block sawn blocks when molding materials at all levels are mixed, conveying the mixture to a uniform temperature mixing cylinder through a belt after the mixture is qualified by adding a binder and mixing, when the carbon block is produced, a uniform temperature mixing cylinder switch is opened to enter a forming die for production, so that fine powder of the prebaked anode carbon block sawn block is recycled. The defects of the fine material dust collection and conveying process generated in the slotting process of the prior prebaked anode carbon block are as follows: the collection mode of the fine material dust of the pre-baked anode carbon block sawing block is usually that only the fine material dust generated by the head part of a disk sawing machine for slotting the pre-baked anode carbon block is collected, and the fine material dust generated in the actual slotting process of the pre-baked anode carbon block and a certain part of the fine material dust can not be collected, so that the field working environment is polluted, the production environment is poor, and the health of workers is influenced; in addition, the fine powder collected by the dust collector is conveyed into the carbon block molding mixture in a vehicle open conveying mode, secondary dust is formed in the process of conveying the fine powder by the vehicle, secondary pollution to the environment is caused, and the transportation cost of the fine powder is increased. How to realize the recovery and collection of fine dust generated in the grooving process of the prebaked anode carbon block, prevent the fine dust from diffusing, improve the working environment on site and protect the health of workers; how to realize the closed type conveying of the fine powder collected by the dust collector, preventing the secondary pollution to the environment and improving the conveying efficiency of the fine powder is the problem to be solved.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: provides a slotting dust collecting device for prebaked anode carbon blocks. The grooving dust collecting device for the prebaked anode carbon block can realize the recovery and collection of fine dust generated in the grooving process of the prebaked anode carbon block, prevent the fine dust from diffusing, improve the field working environment and protect the health of workers; and the closed conveying of the fine powder collected by the dust collector can be realized, the secondary pollution to the environment is prevented, and the conveying efficiency of the fine powder is improved.

The technical scheme for solving the technical problems is as follows: the utility model provides a prebaked anode carbon block fluting dust arrester installation, is including installing the workstation on the steel-concrete structure ground platform, characterized by: the prebaked anode carbon block jacking limiting device, the prebaked anode carbon block slotting device and the prebaked anode carbon block slotting fine dust collecting device are arranged on the top surface of the mounting workbench; also comprises an electric appliance control device;

the pre-baked anode carbon block jacking limiting device comprises 2 strip jacking platforms with strip supports and pre-baked anode carbon block limiting square blocks, wherein the number of the pre-baked anode carbon block limiting square blocks is 4, the front and the back of the 2 strip jacking platforms with the strip supports are symmetrically arranged at two sides of the vertical central line of the top surface of a workbench, the 4 pre-baked anode carbon block limiting square blocks are sequentially and fixedly arranged on the top surface of the 2 strip jacking platforms with the strip supports by bolts, the 4 pre-baked anode carbon block limiting square blocks fixedly arranged on the top surface of the 2 strip jacking platforms with the strip supports are arranged in a rectangular shape, and the rectangular part enclosed by the sequential connecting lines of the inner side vertical surfaces of the 4 pre-baked anode carbon block limiting square blocks fixedly arranged on the top surface of the 2 strip jacking platforms with the strip supports by the bolts is sequentially arranged in a rectangular shape and is consistent with the horizontal section of the pre-baked anode carbon block, 2 the rectangular part enclosed by the inner side vertical faces of 4 pre-baked anode carbon block limiting square blocks on the top surface of the strip-shaped top supporting platform with the strip-shaped bracket is a pre-baked anode carbon block slotting machining station;

