CN116214346B - Automatic processing system of hot rolled steel - Google Patents

Abstract

The invention discloses an automatic processing system of hot rolled steel, which relates to the technical field of steel processing and comprises a steel ingot conveying belt, wherein an elimination component is arranged on one side of the steel ingot conveying belt and comprises a fixed guide plate, a correction plate is arranged on one side end surface of the fixed guide plate, a middle conveying belt is arranged on one side of the steel ingot conveying belt, a recovery component is arranged at the bottom end of the middle conveying belt, and electric sliding rails are arranged on two side end surfaces of the middle conveying belt.

Description

Automatic processing system of hot rolled steel

Technical Field

The invention relates to the technical field of steel processing, in particular to an automatic processing system for hot rolled steel.

Background

The steel is a steel ingot, a steel billet or a steel material with a certain shape, size and performance, most of the steel is processed by pressure processing, so that the processed steel (blank, ingot and the like) is subjected to plastic deformation, and the steel can be divided into cold processing and hot processing according to different processing temperatures of the steel, i-steel is also called a steel beam, is a long steel with an I-shaped section and is a hot rolled steel, and along with the continuous development of the infrastructure industry in China, the steel usage amount is huge, and an automatic steel processing system is also continuously developed;

however, the existing steel processing can be covered with a layer of ferric oxide on the surface of the steel ingot when the steel ingot is just discharged, the steel ingot is generally subjected to liquid cooling and is easy to be deformed when being cooled, the subsequent hot rolling processing is not facilitated, the cooled steel ingot can consume more energy when being heated by subsequent hot rolling, or the steel ingot is manually shoveled, the steel ingot is shoveled out by a little careless way when being shoveled manually, the processing cost is further increased by re-making, and in order to avoid the technical problems, an automatic processing system of the hot rolled steel is needed to be provided to overcome the defects in the prior art.

Disclosure of Invention

The invention provides an automatic processing system for hot rolled steel, which can effectively solve the problems that the surface of the existing steel processing proposed in the background technology is covered with a layer of ferric oxide when a steel ingot is just discharged, the steel ingot is generally subjected to liquid cooling and flushing, the liquid cooling and flushing is easy to deform when the steel ingot is cooled, the subsequent hot rolling processing is not facilitated, the cooled steel ingot consumes more energy when the subsequent hot rolling is heated, or the steel ingot is manually shoveled, the steel ingot is shoveled out when the steel ingot is manually shoveled out, and the processing cost is further increased due to the need of re-casting.

In order to achieve the above purpose, the present invention provides the following technical solutions: an automatic processing system of hot rolled steel comprises a steel ingot conveying belt, wherein an elimination assembly is arranged on one side of the steel ingot conveying belt;

the elimination assembly comprises a fixed guide plate;

a correction plate is arranged on one side end surface of the fixed guide plate, a middle-arranged conveying belt is arranged on one side of the steel ingot conveying belt, and a recovery assembly is arranged at the bottom end of the middle-arranged conveying belt;

the electric sliding rail is arranged on the end surfaces of the two sides of the middle conveying belt through a mounting frame, a motor frame is clamped at the moving end of the electric sliding rail through an arc-shaped guide rail, a moving roller is arranged at the position, corresponding to the arc-shaped guide rail, of the inner side of the motor frame, and a moving motor is arranged on the end surface of one side of the motor frame through an arc-shaped motor seat;

a clamping seat is arranged on one side end surface of the motor frame, an electric telescopic rod is arranged on the inner side of the clamping seat, and a turnover clamping groove is arranged at the telescopic end of the electric telescopic rod;

a connecting plate is arranged on one side end surface of the mounting frame, a ladder frame is arranged at the top end of the connecting plate, a lifting frame is arranged at the bottom end of the ladder frame, and a lifting hydraulic rod is arranged at the inner side of the lifting frame;

the telescopic end of the lifting hydraulic rod is provided with a stabilizing plate, the inner side of the stabilizing plate is provided with a movable groove, the inner side of the movable groove is slidably provided with a movable buckle, the bottom end of the movable buckle is welded with a movable polishing plate, and the bottom end of the movable polishing plate is provided with a side polishing plate;

the inner side of the other movable groove is connected with a movable column in a sliding manner, a polishing machine seat is arranged at the top end of the stabilizing plate, and a polishing motor is arranged at the inner side of the polishing machine seat;

the transmission end of the polishing motor is connected with a rotating connecting rod, and one end of the rotating connecting rod is rotatably provided with a transverse moving connecting rod.

According to the technical scheme, the top end of the steel ingot conveying belt is provided with the fixed guide plate, one side end face of the fixed guide plate is provided with the sliding cylinder, one end of the sliding cylinder is spot-welded with the extrusion spring, the inner side of the sliding cylinder is connected with the sliding rod in a sliding manner, and one end of the sliding rod is provided with the movable guide plate;

the two arc-shaped guide rails are symmetrically arranged at the top positions of the middle conveying belt, and two ends of the trapezoid frame are welded at the top positions of the connecting plates at two sides.

