CN219925725U - Device for improving uniformity of transverse roughness of stainless steel strip steel surface - Google Patents

Device for improving uniformity of transverse roughness of stainless steel strip steel surface Download PDF

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Publication number
CN219925725U
CN219925725U CN202320916944.8U CN202320916944U CN219925725U CN 219925725 U CN219925725 U CN 219925725U CN 202320916944 U CN202320916944 U CN 202320916944U CN 219925725 U CN219925725 U CN 219925725U
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fixedly connected
plate
box
seat
groove
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张鹏
彭念学
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Shandong Shengyang Metal Technology Co Ltd
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Shandong Shengyang Metal Technology Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/10Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working

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Abstract

A device for improving the uniformity of the transverse roughness of the surface of stainless steel strip comprises a box body, a shot blasting device I, a shot blasting device II, a cleaning device and a polishing device; the cleaning device is provided with two groups; the polishing device is arranged in the middle of the box body; the shot blasting device I is arranged between the inlet of the box body and the polishing device; the shot blasting device I comprises a storage box I, a spiral feeder, a storage box II, an upper shot blasting machine, a threaded rod I, a telescopic sleeve I, a lower shot blasting machine, a threaded rod II, a connecting pipe I, a hydraulic cylinder I, a pushing block, a telescopic sleeve II, a guide chute I, a distributing chute, a connecting plate II, a storage box, a filter screen I, a fan, a screening cylinder I, a screening cylinder, a collecting cylinder, a spiral plate, a baffle plate, an air inlet cylinder, a connecting chute II, a guide chute II and a motor III; the diameter of the pill used in the pill-throwing device I is larger than that of the pill used in the pill-throwing device II. The utility model can well and uniformly clean shot materials after shot blasting while ensuring the transverse roughness of the surface of the stainless steel strip.

Description

Device for improving uniformity of transverse roughness of stainless steel strip steel surface
Technical Field
The utility model belongs to the technical field of stainless steel strip surface treatment, and particularly relates to a device for improving the uniformity of the transverse roughness of the surface of stainless steel strip.
Background
In the production process of stainless steel strip, the surface quality of the stainless steel strip is one of the key factors influencing the improvement of the product performance, but in the pre-working procedure, the surface roughness of the stainless steel strip is uneven due to the high-frequency vibration of a process system, the friction between a processing tool and a processed surface or unexpected scratch and collision, and the surface roughness of the stainless steel strip is uneven after pickling, so that the surface roughness of the stainless steel strip is required to be uniformly adjusted before pickling, and the surface quality problem is prevented when the stainless steel strip is pickled;
according to retrieval, a double-pill crawler-type shot blasting strengthening machine tool with the patent number of 202121195145.3 comprises a lower recycling bin, a set of bidirectional vibrating conveyor, a set of ball feeding valve, a whole set of ball feeding valve, a ball blasting machine and a ball blasting chamber, wherein the bidirectional vibrating conveyor is arranged at the bottom of the machine tool, the two ends of the bidirectional vibrating conveyor extend to the left and right of the thick and thin ball blasting machines on two sides, the upper part of the thick and thin ball lifting machine is connected with the thick and thin ball feeding separator, the bottom of the thick and thin ball feeding separator is connected with a thick and thin storage sand box, the ball blasting machine is arranged at the top of the ball blasting chamber, and the bottom of the ball blasting chamber is provided with a rotary track; the device performs shot blasting reinforcement on a workpiece by switching the coarse and fine shots, the shot falls into a lower bin of the device after being shot blasting, the coarse and fine shots are sent into a coarse and fine shot lifting machine by a bidirectional vibration conveyor, the coarse and fine shots are sent into a coarse and fine shot separator by the coarse and fine shot lifting machine to be separated, and then enter a coarse and fine storage sand box, and enter a shot blasting machine through a shot supply valve for recycling; in the treatment process, only a dust removal fan is used for removing dust, but impurities adhered to the surface of the steel shot cannot be cleaned, so that the shot blasting effect of the steel shot is reduced after long-time accumulation; in addition, vibration can be generated in the steel shot transportation process, and impurities partially adhered to the surface of the steel shot can fall into a transportation device in the transportation process, so that the operation of equipment can be influenced by long-time accumulation; in view of the above, a device for improving the uniformity of the transverse roughness of the surface of the stainless steel strip is provided, and the shot materials after shot blasting can be cleaned while the transverse roughness of the surface of the stainless steel strip can be well and uniformly achieved.
Disclosure of Invention
The utility model aims to overcome the defects in the prior art and provides a device for improving the uniformity of the transverse roughness of the surface of stainless steel strip.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:
the device for improving the uniformity of the transverse roughness of the surface of the stainless steel strip comprises a box body, a shot blasting device I, a shot blasting device II, a cleaning device and a polishing device; the cleaning device is provided with two groups which are respectively connected with the inlet and the outlet of the box body; the polishing device is arranged in the middle of the box body; the shot blasting device I is arranged between the inlet of the box body and the polishing device; the shot blasting device II is arranged between the outlet of the box body and the polishing device; the diameter of the pill used in the pill-blasting device I is larger than that of the pill used in the pill-blasting device II; the box body comprises a mounting box, a baffle I, a guide plate, a connecting plate I, a sliding groove, a baffle, a receiving groove, a rack, a motor I, a partition board, a connecting groove I, a connecting seat II, a motor II and a gear I; the inlet and the outlet of the installation box are provided with sliding grooves, the two sides of the installation box are provided with connecting grooves, the top of the installation box is provided with a plurality of sliding grooves, the partition plate is fixedly connected in the middle of the installation box, the installation grooves are arranged above the partition plate, and the two sides of the partition plate are provided with connecting boxes and sliding blocks; the connecting plate I is provided with a pair of connecting plates which are respectively and fixedly connected above an inlet and an outlet of the mounting box; the baffle plate I is fixedly connected with the mounting box and the partition plate on one side of the partition plate, and the baffle plate I is fixedly connected with the mounting box and the partition plate on the other side of the partition plate; the guide plates are arranged in a pair and fixedly connected with the mounting box above the partition plate; the two sides of the connecting groove I are provided with sliding blocks, the two ends and the middle of the connecting groove I are provided with connecting seats II, the side edge of the inlet of the connecting groove I is shorter than the side edge of the outlet of the connecting groove I, and the top of the connecting groove I is in sliding connection with a pair of guide plates; the bottom of the receiving trough is provided with a through trough, and the bottom of the receiving trough is fixedly connected with the top end of the partition plate; the rack is fixedly connected above the connecting grooves on two sides of the mounting box at the inner side of the receiving groove; the motor I is fixedly connected to one side of the installation box through a motor seat, and a pair of chain wheels are arranged at the output end of the motor I; the motor II is fixedly connected above the connecting groove I through a motor seat, and a gear is arranged at the output end of the motor II; the gear I is provided with a pair of gears, the gears are respectively connected above the connecting groove I through the rotation of the connecting seat, one side of the gear I is provided with a chain wheel, the gears I are meshed with the gears on the output ends of the motor II on two sides of the motor II, and the chain wheel on one side of the gear I is connected with the chain wheel on the threaded rod I through a chain.
The shot blasting device I comprises a storage box I, a spiral feeder, a storage box II, an upper shot blasting machine, a threaded rod I, a telescopic sleeve I, a lower shot blasting machine, a threaded rod II, a connecting pipe I, a hydraulic cylinder I, a pushing block, a telescopic sleeve II, a guide chute I, a distributing chute, a connecting plate II, a storage box, a filter screen I, a fan, a screening cylinder I, a screening cylinder, a collecting cylinder, a spiral plate, a baffle plate, an air inlet cylinder, a connecting groove II, a guide chute II and a motor III; the storage box I is fixedly connected to the top of the mounting box through a support frame, a sliding groove is formed in the bottom of the storage box I, and a pair of connecting holes are respectively formed in two sides of the storage box I; the two ends and the middle of the threaded rod I are rotationally connected with a connecting seat II on the connecting groove I, the threaded rod I is fixedly connected with a chain wheel in the connecting seat II in the middle of the connecting groove I, and the directions of threads at the two ends of the threaded rod I are opposite; the upper shot blasting machine is provided with a pair of sliding blocks which are respectively connected with the sliding blocks on the connecting groove I in a sliding manner through the two sides of the connecting seat II in the middle of the connecting groove I by the base, and one side of the base of the upper shot blasting machine is in threaded connection with the threaded rod I; the bottom of the telescopic sleeves I are respectively connected with a pair of upper shot blasting machines, and the top of the telescopic sleeves I is fixedly connected with a sliding plate which is in sliding connection in a sliding groove and in the sliding groove at the bottom of the storage box I; one end of the threaded rod II is rotationally connected with the mounting box, the middle of the threaded rod II is rotationally connected with the connecting box on the partition plate, the other end of the threaded rod II penetrates through a through hole on one side of the mounting box to be fixedly connected with the chain wheel, the thread directions of the two ends of the threaded rod II are opposite, and the chain wheel on the threaded rod II is connected with one of the chain wheels on the output end of the motor I through a chain; the lower shot blasting machine is provided with a pair of lower shot blasting machines, the lower shot blasting machines are respectively connected with the sliding blocks on the partition plate in a sliding manner through the two sides of the connecting box on the partition plate by the base, and one side of the base of each lower shot blasting machine is in threaded connection with the threaded rod II; the telescopic sleeves II are provided with a pair, one end of each telescopic sleeve II is connected with the lower shot blasting machine, and the other end of each telescopic sleeve II passes through the mounting box and is fixedly connected to the outer side of the mounting box; the screw feeders are provided with a pair of feeding holes, the feeding holes of the pair of screw feeders are respectively and fixedly connected in a storage box II arranged on two sides of the mounting box, and the discharging holes are respectively connected with the connecting holes on two sides of the storage box I; one end of the connecting pipe I is fixedly connected with the other connecting holes on the two sides of the storage box I respectively, and the other end of the connecting pipe I is fixedly connected with the pair of telescopic sleeves II outside the installation box respectively; the pushing blocks are provided with a pair, one ends of the pushing blocks are respectively inserted into the telescopic sleeves II, and the extending ends of the hydraulic cylinders I fixedly connected to one side of the telescopic sleeves II through the fixing seats are fixedly connected with the other ends of the pushing blocks; the top end of the guide chute I is fixedly connected with the baffle plate I, the bottom of the guide chute I is fixedly connected with a Y-shaped material dividing chute, and the bifurcation ends of the material dividing chute are respectively provided with a connecting plate II; the motor III is provided with a pair of motors which are respectively and fixedly connected to the bottom of the bifurcation end of the dividing chute, and the output end of the motor III is provided with a gear; the screening cylinder I is provided with a pair of screening cylinders and is respectively connected with a connecting plate II on the branching end of the material dividing groove, and the screening cylinder I comprises a screening cylinder, a collecting cylinder, a spiral plate, a baffle, an air inlet cylinder, a connecting groove II and a material guiding groove II; the top of the screen cylinder is provided with a connecting groove and gear teeth meshed with a gear at the output end of the motor III, the screen cylinder is rotationally connected with the connecting plate II, a spiral plate is arranged inside the screen cylinder, and a plurality of uniformly distributed irregular baffles are arranged on the inner wall of the screen cylinder; the bottom end of the collecting cylinder is provided with a connecting groove, and the collecting cylinder is fixedly connected with the storage box through a guide groove II; one side of the connecting groove II is fixedly connected with the bottom end of the collecting cylinder, and the other side of the connecting groove II passes through the mounting box and is fixedly connected with the storage box II; one end of the air inlet cylinder is fixedly connected with the collecting cylinder above the connecting groove II; the bottom of the screen cylinder is rotationally connected in a connecting groove at the bottom end of the collecting cylinder, the top end of the collecting cylinder is rotationally connected in a connecting groove at the top of the screen cylinder, and the air inlet cylinder is rotationally connected in the middle of the spiral plate; the filter screen I is equipped with a pair of, and symmetrical connection is inside the bin, and fan air intake passes through pipeline and bin fixed connection between a pair of filter screen I, and the air outlet passes through the pipeline connection to install outside the case.