the pre-baked anode carbon block slotting device comprises a pre-baked anode carbon block slotting circular saw and a strip-shaped sliding table, the pre-baked anode carbon block slotting circular saw comprises a double-disc saw blade, a rotating shaft and a speed reducing motor for driving the double-disc saw blade to rotate, the strip-shaped sliding table uses two linear guide rails in front, the rear parts of the two disk saw blades are respectively and fixedly arranged on the parts of the rotating shaft positioned at the front side and the rear side of the strip-shaped sliding table on the rear side of the bearing with the seat by using connecting pieces; the rotating vertical faces of the double-disc saw blade fixedly arranged on the front and rear side parts of the rotating shaft of the bearing with the seat are parallel to the upper and lower vertical front and rear vertical faces of the strip-shaped sliding table by using a connecting piece; also comprises a servo driving device for the prebaked anode carbon block slotting circular saw to move up and down along 2 linear guide rails, the servo driving device for the prebaked anode carbon block slotting circular saw to move up and down along 2 linear guide rails comprises a screw rod, a servo speed reducing motor, an upper screw rod seat and a lower screw rod seat, wherein the upper screw rod seat and the lower screw rod seat are sequentially arranged on the vertical central line of the top surface of the workbench on the upper side and the lower side of a strip-shaped sliding table, one end of the screw rod penetrates through the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat in the up-down direction and is rotatably installed on the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat, the screw rod rotatably installed on the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat is also provided with a part extending out of the vertical surface of the lower side of the lower screw rod seat, a servo speed reducing motor is installed on the top surface of the workbench corresponding to the lower screw rod seat by using a servo speed reducing motor installation seat, and an output shaft of the servo speed reducing motor is fixedly connected with the end part of the part extending out of the vertical surface of the lower side of the lower screw rod seat by using a connecting piece;

the pre-baked anode carbon block slotting fine material dust collecting device comprises a rear fixed pre-baked anode carbon block slotting dustproof opening bin, a front sliding pre-baked anode carbon block slotting dustproof opening bin, a pulse dust collector, a fine powder spiral discharging machine, 2 fine powder conveying pipeline sections, a Z-shaped fine powder conveying pipeline section, an inverted L-shaped fine powder conveying pipeline section, a dust collecting bin and a fan, wherein a transparent window is arranged on the bin wall at the front side of the front sliding pre-baked anode carbon block slotting dustproof opening bin, the part of the rear pre-baked anode carbon block slotting dustproof opening bin, which surrounds the rear side of the vertical central line of a workbench, is correspondingly and fixedly arranged on the top surface of a steel-concrete structure ground platform, the length of the 2 linear guide rails is matched with the front and rear sliding lengths of the upper and lower bin walls of the front sliding pre-baked anode carbon block slotting dustproof opening bin, and the rear fixed pre-baked anode carbon block slotting dustproof opening bin corresponding to the 2 linear guide rails, The lower two bin walls are transversely installed on the top surface of a steel-concrete structure ground platform at the front side of the rear fixed pre-baked anode carbon block slotted dustproof opening bin, the lower end parts of the upper bin wall and the lower bin wall of the front sliding pre-baked anode carbon block slotted dustproof opening bin are respectively provided with a guide rail groove matched with 2 linear guide rails, and the front sliding pre-baked anode carbon block slotted dustproof opening bin is installed on the 2 linear guide rails by using the guide rail grooves at the lower end parts of the upper bin wall and the lower bin wall; when the front sliding pre-baked anode carbon block slotted dustproof opening bin and the rear fixed pre-baked anode carbon block slotted dustproof opening bin are in an open state, the pre-baked anode carbon block to be slotted can be hoisted to a pre-baked anode carbon block slotted adding station which is surrounded by connecting the inner vertical surfaces of 4 pre-baked anode carbon block limiting square blocks on the top surface of 2 strip jacking platforms with strip supports in sequence by using a traveling crane, and when the front sliding pre-baked anode carbon block slotted dustproof opening bin and the rear fixed pre-baked anode carbon block slotted dustproof opening bin are in a closed state, a pre-baked anode carbon block slotted dustproof sealing bin is formed;

the pulse dust collector is arranged on a steel-concrete structure platform at the lower side of the rear fixed pre-baked anode carbon block slotted dustproof opening bin by using a bracket, a right vertical part of a Z-shaped fine powder conveying pipeline section is fixedly connected with a dust collection port of the pulse dust collector in a sealing manner, a sealing blind plate is arranged at the end part of a left vertical part of the Z-shaped fine powder conveying pipeline section, one end of each of 2 fine powder conveying pipeline sections is sequentially communicated and hermetically connected with a top cover of the rear fixed pre-baked anode carbon block slotted dustproof opening bin, the other end of each of the 2 fine powder conveying pipeline sections is sequentially communicated and hermetically connected with a left vertical part of the Z-shaped fine powder conveying pipeline section, one end of each of the inverted L-shaped fine powder conveying pipeline sections is fixedly connected with the other side of the pulse dust collector in a communicating manner, and the other end of each of the inverted L-shaped fine powder conveying pipeline sections is fixedly connected with a draught hole of a fan which is arranged by using a mounting seat in a sealing manner; a fine powder spiral discharging machine is arranged on a fine powder discharging port of the pulse dust collector, and an outlet of a fine powder conveying pipeline of the fine powder spiral discharging machine is communicated, sealed and fixedly connected with a feeding port of a dust collecting bin on the top surface of a steel-concrete structure platform installed by using a support;