According to the technical scheme, the driving end of the mobile motor is connected with the mobile roller, two mobile motors are arranged, and the two mobile motors are symmetrically arranged on the end faces of the two sides of the motor frame.

According to the technical scheme, the top of the movable column is rotationally connected with the transverse moving connecting rod, and the input ends of the electric sliding rail, the movable motor, the electric telescopic rod and the polishing motor are electrically connected with the output end of the external controller.

According to the technical scheme, a hot rolling furnace is arranged on one side of the steel ingot conveying belt, and a cutting maintenance assembly is arranged on one side of the hot rolling furnace;

the cutting maintenance assembly comprises a rear conveying belt;

the hot rolling furnace is characterized in that a rear conveying belt is arranged on one side of the hot rolling furnace, a hydraulic cutting machine is arranged on one side end face of the rear conveying belt, a limiting hydraulic rod is arranged at the bottom end of the rear conveying belt, a limiting rotating plate is rotatably arranged at the bottom end of the rear conveying belt, a limiting rotating groove is formed in one side end face of the limiting rotating plate, an oil baffle plate is arranged on one side end face of the limiting rotating plate, a positioning plate is arranged on one side end face of the oil baffle plate, and a guide groove is formed in the bottom end of the positioning plate;

an oil outlet groove is formed in the top end of the limiting rotating plate, an extrusion column is arranged at one end of the positioning plate, a limiting frame is arranged at the top end of the rear conveying belt, a flushing frame is arranged on one side end face of the limiting frame, a stabilizing roller is arranged at the bottom end of the flushing frame, an oil outlet cylinder is arranged on the inner side of the flushing frame, an oil spraying gun is arranged on the inner side of the oil outlet cylinder, and an oil inlet pipe is connected with the oil inlet end of the oil spraying gun;

the oil pump is characterized in that an oil box is arranged at the bottom end of the rear conveying belt, an oil pump seat is arranged on one side end face of the oil box, a filter screen clamping block is arranged on the inner side of the oil box, a filter screen is arranged at the top end of the filter screen clamping block, an oil cavity is formed in the inner side of the oil box, and a booster oil pump is arranged on the inner side of the oil pump seat.

According to the technical scheme, the telescopic end of the limiting hydraulic rod is rotationally connected with the limiting rotating plate through the limiting rotating groove, two stabilizing rollers are arranged, and the two stabilizing rollers are symmetrically arranged at the bottom end position of the flushing frame.

According to the technical scheme, the oil inlet end of the oil inlet pipe is connected with the oil outlet end of the booster oil pump, and the input ends of the hydraulic cutting machine, the limiting hydraulic rod, the oil injection gun and the booster oil pump are electrically connected with the external control end.

According to the technical scheme, the recycling assembly comprises a recycling sloping plate;

the bottom end of the middle conveyor belt is provided with a recovery inclined plate, one side end face of the recovery inclined plate is provided with a scrap iron box, the inner side of the scrap iron box is provided with a guide plate, the bottom end of the recovery inclined plate is provided with supporting legs, the inner side of the scrap iron box is rotationally provided with a grinding roller, one side end face of the scrap iron box is provided with a grinding motor, and the bottom end of the scrap iron box is provided with a recovery box;

the utility model discloses a scrap iron recycling bin, including the collection bin, the middle tube is installed to the inboard of collection bin, put the pipe in, put the outside of pipe in and seted up the moisture absorption hole, put the interior slip of pipe in and install the silicone grease dry lever, the one side terminal surface of scrap iron bin has seted up the hole of taking with the silicone grease dry lever position department that corresponds, the bottom of scrap iron bin has seted up the recovery tank with the collection bin position department that corresponds.

According to the technical scheme, two grinding rollers are arranged and symmetrically arranged at the inner side of the scrap iron box, and the driving end of the grinding motor is connected with the grinding rollers.

According to the technical scheme, the moisture absorption holes are formed in a plurality of mode, the moisture absorption holes are formed in the outer side of the middle pipe at equal intervals, and the input end of the grinding motor is electrically connected with the output end of the external controller.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the steel ingot hot rolling machine is provided with an elimination component, the control mobile motor rotates to drive the mobile rollers to rotate, the two mobile rollers can be driven to move on the outer side of the arc-shaped guide rail, so that steel ingots can be driven to rotate on the top end of the middle-arranged conveying belt, the movable polishing plate can be controlled to polish the steel ingots, the iron oxides can be further shaken off when polishing and vibrating, then after polishing the steel ingots on two sides, the iron oxides on the surface can be completely separated, thereby eliminating scraps by using traditional cooling, firstly, the hot steel ingots can be prevented from being deformed when encountering cold, then the iron scraps on the surface can be removed, secondly, the iron oxides are not removed by using cooling, the steel ingots can be prevented from being further heated at high temperature after being cooled down in hot rolling, thereby reducing the processing cost of the work-shaped steel, and not deforming, improving the processing efficiency of the hot rolling, further improving the iron oxide removal efficiency, and not manually shoveling the steel ingots, namely, preventing the steel ingots from being shoveled out because people control the strength is poor, and also preventing high Wen Gangding from being carried out on the steel ingots, and improving the safety of production and processing, and removing the iron oxides, and further improving the quality of the steel ingots when the hot rolling steel ingots.

