CN117443957A - Cold-rolling forming system and production method for high-silicon cold-rolled steel plate - Google Patents

Abstract

The invention relates to the technical field of cold-rolled steel plate cleaning. The invention discloses a cold rolling forming system of a high-silicon cold-rolled steel plate and a production method thereof, the cold rolling forming system comprises a transmission bracket, one end of the transmission bracket is provided with a discharging component for placing a hot-rolled plate coil, a linkage component is arranged in the discharging component and is positioned on the transmission bracket, synchronous switching devices are symmetrically arranged on two sides of the transmission bracket, a spraying wiping component for cleaning the surface of the steel plate is arranged between the two synchronous switching devices, one side of the spraying wiping component is provided with a drainage component for guiding water flow and is positioned in one of the synchronous driving components, and the synchronous switching devices comprise a fixed driving component and a switching limiting component. According to the invention, the synchronous switching device and the spraying wiping component work, so that the surface of the steel plate can be cleaned and wiped, and the cleaning mechanism can be self-cleaned, so that the working efficiency and the practicability are greatly improved.

Description

Cold-rolling forming system and production method for high-silicon cold-rolled steel plate

Technical Field

The invention relates to the technical field of cold-rolled steel sheet cleaning, in particular to a cold-rolled forming system and a production method of a high-silicon cold-rolled steel sheet.

Background

The cold rolling is carried out by taking a hot rolled coil as a raw material and rolling the hot rolled coil below a recrystallization temperature at normal temperature, and the cold rolled steel plate is produced by a cold rolling process, and in the production process of equipment shells, the cold rolling technology is needed to carry out cold rolling forming on the steel plate, so that the equipment is convenient to install and use.

In the prior art, before cold rolling the steel sheet, in order to keep the clean and tidy of steel sheet surface, usually need the staff to use extra clearance structure to clean the surface of steel sheet to avoid taking place deformation when the steel sheet shaping, avoid then causing wearing and tearing to the cold-rolling mill, and after clean the completion, still need carry out drying treatment to its surface, the working procedure is loaded down with trivial details, and work efficiency is low, still need the staff to clean clearance mechanism regularly simultaneously, in order to keep the cleaning effect of each time, the practicality is not enough, therefore need one kind can clear up the surface of steel sheet before the steel sheet carries out cold rolling and clean and can carry out self-cleaning to clearance mechanism, in order to avoid the device that work efficiency is low, the practicality is not enough.

Disclosure of Invention

The invention aims to provide a cold-rolling forming system and a production method for a high-silicon cold-rolled steel plate, which are used for solving the problems in the background art. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a cold rolling molding system of high silicon cold rolled steel sheet, includes the transmission support, the one end of transmission support is equipped with the ejection of compact subassembly that is used for placing hot rolled coil of plate, be equipped with the linkage subassembly in the ejection of compact subassembly, and be located the transmission support, the bilateral symmetry of transmission support is equipped with synchronous auto-change over device, two be equipped with between the synchronous auto-change over device and be used for spraying the subassembly of wiping of cleaning the steel sheet surface, one side of spraying the subassembly of wiping is equipped with the drainage subassembly of guide rivers, and is located one of them synchronous drive subassembly, synchronous auto-change over device is including fixed drive subassembly and switching spacing subassembly, fixed drive subassembly sets up the side at the transmission support, switching spacing subassembly sets up on fixed drive subassembly.

Preferably, the discharging assembly comprises auxiliary boxes, the auxiliary boxes are arranged at two sides of the transmission support symmetrically, the side ends of the auxiliary boxes are fixedly connected with the side ends of the adjacent transmission support, the two auxiliary boxes are connected with a transmission shaft for placing hot rolled coils in a rotating mode, one auxiliary box is hollow, the auxiliary boxes are rotationally connected with a fixed shaft, the side ends of the fixed shaft penetrate through the side ends of the auxiliary boxes and are connected with the transmission shaft, a driving gear is arranged on the fixed shaft, the fixed shaft is fixedly connected with the center of the driving gear, a driving motor is arranged on the outer side of the auxiliary boxes, and the output end of the driving motor is connected with the fixed shaft.

Preferably, the linkage assembly comprises a driving roller, the driving roller is equipped with a plurality of, a plurality of the equidistant setting of driving roller is on the transmission support, and a plurality of driving roller is pressed close to the setting, the transmission support is the cavity setting, a plurality of the both ends of driving roller all with adjacent transmission support side normal running fit, wherein every two the one end that the driving roller is located the transmission support all overlaps and is equipped with first driving belt, the below meshing of driving gear is provided with the linkage gear, the center department of linkage gear is connected with auxiliary tank inner wall rotation through first driving member, the below of first driving member is equipped with the second driving member, the side of second driving member passes auxiliary tank and transmission support and is connected with the one end of adjacent driving roller, the second driving member is all normal running fit with auxiliary tank and transmission support, the cover is equipped with the second driving belt on the side of first driving member, another end cover of second driving belt is established at the side of second driving member.

Preferably, the fixed drive assembly comprises a fixed box, the side end of fixed box is fixed with the side end of transmission support, and is located one side of auxiliary tank, the fixed box is the cavity setting, and one side that the fixed box is close to the transmission support is equipped with the rectangle opening, fixed box inner wall rotates and is connected with the third driving piece, and the side end of third driving piece passes the side end of fixed box and transmission support and be connected with the side end of adjacent driving roller, the top of third driving piece is equipped with the trigger piece, the side end of trigger piece rotates with the side end of fixed box to be connected, the cover is equipped with third driving belt on the third driving piece, and the other pot head of third driving belt is established on the trigger piece, the upper and lower bilateral symmetry of trigger piece is equipped with slide rail, and slide rail's side end and the inner wall fixed connection of fixed box, each slide rail is located rectangle open-ended upper and lower both sides respectively, and each slide rail is last the sliding block, two through sliding shaft fixed connection between the sliding block, slide shaft is last to be equipped with the movable part, the fixed block is kept away from the side of transmission support through the flexible piece, the side end that moves the flexible connection has the curved link, the curved link has one side to move.