The shot blasting device II comprises a screening cylinder II, a filter cartridge, a cleaning roller, a rotating ring I, a baffle plate II, a connecting pipe II, a gear ring, an air inlet pipe, a connecting seat I, a guide box, a hydraulic cylinder II, a guide groove III, a motor IV, a connecting plate III and a storage box III; the structure of the shot blasting device II is different from that of the shot blasting device I in that a pair of guide grooves III are arranged, one end of each guide groove III is fixedly connected with a baffle plate, and the other end of each guide groove III is provided with a connecting plate III; the motor IV is fixedly connected below the guide chute III through a motor seat, and a gear is arranged at the output end of the motor IV; the screening cylinder II is provided with a pair of screening cylinders and comprises a filter cylinder, a cleaning roller, a rotating ring I, a baffle plate II, a connecting pipe II, a gear ring, an air inlet pipe and a connecting seat I; the top end of the filter cartridge is provided with two groups of gear teeth, the connecting plate III is rotationally connected between the two groups of gear teeth at the top end of the filter cartridge, the bottom end of the filter cartridge is rotationally connected to one side of the guide box, and one group of gear teeth at the top end of the filter cartridge is meshed with a gear at the output end of the motor IV; the gear ring is fixedly connected with the connecting plate III, and the connecting seat I is fixedly connected with the connecting plate III through a connecting shaft at the inner side of the gear ring; the rotary ring I is rotatably connected to the bottom of the filter cartridge, and a fixed ring and a fixed seat are arranged on the inner side of the rotary ring I; the cleaning roller is provided with bristles and a plurality of baffles, one end of the cleaning roller is rotationally connected in a fixed seat at the inner side of the rotating ring I, and the other end of the cleaning roller is meshed with the gear ring and the other group of gear teeth at the top end of the filter cartridge through gears; one end of the connecting pipe II passes through the fixed ring on the inner side of the rotating ring I and is fixedly connected with the bottoms of the air inlet pipes, the other end of the connecting pipe II passes through the baffle plate II and the through hole on the guide box and is connected with the air outlet of the fan, the top of the air inlet pipe is fixedly connected with the connecting seat I, and the air inlet pipe is provided with a plurality of spray heads; the material baffle II is connected to the bottom of the filter cartridge in a sliding manner; the guide boxes are provided with a pair, and the guide boxes penetrate through the mounting boxes through connecting pipelines to be fixedly connected with the storage box III; the hydraulic cylinder II is provided with a pair of hydraulic cylinders II, the hydraulic cylinders II are fixedly connected to one side of the material guide box, and the extending ends of the hydraulic cylinders II are fixedly connected with the material baffle II.
The cleaning device comprises a hydraulic cylinder III, a cleaning plate, a scrubbing brush, a connecting shaft I, a lifting plate, a connecting plate IV, a fixing seat, a hydraulic cylinder IV, a connecting rod I, a supporting seat, a connecting rod II, a rotating seat I, a rotating seat II, a spring, a pushing block, a connecting shaft II, a connecting rod III and a limiting seat; the top of the lifting plate is slidably connected in a sliding groove at the inlet or the outlet of the installation box, one side of the lifting plate is provided with a connecting plate IV, the other side of the lifting plate is provided with a pair of supporting seats, a through groove is respectively arranged below the pair of supporting seats, and baffle plates at two sides of the supporting seats are provided with pushing blocks; one end of the hydraulic cylinder III is fixedly connected with the connecting plate I, and the extending end is fixedly connected with the connecting plate IV; one end of the hydraulic cylinder IV is fixedly connected with the connecting plate I, and the output end of the hydraulic cylinder IV is fixedly connected with the connecting plate IV; a connecting ring is arranged above the rotating seat I, the lower part of the rotating seat I passes through a through hole in the supporting seat and is fixedly connected with one end of the connecting rod II, and the other end of the connecting rod II passes through a through groove in the lifting plate and is rotationally connected with one end of the connecting rod I; the hydraulic cylinder IV is fixedly connected with the lifting plate below the connecting plate IV through a fixing seat, a connecting seat is arranged at the output end of the hydraulic cylinder IV, and the hydraulic cylinder IV is rotationally connected with the other end of the connecting rod I through the connecting seat at the output end; the scrubbing brush is fixedly connected to one side of the cleaning plate through bolts; the top end of the cleaning plate is fixedly connected with the connecting shaft I, and one end of the connecting shaft I penetrates through the connecting ring above the rotating seat I to be fixedly connected with the bottom of the rotating seat II; a connecting cylinder is arranged above the rotating seat II, the connecting shaft II is in sliding connection with the connecting cylinder above the rotating seat II through a limiting plate at the bottom, and a spring is arranged between the connecting shaft II and the connecting cylinder above the rotating seat II along the connecting shaft II through a limiting plate at the bottom; the limiting seat is fixedly connected above the connecting ring on the rotating seat I, limiting shafts are arranged on two sides of the limiting seat, one end of the connecting rod III is rotationally connected with the other end of the middle of the limiting seat, and the other end of the connecting rod III is rotationally connected with the top end of the connecting shaft II through the connecting shaft.
The polishing device comprises a hydraulic cylinder V, a connecting rod I, a connecting rod II, a connecting rod III, a draught fan, a supporting frame, a collecting box, a screening box, a screen plate I, a screen plate II, a filter screen II, a rolling brush, a gear III, a rotating ring II, a conveyor belt, a supporting roller, a motor V, a sliding seat, a connecting rod IV, a connecting rod V, a hydraulic cylinder VI, a sliding rod, a connecting plate V, a brush belt, a motor VI, a rotating shaft, a supporting roller and a polishing block; the hydraulic cylinder V is provided with a pair of guide plates, the hydraulic cylinder V is fixedly connected with the installation box between the pair of guide plates, and the extending end of the hydraulic cylinder V is fixedly connected with the connecting groove I; the connecting rods I, II and III are respectively provided with two groups and are respectively connected to the two ends of the connecting groove I; one end of the connecting rod I is fixedly connected inside the connecting groove I, the connecting rod III is rotationally connected with the mounting box, one end of the connecting rod III is rotationally connected with the top end of the connecting rod II, and the other end of the connecting rod III is rotationally connected with the middle of the connecting rod I; the two ends of one connecting plate V are rotationally connected with the other end of the connecting rod I, the two ends of the other connecting plate V are rotationally connected with the bottom end of the connecting rod II, and the polishing block is fixedly connected in the middle of the connecting plate V; the motor VI is fixedly connected to one end of the connecting plate V through a motor seat, and a chain wheel is arranged at the output end of the motor VI; the brush belt is rotatably connected to two sides of the connecting plate V through supporting rollers, the supporting rollers adjacent to the motor VI are connected with each other through a rotating shaft rotatably connected with the connecting plate V, a chain wheel is arranged on one side of the rotating shaft, and the chain wheel on the rotating shaft is connected with the chain wheel at the output end of the motor VI through a chain; the screening box is fixedly connected to one side of the installation box, a collecting box is arranged on one side of the screening box, the other side of the screening box is fixedly connected with the induced draft fan, and a filter screen II is arranged between the induced draft fan and the screening box; the support frame is fixedly connected with the screening box at the bottom of the induced draft fan; the screening plate I is fixedly connected inside the screening box, and a gap is reserved between one side of the screening plate I and the screening box; one end of the screen plate II is fixedly connected with the screening box above the induced draft fan, and the other end of the screen plate II is fixedly connected with the screening box below the collecting box; a baffle is arranged between the screen plate I and the screen plate II; one end of the conveyor belt is rotatably connected in the mounting groove above the partition plate through a supporting roller, and the other end of the conveyor belt penetrates through the mounting box and is rotatably connected to the top of the screening box through another supporting roller; the motor V is fixedly connected to the top of the screening box through a motor seat, and penetrates through the screening box to be fixedly connected with a supporting roller rotatably connected to the top of the screening box; the rolling brushes are provided with a pair of rolling brushes, two ends of each rolling brush are provided with gears III meshed with the racks, and connecting shafts at two ends of each rolling brush penetrate through connecting grooves at two sides of the mounting box to be connected with the rotating ring II in a rotating mode; the sliding rods are provided with a pair, are fixedly connected to two sides of the installation box respectively, and the sliding seat is in sliding connection with the sliding rods; one end of the connecting rod IV is rotationally connected to one side of the sliding seat, and the other end of the connecting rod IV is rotationally connected with a connecting shaft at one end of the rolling brush; one end of the connecting rod V is rotationally connected to the other side of the sliding seat, and the other end of the connecting rod V is rotationally connected with a connecting shaft at one end of the other rolling brush; the hydraulic cylinder VI is provided with a pair of hydraulic cylinders which are respectively and fixedly connected to two sides of the installation box, and the extending end of each hydraulic cylinder VI is fixedly connected with a rotating ring II on one rolling brush.