2. The cutting maintenance assembly is arranged, the scraps at the bottom of the industrial groove are extruded and removed through the extrusion column, the rust preventive oil is conveyed to the position of the oil spraying gun through the oil inlet pipe, the rust preventive oil can be flushed to the industrial groove at the top, the scraps generated during cutting can be flushed to the position of the oil baffle plate, the rust preventive oil can flow through the ports of the industrial steel at the two ends, the mixture is smeared at the two ends of the industrial steel, the mixtures can fall to the position of the top of the filter screen, the rust preventive oil and the scraps can be separated through the filter screen, then people can recycle the scraps at the top of the filter screen, so that the scraps and the cut industrial steel can be recycled, energy sources for manufacturing and using steel can be saved, rust preventive oil smeared at the two ends can be prevented from being rusted during steel storage, the steel can be guaranteed to be rusted inwards after long-term storage, the use strength of the industrial steel can be guaranteed, the filtered rust preventive oil can be refilled to the inner position of the oil spraying gun through the oil inlet pipe, and then the port is used for spraying the industrial steel, and further resources can not be wasted.

3. Be provided with recovery unit, can dry the iron oxide sweeps through the silicone grease dry pole, the storage that can dry later is in the inside position department of collection box to can not be at the re-drying when follow-up recycling, also prevent that iron oxide rust from changing, can be used for trades such as battery manufacturing in follow-up refining, and after using one end time, can pull out the collection box from the inboard of collection tank, then can follow the inboard extraction replacement of well pipe with the silicone grease dry pole, thereby guarantee drying efficiency.

In summary, retrieve the sweeps at filter screen top, thereby can carry out recycle with sweeps and the industry shaped steel that cuts down, thereby can save the energy that steel manufacture used, the iron oxide can drop the top position department of retrieving the swash plate, through the grinding motor drive of both sides, the grinding roller can rotate and pulverize the iron oxide, the storage that can be dried later is in the inside position department of recycling bin, thereby can follow-up recycle, can be used for industries such as battery manufacturing in follow-up refining, thereby diversely carry out energy and resource saving when industry shaped steel processes, promote the sustainable usability of material, further reduce just process shaping's cost.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the construction of the abatement assembly of the present invention;

FIG. 3 is a schematic view of the mounting structure of the moving guide plate of the present invention;

FIG. 4 is a schematic view of the mounting structure of the arcuate guide rail of the present invention;

FIG. 5 is a schematic view of the mounting structure of the electric telescopic rod of the present invention;

FIG. 6 is a schematic view of the mounting structure of the stabilizer plate of the present invention;

FIG. 7 is a schematic view of the mounting structure of the oil cartridge of the present invention;

FIG. 8 is a schematic view of a cutting maintenance assembly of the present invention;

FIG. 9 is a schematic view of the mounting structure of the oil gun of the present invention;

FIG. 10 is a schematic view of the mounting structure of the filter screen of the present invention;

FIG. 11 is a schematic view of the structure of the recovery assembly of the present invention;

FIG. 12 is a schematic view of the installation structure of the center tube of the present invention;

reference numerals in the drawings: 1. a steel ingot conveying belt;

2. an abatement assembly; 201. fixing a guide plate; 202. a sliding cylinder; 203. extruding a spring; 204. a slide bar; 205. moving the guide plate; 206. a correction plate; 207. a middle conveying belt; 208. a mounting frame; 209. an electric slide rail; 210. an arc-shaped guide rail; 211. a motor frame; 212. a moving roller; 213. arc motor base; 214. a moving motor; 215. a clamping seat; 216. an electric telescopic rod; 217. overturning the clamping groove; 218. a connecting plate; 219. a ladder-shaped frame; 220. a lifting frame; 221. a lifting hydraulic rod; 222. a stabilizing plate; 223. a movable groove; 224. a movable buckle; 225. moving the polishing plate; 226. a side polishing plate; 227. a moving column; 228. polishing the machine base; 229. polishing a motor; 230. rotating the connecting rod; 231. a traversing connecting rod;

3. a hot rolling furnace;

4. cutting the maintenance component; 401. a rear conveyor belt; 402. a hydraulic cutting machine; 403. limiting the hydraulic rod; 404. limiting rotating plate; 405. limiting rotating grooves; 406. an oil baffle plate; 407. a positioning plate; 408. a guide groove; 409. an oil outlet groove; 410. an extrusion column; 411. a limiting frame; 412. a washing rack; 413. a stabilizing roller; 414. an oil outlet cylinder; 415. an oil gun; 416. an oil inlet pipe; 417. an oil box; 418. an oil pump base; 419. a filter screen clamping block; 420. a filter screen; 421. an oil chamber; 422. a booster oil pump;