Preferably, the switching limiting assembly comprises a switching base, the switching base is arranged in a rectangular opening, the side end of the switching base is fixedly connected with the side end of an adjacent matched moving part, the center of one side of the switching base far away from the matched moving part is rotationally connected with a trigger gear, two sides of the trigger gear are symmetrically provided with limiting columns, the side ends of the limiting columns are fixedly connected with the side ends of the switching base, one side of the trigger gear close to the switching base is fixedly connected with clamping columns, two clamping columns are arranged, the two clamping columns are arranged up and down, the side end of each clamping column is movably connected with the side end of one limiting column through a tension spring, the included angle between the two clamping columns and the two limiting columns is 90 degrees, two extension springs are all in slant symmetry setting, every one side that the card post kept away from each other is equipped with the baffle, the side of baffle is fixed connection with the side of switching the base, one side fixedly connected with L type support that the switching base is close to the auxiliary box, rotate on the L type support and be connected with the mating gear, mating gear's side meshes with the side of triggering gear, rectangle open-ended bilateral symmetry is equipped with the mating tooth groove pole, mating tooth groove pole's side and the side fixed connection of fixed box, the contained angle between mating tooth groove pole and the driving roller is 90 degrees setting, mating tooth groove pole's tooth groove end and triggering gear and mating gear's tooth groove end all can the meshing setting.

Preferably, the spraying wiping component comprises an installation box, two ends of the installation box are respectively connected with the center of an adjacent triggering gear, the installation box is in hollow arrangement, a plurality of spraying water guns are arranged at the bottom in the installation box, the spraying water guns are equidistantly arranged, the output end of the spraying water guns are located at the outer side of the installation box through the bottom of the installation box, the top of the spraying water guns is connected with the top in the installation box, the wiping piece is fixedly connected with the top of the installation box, a foam-rubber cushion is arranged above the installation box, two ends of the foam-rubber cushion are respectively fixedly connected with the side ends of an adjacent fixing box, and the foam-rubber cushion is located above the rectangular opening.

Preferably, the drainage assembly comprises a movable air cylinder, the movable air cylinder is arranged in one of the fixed boxes, the top of the movable air cylinder is connected with the top in the fixed box through a connecting frame, a movable plug is arranged in the movable air cylinder in a sliding mode, one side of the movable plug is fixedly connected with an L-shaped supporting rod, one end of the L-shaped supporting rod, far away from the movable plug, slides through the side wall of the movable air cylinder, is fixedly connected with the side end of a linkage rod, the linkage rod is located on one side of the movable air cylinder, the top of the linkage rod is in sliding fit with the top in the fixed box, the side end of a sliding block adjacent to the linkage rod is provided with a communicating piece, the side end of the communicating piece is connected with the side end of the adjacent linkage rod through a telescopic rod, a hose is arranged in the communicating piece, one end of the hose, far away from the movable air cylinder, passes through a matched moving piece, a switching base and the center of a triggering gear through the side wall of the mounting box, the other end of the hose is communicated with the movable air cylinder, one end of the movable air cylinder is fixedly connected with the water storage box through a pipeline, and the bottom of the water storage box is connected with the bottom of the fixed box.

Preferably, the hose is provided with a first one-way valve at one end of the hose, which is positioned in the movable air cylinder, and a second one-way valve at one end of the pipeline, which is positioned in the movable air cylinder.

Preferably, the production method of the cold-rolled forming system of the high-silicon cold-rolled steel plate comprises the following steps:

s1: the method comprises the steps that a worker firstly installs a hot rolled coil on a transmission shaft, then works by controlling a driving motor, so that a fixed shaft is driven to start rotating, a driving gear rotates synchronously, the hot rolled coil is driven to rotate through the transmission shaft and continuously blanking on a transmission support, a linkage gear meshed with the driving gear is driven to rotate in the opposite direction during the rotation of the driving gear, a driving roller is driven to rotate through a second driving belt, a plurality of driving rollers rotate in the same direction under the action of a first driving belt, so that the hot rolled coil rotates in the direction away from the driving roller, and in the blanking process, transmission opposite to the rotation direction of the hot rolled coil is carried out through the plurality of driving rollers, and the continuous movement of one end of the hot rolled coil on the driving roller is assisted in blanking;

s2: the trigger piece is driven to synchronously rotate while the driving roller rotates, the matching of the moving rod and the telescopic spring is arranged in a sliding way, so that the matching moving piece and the sliding piece are driven to slide horizontally along the sliding track, after the sliding piece moves to one end of the sliding track to stop, the matching moving piece and the curved piece are driven to move vertically along the sliding shaft, after the trigger piece rotates for a circle, the matching moving piece and the sliding piece are driven to restore to the initial position, so that the matching moving piece is driven to slide along the edge of the rectangular opening, the switching base is enabled to regularly move, the matching moving piece slides horizontally above the rectangular opening, the mounting box is driven to slide along the upper side of the rectangular opening through the switching base in a synchronous way, the clamping column always abuts against one side of the baffle plate through the set stretching spring, the hot-rolled plate coil is prevented from rotating in the moving process, then a spraying water gun in the mounting box is convenient to clean a hot-rolled plate coil positioned on the driving roller, when the matched moving piece moves along the vertical direction of the sliding shaft, the triggering gear is driven to rotate, the stretching springs connected with the triggering gear are stretched through the clamping columns, after the triggering gear rotates 180 degrees, the two clamping columns are driven to respectively abut against the other side of the other baffle, so that the wiping piece can be attached to the hot-rolled plate coil and move through the hot-rolled plate coil, the surface of the wiping piece is wiped clean, when the wiping piece moves to the other side of the rectangular opening, the matched gear is driven to rotate, the triggering gear meshed with the matched gear rotates in the opposite direction of the previous direction, the clamping columns and the stretching springs are driven to restore to the initial state, and the clamping columns are locked, and the mounting box is driven to reset;

S3: when the cooperation moving part moves at the bottom of the rectangular opening to drive the wiping part to work, the communicating part and the telescopic rod are driven by the sliding block to move away from the water storage tank synchronously, the movable plug is driven by the linkage rod and the L-shaped supporting rod to move in the direction away from the water storage tank in the movable air tank, so that water flow in the water storage tank is absorbed into the movable air tank through a pipeline in the moving process, the spray water gun is driven to face the hot rolled coil by the overturning of the mounting box, and the cooperation moving part is driven to move in the opposite direction, so that the movable plug is driven to move in the direction of the water storage tank, and water flow stored in the movable air tank is guided into each spray water gun through the hose, so that flushing work of automatically controlling water flow in the cleaning process is realized.