the fine powder conveying device for conveying the fine powder collected by the dust collection bin to the mixing bin of the forming workshop comprises a fine powder gas conveyor, a wear-resistant conveying pipe, 4 fine powder bins, a fine powder discharging pipe and the mixing bin, wherein the mixing bin is arranged at a position above a kneading machine of the forming workshop by using a bracket, and the 4 fine powder bins are respectively communicated with the mixing bin in sequence by using the fine powder discharging pipe in a sealing manner; powder gas conveyer uses the mount pad to correspond the storehouse of gathering dust and installs on steel-concrete structure ground top surface, and the unloading pipe end portion that the storehouse of gathering dust has and the fine powder charge-in pipeline section that powder gas conveyer has link up sealed fixed connection, and powder gas conveyer uses wear-resisting conveyer pipe to link up sealed fixed connection with 4 fine powder feed bins mutually in proper order.

The prebaked anode carbon block slotting circular saw and the installation technology thereof, the pulse dust collector and the installation technology thereof, the fine powder spiral discharging machine and the installation technology thereof, the fine powder gas conveyor and the installation technology thereof all adopt the prior art, and the electrical control device adopts the prior art.

The working process of the utility model is as follows: pulling open the front sliding prebaked anode carbon block slotted dustproof opening bin, making the front sliding prebaked anode carbon block slotted dustproof opening bin and the rear fixed prebaked anode carbon block slotted dustproof opening bin in an open state, using a traveling crane to hoist the prebaked anode carbon block to be slotted to a prebaked anode carbon block slotted addition station enclosed by 4 prebaked anode carbon block limiting square blocks on the top surface of 2 strip-shaped jacking platforms with strip-shaped supports in sequence in a connecting line, and pushing the front sliding prebaked anode carbon block slotted dustproof opening bin and the rear fixed prebaked anode carbon block slotted dustproof opening bin in a closed state to form a prebaked anode carbon block slotted dustproof sealing bin; the fine powder gas conveyor, the fine powder spiral discharging machine, the pulse dust collector, the servo speed reducing motor and the pre-baked anode carbon block slotting circular saw are sequentially started, the servo speed reducing motor drives the pre-baked anode carbon block slotting circular saw arranged on a strip-shaped sliding table to sequentially slot a pre-baked anode carbon block to be slotted on a pre-baked anode carbon block slotting machining station on the top surface of a strip-shaped jacking platform with 2 strip-shaped brackets from bottom to top, the pre-baked anode carbon block to be slotted is completed from bottom to top, the servo speed reducing motor drives the pre-baked anode carbon block slotting circular saw arranged on the strip-shaped sliding table to reset, a front sliding pre-baked anode carbon block slotting dustproof opening bin is pulled open, and the pre-baked anode carbon block after slotting is hoisted to a stock by using a traveling crane to enter the next pre-baked anode carbon block machining process; fine powder dust generated in the grooving process of the prebaked anode carbon block is intensively fed by a fine powder spiral discharging machine through fine powder collected by a pulse dust collector, enters a dust collecting bin, is conveyed by a fine powder gas conveyor, is conveyed to 4 fine powder bins through an installed wear-resistant pipe, and enters the next processing procedure after the fine powder in the 4 fine powder bins is added into a mixing bin through a discharging pipe according to a certain proportion.