5. a recovery assembly; 501. recovering the sloping plate; 502. scrap iron box; 503. a material guide plate; 504. support legs; 505. grinding rollers; 506. a grinding motor; 507. a recovery box; 508. a middle pipe; 509. a moisture absorption hole; 510. a silicone grease drying rod; 511. a taking hole; 512. and a recovery tank.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Examples: as shown in fig. 1 to 12, the present invention provides a technical scheme, an automatic processing system of hot rolled steel, comprising a steel ingot conveyor belt 1, wherein an elimination assembly 2 is installed on one side of the steel ingot conveyor belt 1;

the eliminating assembly 2 includes a fixed guide plate 201, a sliding cylinder 202, a pressing spring 203, a sliding rod 204, a moving guide plate 205, a correction plate 206, a middle conveyor belt 207, a mounting frame 208, an electric slide rail 209, an arc guide rail 210, a motor frame 211, a moving roller 212, an arc motor mount 213, a moving motor 214, a clamping mount 215, an electric telescopic rod 216, a turnover clamping slot 217, a connecting plate 218, a ladder 219, a lifting frame 220, a lifting hydraulic rod 221, a stabilizing plate 222, a movable slot 223, a movable buckle 224, a moving grinding plate 225, a side grinding plate 226, a moving column 227, a grinding frame 228, a grinding motor 229, a rotating link 230, and a traversing link 231;

a fixed guide plate 201 is arranged at the top end of the steel ingot conveying belt 1, a sliding cylinder 202 is arranged on one side end surface of the fixed guide plate 201, an extrusion spring 203 is welded at one end of the sliding cylinder 202 in a spot welding way, a sliding rod 204 is connected to the inner side of the sliding cylinder 202 in a sliding way, a movable guide plate 205 is arranged at one end surface of the sliding rod 204, a correction plate 206 is arranged on one side end surface of the fixed guide plate 201, a middle conveying belt 207 is arranged on one side of the steel ingot conveying belt 1, mounting frames 208 are arranged on two side end surfaces of the middle conveying belt 207, an electric sliding rail 209 is arranged at the top end of the mounting frames 208, an arc-shaped guide rail 210 is arranged at the top position of the middle conveying belt 207 in a symmetrical way, two ends of a trapezoid 219 are welded at the top position of a connecting plate 218 at two sides, a convenient and rapid model steel ingot ferric oxide is clamped at the outer side of the arc-shaped guide rail 210, a movable roller 212 is arranged at the corresponding position between the inner side of the motor frame 211 and the arc-shaped guide rail 210, an arc-shaped motor seat 213 is arranged on one side end surface of the motor frame 211, a movable motor 214 is arranged on the inner side of the arc-shaped motor seat 213, the transmission end of the movable motor 214 is connected with the movable roller 212, two movable motors 214 are symmetrically arranged on two side end surfaces of the motor frame 211 and are beneficial to quickly moving steel ingots, a clamping seat 215 is arranged on one side end surface of the motor frame 211, an electric telescopic rod 216 is arranged on the inner side of the clamping seat 215, a turnover clamping groove 217 is arranged at the telescopic end of the electric telescopic rod 216, a connecting plate 218 is arranged on one side end surface of the mounting frame 208, a trapezoid rack 219 is arranged at the top end of the connecting plate 218, a lifting frame 220 is arranged at the bottom end of the trapezoid rack 219, a lifting hydraulic rod 221 is arranged on the inner side of the lifting frame 220, a stabilizing plate 222 is arranged at the telescopic end of the lifting hydraulic rod 221, the inboard of stabilizer 222 has been seted up movable groove 223, movable buckle 224 is installed in the inside sliding of movable groove 223, the bottom welding of movable buckle 224 has removal polishing board 225, side polishing board 226 is installed to the bottom of removal polishing board 225, the inboard sliding connection of another movable groove 223 has movable column 227, grinding frame 228 is installed on the top of stabilizer 222, grinding motor 229 is installed to the inboard of grinding frame 228, the driving end of grinding motor 229 is connected with rotation connecting rod 230, sideslip connecting rod 231 is installed in the one end rotation of rotation connecting rod 230, the top and the sideslip connecting rod 231 rotation of movable column 227 are connected, electric slide rail 209, movable motor 214, electric telescopic handle 216 and the input of grinding motor 229 all with the output electric connection of external control ware.