Compared with the prior art, the utility model has the beneficial effects that:
1) The receiving groove plays a role in guiding impurities falling from the surface of the stainless steel strip into the mounting groove above the partition plate; starting a motor II, wherein a gear at the output end of the motor II drives a gear I to rotate, so that a chain wheel fixedly connected to one side of the gear I drives a threaded rod I to rotate; the motor II is started to drive the threaded rod I to rotate, and the base of the upper shot blasting machine is matched with the threaded rod I to drive the pair of upper shot blasting machines to slide along the sliding block on the connecting groove I, so that the distance between the pair of upper shot blasting machines is changed to adapt to shot blasting of stainless steel strip steel with different widths; the telescopic sleeve I is matched with the sliding plate in the sliding groove and the sliding groove at the bottom of the storage box I, so that the telescopic sleeve I can conveniently slide along the sliding block on the connecting groove I along with the upper shot blasting machine, and meanwhile, the telescopic sleeve I can conveniently extend and retract to conveniently move along with the connecting groove I along with the upper shot blasting machine;
2) Starting a motor I, controlling a threaded rod II to rotate, and accordingly controlling a base of a lower shot blasting machine to be matched with the threaded rod II to drive a pair of lower shot blasting machines to slide along a sliding block on a partition plate, so that the distance between the pair of lower shot blasting machines is changed, and the pair of lower shot blasting machines can throw shots on stainless steel strip steel with different widths; the telescopic sleeve II can extend or contract along with the movement of the lower shot blasting machine; the hydraulic cylinder I stretches to drive the pushing block to slide in the telescopic sleeve II, so that the pill entering the telescopic sleeve II along the connecting pipe I is pushed into the lower shot blasting machine;
3) The irregular baffle plate in the screen cylinder can stir the pill material to prevent the pill material from being accumulated below the screen cylinder; the stainless steel strip steel is subjected to shot blasting cleaning in a shot blasting device I, shot materials after shot blasting fall onto a baffle I and then roll into a guide chute I along the baffle I, the shot materials are respectively guided into a pair of screen drums through a dividing chute, a motor III is started to drive the screen drums to rotate in a collecting drum, the shot materials in the screen drums roll along a spiral plate, impurities adhered to the surfaces of the shot materials are vibrated and fall off through vibration, a fan is started, air entering the collecting drum and a storage box through an air inlet drum sucks the impurities falling on the surfaces of the shot materials into the storage box, the air is filtered by a filter screen I and then is pumped out of the device by the fan, the impurities falling on the shot materials are stored in the storage box, the steel shot rolls to a connecting chute II along the spiral plate, the shot materials enter a storage box II through the connecting chute II, the shot materials in the storage box II are transported into the storage box I through the spiral feeder, and the shot blasting machine is used;
4) The cleaning roller plays a role in preventing the pellet from accumulating below the filter cartridge and cleaning the surface of the pellet, and meanwhile, the baffle plate on the cleaning roller lifts up the pellet to increase collision between the pellet and the filter cartridge, and impurities on the surface of the pellet are vibrated down by vibration; the air inlet pipe blows impurities brushed off by the cleaning roller into the filter cartridge, and can clean the impurities attached to the surface of the cleaning roller; the stainless steel strip steel performs shot blasting reinforcement in a shot blasting device II, a shot material falling on a baffle plate enters a filter cartridge through a guide groove III, a motor IV is started to control the filter cartridge to rotate, gear teeth and a gear ring in the filter cartridge are meshed with a gear at the top of a cleaning roller, the cleaning roller rotates around an air inlet pipe while rotating, impurities adhered to the surface of the shot material are cleaned, a hydraulic cylinder II is retracted after cleaning is completed, the shot material enters a guide box, and the shot material enters a storage box III through the guide box, so that the spiral feeder is convenient to feed;
5) The hydraulic cylinder III stretches out and draws back to enable the connecting rod I to drive the connecting rod II to control the rotating seat I to rotate, and meanwhile, the rotating seat I drives the connecting shaft I to control the cleaning plate to swing so as to clean the residual pill and impurities on the surface of the stainless steel strip; when the cleaning plate is close to the side wall of the installation box, the pushing block pushes the rotating seat II, the rotating seat II drives the connecting rod III to incline to the limiting shaft on one side of the limiting seat, meanwhile, the rotating seat II drives the connecting shaft I to control the cleaning plate to overturn upwards, so that the cleaning plate is prevented from sweeping pills and impurities to a position which is not easy to clean;
6) The hydraulic cylinder V stretches out, the guide plate of the connecting groove I is controlled to slide downwards until the longer side edge of the connecting groove I is close to the stainless steel strip steel, meanwhile, the connecting groove I drives the connecting rod I to push one end of the connecting rod III downwards, and the other end of the connecting rod III pulls the connecting rod II upwards, so that the connecting plate V connected with the connecting rod I and the connecting plate V connected with the connecting rod II are controlled to be tightly attached to the surface of the stainless steel strip steel, the polishing blocks polish the upper surface and the lower surface of the stainless steel strip steel, and meanwhile, the motor VI is started to control the rotating shaft to drive the supporting roller to rotate, so that the brush belt brushes to sweep away the shot materials entering the polishing device and impurities on the surface of the stainless steel strip steel; the baffle between the screen plate I and the screen plate II reduces the impurity entering the collecting box, and simultaneously collides with the pills to increase vibration in the falling process of the pills, and meanwhile, the pills are guided to the screen plate II to increase the time for removing the impurity on the surface of the pills;
7) The brushing belt brushes the ball materials and impurities which are swept off through the receiving groove to fall onto the conveying belt, the conveying belt is driven by the motor V to convey the ball materials and impurities into the screening box, the impurities enter the bottom of the screening box under the action of the induced draft fan and the filter screen II, the ball materials fall onto the baffle between the screen plate I and the screen plate II through the screen plate I and then fall onto the screen plate II, the ball materials enter the collecting box along the screen plate II, and finally the collecting box conveys the ball materials into the storage box II; the rolling brushes are controlled to move along the connecting grooves on the mounting box by the aid of the telescopic control of the hydraulic cylinders VI, meanwhile, the gear III is meshed with the racks, the connecting rods IV and the connecting rods V are matched to enable the rolling brushes to move in the same mode, the rolling brushes are enabled to rotate to brush the bottom face of the butt joint trough, and impurities are prevented from accumulating.
Drawings
FIG. 1 is a schematic diagram of a device for improving the uniformity of the transverse roughness of the surface of stainless steel strip;
FIG. 2 is a schematic diagram of the structure of the shot blasting device I in FIG. 1;
FIG. 3 is an enlarged schematic view of the portion A of FIG. 2;
FIG. 4 is a schematic view of the structure of the case and the blasting device I in FIG. 1;
FIG. 5 is a schematic diagram of the structure of the guide chute I and the sieving cylinder I in FIG. 1;
FIG. 6 is an enlarged schematic view of section B of FIG. 5;
FIG. 7 is a schematic view of the structure of the shot blasting apparatus II in FIG. 1;
FIG. 8 is a schematic view of the structure of the case and the shot blasting device II in FIG. 1;
FIG. 9 is a schematic diagram of the structure of the screen cylinder II, the guide box and the guide groove III in FIG. 1;
FIG. 10 is a schematic view of the cleaning apparatus of FIG. 1;
FIG. 11 is an enlarged schematic view of the portion C of FIG. 10;
FIG. 12 is a schematic view of the housing and polishing apparatus of FIG. 1;
FIG. 13 is an enlarged schematic view of the portion D of FIG. 12;
FIG. 14 is a schematic view of the construction of the polishing apparatus of FIG. 1;
FIG. 15 is an enlarged schematic view of portion E of FIG. 14;
fig. 16 is a schematic view of the structure of the connection plate v in fig. 1;
FIG. 17 is a schematic view of the polishing apparatus of FIG. 1;
in the figure: 1. a case; 101. a mounting box; 1011. a striker plate I; 1012. a guide plate; 1013. a connecting plate I; 1014. a sliding groove; 1015. a striker plate; 102. a receiving groove; 1021. a rack; 103. a motor I; 104. a partition plate; 105. a connecting groove I; 1051. a connecting seat II; 1052. a motor II; 1053. a gear I; 2. a shot blasting device I; 201. a storage box I; 202. a spiral feeder; 2021. a storage box II; 203. a shot blasting machine is arranged; 2031. a threaded rod I; 2032. a telescopic sleeve I; 204. a lower shot blasting machine; 2041. a threaded rod II; 2042. a connecting pipe I; 2043. a hydraulic cylinder I; 2044. a pushing block; 2045. a telescopic sleeve II; 205. a guide chute I; 2051. a material dividing groove; 2052. a connecting plate II; 206. a storage tank; 2061. a filter screen I; 2062. a blower; 207. a screening cylinder I; 2071. a screen drum; 2072. a collection cylinder; 2073. a spiral plate; 2074. a baffle; 2075. an air inlet cylinder; 2076. a connecting groove II; 2077. a guide chute II; 208. a motor III; 3. shot blasting device II; 301. a screening cylinder II; 3011. a filter cartridge; 3012. a cleaning roller; 3013. a rotating ring I; 3014. a baffle II; 3015. a connecting pipe II; 3016. a gear ring; 3017. an air inlet pipe; 3018. a connecting seat I; 302. a guide box; 3021. a hydraulic cylinder II; 303. a guide groove III; 3031. a motor IV; 3032. a connecting plate III; 304. a storage box III; 4. a cleaning device; 401. a hydraulic cylinder III; 402. a cleaning plate; 4021. a scrubber; 4022. a connecting shaft I; 403. a lifting plate; 4031. a connecting plate IV; 4032. a fixing seat; 404. a hydraulic cylinder IV; 4041. a connecting rod I; 405. a support base; 4051. a connecting rod II; 4052. a rotating seat I; 4053. a rotating seat II; 4054. a spring; 4055. a pushing block; 4056. a connecting shaft II; 4057. a connecting rod III; 4058. a limit seat; 5. a polishing device; 501. a hydraulic cylinder V; 5011. a connecting rod I; 5012. a connecting rod II; 5013. a connecting rod III; 502. an induced draft fan; 503. a support frame; 504. a collection box; 505. a screening box; 5051. a sieve plate I; 5052. a screen plate II; 5053. a filter screen II; 506. a rolling brush; 5061. a gear III; 5062. a rotating ring II; 507. a conveyor belt; 5071. a support roller; 5072. a motor V; 508. a sliding seat; 5081. a connecting rod IV; 5082. a connecting rod V; 5083. a hydraulic cylinder VI; 5084. a slide bar; 509. a connecting plate V; 5091. brushing a belt; 5092. a motor VI; 5093. a rotating shaft; 5094. a support roller; 5095. polishing the block; 6. stainless steel strip steel.