Compared with the prior art, the invention has the beneficial effects that:

when the hot-rolled plate coil is moved to the fixed driving component, the fixed driving component drives the spraying and wiping component to regularly move in a rectangular shape, when the spraying and wiping component is far away from the surface of the hot-rolled plate coil, the drainage component is driven to work, water is sprayed to the surface of the hot-rolled plate coil, the surface of the hot-rolled plate coil is cleaned, and after the spraying and wiping component moves a certain distance, the limiting component is switched to overturn, so that the wiping end of the spraying and wiping component faces the surface of the hot-rolled plate coil, and the surface of the hot-rolled plate coil is moved along the surface of the hot-rolled plate coil under the action of the fixed driving component, so that the surface of the hot-rolled plate coil is wiped, the surface of the hot-rolled plate coil is automatically cleaned by the set drainage component, the surface of the hot-rolled plate coil is cleaned in a reciprocating manner, and the surface of the hot-rolled plate coil is cleaned in a cleaning manner after the surface is automatically cleaned, avoid taking place deformation when the steel sheet shaping, avoided then having avoided to handle through extra clearance structure, when simplifying working procedure, improved work efficiency, at the in-process of spraying and wiping the subassembly work simultaneously, still can be automatic carry out self-cleaning to self, ensured the clearance effect of every time to the further practicality that has improved this device, thereby realized can clear up the surface of steel sheet and clean and can carry out self-cleaning to clearance mechanism, with the effect of avoiding work efficiency low, the practicality is not enough.

According to the invention, a worker firstly installs a hot-rolled coil on a transmission shaft, then works by controlling a driving motor, so that a fixed shaft is driven to start rotating, a driving gear synchronously rotates, the hot-rolled coil is rotated by the transmission shaft and continuously fed on a transmission support, a linkage gear meshed with the driving gear is driven to rotate in the opposite direction in the rotation process of the driving gear, a driving roller is driven to rotate by a second driving belt, a plurality of driving rollers rotate in the same direction under the action of a first driving belt, the hot-rolled coil rotates in the direction away from the driving roller, and in the feeding process, a plurality of driving rollers rotate in the opposite direction to the rotation direction of the hot-rolled coil, and one end of the hot-rolled coil on the driving roller is assisted to continuously move, so that the surface of the hot-rolled coil is cleaned conveniently, the cleaned hot-rolled coil is cold-rolled conveniently, and the convenience in use is further improved.

According to the invention, the trigger piece is driven to synchronously rotate while the driving roller rotates, in the process of rotating the trigger piece, the matched moving piece and the sliding block are driven to horizontally slide along the sliding track through the matching of the sliding rod and the telescopic spring which are arranged in a sliding way, after the sliding block moves to one end of the sliding track, the sliding block and the matched moving piece are driven to vertically move along the sliding shaft, after the trigger piece rotates for one circle, the sliding block and the matched moving piece are driven to restore to the initial position, the matched moving piece is driven to slide along the edge of the rectangular opening, then the switching base is enabled to regularly move, the matched moving piece horizontally slides above the rectangular opening, meanwhile, the mounting box is driven to horizontally slide along the upper side of the rectangular opening through the switching base, the clamping post is enabled to always abut against one side of the baffle plate through the arranged tension spring, so that the trigger gear is prevented from rotating in the moving process, then the spraying gun in the mounting box is enabled to vertically move on the hot rolling plate positioned on the driving roller, after the sliding block moves to one end of the sliding track, the toothed groove is driven to restore to the initial position, the matched moving piece is driven to slide along the edge of the rectangular opening, the edge of the sliding rod is enabled to slide along the edge of the rectangular opening, the sliding rod is enabled to vertically move along the other side of the sliding guide piece, and the sliding post is enabled to rotate along the other side of the sliding rod is enabled to rotate, and the sliding rod is enabled to vertically move along the sliding rod is driven to vertically and the other side is enabled to rotate, and the sliding rod is enabled to vertically to rotate along the side of the side is enabled to rotate along the side of the roller when the sliding rod is matched with the roller to move along the side is driven to rotate side and the roller is enabled to rotate to move along the roller and the roller to move side is enabled to move along the roller to move side is pushed to move side and the roller to move side to move to, therefore, when the matched moving piece is positioned below the rectangular opening and horizontally slides, the wiping piece can be attached to the hot rolled plate coil and can be moved through the wiping piece, the surface of the wiping piece is cleaned, after the wiping piece is moved to the other side of the rectangular opening, the matched gear is matched with the matched tooth socket rod of the other side, so that when the matched moving piece is moved to the upper side of the rectangular opening again from the bottom of the rectangular opening, the matched gear is driven to rotate, the trigger gear meshed with the matched gear rotates in the opposite direction, the clamping column and the extension spring are driven to restore to the initial state and lock, the installation box is driven to reset, the wiping piece is enabled to be located at the top of the installation box again, the spraying water gun is located at the bottom of the installation box, the next cleaning work is facilitated, and in the continuous moving process, the wiping piece which is cleaned is enabled to be kept clean through the set sponge pad, the cleaning of the surface of the hot rolled plate coil is enabled to be cleaned in time, the steel plate coil is enabled to be continuously discharged in the process, the steel plate surface is automatically kept clean in the discharging process, the steel plate is enabled to be automatically cleaned, the steel plate is shaped in the opposite direction, the automatic forming process is enabled, the cleaning efficiency is further improved, the cleaning effect is guaranteed, the cleaning device is further guaranteed, and the cleaning effect is guaranteed is realized, and the cleaning work is guaranteed.

According to the invention, when the matched moving piece moves at the bottom of the rectangular opening to drive the wiping piece to work, the communicating piece and the telescopic rod are synchronously driven by the sliding block to move away from the water storage tank, the movable plug is driven by the linkage rod and the L-shaped supporting rod to move in the direction away from the water storage tank in the movable air tank, so that in the moving process, water flow in the water storage tank is absorbed into the movable air tank through the pipeline, at the moment, the water flow is prevented from flowing out through the hose through the first one-way valve, the spray gun is driven to face the hot rolled coil by the overturning of the mounting box, and the matched moving piece is driven to move in the opposite direction, the movable plug is driven to move in the direction of the water storage tank, so that water flow stored in the movable air tank is guided into each spray gun through the hose, at the moment, the water flow is prevented from flowing back into the water storage tank through the pipeline at the moment through the second one-way valve, the cleaning effect is further guaranteed, the flushing work of the water flow can be automatically controlled in the cleaning process is realized, after the top of the fixed box is moved, the telescopic rod is continuously pulled, the working time is controlled, the water flow is continuously sprayed after the hot rolled and the hot rolled coil is continuously, the wiping device is driven to move in the opposite direction, and the wiping device is convenient and fast and easy to clean.