A hot rolling furnace 3 is arranged on one side of the steel ingot conveying belt 1, and a cutting maintenance assembly 4 is arranged on one side of the hot rolling furnace 3;

the cutting maintenance assembly 4 comprises a rear conveyor 401, a hydraulic cutting machine 402, a limiting hydraulic rod 403, a limiting rotating plate 404, a limiting rotating groove 405, an oil baffle 406, a positioning plate 407, a guide groove 408, an oil outlet groove 409, an extrusion column 410, a limiting frame 411, a flushing frame 412, a stabilizing roller 413, an oil outlet cylinder 414, an oil injection gun 415, an oil inlet pipe 416, an oil box 417, an oil pump seat 418, a filter screen clamping block 419, a filter screen 420, an oil cavity 421 and a booster oil pump 422;

a rear conveyer belt 401 is arranged on one side of the hot rolling furnace 3, a hydraulic cutting machine 402 is arranged on one side end face of the rear conveyer belt 401, a limiting hydraulic rod 403 is arranged at the bottom end of the rear conveyer belt 401, a limiting rotating plate 404 is rotatably arranged at the bottom end of the rear conveyer belt 401, the telescopic ends of the limiting hydraulic rod 403 and the limiting rotating plate 404 are rotatably connected through a limiting rotating groove 405, two stabilizing rollers 413 are arranged, the two stabilizing rollers 413 are symmetrically arranged at the bottom end position of a flushing frame 412, so that the H-shaped steel is convenient to fix, the quick shearing is facilitated, the limiting rotating groove 405 is arranged at one side end face of the limiting rotating plate 404, an oil baffle 406 is arranged at one side end face of the limiting rotating plate 404, a positioning plate 407 is arranged at one side end face of the oil baffle 406, a guide groove 408 is arranged at the bottom end of the positioning plate 407, an oil outlet groove 409 is arranged at the top end of the limiting rotating plate 404, an extrusion column 410 is arranged at one end of the positioning plate 407, the top of post conveyer 401 is installed spacing 411, wash frame 412 is installed to one side terminal surface of spacing 411, stabilizing roll 413 is installed to the bottom of wash frame 412, oil drum 414 is installed to the inboard of wash frame 412, oil gun 415 is installed to the inboard of oil drum 414, oil inlet pipe 416 is connected to the oil inlet end of oil gun 415, oil box 417 is installed to the bottom of post conveyer 401, oil pump seat 418 is installed to one side terminal surface of oil box 417, filter screen fixture 419 is installed to the inboard of oil box 417, filter screen 420 is installed on the top of filter screen fixture 419, oil pocket 421 has been seted up to the inboard of oil box 417, booster pump 422 is installed to the inboard of oil pump seat 418, the oil inlet end of oil inlet pipe 416 is connected with the play oil end of booster pump 422, hydraulic cutter 402, spacing hydraulic stem 403, oil gun 415 and the input and the outside control end electric connection of booster pump 422.

The bottom end of the middle conveyor belt 207 is provided with a recovery assembly 5;

the recovery unit 5 includes a recovery inclined plate 501, scrap iron boxes 502, a guide plate 503, supporting legs 504, grinding rolls 505, a grinding motor 506, a recovery box 507, a center pipe 508, a moisture absorption hole 509, a silicone grease drying rod 510, a take hole 511, and a recovery tank 512;

the recycling inclined plate 501 is arranged at the bottom end of the middle conveying belt 207, the scrap iron box 502 is arranged at one side end face of the recycling inclined plate 501, the guide plate 503 is arranged at the inner side of the scrap iron box 502, the supporting leg 504 is arranged at the bottom end face of the recycling inclined plate 501, the grinding rollers 505 are rotatably arranged at the inner side of the scrap iron box 502, the grinding motors 506 are arranged at one side end face of the scrap iron box 502, the two grinding rollers 505 are symmetrically arranged at the inner side position of the scrap iron box 502, the driving end of the grinding motors 506 are connected with the grinding rollers 505, iron oxide is conveniently and rapidly chopped, the recycling box 507 is arranged at the bottom end of the scrap iron box 502, the middle pipe 508 is arranged at the inner side of the recycling box 507, the moisture absorption holes 509 are formed in the outer side of the middle pipe 508, a plurality of the moisture absorption holes 509 are conveniently and rapidly absorbed, the silicon grease drying rods 510 are rotatably arranged at the inner side of the middle pipe 508, the pick-up holes 511 are formed at the positions corresponding to the one side end face of the scrap iron box 502, the recycling grooves 512 are formed at the positions corresponding to the bottom end of the recycling box 507, the plurality of the moisture absorption holes 509 are formed at the positions corresponding to the positions of the scrap iron boxes, the positions of the grinding pipes 507, the recycling holes 507, the recycling tubes 507 are formed at the positions, the positions 507, the recycling tubes 507, the inner and the inner side of the middle conveying pipe and the middle conveying pipe are respectively.