The utility model has the beneficial effects that: the utility model is provided with a prebaked anode carbon block jacking limiting device, a prebaked anode carbon block slotting device and a prebaked anode carbon block slotting fine dust collecting device which are arranged on the top surface of the mounting workbench; also comprises an electric appliance control device; the prebaked anode carbon block jacking limiting device comprises 2 strip jacking platforms with strip supports and prebaked anode carbon block limiting square blocks, the number of the prebaked anode carbon block limiting square blocks is 4, and the rectangular part of the inside vertical surfaces of the 4 prebaked anode carbon block limiting square blocks on the top surfaces of the 2 strip jacking platforms with the strip supports, which are sequentially connected and enclosed by a line, is a prebaked anode carbon block slotting machining station; the prebaked anode carbon block slotting device comprises a prebaked anode carbon block slotting circular saw, a strip-shaped sliding table and a servo driving device for the prebaked anode carbon block slotting circular saw to move up and down along 2 linear guide rails; the pre-baked anode carbon block slotting fine material dust collecting device comprises a rear fixed pre-baked anode carbon block slotting dustproof opening bin, a front sliding pre-baked anode carbon block slotting dustproof opening bin, a pulse dust collector, a fine powder spiral discharging machine, 2 fine powder conveying pipeline sections, a Z-shaped fine powder conveying pipeline section, an inverted L-shaped fine powder conveying pipeline section, a dust collecting bin and a fan; when the front sliding pre-baked anode carbon block slotted dustproof opening bin and the rear fixed pre-baked anode carbon block slotted dustproof opening bin are in an open state, the pre-baked anode carbon block to be slotted can be hoisted to a pre-baked anode carbon block slotted adding station which is surrounded by connecting the inner vertical surfaces of 4 pre-baked anode carbon block limiting square blocks on the top surface of 2 strip jacking platforms with strip supports in sequence by using a traveling crane, and when the front sliding pre-baked anode carbon block slotted dustproof opening bin and the rear fixed pre-baked anode carbon block slotted dustproof opening bin are in a closed state, a pre-baked anode carbon block slotted dustproof sealing bin is formed; the fine powder conveying device is used for conveying the fine powder collected by the dust collection bin to the forming workshop mixing bin and comprises a fine powder gas conveyor, a wear-resistant conveying pipe, 4 fine powder bins, a fine powder blanking pipe and a mixing bin. The utility model realizes the recovery and collection of fine dust generated in the grooving process of the prebaked anode carbon block, prevents the fine dust from diffusing, improves the field working environment and protects the health of workers; and the closed conveying of the fine powder collected by the dust collector is realized, the secondary pollution to the environment is prevented, and the conveying efficiency of the fine powder is improved.

Drawings

The utility model is further explained below with reference to the figures and examples;

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

FIG. 2 is an enlarged left side view of a part of the pre-baked anode carbon block slotting device and a pre-baked anode carbon block slotting fine dust collection device of the utility model;

in the drawings: 1. the device comprises a workbench, a strip top supporting platform with a strip support, a pre-baked anode carbon block limiting square block, a double-disc saw blade, a strip sliding table, a screw rod, a servo speed reduction motor, an upper screw rod seat, a lower screw rod seat, a rear fixed pre-baked anode carbon block slotted dustproof opening bin, a front sliding pre-baked anode carbon block slotted dustproof opening bin, a pulse dust collector, a fine powder spiral discharging machine, a fine powder conveying pipeline section, a Z-shaped fine powder conveying pipeline section, a thin powder conveying pipeline section, a reverse L-shaped fine powder conveying pipeline section, a dust collecting bin, a fan, a linear guide rail, a fine powder gas conveyor, a wear-resistant conveying pipe, a fine powder bin, a fine powder discharging pipe, a mixed bin and a pre-baked anode, wherein the strip top supporting platform is provided with a strip support, the strip sliding table is provided with a strip support, the strip supporting platform is provided with a strip support, the strip supporting platform is provided with the strip supporting platform, the strip supporting platform is provided with the strip supporting platform, the strip supporting platform is provided with the strip supporting platform, the strip supporting platform is provided with the strip supporting platform, the strip supporting platform is provided with the strip supporting platform, the strip supporting platform is provided with the strip supporting platform, the strip.

Detailed Description

The present invention is described in further detail below with reference to specific examples.