Detailed Description
The technical scheme of the present utility model will be further specifically described below with reference to fig. 1 to 17 for the convenience of understanding of those skilled in the art.
A device for improving the uniformity of the transverse roughness of the surface of stainless steel strip comprises a box body 1, a shot blasting device I2, a shot blasting device II 3, a cleaning device 4 and a polishing device 5; the cleaning device 4 is provided with two groups which are respectively connected with the inlet and the outlet of the box body 1; the polishing device 5 is arranged in the middle of the box body 1; the shot blasting device I2 is arranged between the inlet of the box body 1 and the polishing device 5; the shot blasting device II 3 is arranged between the outlet of the box body 1 and the polishing device 5; the diameter of the pill used in the pill-blasting device I2 is larger than that of the pill used in the pill-blasting device II 3; the box body 1 comprises an installation box 101, a baffle I1011, a guide plate 1012, a connecting plate I1013, a sliding groove 1014, a baffle 1015, a receiving groove 102, a rack 1021, a motor I103, a partition 104, a connecting groove I105, a connecting seat II 1051, a motor II 1052 and a gear I1053; sliding grooves are formed in the inlet and the outlet of the installation box 101, connecting grooves are formed in two sides of the installation box 101, a plurality of sliding grooves 1014 are formed in the top of the installation box 101, a partition plate 104 is fixedly connected in the middle of the installation box 101, the installation grooves are formed in the upper portion of the partition plate 104, and connecting boxes and sliding blocks are arranged on two sides of the partition plate; the connecting plate I1013 is provided with a pair of upper parts fixedly connected to the inlet and the outlet of the mounting box 101 respectively; the baffle I1011 is fixedly connected with the installation box 101 and the baffle 104 on one side of the baffle 104, and the baffle 1015 is fixedly connected with the installation box 101 and the baffle 104 on the other side of the baffle 104; the guide plates 1012 are provided with a pair, and the guide plates 1012 are fixedly connected with the installation box 101 above the partition plates 104; the two sides of the connecting groove I105 are provided with sliding blocks, the two ends and the middle of the connecting groove I105 are provided with connecting seats II 1051, the side edge of the inlet of the connecting groove I105 is shorter than the side edge of the outlet of the connecting groove I105, and the top of the connecting groove I105 is in sliding connection with a pair of guide plates 1012, so that the hydraulic cylinder V501 can conveniently drive the connecting groove I105 to lift in the guide plates 1012; the bottom of the receiving groove 102 is provided with a through groove, the bottom of the receiving groove 102 is fixedly connected with the top end of the partition plate 104, and the receiving groove 102 plays a role in guiding impurities falling from the surface of the stainless steel strip 6 into an installation groove above the partition plate 104; the rack 1021 is fixedly connected above the connecting grooves on two sides of the mounting box 101 at the inner side of the receiving groove 102; the motor I103 is fixedly connected to one side of the installation box 101 through a motor base, and a pair of chain wheels are arranged at the output end of the motor I103; the motor II 1052 is fixedly connected above the connecting groove I105 through a motor seat, and a gear is arranged at the output end of the motor II 1052; the gear I1053 is provided with a pair of gears, the gears are respectively connected above the connecting groove I105 through a connecting seat in a rotating way, one side of the gear I1053 is provided with a chain wheel, the gears I1053 on two sides of the motor II 1052 are meshed with gears on the output end of the motor II 1052, and the chain wheel on one side of the gear I1053 is connected with the chain wheel on the threaded rod I2031 through a chain; and the motor II 1052 is started, and the gear at the output end of the motor II 1052 drives the gear I1053 to rotate, so that the chain wheel fixedly connected to one side of the gear I1053 drives the threaded rod I2031 to rotate.
The shot blasting device I2 comprises a storage box I201, a spiral feeder 202, a storage box II 2021, an upper shot blasting machine 203, a threaded rod I2031, a telescopic sleeve I2032, a lower shot blasting machine 204, a threaded rod II 2041, a connecting pipe I2042, a hydraulic cylinder I2043, a pushing block 2044, a telescopic sleeve II 2045, a guide groove I205, a distribution groove 2051, a connecting plate II 2052, a storage box 206, a filter screen I2061, a fan 2062, a screening cylinder I207, a screening cylinder 2071, a collecting cylinder 2072, a spiral plate 2073, a baffle 2074, an air inlet cylinder 2075, a connecting groove II 2076, a guide groove II 2077 and a motor III 208; the storage box I201 is fixedly connected to the top of the mounting box 101 through a support frame, a sliding groove is formed in the bottom of the storage box I201, and a pair of connecting holes are respectively formed in two sides of the storage box I201; the two ends and the middle of the threaded rod I2031 are rotationally connected with a connecting seat II 1051 on the connecting groove I105, the threaded rod I2031 is fixedly connected with a chain wheel in the connecting seat II 1051 in the middle of the connecting groove I105, and the thread directions of the two ends of the threaded rod I2031 are opposite; the upper shot blasting machine 203 is provided with a pair of upper shot blasting machines 203, the upper shot blasting machines are respectively connected with the sliding blocks on the connecting groove I105 in a sliding manner through two sides of the connecting seat II 1051 in the middle of the connecting groove I105, one side of the base of each upper shot blasting machine 203 is in threaded connection with the threaded rod I2031, when the motor II 1052 is started to drive the threaded rod I2031 to rotate, the base of each upper shot blasting machine 203 is matched with the threaded rod I2031 to drive the pair of upper shot blasting machines 203 to slide along the sliding blocks on the connecting groove I105, so that the distance between the pair of upper shot blasting machines 203 is changed to perform shot blasting on stainless steel strip steel 6 with different widths; the bottom of the telescopic sleeves I2032 are respectively connected with the pair of upper shot blasting machines 203, the top of the telescopic sleeves I2032 is fixedly connected with sliding plates which are in sliding connection with the sliding groove 1014 and the sliding groove at the bottom of the storage box I201, the telescopic sleeves I2032 are matched with the sliding plates in the sliding groove 1014 and the sliding groove at the bottom of the storage box I201, the telescopic sleeves I2032 conveniently slide along the upper shot blasting machines 203 along the sliding blocks on the connecting groove I105, and meanwhile, the telescopic sleeves I2032 conveniently extend and retract to enable the upper shot blasting machines 203 to conveniently move along the connecting groove I105; one end of the threaded rod II 2041 is rotationally connected with the mounting box 101, the middle of the threaded rod II is rotationally connected with the connecting box on the partition plate 104, the other end of the threaded rod II 2041 passes through a through hole on one side of the mounting box 101 to be fixedly connected with a chain wheel, the thread directions of the two ends of the threaded rod II 2041 are opposite, and the chain wheel on the threaded rod II 2041 is connected with one of the chain wheels on the output end of the motor I103 through a chain; the lower shot blasting machine 204 is provided with a pair of connecting boxes which are respectively connected with the sliding blocks on the partition plate 104 in a sliding way through the two sides of the connecting boxes on the partition plate 104, and one side of the base of the lower shot blasting machine 204 is in threaded connection with the threaded rod II 2041; starting a motor I103, controlling a threaded rod II 2041 to rotate, and controlling the base of a lower shot blasting machine 204 to cooperate with the threaded rod II 2041 to drive a pair of lower shot blasting machines 204 to slide along a sliding block on a partition plate 104, so that the distance between the pair of lower shot blasting machines 204 is changed, and the pair of lower shot blasting machines 204 perform shot blasting on stainless steel strip steel 6 with different widths; the telescopic sleeve II 2045 is provided with a pair, one end of the telescopic sleeve II 2045 is connected with the lower shot blasting machine 204, the other end of the telescopic sleeve II 2045 passes through the mounting box 101 to be fixedly connected to the outer side of the mounting box 101, and the telescopic sleeve II 2045 can stretch or shrink along with the movement of the lower shot blasting machine 204; the screw feeders 202 are provided with a pair, the feed inlets of the pair of screw feeders 202 are respectively and fixedly connected in a storage box II 2021 arranged on two sides of the mounting box 101, and the discharge outlets are respectively connected with the connecting holes on two sides of the storage box I201; the connecting pipes I2042 are provided with a pair, one ends of the connecting pipes I2042 are fixedly connected with the other connecting holes