The working principle and the using flow of the invention are as follows: firstly, after the steel ingot is discharged, the steel ingot which is just molded is conveyed to the top position of the steel ingot conveying belt 1, when the steel ingot hits against the moving guide plate 205 which is at the initial position, the steel ingot is contracted towards the middle by the extruding springs 203 at the two sides, so that the moving guide plate 205 can be pushed towards the middle of the steel ingot conveying belt 1, then the steel ingot is moved to the middle position of the correcting plate 206, the steel ingot is continuously conveyed to the middle conveying belt 207 by the steel ingot conveying belt 1, then the steel ingot is conveyed to the bottom position of the moving polishing plate 225, at the moment, the two electric telescopic rods 216 can be controlled to stretch forwards, so that the overturning clamping grooves 217 can be clamped at the steel ingot positions which are required to be cut at the later stages at the two ends, at the moment, the overturning clamping grooves 217 can stretch into gaps of a transmission shaft of the conveying belt, at the moment, the steel ingot can be fixed, at the same time, the lifting hydraulic rods 221 at the inner side of the lifting frame 220 at the bottom end of the trapezoid 219 can be controlled to stretch downwards, at this time, the stabilizing plate 222 can be controlled to move downwards, meanwhile, the movable polishing plate 225 can be clamped at the top position of the steel ingot, at this time, the side polishing plates 226 at two sides can be attached to the end surfaces at two sides of the steel ingot, at this time, after the clamping of the movable polishing plate 225 is finished, the polishing motor 229 at the top end of the polishing base 228 is controlled to rotate, then the rotating connecting rod 230 at the bottom end of the polishing motor 229 is driven to rotate, so as to drive the traversing connecting rod 231 to traverse, so as to drive the movable column 227 to slide at the inner side of the movable groove 223, at this time, the movable buckle 224 at the top end of the movable polishing plate 225 is driven to slide at the bottom end of the stabilizing plate 222, at this time, the movable buckle 224 at the top end of the movable groove 223 is moved, when the movable polishing plate 225 and the side polishing plate 226 are moved, the movable polishing plate 225 and the side polishing plate 226 can polish and remove iron oxide on the surface of the steel ingot, after one surface is polished, the moving motor 214 is controlled to rotate so as to drive the moving rollers 212 to rotate, at the moment, the two moving rollers 212 are driven to move outside the arc-shaped guide rail 210 so as to drive the steel ingot to rotate at the top end of the middle conveying belt 207, iron oxide is shaken off in the overturning process, after the steel ingot is overturned to the other surface, the electric sliding rail 209 is controlled to move, then the electric telescopic rod 216 is controlled to stretch and retract so as to move the steel ingot to the bottom end position of the moving polishing plate 225, at the moment, the moving polishing plate 225 is controlled to move downwards, then the moving polishing plate 225 is controlled to polish the steel ingot, the iron oxide is further shaken off during polishing vibration, and then the iron oxide on the surfaces can be totally separated after polishing the steel ingot, so that the traditional cooling and chip removing are not used, firstly, the hot steel ingot can be prevented from deforming when being cooled, scrap iron on the surface can be removed, secondly, iron oxide is removed without cooling, high-temperature heating is required when hot rolling is performed after the steel ingot is cooled down, so that energy waste is reduced, the processing cost of the industrial steel is reduced, the hot rolling processing efficiency can be improved without deformation, the iron oxide removal efficiency is further improved, manual removal is avoided, namely, the steel ingot is prevented from being shoveled out due to poor control of people when the steel ingot is manually removed, workers are prevented from being burned due to high Wen Gangding, the safety of production and processing is improved, the iron oxide is removed by polishing, the iron oxide is removed more tightly, the steel ingot is prevented from being pressed into the steel ingot again when hot rolling is performed, the quality of the steel ingot is further improved, and the safety of steel use is improved;

then, steel ingots are conveyed to the inner position of the hot rolling furnace 3, hot rolling processing and shaping are carried out on the steel ingots, then the steel ingots are conveyed to the top position of the rear conveying belt 401 after being cooled, at this time, an inner working groove of the working steel is conveyed to the bottom position of the stabilizing roller 413, so that the working steel is compacted through the stabilizing rollers 413 at two ends, then the hydraulic cutters 402 at two ends can be controlled to cut waste materials at two ends and the working steel exceeding the using length, then the waste materials can fall to the top position of the limiting rotating plate 404, then the waste materials can fall to the bottom position of the rear conveying belt 401 through the limiting rotating plate 404, so that recycling can be facilitated, then the limiting hydraulic rod 403 is controlled to stretch to the bottom, then the limiting rotating plate 404 can be controlled to move upwards, at this time, the extruding column 410 can be extended to the inner side position of the working groove, then the waste materials at the bottom of the working groove can be extruded and removed through the extruding column 410, so that the waste materials at the two ends can be dropped to the top position of the working groove 420, then the pressurizing oil pump 422 is controlled to cut the waste materials at two ends, the waste materials can fall to the top position of the working groove 420 through the inner part 416 of the oil box, then the waste materials can fall to the top position of the filtering net 408, the waste materials can be sprayed to the top position of the filtering net can be separated into the rust-preventing materials, the rust preventing materials can be sprayed to the top position of the waste materials, and the waste materials can be sprayed to the top position of the top of the working groove 420, and the waste materials can be separated, and the rust preventing materials can be separated and the waste materials can flow to the top and the top position of the waste materials can flow down, and the waste materials can flow down and the waste materials, and the rust-separated, and the rust preventing materials can flow down and the rust-separated. Therefore, scraps and cut industrial steel can be recycled, energy sources for manufacturing the steel can be saved, rust-proof oil smeared at two ends can be prevented from rusting when the steel is stored, rust can be guaranteed to rust the industrial steel inwards after the steel is stored for a long time, the use strength of the industrial steel can be guaranteed, the filtered rust-proof oil can be refilled into the inner part of the oil spray gun 415 through the oil inlet pipe 416, and then the port of the steel is sprayed through the oil spray gun 415, so that the rust-proof oil can be circulated, and resources can be further guaranteed not to be wasted;