Drawings

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

FIG. 2 is a schematic diagram of a second perspective structure of the present invention;

FIG. 3 is a schematic view of a partial perspective view of the present invention;

FIG. 4 is a schematic diagram of a partial perspective view of the present invention;

FIG. 5 is an enlarged schematic view of area A of FIG. 4;

FIG. 6 is a schematic perspective view of a synchronous switching device and a spray wiping assembly according to the present invention;

FIG. 7 is a cross-sectional view of a stationary box of the present invention;

FIG. 8 is a schematic partial perspective view of a synchronous switching device and spray wiping assembly of the present invention;

FIG. 9 is a schematic diagram of a partial perspective view of a synchronous switching device according to the present invention;

FIG. 10 is a schematic view of a partial explosion structure of a switching limit assembly according to the present invention;

FIG. 11 is a schematic view of a partial perspective view of a switch limiting assembly according to the present invention;

FIG. 12 is a cross-sectional view of the mounting case of the present invention;

FIG. 13 is a second cross-sectional view of the stationary box of the present invention;

FIG. 14 is a schematic perspective view of a drainage assembly according to the present invention;

FIG. 15 is a cross-sectional view of the movable air cylinder of the present invention.

In the figure: 1. a transmission support; 2. hot rolling the coil; 3. a discharge assembly; 31. an auxiliary box; 32. a transmission shaft; 33. a fixed shaft; 34. a drive gear; 35. a driving motor; 4. a linkage assembly; 41. a driving roller; 42. a first drive belt; 43. a linkage gear; 44. a first transmission member; 45. a second transmission member; 46. a second drive belt; 5. a synchronous switching device; 51. a fixed drive assembly; 511. a fixed box; 512. a rectangular opening; 513. a third transmission member; 514. a trigger; 515. a third drive belt; 516. a sliding rail; 517. a sliding block; 518. a sliding shaft; 519. matching with the moving piece; 520. a curved block; 521. a moving rod; 522. a telescopic spring; 53. switching the limiting component; 531. a switching base; 532. a trigger gear; 533. a limit column; 534. a clamping column; 535. a tension spring; 536. a baffle; 537. an L-shaped bracket; 538. a mating gear; 539. matching with a tooth socket rod; 6. a spray wiping assembly; 61. a mounting box; 62. spraying water gun; 63. a wiper; 64. a sponge cushion; 7. a drainage assembly; 71. a movable inflator; 72. a movable plug; 73. an L-shaped supporting rod; 74. a linkage rod; 75. a communication member; 76. a telescopic rod; 77. a hose; 78. a pipe; 79. a water storage tank; 8. a first one-way valve; 9. and a second one-way valve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 15, the present invention provides a technical solution: the utility model provides a cold rolling forming system of high silicon cold rolled steel sheet, includes transmission support 1, the one end of transmission support 1 is equipped with the ejection of compact subassembly 3 that is used for placing hot rolled coil of strip 2, be equipped with linkage subassembly 4 in the ejection of compact subassembly 3, and be located transmission support 1, the bilateral symmetry of transmission support 1 is equipped with synchronous auto-change over device 5, two be equipped with between the synchronous auto-change over device 5 and be used for spraying wiping subassembly 6 to clear up the steel sheet surface, one side of spraying wiping subassembly 6 is equipped with the drainage subassembly 7 that guides rivers, and is located one of them synchronous drive subassembly, synchronous auto-change over device 5 is including fixed drive subassembly 51 and switching limiting component 53, fixed drive subassembly 51 sets up the side at transmission support 1, switching limiting component 53 sets up on fixed drive subassembly 51.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the discharging assembly 3 includes two auxiliary tanks 31, two auxiliary tanks 31 are symmetrically disposed on two sides of the transmission support 1, the side ends of the auxiliary tanks 31 are fixedly connected with the side ends of the adjacent transmission support 1, a transmission shaft 32 for placing the hot rolled coil 2 is rotatably connected between the two auxiliary tanks 31, one of the auxiliary tanks 31 is hollow, a fixed shaft 33 is rotatably connected in the auxiliary tank 31, the side ends of the fixed shaft 33 pass through the side ends of the auxiliary tanks 31 and are connected with the transmission shaft 32, a driving gear 34 is disposed on the fixed shaft 33, the fixed shaft 33 is fixedly connected with the center of the driving gear 34, a driving motor 35 is disposed on the outer side of the auxiliary tank 31, and the output end of the driving motor 35 is connected with the fixed shaft 33;

the linkage assembly 4 comprises a plurality of driving rollers 41, the driving rollers 41 are arranged on the transmission support 1 at equal intervals, the driving rollers 41 are arranged close to each other, the transmission support 1 is arranged in a hollow mode, two ends of the driving rollers 41 are in running fit with the side ends of the adjacent transmission support 1, a first driving belt 42 is sleeved at one end of each two driving rollers 41 in the transmission support 1, a linkage gear 43 is meshed below the driving gear 34, the center of the linkage gear 43 is in running connection with the inner wall of the auxiliary box 31 through a first driving member 44, a second driving member 45 is arranged below the first driving member 44, the side ends of the second driving member 45 penetrate through the auxiliary box 31 and the side ends of the transmission support 1 and are connected with one ends of the adjacent driving rollers 41, the second driving member 45 is in running fit with the auxiliary box 31 and the transmission support 1, a second driving belt 46 is sleeved at the side end of the first driving member 44, and the other end of the second driving belt 46 is sleeved at the side end of the second driving member 45;

The staff installs hot rolled coil 2 to transmission shaft 32 at first, then work through control driving motor 35, thereby drive fixed axle 33 and begin to rotate, make drive gear 34 synchronous rotation, thereby make hot rolled coil 2 rotate through transmission shaft 32, and continuously carry out the unloading on transmission support 1, drive the linkage gear 43 that meshes with it and take place the rotation opposite direction in the in-process that drive gear 34 rotated, through second driving belt 46, thereby drive driving roller 41 and rotate, and under the effect of first driving belt 42, a plurality of driving roller 41 all take place the rotation of same direction, thereby rotate in the direction of keeping away from driving roller 41 at hot rolled coil 2, and the in-process of unloading, take place the transmission opposite to the direction of rotation of hot rolled coil 2 through a plurality of driving roller 41, supplementary unloading is to the one end of hot rolled coil 2 on driving roller 41 and is continuously moved, thereby the surface of hot rolled coil 2 is cleared up the work of being convenient for, then the hot rolled coil 2 of being convenient for to clear up, convenience when further improving the use.