Example 1

As shown in fig. 1 and 2, the grooving dust collecting device for the prebaked anode carbon blocks comprises a workbench 1 arranged on a steel-concrete structure platform, and is characterized in that: the device also comprises a prebaked anode carbon block jacking limiting device, a prebaked anode carbon block slotting device and a prebaked anode carbon block slotting fine dust collecting device which are arranged on the top surface of the mounting workbench 1; also comprises an electric appliance control device;

the prebaked anode carbon block jacking and limiting device comprises 2 strip jacking platforms 2 with strip supports and 4 prebaked anode carbon block limiting square blocks 3, wherein the strip jacking platforms 2 with the strip supports are symmetrically arranged in front and at the back of the vertical central line of the top surface of a workbench (an observer faces the figure 1 of the utility model, the upper side of the observer is the upper side of the workbench, the lower side of the observer is the lower side of the workbench, one side close to the workbench is the front side of the workbench, and the other side far away from the workbench is the back side of the workbench), the 4 prebaked anode carbon block limiting square blocks 3 are fixedly arranged on the top surface of the strip jacking platforms 2 with the strip supports by bolts in sequence, the 4 prebaked anode carbon block limiting square blocks 3 fixedly arranged on the top surface of the strip jacking platforms 2 with the strip supports are arranged in a rectangular shape, bolts are sequentially used for being arranged in a rectangular shape, the rectangular parts which are sequentially enclosed by connecting lines of the inner vertical surfaces of 4 pre-baked anode carbon block limiting square blocks 3 and fixedly installed on the top surface of a strip-shaped jacking platform 2 with a strip-shaped bracket are consistent with the horizontal section of a pre-baked anode carbon block 25, and the rectangular parts which are sequentially enclosed by connecting lines of the inner vertical surfaces of 4 pre-baked anode carbon block limiting square blocks on the top surface of a strip-shaped jacking platform 2 with a strip-shaped bracket are slotting machining stations of the pre-baked anode carbon block 25;

the prebaked anode carbon block slotting device comprises a prebaked anode carbon block slotting disc saw and a strip-shaped sliding table 5, wherein the prebaked anode carbon block slotting disc saw comprises a double-disc saw blade 4, a rotating shaft and a speed reducing motor for driving the double-disc saw blade to rotate, the strip-shaped sliding table 5 adopts two linear guide rails (not shown in the attached drawings of the specification) which are arranged at two sides of the vertical central line of the top surface of a working table 1 between 2 strip-shaped top support platforms 2 with strip-shaped supports in a front-back symmetrical mode, the rotating shaft is arranged on the top surface of the strip-shaped sliding table 5 in the front-back direction by using a bearing with a seat, the double-disc saw blade 4 is fixedly arranged on the parts of the rotating shaft at the front side and the back side of the bearing with the seat by respectively using a connecting piece, the speed reducing motor for driving the double-disc saw blade to rotate is arranged on the top surface of the strip-shaped sliding table 5 at the back side of the bearing with the seat by using a corresponding to the mounting seat, and the output shaft of the speed reducing motor for driving the double-disc saw blade to rotate is fixedly connected with the end part of the part at the back side of the bearing with the connecting piece; the rotating vertical faces of the double-disc saw blade 4 fixedly arranged on the front and rear side parts of the rotating shaft of the bearing with the seat are parallel to the upper and lower vertical front and rear vertical faces of the strip-shaped sliding table 5 by using a connecting piece; the servo driving device comprises a screw rod 6, a servo speed reducing motor 7, an upper screw rod seat 8 and a lower screw rod seat 9, wherein the servo driving device comprises the screw rod 6, the servo speed reducing motor 7, the upper screw rod seat 8 and the lower screw rod seat 9 are sequentially arranged on the vertical central line of the top surface of the workbench 1 at the upper side and the lower side of the strip-shaped sliding table 5, the screw rod 6 penetrates through the lower screw rod seat 9, the strip-shaped sliding table 5 and the upper screw rod seat 8 in the upper and lower directions at one end of the screw rod 6 and is rotatably arranged on the lower screw rod seat 9, the strip-shaped sliding table 5 and the upper screw rod seat 8, the screw rod 6 rotatably arranged on the lower screw rod seat 9, the strip-shaped sliding table 5 and the upper screw rod seat 8 also comprises a part extending out of the vertical surface at the lower side of the lower screw rod seat 9, the servo speed reducing motor 7 is arranged on the top surface of the workbench 1 corresponding to the lower screw rod seat 9 by using a servo speed reducing motor mounting seat, the output shaft of the servo speed reducing motor 7 is fixedly connected with the end part of the vertical surface of the lower side of the lower screw rod seat 9, which extends out of the screw rod 6, by using a connecting piece;