finally, after the iron oxide is removed, the iron oxide may drop to the top of the recycling chute 501 and then slide to the top of the guide plate 503, and then the iron oxide may drop to the middle of the two grinding rolls 505, and may be driven by the grinding motors 506 at both sides, the grinding rolls 505 may rotate to grind the iron oxide, and then the scraps may drop to the inner position of the recycling bin 507, and when the scraps pass through the middle tube 508 and the moisture absorption hole 509, the iron oxide scraps may be dried by the silicone grease drying rod 510, and then stored in the inner position of the recycling bin 507, so that the iron oxide rust may not be re-dried in the subsequent recycling, may be prevented from being changed in the battery manufacturing industry in the subsequent refining, and after one end of use, the recycling bin 507 may be pulled out from the inner side of the recycling bin 512, and then the silicone grease drying rod 510 may be pulled out from the inner side of the middle tube 508 to be replaced, thereby ensuring the drying efficiency.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An automatic processing system for hot rolled steel, comprising a steel ingot conveyor belt (1), characterized in that: one side of the steel ingot conveying belt (1) is provided with an elimination assembly (2);

the abatement assembly (2) comprises a fixed deflector (201);

a correction plate (206) is arranged on one side end surface of the fixed guide plate (201), a middle conveyor belt (207) is arranged on one side of the steel ingot conveyor belt (1), and a recovery assembly (5) is arranged at the bottom end of the middle conveyor belt (207);

the electric conveyor belt is characterized in that electric sliding rails (209) are mounted on two side end faces of the middle conveying belt (207) through mounting frames (208), a motor frame (211) is clamped at the moving end of each electric sliding rail (209) through an arc-shaped guide rail (210), a moving roller (212) is mounted at the corresponding position of the inner side of each motor frame (211) and the corresponding position of each arc-shaped guide rail (210), and a moving motor (214) is mounted on one side end face of each motor frame (211) through an arc-shaped motor seat (213);

a clamping seat (215) is arranged on one side end surface of the motor frame (211), an electric telescopic rod (216) is arranged on the inner side of the clamping seat (215), and a turnover clamping groove (217) is arranged at the telescopic end of the electric telescopic rod (216);

a connecting plate (218) is arranged on one side end surface of the mounting frame (208), a ladder-shaped frame (219) is arranged at the top end of the connecting plate (218), a lifting frame (220) is arranged at the bottom end of the ladder-shaped frame (219), and a lifting hydraulic rod (221) is arranged at the inner side of the lifting frame (220);

a stabilizing plate (222) is arranged at the telescopic end of the lifting hydraulic rod (221), a movable groove (223) is formed in the inner side of the stabilizing plate (222), a movable buckle (224) is arranged in the inner side of the movable groove (223), a movable polishing plate (225) is welded at the bottom end of the movable buckle (224), and a side polishing plate (226) is arranged at the bottom end of the movable polishing plate (225);

the inner side of the other movable groove (223) is connected with a movable column (227) in a sliding way, the top end of the stabilizing plate (222) is provided with a polishing machine seat (228), and the inner side of the polishing machine seat (228) is provided with a polishing motor (229);

the transmission end of the polishing motor (229) is connected with a rotating connecting rod (230), and one end of the rotating connecting rod (230) is rotatably provided with a transverse moving connecting rod (231).

2. An automatic processing system for hot rolled steel product according to claim 1, wherein: a fixed guide plate (201) is arranged at the top end of the steel ingot conveying belt (1), a sliding cylinder (202) is arranged on one side end surface of the fixed guide plate (201), an extrusion spring (203) is welded at one end of the sliding cylinder (202) in a spot welding mode, a sliding rod (204) is connected to the inner side of the sliding cylinder (202) in a sliding mode, and a movable guide plate (205) is arranged at one end of the sliding rod (204);

the two arc-shaped guide rails (210) are symmetrically arranged at the top positions of the middle conveying belt (207), and two ends of the trapezoid rack (219) are welded at the top positions of the connecting plates (218) at two sides.

3. An automatic processing system for hot rolled steel product according to claim 1, wherein: the driving end of the moving motor (214) is connected with the moving roller (212), two moving motors (214) are arranged, and the two moving motors (214) are symmetrically arranged on the end faces of two sides of the motor frame (211).