In this embodiment, as shown in fig. 6, 7, 8, 9, 10, 11 and 12, the fixed driving assembly 51 includes a fixed box 511, a side end of the fixed box 511 is fixedly connected with a side end of the transmission support 1 and is located at one side of the auxiliary box 31, the fixed box 511 is hollow, a rectangular opening 512 is disposed at one side of the fixed box 511 near the transmission support 1, a third transmission member 513 is rotatably connected to an inner wall of the fixed box 511, a side end of the third transmission member 513 passes through the fixed box 511 and a side end of the transmission support 1 and is connected with a side end of an adjacent transmission roller 41, a trigger member 514 is disposed above the third transmission member 513, a side end of the trigger member 514 is rotatably connected with a side end of the fixed box 511, a third transmission belt 515 is sleeved on the third transmission member 513, the other end of the third driving belt 515 is sleeved on the triggering member 514, sliding rails 516 are symmetrically arranged on the upper side and the lower side of the triggering member 514, the side ends of the sliding rails 516 are fixedly connected with the inner wall of the fixed box 511, each sliding rail 516 is respectively positioned on the upper side and the lower side of the rectangular opening 512, each sliding rail 516 is provided with a sliding block 517 in a sliding manner, the two sliding blocks 517 are fixedly connected through a sliding shaft 518, the sliding shaft 518 is provided with a matched moving member 519 in a sliding manner, one side of the matched moving member 519 far away from the transmission bracket 1 is rotationally connected with a curved block 520, the side end of the curved block 520 is fixedly connected with a moving rod 521, one end of the moving rod 521 slides through the center of the triggering member 514, and the side end of the curved block 520 is fixedly connected with the side end of the triggering member 514 through a telescopic spring 522;

The switch limiting component 53 comprises a switch base 531, the switch base 531 is arranged in a rectangular opening 512, the side end of the switch base 531 is fixedly connected with the side end of an adjacent matched moving member 519, a trigger gear 532 is rotationally connected at the center of one side of the switch base 531 far away from the matched moving member 519, limiting columns 533 are symmetrically arranged on two sides of the trigger gear 532, the side ends of the limiting columns 533 are fixedly connected with the side end of the switch base 531, two clamping columns 534 are fixedly connected on one side of the trigger gear 532 close to the switch base 531, two clamping columns 534 are arranged up and down, the side end of each clamping column 534 is movably connected with the side end of one limiting column 533 through a tension spring 535, the included angle between the two clamping columns 534 and the two limiting columns 533 is 90 degrees, the two tension springs 535 are obliquely and symmetrically arranged, one side, away from each other, of each clamping column 534 is provided with a baffle 536, the side end of each baffle 536 is fixedly connected with the side end of each switching base 531, one side, close to the auxiliary box 31, of each switching base 531 is fixedly connected with an L-shaped bracket 537, the L-shaped brackets 537 are rotationally connected with a matching gear 538, the side end of each matching gear 538 is meshed with the side end of each triggering gear 532, the two sides of each rectangular opening 512 are symmetrically provided with a matching tooth groove rod 539, the side end of each matching tooth groove rod 539 is fixedly connected with the side end of each fixed box 511, an included angle between each matching tooth groove rod 539 and each driving roller 41 is 90 degrees, and tooth groove ends of the matching tooth groove rods 539 can be meshed with tooth groove ends of the triggering gears 532 and the matching gears 538;

The spraying wiping component 6 comprises a mounting box 61, two ends of the mounting box 61 are respectively connected with the centers of adjacent trigger gears 532, the mounting box 61 is in hollow arrangement, a plurality of spraying water guns 62 are arranged at the bottom in the mounting box 61, the plurality of spraying water guns 62 are equidistantly arranged, the output ends of the spraying water guns 62 penetrate through the bottom of the mounting box 61 and are positioned at the outer side of the mounting box 61, the tops of the plurality of spraying water guns 62 are connected with the top in the mounting box 61, the top of the mounting box 61 is fixedly connected with a wiping piece 63, a foam cushion 64 is arranged above the mounting box 61, two ends of the foam cushion 64 are respectively fixedly connected with the side ends of adjacent fixed boxes 511, and the foam cushion 64 is positioned above the rectangular opening 512;