the pre-baked anode carbon block slotting fine material dust collecting device comprises a rear fixed pre-baked anode carbon block slotting dustproof open bin 10, a front sliding pre-baked anode carbon block slotting dustproof open bin 11, a pulse dust collector 12, a fine powder spiral discharging machine 13, 2 fine powder conveying pipeline sections 14, a Z-shaped fine powder conveying pipeline section 15, an inverted L-shaped fine powder conveying pipeline section 16, a dust collecting bin 17 and a fan 18, wherein a transparent window (not shown in the specification drawing) is arranged on the front side bin wall of the front sliding pre-baked anode carbon block slotting dustproof open bin 11, the part of the rear pre-baked anode carbon block slotting dustproof open bin 10 surrounding the rear side of the vertical central line of a workbench 1 is correspondingly and fixedly arranged on the top surface of a steel-concrete structure ground platform, and the pre-baked anode carbon block slotting dust collecting device also comprises 2 linear guide rails 19, the length of the 2 linear guide rails is equal to the length of the front sliding pre-baked anode carbon block slotting open bin 11, the front walls of the upper bin and the lower bin of the two bins, The back sliding lengths are matched, 2 linear guide rails 19 are transversely arranged on the top surface of a steel-concrete structure ground platform at the front side of the back fixed pre-baked anode carbon block slotted dustproof opening bin 10 corresponding to the upper and lower two bin walls of the back fixed pre-baked anode carbon block slotted dustproof opening bin 10, the lower end parts of the upper and lower two bin walls of the front sliding pre-baked anode carbon block slotted dustproof opening bin 11 are respectively provided with a guide rail slot matched with the 2 linear guide rails 19, and the front sliding pre-baked anode carbon block slotted dustproof opening bin 11 is arranged on the 2 linear guide rails 19 by using the guide rail slots at the lower end parts of the upper and lower two bin walls; when the front sliding pre-baked anode carbon block slotted dustproof open bin 11 and the rear fixed pre-baked anode carbon block slotted dustproof open bin 10 are in an open state, a travelling crane can be used for hoisting the pre-baked anode carbon block 25 to be slotted to a pre-baked anode carbon block slotted adding station which is surrounded by sequentially connecting the inner vertical surfaces of 4 pre-baked anode carbon block limiting square blocks 3 on the top surface of a 2 strip-shaped top supporting platform with a strip-shaped support, and the front sliding pre-baked anode carbon block slotted dustproof open bin 11 and the rear fixed pre-baked anode carbon block slotted dustproof open bin 10 form a pre-baked anode carbon block slotted dustproof sealed bin when in a closed state;

the pulse dust collector 12 is arranged on a steel-concrete structure ground platform at the lower side of the rear fixed pre-baked anode carbon block slotted dustproof opening bin 10 by using a bracket, a right vertical part of a Z-shaped fine powder conveying pipeline section 15 is fixedly connected with a dust collection port of the pulse dust collector 12 in a sealing way, a sealing blind plate is arranged at the end part of a left vertical part of the Z-shaped fine powder conveying pipeline section 15, one end of 2 fine powder conveying pipeline sections 14 is sequentially communicated and hermetically connected with a top cover of the rear fixed pre-baked anode carbon block slotted dustproof opening bin 10, the other end of each fine powder conveying pipeline section 14 is sequentially communicated and hermetically connected with the left vertical part of the Z-shaped fine powder conveying pipeline section 15, one end of an inverted L-shaped fine powder conveying pipeline section 16 is communicated and fixedly connected with the other side of the pulse dust collector 12 in a sealing way, and the other end of the inverted L-shaped fine powder conveying pipeline section is fixedly connected with a suction port of a fan 18 which is arranged by using a mounting seat in a sealing way; a fine powder spiral discharging machine 13 is arranged on a fine powder discharging hole of the pulse dust collector 12, and an outlet of a fine powder conveying pipeline of the fine powder spiral discharging machine 13 is communicated, sealed and fixedly connected with a feeding hole of a dust collecting bin 17 on the top surface of a steel-concrete structure platform installed by using a support;