on the two sides of the storage box I201 respectively, and the other ends of the connecting pipes I2042 are fixedly connected with the pair of telescopic sleeves II 2045 respectively on the outer side of the installation box 101; the pushing blocks 2044 are provided with a pair, one ends of the pushing blocks 2044 are respectively inserted into the telescopic sleeves II 2045, and the extending end of the hydraulic cylinder I2043 fixedly connected to one side of the telescopic sleeves II 2045 through a fixed seat is fixedly connected with the other ends of the pushing blocks 2044; the hydraulic cylinder I2043 stretches to drive the pushing block 2044 to slide in the telescopic sleeve II 2045, so that the pill entering the telescopic sleeve II 2045 along the connecting pipe I2042 is pushed into the lower shot blasting machine 204; the top end of the guide chute I205 is fixedly connected with the baffle I1011, the bottom is fixedly connected with the Y-shaped material dividing chute 2051, and the branch ends of the material dividing chute 2051 are respectively provided with a connecting plate II 2052; the motor III 208 is provided with a pair of motors which are respectively and fixedly connected to the bottom of the bifurcation end of the material dividing groove 2051, and the output end of the motor III 208 is provided with a gear; the screening cylinder I207 is provided with a pair of screening cylinders I207 which are respectively connected with a connecting plate II 2052 on the forked end of the dividing chute 2051, and the screening cylinder I207 comprises a screening cylinder 2071, a collecting cylinder 2072, a spiral plate 2073, a baffle 2074, an air inlet cylinder 2075, a connecting groove II 2076 and a guide chute II 2077; the top of the screen cylinder 2071 is provided with a connecting groove and gear teeth meshed with a gear at the output end of the motor III 208, the screen cylinder 2071 is rotationally connected with the connecting plate II 2052, a spiral plate 2073 is arranged inside the screen cylinder 2071, a plurality of uniformly distributed irregular baffles 2074 are arranged on the inner wall of the screen cylinder 2071, and the baffles 2074 can stir the pill materials to prevent the pill materials from piling below the screen cylinder 2071; a connecting groove is formed in the bottom end of the collecting cylinder 2072, and the collecting cylinder 2072 is fixedly connected with the storage box 206 through a guide groove II 2077; one side of the connecting groove II 2076 is fixedly connected with the bottom end of the collecting cylinder 2072, and the other side of the connecting groove II 2076 passes through the mounting box 101 and is fixedly connected with the storage box II 2021; one end of the air inlet cylinder 2075 is fixedly connected with the collecting cylinder 2072 above the connecting groove II 2076; the bottom of the screen cylinder 2071 is rotationally connected in a connecting groove at the bottom end of the collecting cylinder 2072, the top end of the collecting cylinder 2072 is rotationally connected in a connecting groove at the top of the screen cylinder 2071, and the air inlet cylinder 2075 is rotationally connected in the middle of the spiral plate 2073; the filter screen I2061 is provided with a pair, is symmetrically connected inside the storage box 206, the air inlet of the fan 2062 is fixedly connected between the pair of filter screens I2061 through a pipeline and the storage box 206, and the air outlet is connected to the outside of the mounting box 101 through a pipeline; stainless steel band steel 6 is subjected to shot blasting in a shot blasting device I2, shot materials after shot blasting fall onto a baffle I1011 and then roll into a guide chute I205 along the baffle I1011, the shot materials are respectively guided into a pair of screen drums 2071 through a dividing chute 2051, a motor III 208 is started, the motor III 208 drives the screen drums 2071 to rotate in a collecting drum 2072, the shot materials in the screen drums 2071 roll along a spiral plate 2073, impurities adhered to the surfaces of the shot materials are vibrated off through vibration, a fan 2062 is started, the air entering the collecting drum 2072 and a storage box 206 through an air inlet drum 2075 sucks the impurities falling on the surfaces of the steel shot into the storage box 206, the air is filtered by the filter screen I2061 and then is pumped out of the device through the fan 2062, the dropped impurities on the shot materials are reserved in the storage box 206, the steel shot materials roll into a connecting groove II 2076 along the spiral plate 2073, the shot materials enter the storage box II 2021 through the connecting groove II 2021, the shot materials in the storage box II 2021 are conveyed into the storage box I202 through the spiral feeder 202, and the shot blasting machine 204 is used for the shot blasting machine 203 and the blasting machine.
The shot blasting device II 3 comprises a screening cylinder II 301, a filter cartridge 3011, a cleaning roller 3012, a rotating ring I3013, a baffle II 3014, a connecting pipe II 3015, a gear ring 3016, an air inlet pipe 3017, a connecting seat I3018, a guide box 302, a hydraulic cylinder II 3021, a guide box III 303, a motor IV 3031, a connecting plate III 3032 and a storage box III 304; the structure of the shot blasting device II 3 is different from that of the shot blasting device I2 in that a pair of guide grooves III 303 are arranged, one end of each guide groove III 303 is fixedly connected with a baffle 1015, and the other end of each guide groove III is provided with a connecting plate III 3032; the motor IV 3031 is fixedly connected below the guide chute III 303 through a motor seat, and a gear is arranged at the output end of the motor IV 3031; the screening cylinder II 301 is provided with a pair, and the screening cylinder II 301 comprises a filter cylinder 3011, a cleaning roller 3012, a rotating ring I3013, a baffle II 3014, a connecting pipe II 3015, a gear ring 3016, an air inlet pipe 3017 and a connecting seat I3018; two groups of gear teeth are arranged at the top end of the filter cartridge 3011, a connecting plate III 3032 is rotatably connected between the two groups of gear teeth at the top end of the filter cartridge 3011, the bottom end of the filter cartridge 3011 is rotatably connected to one side of the guide box 302, and one group of gear teeth at the top end of the filter cartridge 3011 are meshed with a gear at the output end of the motor IV 3031; the gear ring 3016 is fixedly connected with the connecting plate III 3032, and the connecting seat I3018 is fixedly connected with the connecting plate III 3032 on the inner side of the gear ring 3016 through a connecting shaft; the rotary ring I3013 is rotatably connected to the bottom of the filter cartridge 3011, and a fixed ring and a fixed seat are arranged on the inner side of the rotary ring I3013; the cleaning roller 3012 is provided with bristles and a plurality of baffles, one end of the cleaning roller 3012 is rotatably connected in a fixed seat at the inner side of the rotating ring I3013, and the other end of the cleaning roller 3012 is meshed with the gear ring 3016 and another group of gear teeth at the top end of the filter cartridge 3011 through gears; the cleaning roller 3012 plays a role in preventing the accumulation of the pills below the filter cartridge 3011 and cleaning the surface of the pills, and meanwhile, a baffle on the cleaning roller 3012 lifts up the pills to increase collision between the pills and the filter cartridge 3011, and impurities on the surface of the pills are vibrated down by vibration; one end of the connecting pipe II 3015 penetrates through a fixed ring on the inner side of the rotating ring I3013 to be fixedly connected with the bottoms of the air inlet pipes 3017, the other end of the connecting pipe II 3015 penetrates through a baffle II 3014 and through holes in the guide box 302 to be connected with a fan air outlet, the top of the air inlet pipe 3017 is fixedly connected with the connecting seat I3018, and a plurality of spray heads are arranged on the air inlet pipes 3017; the air inlet pipe 3017 blows impurities brushed off by the cleaning roller 3012 into the filter cartridge 3011, and can clean impurities attached to the surface of the cleaning roller 3012; the baffle II 3014 is connected to the bottom of the filter cartridge 3011 in a sliding manner; the guide boxes 302 are provided with a pair, and the guide boxes 302 penetrate through the mounting box 101 through connecting pipelines to be fixedly connected with the storage box III 304; the hydraulic cylinder II 3021 is provided with a pair, the hydraulic cylinder II 3021 is fixedly connected to one side of the guide box 302, and the extending end of the hydraulic cylinder II 3021 is fixedly connected with the baffle II 3014; stainless steel belt steel 6 is shot blasting reinforced in a shot blasting device II 3, the shot material falling on a material baffle 1015 enters a filter cartridge 3011 through a material guide groove III 303, a motor IV 3031 is started to control the filter cartridge 3011 to rotate, gear teeth and gear rings 3016 in the filter cartridge 3011 are meshed with gears at the top of a cleaning roller 3012, the cleaning roller 3012 rotates around an air inlet pipe 3017 while rotating, impurities adhered to the surface of the shot material are cleaned, a hydraulic cylinder II 3021 is retracted after cleaning is completed, the shot material enters a material guide box 302, and enters a material storage box III 304 through the material guide box 302, so that the spiral feeder 202 is convenient to feed.