the third driving member 513 connected with the driving roller 41 is driven to rotate while the driving roller 41 rotates, the trigger 514 is synchronously rotated under the action of the third driving belt 515, in the process of rotating the trigger 514, the matching moving member 519 and the sliding block 517 are driven to slide horizontally along the direction of the sliding track 516 through the matching of the sliding rod 521 and the telescopic spring 522 which are arranged in a sliding manner, after the sliding block 517 moves to one end of the sliding track 516 to stop, the sliding block 520 and the matching moving member 519 are driven to move vertically along the sliding shaft 518, after the trigger 514 rotates once, the sliding block 517 and the matching moving member 519 are driven to restore to the initial position, so that the matching moving member 519 is driven to slide along the edge of the rectangular opening 512, and then the switching base 531 is driven to move regularly, while the matching moving member 519 horizontally slides above the rectangular opening 512, the mounting box 61 is driven to slide along the upper side of the rectangular opening 512 by the switching base 531, the clamping post 534 is always abutted against one side of the baffle 536 by the set tension spring 535, so that the triggering gear 532 is prevented from rotating in the moving process, then the spraying gun 62 in the mounting box 61 is convenient for cleaning the hot rolled plate coil 2 positioned on the driving roller 41, after the sliding block 517 moves to one end of the sliding track 516, the switching base 531 is driven to move to one side of the matching tooth socket rod 539, and the side end of the triggering gear 532 is driven to move to one side of the matching tooth socket rod 539 and meshed with the matching tooth socket rod, when the matching moving member 519 moves in the vertical direction along the sliding shaft 518, the triggering gear 532 is driven to move along the matching tooth socket rod 539 and rotate in the rotating process of the triggering gear 532, the extension spring 535 connected with the same is stretched by the clamping columns 534, and after the trigger gear 532 rotates 180 degrees, the two clamping columns 534 are driven to rotate and respectively abut against the other side of the other baffle 536, so that the mounting box 61 is driven to turn over, when the matching moving piece 519 slides horizontally below the rectangular opening 512, the wiping piece 63 can be attached to the hot rolled plate coil 2 and wipe the surface of the hot rolled plate coil cleanly through the movement of the matching moving piece 519, when the matching moving piece 519 moves to the other side of the rectangular opening 512, the matching gear 538 is matched with the matching tooth socket rod 539 at the other side, so that when the matching moving piece 519 moves to the upper side of the rectangular opening 512 from the bottom of the rectangular opening 512 again, the matching gear 538 is driven to rotate, the trigger gear 532 meshed with the matching gear 532 rotates in the opposite direction to the previous direction, and the clamping columns 534 and the extension spring 535 are driven to restore to the initial state, and locked, thereby driving the mounting box 61 to reset, and the wiping piece 63 to be positioned at the top of the mounting box 61 again, the spraying gun 62 is positioned at the bottom of the mounting box 61, thereby being convenient for the next cleaning work, absorbing the wiping piece 63 which is wiped by the sponge pad 64 in the continuous moving process, keeping clean, thereby being capable of timely self-cleaning, realizing the cleaning of the surface of the hot rolled coil 2 in the continuous discharging process of the hot rolled coil 2, automatically keeping the clean of the surface of the steel plate in the discharging process, avoiding the deformation of the steel plate during the forming process, avoiding the processing by an additional cleaning structure, improving the working efficiency while simplifying the working step, automatically self-cleaning the wiping piece 63, ensuring the cleaning effect of each time, thereby further improving the practicability of the device.

In this embodiment, as shown in fig. 13, 14 and 15, the drainage assembly 7 includes a movable air cylinder 71, the movable air cylinder 71 is disposed in one of the fixed tanks 511, the top of the movable air cylinder 71 is connected with the top of the adjacent fixed tank 511 through a connecting frame, a movable plug 72 is slidably disposed in the movable air cylinder 71, one side of the movable plug 72 is fixedly connected with an L-shaped strut 73, one end of the L-shaped strut 73 far from the movable plug 72 slides through the side wall of the movable air cylinder 71 and is fixedly connected with the side end of a linkage rod 74, the linkage rod 74 is disposed at one side of the movable air cylinder 71, the top of the linkage rod 74 is slidably matched with the top of the fixed tank 511, the side end of a sliding block 517 adjacent to the linkage rod 74 is provided with a communicating member 75, the side end of the communicating member 75 is connected with the side end of the adjacent linkage rod 74 through a telescopic rod 76, one end of the hose 77 far from the movable plug 72 passes through a through groove to be-up moving member 519, a switch base 531 and a trigger gear 532, and passes through a side wall 62 of the installation box 61 to be connected with one end of the movable air cylinder 71, and is disposed at the other end of the hose 77 far from the bottom of the movable air cylinder 71 is connected with the movable tank 79 through the side of the fixed tank 79;

The hose 77 is provided with a first one-way valve 8 at one end in the movable air cylinder 71, and the pipeline 78 is provided with a second one-way valve 9 at one end in the movable air cylinder 71;

the cooperation moving member 519 moves at rectangular opening 512 bottom and drives the wiper 63 and carry out the during operation, thereby synchronous drive intercommunication piece 75 and telescopic link 76 keep away from water storage tank 79 and remove, thereby drive movable plug 72 through gangbar 74 and L type branch 73 and remove to the direction of keeping away from water storage tank 79 in movable air cylinder 71, thereby at the in-process of removal, absorb the rivers in the water storage tank 79 to movable air cylinder 71 through pipeline 78, this moment through the first check valve 8 of setting, thereby avoid the rivers to flow out through hose 77, and when installation box 61 upset drive spray gun 62 orientation hot rolled coil 2, and drive cooperation moving member 519 carries out the reverse direction and remove, thereby drive movable plug 72 and remove towards the direction of water storage tank 79, thereby guide the rivers that will store in movable air cylinder 71 to each spray gun 62 through hose 77, this moment through the second check valve 9 of setting, thereby avoid the rivers to flow back to water storage tank 79 this moment, thereby further ensure the cleaning effect, and realized the work of the control rivers that can be automatic in the cleaning process, and in the top of pole 74 moves at fixed box 511, thereby continuously spray gun 62 when the time of roll-up is accomplished, and the continuous time of cleaning device is realized, and the continuous time is realized when the roll of wiping device is cleaned up at the top of moving of the movable linkage piece 519 moves the roll 61, thereby the continuous roll of spray gun 63 is realized, and the continuous time is realized when the roll of cleaning device is cleaned up, and the roll of the roll is finished, and the roll of time is realized, after the roll is further convenient, and the roll is moved, and the roll is continuously after the roll up, and the roll is moved, and the time, and the device is continuously, and the device is moved.

The application method and the advantages of the invention are as follows: the production method of the cold-rolled forming system for the high-silicon cold-rolled steel plate comprises the following working processes:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15:

s1: the hot rolled coil 2 is firstly mounted on a transmission shaft 32 by a worker, then the driving motor 35 is controlled to work, so that a fixed shaft 33 is driven to start rotating, a driving gear 34 rotates synchronously, the hot rolled coil 2 is rotated through the transmission shaft 32 and continuously fed on a transmission bracket 1, a linkage gear 43 meshed with the driving gear 43 is driven to rotate in the opposite direction during the rotation of the driving gear 34, a driving roller 41 is driven to rotate through a second driving belt 46, a plurality of driving rollers 41 rotate in the same direction under the action of the first driving belt 42, so that the hot rolled coil 2 rotates in the direction away from the driving rollers 41, and in the feeding process, the driving rollers 41 are driven in the opposite direction to the rotation direction of the hot rolled coil 2, and one end of the hot rolled coil 2 on the driving roller 41 is assisted to continuously move during the feeding process;