the fine powder conveying device for conveying the fine powder collected by the dust collection bin to the mixing bin of the forming workshop comprises a fine powder gas conveyor 20, a wear- resistant conveying pipe 21, 4 fine powder bins 22, a fine powder blanking pipe 23 and a mixing bin 24, wherein the mixing bin 24 is arranged at a position above the mixing kneader of the forming workshop by using a bracket (the right side position of the mixing kneader of the forming workshop is shown in the attached drawing 1 of the specification), and the 4 fine powder bins 22 are respectively communicated and hermetically connected with the mixing bin 24 by using the fine powder blanking pipes 23; powder gas conveyer 20 uses the mount pad to correspond collection dirt storehouse 17 and installs on steel-concrete structure platform top surface, and the unloading pipe end that collection dirt storehouse 17 has and the fine powder charge-in pipeline section that powder gas conveyer 20 has link up sealed fixed connection, and powder gas conveyer 20 uses wear-resisting conveyer pipe 21 to link up sealed fixed connection with 4 fine powder storehouses 22 mutually in proper order.

From the above description, those skilled in the art can make various changes and modifications within the scope of the technical idea of the present invention without departing from the scope of the utility model. The present invention is not limited to the details given herein, but is within the ordinary knowledge of those skilled in the art.

Claims (2)

1. The utility model provides a prebaked anode carbon block fluting dust arrester installation, is including installing the workstation on the steel-concrete structure ground platform, characterized by: the prebaked anode carbon block jacking limiting device, the prebaked anode carbon block slotting device and the prebaked anode carbon block slotting fine dust collecting device are arranged on the top surface of the mounting workbench; also comprises an electric appliance control device;

the top support limiting device for the prebaked anode carbon block comprises 2 strip-shaped top support platforms with strip-shaped supports and four limiting square blocks of the prebaked anode carbon block, wherein the number of the limiting square blocks of the prebaked anode carbon block is 4, 2 strip-shaped top support platforms with the strip-shaped supports are symmetrically arranged at the front and the back of the vertical central line of the top surface of the workbench, 4 limiting square blocks of the prebaked anode carbon block are sequentially fixedly arranged on the top surface of 2 strip-shaped top support platforms with the strip-shaped supports by bolts, 4 limiting square blocks of the prebaked anode carbon block are arranged in a rectangular manner and fixedly arranged on the top surface of 2 strip-shaped top support platforms with the strip-shaped supports, the rectangular part enclosed by the sequential connecting lines of the inner side vertical surfaces of the 4 limiting square blocks of the prebaked anode carbon block is consistent with the horizontal cross section of the prebaked anode carbon block, and the slotted part enclosed by the sequential connecting lines of the inner side vertical surfaces of the 4 limiting square blocks of the prebaked anode carbon block on the top support platforms with the strip-shaped supports is pre-baked anode carbon block A bit;

the prebaked anode carbon block slotting device comprises a prebaked anode carbon block slotting disc saw and a strip-shaped sliding table, wherein the prebaked anode carbon block slotting disc saw comprises a double-disc saw blade, a rotating shaft and a speed reducing motor for driving the double-disc saw blade to rotate; also comprises a servo driving device for the prebaked anode carbon block slotting circular saw to move up and down along 2 linear guide rails, the servo driving device for the prebaked anode carbon block slotting circular saw to move up and down along 2 linear guide rails comprises a screw rod, a servo speed reducing motor, an upper screw rod seat and a lower screw rod seat, wherein the upper screw rod seat and the lower screw rod seat are sequentially arranged on the vertical central line of the top surface of the workbench on the upper side and the lower side of a strip-shaped sliding table, one end of the screw rod penetrates through the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat in the up-down direction and is rotatably installed on the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat, the screw rod rotatably installed on the lower screw rod seat, the strip-shaped sliding table and the upper screw rod seat is also provided with a part extending out of the vertical surface of the lower side of the lower screw rod seat, a servo speed reducing motor is installed on the top surface of the workbench corresponding to the lower screw rod seat by using a servo speed reducing motor installation seat, and an output shaft of the servo speed reducing motor is fixedly connected with the end part of the part extending out of the vertical surface of the lower side of the lower screw rod seat by using a connecting piece;