The cleaning device 4 comprises a hydraulic cylinder III 401, a cleaning plate 402, a scrubber 4021, a connecting shaft I4022, a lifting plate 403, a connecting plate IV 4031, a fixed seat 4032, a hydraulic cylinder IV 404, a connecting rod I4041, a supporting seat 405, a connecting rod II 4051, a rotating seat I4052, a rotating seat II 4053, a spring 4054, a pushing block 4055, a connecting shaft II 4056, a connecting rod III 4057 and a limiting seat 4058; the top of the lifting plate 403 is slidably connected in a sliding groove at the inlet or outlet of the installation box 101, one side of the lifting plate 403 is provided with a connecting plate IV 4031, the other side is provided with a pair of supporting seats 405, a through groove is respectively arranged below the pair of supporting seats 405, and baffle plates at two sides of the supporting seats 405 are provided with pushing blocks 4055; one end of the hydraulic cylinder III 401 is fixedly connected with the connecting plate I1013, the extending end of the hydraulic cylinder III 401 is fixedly connected with the connecting plate IV 4031, and the hydraulic cylinder III 401 plays a role in controlling the lifting plate 403 to ascend or descend in the sliding groove at the inlet or the outlet of the installation box 101; one end of the hydraulic cylinder IV 404 is fixedly connected with the connecting plate I1013, and the output end of the hydraulic cylinder IV 404 is fixedly connected with the connecting plate IV 4031; a connecting ring is arranged above the rotating seat I4052, the lower part of the rotating seat I4052 passes through a through hole in the supporting seat 405 and is fixedly connected with one end of a connecting rod II 4051, and the other end of the connecting rod II 4051 passes through a through groove in the lifting plate 403 and is rotationally connected with one end of the connecting rod I4041; the hydraulic cylinder IV 404 is fixedly connected with the lifting plate 403 below the connecting plate IV 4031 through the fixing seat 4032, the output end of the hydraulic cylinder IV 404 is provided with a connecting seat, and the hydraulic cylinder IV 404 is rotationally connected with the other end of the connecting rod I4041 through the connecting seat on the output end; the scrubber 4021 is fixedly connected to one side of the cleaning plate 402 by a bolt; the top end of the cleaning plate 402 is fixedly connected with a connecting shaft I4022, and one end of the connecting shaft I4022 passes through a connecting ring above a rotating seat I4052 and is fixedly connected with the bottom of a rotating seat II 4053; a connecting cylinder is arranged above the rotating seat II 4053, a connecting shaft II 4056 is in sliding connection with the connecting cylinder above the rotating seat II 4053 through a limiting plate at the bottom, and a spring 4054 is arranged between the connecting shaft II 4056 and the connecting cylinder above the rotating seat II 4053 along the connecting shaft II 4056; the limiting seat 4058 is fixedly connected above the connecting ring on the rotating seat I4052, limiting shafts are arranged on two sides of the limiting seat 4058, one end of the connecting rod III 4057 is rotationally connected with the middle of the limiting seat 4058, and the other end of the connecting rod III 4057 is rotationally connected with the top end of the connecting shaft II 4056 through the connecting shaft; the hydraulic cylinder IV 404 stretches out and draws back to enable the connecting rod I4041 to drive the connecting rod II 4051 to control the rotating seat I4052 to rotate, and meanwhile, the rotating seat I4052 drives the connecting shaft I4022 to control the cleaning plate 402 to swing so as to clean the residual shot and impurities on the surface of the stainless steel strip 6; when the cleaning plate 402 is close to the side wall of the mounting box 101, the pushing block 4055 pushes the rotating seat II 4053, the rotating seat II 4053 drives the connecting rod III 4057 to incline to the limiting shaft on one side of the limiting seat 4058, meanwhile, the rotating seat II 4053 drives the connecting shaft I4022 to control the cleaning plate 402 to overturn upwards, the cleaning plate 402 is prevented from sweeping the pill and the impurity to a position which is not easy to clean, when the cleaning plate 402 is close to the lifting plate 403, the other pushing block 4055 pushes the rotating seat II 4053, the rotating seat II 4053 drives the connecting rod III 4057 to incline to the limiting shaft on the other side of the limiting seat 4058, and meanwhile, the rotating seat II 4053 drives the connecting shaft I4022 to control the cleaning plate 402 to overturn downwards, so that the cleaning plate 402 is convenient for sweeping the pill and the impurity from the surface of the stainless steel strip 6.
The polishing device 5 comprises a hydraulic cylinder V501, a connecting rod I5011, a connecting rod II 5012, a connecting rod III 5013, a draught fan 502, a supporting frame 503, a collecting box 504, a screening box 505, a screening plate I5051, a screening plate II 5052, a filter screen II 5053, a rolling brush 506, a gear III 5061, a rotating ring II 5062, a conveying belt 507, a supporting roller 5071, a motor V5072, a sliding seat 508, a connecting rod IV 5081, a connecting rod V5082, a hydraulic cylinder VI 5083, a sliding rod 5084, a connecting plate V509, a brush belt 5091, a motor VI 5092, a rotating shaft 5093, a supporting roller 5094 and a polishing block 5095; the hydraulic cylinder V501 is provided with a pair, the hydraulic cylinder V501 is fixedly connected with the mounting box 101 between the pair of guide plates 1012, and the extending end of the hydraulic cylinder V501 is fixedly connected with the connecting groove I105; the connecting rods I5011, II 5012 and III 5013 are respectively provided with two groups and are respectively connected with two ends of the connecting groove I105; one end of the connecting rod I5011 is fixedly connected inside the connecting groove I105, the connecting rod III 5013 is rotationally connected with the mounting box 101, one end of the connecting rod III 5013 is rotationally connected with the top end of the connecting rod II 5012, and the other end of the connecting rod III 5013 is rotationally connected with the middle of the connecting rod I5011; the two ends of one connecting plate V509 are rotatably connected with the other end of the connecting rod I5011, the two ends of the other connecting plate V509 are rotatably connected with the bottom end of the connecting rod II 5012, and the polishing block 5095 is fixedly connected in the middle of the connecting plate V509; the motor VI 5092 is fixedly connected to one end of the connecting plate V509 through a motor seat, and a chain wheel is arranged at the output end of the motor VI 5092; the brush belt 5091 is rotatably connected to two sides of the connecting plate V509 through supporting rollers 5094, the supporting rollers 5094 adjacent to the motor VI 5092 are connected with each other through a rotating shaft 5093 rotatably connected with the connecting plate V509, a chain wheel is arranged on one side of the rotating shaft 5093, and the chain wheel on the rotating shaft 5093 is connected with the chain wheel at the output end of the motor VI 5092 through a chain; the hydraulic cylinder V501 stretches out, the guide plate 1012 of the connecting groove I105 is controlled to slide downwards until the longer side edge of the connecting groove I105 is close to stainless steel strip steel, meanwhile, the connecting groove I105 drives the connecting rod I5011 to push one end of the connecting rod III 5013 downwards, the other end of the connecting rod III 5013 pulls the connecting rod II 5012 upwards, and accordingly, the connecting plate V509 connected with the connecting rod I5011 and the connecting plate V509 connected with the connecting rod II 5012 are controlled to be close to the surface of the stainless steel strip steel 6, polishing blocks 5095 polish the upper surface and the lower surface of the stainless steel strip steel 6, meanwhile, a motor VI 5092 is started, a rotating shaft 5093 is controlled to drive a supporting roller 5094 to rotate, and therefore the brush belt 5091 brushes pills entering the polishing device 5 and impurities on the surface of the stainless steel strip steel 6; the screening box 505 is fixedly connected to one side of the installation box 101, a collecting box 504 is arranged on one side of the screening box 505, the other side of the screening box 505 is fixedly connected with the induced draft fan 502, and a filter screen II 5053 is arranged between the induced draft fan 502 and the screening box 505; the supporting frame 503 is fixedly connected with the screening box 505 at the bottom of the induced draft fan 502; the sieve plate I5051 is fixedly connected inside the sieving box 505, and a gap is reserved between one side of the sieve plate I5051 and the sieving box 505; one end of the sieve plate II 5052 is fixedly connected with the screening box 505 above the induced draft fan 502, and the other end of the sieve plate II 5052 is fixedly connected with the screening box 505 below the collecting box 504; a baffle is arranged between the sieve plate I5051 and the sieve plate II 5052, so that impurities entering the collecting box 504 are reduced, and meanwhile, during the falling process of the pellets, the impact with the pellets is increased, vibration is increased, and meanwhile, the pellets are guided to the sieve plate II 5052 to increase the time for removing the impurities on the surface of the pellets; one end of the conveyor belt 507 is rotatably connected in a mounting groove above the partition plate 104 through a supporting roller 5071, and the other end of the conveyor belt passes through the mounting box 101 and is rotatably connected to the top of the screening box 505 through another supporting roller 5071; the motor V5072 is fixedly connected to the top of the screening box 505 through a motor base, and the motor V5072 penetrates through the screening box 505 and is fixedly connected with a supporting roller 5071 rotatably connected to the top of the screening box 505; the brushed pill and impurities of the brush belt 5091 fall onto the conveyor belt 507 through the receiving groove 102, the conveyor belt 507 sends the pill and impurities into the screening box 505 under the drive of the motor V5072, the impurities enter the bottom of the screening box 505 under the action of the induced draft fan 502 and the filter screen II 5053, the pill falls onto a baffle between the screen I5051 and the screen II 5052 through the screen I5051 and then falls onto the screen II 5052, the pill enters the collecting box 504 along the screen II 5052, and finally the collecting box 504 conveys the pill into the storage box II 2021; the rolling brushes 506 are provided with a pair of rolling brushes 506, two ends of each rolling brush 506 are provided with gears III 5061 meshed with racks 1021, and connecting shafts at two ends of each rolling brush 506 pass through connecting grooves at two sides of the mounting box 101 to be rotationally connected with the rotating ring II 5062; the slide bar 5084 is provided with a pair of slide bars, and is respectively and fixedly connected to two sides of the installation box 101, and the slide seat 508 is in sliding connection with the slide bar 5084; one end of the connecting rod IV 5081 is rotatably connected to one side of the sliding seat 508, and the other end of the connecting rod IV is rotatably connected with a connecting shaft at one end of the rolling brush 506; one end of the connecting rod V5082 is rotationally connected to the other side of the sliding seat 508, and the other end of the connecting rod V5082 is rotationally connected with a connecting shaft at one end of the other rolling brush 506; the hydraulic cylinder VI 5083 is provided with a pair of hydraulic cylinders, the hydraulic cylinders VI 5083 are respectively and fixedly connected to two sides of the installation box 101, and the extending end of each hydraulic cylinder VI 5083 is fixedly connected with the rotating ring II 5062 on one rolling brush 506; the hydraulic cylinder VI 5083 stretches and contracts to control the rolling brushes 506 to move along the connecting grooves on the mounting box 101, meanwhile, the gear III 5061 is meshed with the rack 1021, the connecting rods IV 5081 and V5082 cooperate to enable the pair of rolling brushes 506 to move in the same mode, the pair of rolling brushes 506 rotate to brush the bottom surface of the abutting groove 102, and impurities are prevented from accumulating.