s2: the third driving member 513 connected with the driving roller 41 is driven to rotate while the driving roller 41 rotates, the trigger 514 is synchronously rotated under the action of the third driving belt 515, in the process of rotating the trigger 514, the matching moving member 519 and the sliding block 517 are driven to slide horizontally along the direction of the sliding track 516 through the matching of the sliding rod 521 and the telescopic spring 522 which are arranged in a sliding manner, after the sliding block 517 moves to one end of the sliding track 516 to stop, the sliding block 520 and the matching moving member 519 are driven to move vertically along the sliding shaft 518, after the trigger 514 rotates once, the sliding block 517 and the matching moving member 519 are driven to restore to the initial position, so that the matching moving member 519 is driven to slide along the edge of the rectangular opening 512, and then the switching base 531 is driven to move regularly, while the matching moving member 519 horizontally slides above the rectangular opening 512, the mounting box 61 is driven to slide along the upper side of the rectangular opening 512 by the switching base 531, the clamping post 534 is always abutted against one side of the baffle 536 by the set tension spring 535, so that the triggering gear 532 is prevented from rotating in the moving process, then the spraying gun 62 in the mounting box 61 is convenient for cleaning the hot rolled plate coil 2 positioned on the driving roller 41, after the sliding block 517 moves to one end of the sliding track 516, the switching base 531 is driven to move to one side of the matching tooth socket rod 539, and the side end of the triggering gear 532 is driven to move to one side of the matching tooth socket rod 539 and meshed with the matching tooth socket rod, when the matching moving member 519 moves in the vertical direction along the sliding shaft 518, the triggering gear 532 is driven to move along the matching tooth socket rod 539 and rotate in the rotating process of the triggering gear 532, the two clamping columns 534 are driven to rotate after the triggering gear 532 rotates 180 degrees, and respectively abut against the other side of the other baffle 536, so that the mounting box 61 is driven to turn over, the wiping piece 63 can be attached to the hot rolled plate coil 2 and move to wipe the surface of the hot rolled plate coil 2 when the matching moving piece 519 horizontally slides below the rectangular opening 512, after the matching moving piece 519 moves to the other side of the rectangular opening 512, the matching gear 538 is matched with the matching tooth socket rod 539 at the other side, so that the matching moving piece 519 rotates when the matching moving piece 519 moves from the bottom of the rectangular opening 512 to the upper side of the rectangular opening 512 again, the triggering gear 532 meshed with the matching gear 532 rotates in the opposite direction to the previous direction, the clamping columns 534 and the stretching spring 535 are driven to return to the initial state and are locked, the mounting box 61 is driven to reset, the wiping piece 63 is located at the top of the mounting box 61 again, the water gun 62 is sprayed at the bottom of the mounting box 61, the cleaning work is convenient to next time, and the sponge 64 is continuously arranged to absorb the cleaning piece 63 in the continuous moving process, and the cleaning of the wiping piece 63 is kept clean;

S3: when the cooperation moving member 519 moves at the bottom of the rectangular opening 512 to drive the wiping member 63 to work, the sliding block 517 drives the communicating member 75 and the telescopic rod 76 to move away from the water storage tank 79, and the linkage rod 74 and the L-shaped supporting rod 73 drive the movable plug 72 to move in the direction away from the water storage tank 79 in the movable air cylinder 71, so that in the moving process, water flow in the water storage tank 79 is absorbed into the movable air cylinder 71 through the pipeline 78, at the moment, the water flow is prevented from flowing out through the hose 77 through the arranged first one-way valve 8, the spray gun 62 is driven to face the hot rolled coil 2 by overturning the mounting box 61, and the cooperation moving member 519 is driven to move in the opposite direction, so that the movable plug 72 is driven to move towards the water storage tank 79, and the water flow stored in the movable air cylinder 71 is guided into each spray gun 62 through the hose 77, at the moment, the water flow is prevented from flowing back into the water storage tank 79 through the pipeline 78 through the arranged second one-way valve 9, the cleaning effect is further ensured, and the flushing work of automatically controlling the water flow in the cleaning process is realized.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A cold-rolled forming system of a high-silicon cold-rolled steel plate is characterized in that: including transmission support (1), the one end of transmission support (1) is equipped with ejection of compact subassembly (3) that are used for placing hot rolled coil of plate (2), be equipped with linkage subassembly (4) in ejection of compact subassembly (3), and be located transmission support (1), the bilateral symmetry of transmission support (1) is equipped with synchronous auto-change over device (5), two be equipped with between synchronous auto-change over device (5) and be used for spraying wiping subassembly (6) to clear up the steel sheet surface, one side of spraying wiping subassembly (6) is equipped with drainage subassembly (7) of guide rivers, and is located one of them synchronous drive subassembly, synchronous auto-change over device (5) are including fixed drive subassembly (51) and switching spacing subassembly (53), fixed drive subassembly (51) set up the side at transmission support (1), switching spacing subassembly (53) set up on fixed drive subassembly (51).

2. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 1, wherein: the discharging assembly (3) comprises auxiliary boxes (31), the auxiliary boxes (31) are arranged at two sides of the transmission support (1) symmetrically, the side ends of the auxiliary boxes (31) are fixedly connected with the side ends of the adjacent transmission support (1), the two auxiliary boxes (31) are rotationally connected with a transmission shaft (32) for placing the hot rolled coil (2), one of the transmission shafts (32) is arranged in a hollow mode, the fixed shafts (33) are connected in the auxiliary boxes (31) in an rotating mode, the side ends of the fixed shafts (33) penetrate through the side ends of the auxiliary boxes (31) and are connected with the transmission shaft (32), driving gears (34) are arranged on the fixed shafts (33), the fixed shafts (33) are fixedly connected with the center of the driving gears (34), driving motors (35) are arranged on the outer sides of the auxiliary boxes (31), and the output ends of the driving motors (35) are connected with the fixed shafts (33).

3. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 2, wherein: the linkage subassembly (4) is including driving roller (41), driving roller (41) are equipped with a plurality of, a plurality of driving roller (41) equidistant setting is on transmission support (1), and a plurality of driving roller (41) press close to the setting mutually, transmission support (1) are the cavity setting, a plurality of both ends of driving roller (41) all with adjacent transmission support (1) side normal running fit, wherein every two driving roller (41) are located the one end of transmission support (1) and all overlap and be equipped with first driving belt (42), the below meshing of driving gear (34) is provided with linkage gear (43), the center department of linkage gear (43) is through first driving medium (44) and auxiliary tank (31) inner wall rotation connection, the below of first driving medium (44) is equipped with second driving medium (45), the side of second driving medium (45) passes auxiliary tank (31) and transmission support (1) the side and is connected with the one end of adjacent driving roller (41), second driving medium (45) and second driving medium (45) side normal running fit, second driving medium (46) are equipped with second driving medium (46) side.