the pre-baked anode carbon block slotting fine material dust collecting device comprises a rear fixed pre-baked anode carbon block slotting dustproof opening bin, a front sliding pre-baked anode carbon block slotting dustproof opening bin, a pulse dust collector, a fine powder spiral discharging machine, 2 fine powder conveying pipeline sections, a Z-shaped fine powder conveying pipeline section, an inverted L-shaped fine powder conveying pipeline section, a dust collecting bin and a fan, wherein a transparent window is arranged on the bin wall at the front side of the front sliding pre-baked anode carbon block slotting dustproof opening bin, the part of the rear pre-baked anode carbon block slotting dustproof opening bin, which surrounds the rear side of the vertical central line of a workbench, is correspondingly and fixedly arranged on the top surface of a steel-concrete structure ground platform, the length of the 2 linear guide rails is matched with the front and rear sliding lengths of the upper and lower bin walls of the front sliding pre-baked anode carbon block slotting dustproof opening bin, and the rear fixed pre-baked anode carbon block slotting dustproof opening bin corresponding to the 2 linear guide rails, The lower two bin walls are transversely installed on the top surface of a steel-concrete structure ground platform at the front side of the rear fixed pre-baked anode carbon block slotted dustproof opening bin, the lower end parts of the upper bin wall and the lower bin wall of the front sliding pre-baked anode carbon block slotted dustproof opening bin are respectively provided with a guide rail groove matched with 2 linear guide rails, and the front sliding pre-baked anode carbon block slotted dustproof opening bin is installed on the 2 linear guide rails by using the guide rail grooves at the lower end parts of the upper bin wall and the lower bin wall;

the pulse dust collector is arranged on a steel-concrete structure platform at the lower side of the rear fixed pre-baked anode carbon block slotted dustproof opening bin by using a bracket, a right vertical part of a Z-shaped fine powder conveying pipeline section is fixedly connected with a dust collection port of the pulse dust collector in a sealing manner, a sealing blind plate is arranged at the end part of a left vertical part of the Z-shaped fine powder conveying pipeline section, one end of each of 2 fine powder conveying pipeline sections is sequentially communicated and hermetically connected with a top cover of the rear fixed pre-baked anode carbon block slotted dustproof opening bin, the other end of each of the 2 fine powder conveying pipeline sections is sequentially communicated and hermetically connected with a left vertical part of the Z-shaped fine powder conveying pipeline section, one end of each of the inverted L-shaped fine powder conveying pipeline sections is fixedly connected with the other side of the pulse dust collector in a communicating manner, and the other end of each of the inverted L-shaped fine powder conveying pipeline sections is fixedly connected with a draught hole of a fan which is arranged by using a mounting seat in a sealing manner; a fine powder spiral discharging machine is arranged on a fine powder discharging port of the pulse dust collector, and an outlet of a fine powder conveying pipeline of the fine powder spiral discharging machine is fixedly connected with a feeding port of a dust collecting bin on the top surface of a platform of a support mounting reinforced concrete structure in a penetrating and sealing manner.

2. The grooving dust collecting device for the prebaked anode carbon blocks as claimed in claim 1, wherein: the fine powder conveying device for conveying the fine powder collected by the dust collection bin to the mixing bin of the forming workshop comprises a fine powder gas conveyor, a wear-resistant conveying pipe, 4 fine powder bins, a fine powder discharging pipe and the mixing bin, wherein the mixing bin is arranged at a position above a kneading machine of the forming workshop by using a bracket, and the 4 fine powder bins are respectively communicated with the mixing bin in sequence by using the fine powder discharging pipe in a sealing manner; powder gas conveyer uses the mount pad to correspond the storehouse of gathering dust and installs on steel-concrete structure ground top surface, and the unloading pipe end portion that the storehouse of gathering dust has and the fine powder charge-in pipeline section that powder gas conveyer has link up sealed fixed connection, and powder gas conveyer uses wear-resisting conveyer pipe to link up sealed fixed connection with 4 fine powder feed bins mutually in proper order.

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