A device for improving the uniformity of the transverse roughness of the surface of stainless steel strip steel comprises the following working processes:
the stainless steel strip enters the device from the inlet of the installation box, the shot blasting device I performs shot blasting treatment on the upper surface and the lower surface of the stainless steel strip, meanwhile, the cleaning device on the inlet of the installation box is started to sweep away the residual shot and impurities on the upper surface of the stainless steel strip from two sides of the stainless steel strip, the shot which falls onto the baffle plate I after shot blasting enters the screening cylinder I through the guide groove I, and enters the storage box II after being cleaned in the screening cylinder I, and the shot is conveyed into the storage box I by the spiral feeder so as to be used by the upper shot blasting machine and the lower shot blasting machine; stainless steel strip steel enters a polishing device after being treated by a shot blasting device I, the upper surface and the lower surface of the stainless steel strip steel are alkaline polished by polishing blocks on a connecting plate V, meanwhile, the brushing belts on the two sides of the connecting plate V sweep the shot materials, impurities and the impurities polished by the polishing blocks entering the polishing device from the shot blasting device I off the surface of the stainless steel strip steel, the stainless steel strip steel enters a screening box through a conveying belt, the separation of the shot materials and the impurities is carried out in the screening box, and the separated shot materials enter a storage box II through a collecting box; finally, the stainless steel strip enters a shot blasting device II to carry out reinforced shot blasting, a cleaning device at the outlet of the installation box sweeps away the shot materials and impurities remained on the upper surface of the stainless steel strip from two sides of the stainless steel strip, the shot materials falling on the baffle plate enter a screening cylinder II to be cleaned through a guide groove III, and finally enter a storage box III through the guide box to be fed through a spiral feeder.
The foregoing is merely illustrative and explanatory of the utility model, as it is well within the scope of the utility model as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the utility model as defined in the accompanying claims.

Claims (5)

1. A device for improving the uniformity of the transverse roughness of the surface of stainless steel strip comprises a box body, a shot blasting device I, a shot blasting device II, a cleaning device and a polishing device; the cleaning device is characterized by comprising two groups which are respectively connected with an inlet and an outlet of the box body; the polishing device is arranged in the middle of the box body; the shot blasting device I is arranged between the inlet of the box body and the polishing device; the shot blasting device II is arranged between the outlet of the box body and the polishing device; the diameter of the pill used in the pill-blasting device I is larger than that of the pill used in the pill-blasting device II;
the shot blasting device I comprises a storage box I, a spiral feeder, a storage box II, an upper shot blasting machine, a threaded rod I, a telescopic sleeve I, a lower shot blasting machine, a threaded rod II, a connecting pipe I, a hydraulic cylinder I, a pushing block, a telescopic sleeve II, a guide chute I, a distributing chute, a connecting plate II, a storage box, a filter screen I, a fan, a screening cylinder I, a screening cylinder, a collecting cylinder, a spiral plate, a baffle plate, an air inlet cylinder, a connecting groove II, a guide chute II and a motor III; the storage box I is fixedly connected to the top of the mounting box through a support frame, a sliding groove is formed in the bottom of the storage box I, and a pair of connecting holes are respectively formed in two sides of the storage box I; the two ends and the middle of the threaded rod I are rotationally connected with a connecting seat II on the connecting groove I, the threaded rod I is fixedly connected with a chain wheel in the connecting seat II in the middle of the connecting groove I, and the directions of threads at the two ends of the threaded rod I are opposite; the upper shot blasting machine is provided with a pair of sliding blocks which are respectively connected with the sliding blocks on the connecting groove I in a sliding manner through the two sides of the connecting seat II in the middle of the connecting groove I by the base, and one side of the base of the upper shot blasting machine is in threaded connection with the threaded rod I; the bottom of the telescopic sleeves I are respectively connected with a pair of upper shot blasting machines, and the top of the telescopic sleeves I is fixedly connected with a sliding plate which is in sliding connection in a sliding groove and in the sliding groove at the bottom of the storage box I; one end of the threaded rod II is rotationally connected with the mounting box, the middle of the threaded rod II is rotationally connected with the connecting box on the partition plate, the other end of the threaded rod II penetrates through a through hole on one side of the mounting box to be fixedly connected with the chain wheel, the thread directions of the two ends of the threaded rod II are opposite, and the chain wheel on the threaded rod II is connected with one of the chain wheels on the output end of the motor I through a chain; the lower shot blasting machine is provided with a pair of lower shot blasting machines, the lower shot blasting machines are respectively connected with the sliding blocks on the partition plate in a sliding manner through the two sides of the connecting box on the partition plate by the base, and one side of the base of each lower shot blasting machine is in threaded connection with the threaded rod II; the telescopic sleeves II are provided with a pair, one end of each telescopic sleeve II is connected with the lower shot blasting machine, and the other end of each telescopic sleeve II passes through the mounting box and is fixedly connected to the outer side of the mounting box; the screw feeders are provided with a pair of feeding holes, the feeding holes of the pair of screw feeders are respectively and fixedly connected in a storage box II arranged on two sides of the mounting box, and the discharging holes are respectively connected with the connecting holes on two sides of the storage box I; one end of the connecting pipe I is fixedly connected with the other connecting holes on the two sides of the storage box I respectively, and the other end of the connecting pipe I is fixedly connected with the pair of telescopic sleeves II outside the installation box respectively; the pushing blocks are provided with a pair, one ends of the pushing blocks are respectively inserted into the telescopic sleeves II, and the extending ends of the hydraulic cylinders I fixedly connected to one side of the telescopic sleeves II through the fixing seats are fixedly connected with the other ends of the pushing blocks; the top end of the guide chute I is fixedly connected with the baffle plate I, the bottom of the guide chute I is fixedly connected with a Y-shaped material dividing chute, and the bifurcation ends of the material dividing chute are respectively provided with a connecting plate II; the motor III is provided with a pair of motors which are respectively and fixedly connected to the bottom of the bifurcation end of the dividing chute, and the output end of the motor III is provided with a gear; the screening cylinder I is provided with a pair of screening cylinders and is respectively connected with a connecting plate II on the branching end of the material dividing groove, and the screening cylinder I comprises a screening cylinder, a collecting cylinder, a spiral plate, a baffle, an air inlet cylinder, a connecting groove II and a material guiding groove II; the top of the screen cylinder is provided with a connecting groove and gear teeth meshed with a gear at the output end of the motor III, the screen cylinder is rotationally connected with the connecting plate II, a spiral plate is arranged inside the screen cylinder, and a plurality of uniformly distributed irregular baffles are arranged on the inner wall of the screen cylinder; the bottom end of the collecting cylinder is provided with a connecting groove, and the collecting cylinder is fixedly connected with the storage box through a guide groove II; one side of the connecting groove II is fixedly connected with the bottom end of the collecting cylinder, and the other side of the connecting groove II passes through the mounting box and is fixedly connected with the storage box II; one end of the air inlet cylinder is fixedly connected with the collecting cylinder above the connecting groove II; the bottom of the screen cylinder is rotationally connected in a connecting groove at the bottom end of the collecting cylinder, the top end of the collecting cylinder is rotationally connected in a connecting groove at the top of the screen cylinder, and the air inlet cylinder is rotationally connected in the middle of the spiral plate; the filter screen I is equipped with a pair of, and symmetrical connection is inside the bin, and fan air intake passes through pipeline and bin fixed connection between a pair of filter screen I, and the air outlet passes through the pipeline connection to install outside the case.
2. The device for improving the uniformity of the transverse roughness of the surface of the stainless steel strip according to claim 1, wherein the shot blasting device II comprises a screening cylinder II, a filter cartridge, a cleaning roller, a rotating ring I, a baffle plate II, a connecting pipe II, a gear ring, an air inlet pipe, a connecting seat I, a guide box, a hydraulic cylinder II, a guide groove III, a motor IV, a connecting plate III and a storage box III; the structure of the shot blasting device II is different from that of the shot blasting device I in that a pair of guide grooves III are arranged, one end of each guide groove III is fixedly connected with a baffle plate, and the other end of each guide groove III is provided with a connecting plate III; the motor IV is fixedly connected below the guide chute III through a motor seat, and a gear is arranged at the output end of the motor IV; the screening cylinder II is provided with a pair of screening cylinders and comprises a filter cylinder, a cleaning roller, a rotating ring I, a baffle plate II, a connecting pipe II, a gear ring, an air inlet pipe and a connecting seat I; the top end of the filter cartridge is provided with two groups of gear teeth, the connecting plate III is rotationally connected between the two groups of gear teeth at the top end of the filter cartridge, the bottom end of the filter cartridge is rotationally connected to one side of the guide box, and one group of gear teeth at the top end of the filter cartridge is meshed with a gear at the output end of the motor IV; the gear ring is fixedly connected with the connecting plate III, and the connecting seat I is fixedly connected with the connecting plate III through a connecting shaft at the inner side of the gear ring; the rotary ring I is rotatably connected to the bottom of the filter cartridge, and a fixed ring and a fixed seat are arranged on the inner side of the rotary ring I; the cleaning roller is provided with bristles and a plurality of baffles, one end of the cleaning roller is rotationally connected in a fixed seat at the inner side of the rotating ring I, and the other end of the cleaning roller is meshed with the gear ring and the other group of gear teeth at the top end of the filter cartridge through gears; one end of the connecting pipe II passes through the fixed ring on the inner side of the rotating ring I and is fixedly connected with the bottoms of the air inlet pipes, the other end of the connecting pipe II passes through the baffle plate II and the through hole on the guide box and is connected with the air outlet of the fan, the top of the air inlet pipe is fixedly connected with the connecting seat I, and the air inlet pipe is provided with a plurality of spray heads; the material baffle II is connected to the bottom of the filter cartridge in a sliding manner; the guide boxes are provided with a pair, and the guide boxes penetrate through the mounting boxes through connecting pipelines to be fixedly connected with the storage box III; the hydraulic cylinder II is provided with a pair of hydraulic cylinders II, the hydraulic cylinders II are fixedly connected to one side of the material guide box, and the extending ends of the hydraulic cylinders II are fixedly connected with the material baffle II.