4. An automatic processing system for hot rolled steel product according to claim 1, wherein: the top of the movable column (227) is rotationally connected with the transverse moving connecting rod (231), and the input ends of the electric sliding rail (209), the movable motor (214), the electric telescopic rod (216) and the polishing motor (229) are electrically connected with the output end of the external controller.

5. An automatic processing system for hot rolled steel product according to claim 1, wherein: a hot rolling furnace (3) is arranged on one side of the steel ingot conveying belt (1), and a cutting maintenance assembly (4) is arranged on one side of the hot rolling furnace (3);

the cutting maintenance assembly (4) comprises a rear conveyor belt (401);

a rear conveyor belt (401) is arranged on one side of the hot rolling furnace (3), a hydraulic cutting machine (402) is arranged on one side end face of the rear conveyor belt (401), a limiting hydraulic rod (403) is arranged at the bottom end of the rear conveyor belt (401), a limiting rotating plate (404) is rotatably arranged at the bottom end of the rear conveyor belt (401), a limiting rotating groove (405) is formed in one side end face of the limiting rotating plate (404), an oil baffle plate (406) is arranged on one side end face of the limiting rotating plate (404), a positioning plate (407) is arranged on one side end face of the oil baffle plate (406), and a guide groove (408) is formed in the bottom end of the positioning plate (407);

an oil outlet groove (409) is formed in the top end of the limiting rotating plate (404), an extrusion column (410) is arranged at one end of the positioning plate (407), a limiting frame (411) is arranged at the top end of the rear conveying belt (401), a flushing frame (412) is arranged on one side end face of the limiting frame (411), a stabilizing roller (413) is arranged at the bottom end of the flushing frame (412), an oil outlet cylinder (414) is arranged at the inner side of the flushing frame (412), an oil spray gun (415) is arranged at the inner side of the oil outlet cylinder (414), and an oil inlet pipe (416) is connected with the oil inlet end of the oil spray gun (415);

the oil pump is characterized in that an oil box (417) is arranged at the bottom end of the rear conveying belt (401), an oil pump seat (418) is arranged on one side end face of the oil box (417), a filter screen clamping block (419) is arranged on the inner side of the oil box (417), a filter screen (420) is arranged at the top end of the filter screen clamping block (419), an oil cavity (421) is formed in the inner side of the oil box (417), and a booster oil pump (422) is arranged in the inner side of the oil pump seat (418).

6. An automatic processing system for hot rolled steel product as claimed in claim 5 wherein: the telescopic end of the limiting hydraulic rod (403) is rotationally connected with the limiting rotating plate (404) through the limiting rotating groove (405), two stabilizing rollers (413) are arranged, and the two stabilizing rollers (413) are symmetrically arranged at the bottom end position of the flushing frame (412).

7. An automatic processing system for hot rolled steel product as claimed in claim 5 wherein: the oil inlet end of the oil inlet pipe (416) is connected with the oil outlet end of the booster oil pump (422), and the input ends of the hydraulic cutting machine (402), the limiting hydraulic rod (403), the oil injection gun (415) and the booster oil pump (422) are electrically connected with an external control end.

8. An automatic processing system for hot rolled steel product according to claim 1, wherein: the recovery assembly (5) comprises a recovery sloping plate (501);

the automatic scrap iron recycling device is characterized in that a recycling inclined plate (501) is arranged at the bottom end of the middle conveying belt (207), a scrap iron box (502) is arranged on one side end face of the recycling inclined plate (501), a guide plate (503) is arranged on the inner side of the scrap iron box (502), supporting legs (504) are arranged at the bottom end of the recycling inclined plate (501), a grinding roller (505) is rotatably arranged on the inner side of the scrap iron box (502), a grinding motor (506) is arranged on one side end face of the scrap iron box (502), and a recycling box (507) is arranged at the bottom end of the scrap iron box (502);

the inside of collection box (507) is installed and is put pipe (508), put the outside of pipe (508) in and have been seted up moisture absorption hole (509), put the interior side sliding mounting of pipe (508) in and have been put silicone grease dry pole (510), take hole (511) have been seted up in one side terminal surface of iron fillings case (502) and silicone grease dry pole (510) corresponding position department, recovery tank (512) have been seted up in the bottom of iron fillings case (502) and collection box (507) corresponding position department.

9. An automatic processing system for hot rolled steel product according to claim 8, wherein: the two grinding rollers (505) are symmetrically arranged at the inner side of the scrap iron box (502), and the driving end of the grinding motor (506) is connected with the grinding rollers (505).

10. An automatic processing system for hot rolled steel product according to claim 8, wherein: the moisture absorption holes (509) are formed in a plurality, the moisture absorption holes (509) are formed in the outer side of the middle pipe (508) at equal intervals, and the input end of the grinding motor (506) is electrically connected with the output end of the external controller.

Images