3. The device for improving the uniformity of the transverse roughness of the surface of the stainless steel strip according to claim 1, wherein the cleaning device comprises a hydraulic cylinder III, a cleaning plate, a scrubbing brush, a connecting shaft I, a lifting plate, a connecting plate IV, a fixing seat, a hydraulic cylinder IV, a connecting rod I, a supporting seat, a connecting rod II, a rotating seat I, a rotating seat II, a spring, a pushing block, a connecting shaft II, a connecting rod III and a limiting seat; the top of the lifting plate is slidably connected in a sliding groove at the inlet or the outlet of the installation box, one side of the lifting plate is provided with a connecting plate IV, the other side of the lifting plate is provided with a pair of supporting seats, a through groove is respectively arranged below the pair of supporting seats, and baffle plates at two sides of the supporting seats are provided with pushing blocks; one end of the hydraulic cylinder III is fixedly connected with the connecting plate I, and the extending end is fixedly connected with the connecting plate IV; one end of the hydraulic cylinder IV is fixedly connected with the connecting plate I, and the output end of the hydraulic cylinder IV is fixedly connected with the connecting plate IV; a connecting ring is arranged above the rotating seat I, the lower part of the rotating seat I passes through a through hole in the supporting seat and is fixedly connected with one end of the connecting rod II, and the other end of the connecting rod II passes through a through groove in the lifting plate and is rotationally connected with one end of the connecting rod I; the hydraulic cylinder IV is fixedly connected with the lifting plate below the connecting plate IV through a fixing seat, a connecting seat is arranged at the output end of the hydraulic cylinder IV, and the hydraulic cylinder IV is rotationally connected with the other end of the connecting rod I through the connecting seat at the output end; the scrubbing brush is fixedly connected to one side of the cleaning plate through bolts; the top end of the cleaning plate is fixedly connected with the connecting shaft I, and one end of the connecting shaft I penetrates through the connecting ring above the rotating seat I to be fixedly connected with the bottom of the rotating seat II; a connecting cylinder is arranged above the rotating seat II, the connecting shaft II is in sliding connection with the connecting cylinder above the rotating seat II through a limiting plate at the bottom, and a spring is arranged between the connecting shaft II and the connecting cylinder above the rotating seat II along the connecting shaft II through a limiting plate at the bottom; the limiting seat is fixedly connected above the connecting ring on the rotating seat I, limiting shafts are arranged on two sides of the limiting seat, one end of the connecting rod III is rotationally connected with the other end of the middle of the limiting seat, and the other end of the connecting rod III is rotationally connected with the top end of the connecting shaft II through the connecting shaft.
4. The device for improving the uniformity of the transverse roughness of the surface of the stainless steel strip according to claim 1, wherein the polishing device comprises a hydraulic cylinder V, a connecting rod I, a connecting rod II, a connecting rod III, an induced draft fan, a supporting frame, a collecting box, a screening box, a screen plate I, a screen plate II, a filter screen II, a rolling brush, a gear III, a rotating ring II, a conveyor belt, a supporting roller, a motor V, a sliding seat, a connecting rod IV, a connecting rod V, a hydraulic cylinder VI, a sliding rod, a connecting rod V, a brushing belt, a motor VI, a rotating shaft, a supporting roller and a polishing block; the hydraulic cylinder V is provided with a pair of guide plates, the hydraulic cylinder V is fixedly connected with the installation box between the pair of guide plates, and the extending end of the hydraulic cylinder V is fixedly connected with the connecting groove I; the connecting rods I, II and III are respectively provided with two groups and are respectively connected to the two ends of the connecting groove I; one end of the connecting rod I is fixedly connected inside the connecting groove I, the connecting rod III is rotationally connected with the mounting box, one end of the connecting rod III is rotationally connected with the top end of the connecting rod II, and the other end of the connecting rod III is rotationally connected with the middle of the connecting rod I; the two ends of one connecting plate V are rotationally connected with the other end of the connecting rod I, the two ends of the other connecting plate V are rotationally connected with the bottom end of the connecting rod II, and the polishing block is fixedly connected in the middle of the connecting plate V; the motor VI is fixedly connected to one end of the connecting plate V through a motor seat, and a chain wheel is arranged at the output end of the motor VI; the brush belt is rotatably connected to two sides of the connecting plate V through supporting rollers, the supporting rollers adjacent to the motor VI are connected with each other through a rotating shaft rotatably connected with the connecting plate V, a chain wheel is arranged on one side of the rotating shaft, and the chain wheel on the rotating shaft is connected with the chain wheel at the output end of the motor VI through a chain; the screening box is fixedly connected to one side of the installation box, a collecting box is arranged on one side of the screening box, the other side of the screening box is fixedly connected with the induced draft fan, and a filter screen II is arranged between the induced draft fan and the screening box; the support frame is fixedly connected with the screening box at the bottom of the induced draft fan; the screening plate I is fixedly connected inside the screening box, and a gap is reserved between one side of the screening plate I and the screening box; one end of the screen plate II is fixedly connected with the screening box above the induced draft fan, and the other end of the screen plate II is fixedly connected with the screening box below the collecting box; a baffle is arranged between the screen plate I and the screen plate II; one end of the conveyor belt is rotatably connected in the mounting groove above the partition plate through a supporting roller, and the other end of the conveyor belt penetrates through the mounting box and is rotatably connected to the top of the screening box through another supporting roller; the motor V is fixedly connected to the top of the screening box through a motor seat, and penetrates through the screening box to be fixedly connected with a supporting roller rotatably connected to the top of the screening box; the rolling brushes are provided with a pair of rolling brushes, two ends of each rolling brush are provided with gears III meshed with the racks, and connecting shafts at two ends of each rolling brush penetrate through connecting grooves at two sides of the mounting box to be connected with the rotating ring II in a rotating mode; the sliding rods are provided with a pair, are fixedly connected to two sides of the installation box respectively, and the sliding seat is in sliding connection with the sliding rods; one end of the connecting rod IV is rotationally connected to one side of the sliding seat, and the other end of the connecting rod IV is rotationally connected with a connecting shaft at one end of the rolling brush; one end of the connecting rod V is rotationally connected to the other side of the sliding seat, and the other end of the connecting rod V is rotationally connected with a connecting shaft at one end of the other rolling brush; the hydraulic cylinder VI is provided with a pair of hydraulic cylinders which are respectively and fixedly connected to two sides of the installation box, and the extending end of each hydraulic cylinder VI is fixedly connected with a rotating ring II on one rolling brush.
5. The device for improving the transverse roughness uniformity of the surface of the stainless steel strip according to claim 1, wherein the box body comprises a mounting box, a baffle plate I, a guide plate, a connecting plate I, a sliding groove, a baffle plate, a receiving groove, a rack, a motor I, a baffle plate, a connecting groove I, a connecting seat II, a motor II and a gear I; the inlet and the outlet of the installation box are provided with sliding grooves, the two sides of the installation box are provided with connecting grooves, the top of the installation box is provided with a plurality of sliding grooves, the partition plate is fixedly connected in the middle of the installation box, the installation grooves are arranged above the partition plate, and the two sides of the partition plate are provided with connecting boxes and sliding blocks; the connecting plate I is provided with a pair of connecting plates which are respectively and fixedly connected above an inlet and an outlet of the mounting box; the baffle plate I is fixedly connected with the mounting box and the partition plate on one side of the partition plate, and the baffle plate I is fixedly connected with the mounting box and the partition plate on the other side of the partition plate; the guide plates are arranged in a pair and fixedly connected with the mounting box above the partition plate; the two sides of the connecting groove I are provided with sliding blocks, the two ends and the middle of the connecting groove I are provided with connecting seats II, the side edge of the inlet of the connecting groove I is shorter than the side edge of the outlet of the connecting groove I, and the top of the connecting groove I is in sliding connection with a pair of guide plates; the bottom of the receiving trough is provided with a through trough, and the bottom of the receiving trough is fixedly connected with the top end of the partition plate; the rack is fixedly connected above the connecting grooves on two sides of the mounting box at the inner side of the receiving groove; the motor I is fixedly connected to one side of the installation box through a motor seat, and a pair of chain wheels are arranged at the output end of the motor I; the motor II is fixedly connected above the connecting groove I through a motor seat, and a gear is arranged at the output end of the motor II; the gear I is provided with a pair of gears, the gears are respectively connected above the connecting groove I through the rotation of the connecting seat, one side of the gear I is provided with a chain wheel, the gears I are meshed with the gears on the output ends of the motor II on two sides of the motor II, and the chain wheel on one side of the gear I is connected with the chain wheel on the threaded rod I through a chain.
CN202320916944.8U 2023-04-22 2023-04-22 Device for improving uniformity of transverse roughness of stainless steel strip steel surface Active CN219925725U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320916944.8U CN219925725U (en) 2023-04-22 2023-04-22 Device for improving uniformity of transverse roughness of stainless steel strip steel surface

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320916944.8U CN219925725U (en) 2023-04-22 2023-04-22 Device for improving uniformity of transverse roughness of stainless steel strip steel surface

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CN219925725U true CN219925725U (en) 2023-10-31

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