4. A cold-rolled forming system for a high-silicon cold-rolled steel sheet according to claim 3, wherein: the fixed driving component (51) comprises a fixed box (511), the side end of the fixed box (511) is fixedly connected with the side end of the transmission support (1) and is positioned on one side of the auxiliary box (31), the fixed box (511) is in hollow arrangement, one side of the fixed box (511) close to the transmission support (1) is provided with a rectangular opening (512), the inner wall of the fixed box (511) is rotationally connected with a third transmission member (513), the side end of the third transmission member (513) penetrates through the side ends of the fixed box (511) and the transmission support (1) to be connected with the side end of an adjacent transmission roller (41), a triggering member (514) is arranged above the third transmission member (513), the side end of the triggering member (514) is rotationally connected with the side end of the fixed box (511), the third transmission member (513) is sleeved with a third transmission belt (515), the other end of the third transmission belt (515) is sleeved on the triggering member (514), the upper side and the lower side of the triggering member (514) is symmetrically provided with a sliding rail (516), the upper side and the lower side of the triggering member (514) is provided with a sliding block (516), the sliding block (516) is respectively connected with the sliding block (516) on the upper side of the fixed rail (511), the two sliding blocks (517) are fixedly connected through a sliding shaft (518), a matched moving part (519) is arranged on the sliding shaft (518) in a sliding mode, a curved block (520) is rotatably connected to one side, far away from the transmission support (1), of the matched moving part (519), a moving rod (521) is fixedly connected to the side end of the curved block (520), one end of the moving rod (521) is arranged in a sliding mode to penetrate through the center of the triggering part (514), and the side end of the curved block (520) is fixedly connected with the side end of the triggering part (514) through a telescopic spring (522).

5. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 4, wherein: the switching limiting assembly (53) comprises a switching base (531), a rectangular opening (512) is formed in the switching base (531), the side ends of the switching base (531) are fixedly connected with the side ends of adjacent matched moving pieces (519), a trigger gear (532) is rotationally connected to the center of one side of the switching base (531) far away from the matched moving pieces (519), limiting columns (533) are symmetrically arranged on two sides of the trigger gear (532), the side ends of the limiting columns (533) are fixedly connected with the side ends of the switching base (531), clamping columns (534) are fixedly connected to one side of the triggering gear (532) close to the switching base (531), two clamping columns (534) are arranged, the two clamping columns (534) are arranged up and down, the side ends of each clamping column (534) are movably connected with the side end of one limiting column (533) through a stretching spring (535), the included angle between the two clamping columns (534) and the two limiting columns (533) is 90 degrees, and the two stretching springs (535) are symmetrically arranged in an inclined mode;

each card post (534) one side that keeps away from each other is equipped with baffle (536), the side of baffle (536) is held fixedly connected with the side of switching base (531), one side fixedly connected with L type support (537) that switches base (531) are close to auxiliary tank (31), rotate on L type support (537) and be connected with mating gear (538), the side of mating gear (538) meshes with the side of triggering gear (532), the bilateral symmetry of rectangle opening (512) is equipped with cooperation tooth groove pole (539), the side of cooperation tooth groove pole (539) is held fixed connection with the side of fixed tank (511), contained angle between cooperation tooth groove pole (539) and driving roller (41) is 90 degrees setting, the tooth groove end of cooperation tooth groove pole (539) all can mesh with the tooth groove end of triggering gear (532) and mating gear (538).

6. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 5, wherein: the utility model provides a spray wiping subassembly (6) includes mounting box (61), the both ends of mounting box (61) are connected with the center department of adjacent trigger gear (532) respectively, mounting box (61) are the cavity setting, the bottom in mounting box (61) is equipped with a plurality of and sprays squirt (62), a plurality of spray squirt (62) equidistance setting, and the output all passes the outside that mounting box (61) bottom is located mounting box (61), a plurality of the top of spraying squirt (62) all is connected with the top in mounting box (61), the top fixedly connected with wiper (63) of mounting box (61), the top of mounting box (61) is equipped with foam-rubber cushion (64), and the both ends of foam-rubber cushion (64) are respectively rather than adjacent fixed box (511) side fixed connection, foam-rubber cushion (64) are located the top of rectangle opening (512).

7. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 6, wherein: the drainage component (7) comprises a movable air cylinder (71), the movable air cylinder (71) is arranged in one of the fixed boxes (511), the top of the movable air cylinder (71) is connected with the top in the fixed box (511) through a connecting frame, a movable plug (72) is arranged in the movable air cylinder (71) in a sliding mode, one side of the movable plug (72) is fixedly connected with an L-shaped supporting rod (73), one end of the L-shaped supporting rod (73) far away from the movable plug (72) slides through the side wall of the movable air cylinder (71) and is fixedly connected with the side end of a linkage rod (74), the linkage rod (74) is positioned on one side of the movable air cylinder (71), the top of the linkage rod (74) is in sliding fit with the top in the fixed box (511), the side end of an adjacent sliding block (517) of the linkage rod (74) is provided with a communicating piece (75), the side end of the communicating piece (75) is connected with the side end of an adjacent linkage rod (74) through a telescopic rod (76), a hose (77) is arranged in the communicating piece (75), the hose (77) is far away from the center of the movable air cylinder (71) and passes through a triggering box (532) and passes through a position (61) of a triggering box (532), the other end of the hose (77) is communicated with the inside of the movable air cylinder (71), one end, far away from the L-shaped supporting rod (73), of the movable air cylinder (71) is connected with the water storage tank (79) through the pipeline (78), and the bottom of the water storage tank (79) is connected with the bottom of the fixed tank (511).

8. The cold-rolled forming system for high-silicon cold-rolled steel sheets according to claim 7, wherein: the hose (77) is provided with a first one-way valve (8) at one end in the movable air cylinder (71), and the pipeline (78) is provided with a second one-way valve (9) at one end in the movable air cylinder (71).

9. The method for producing a cold-rolled forming system for high-silicon cold-rolled steel sheet according to claim 8, comprising the steps of:

s1: the method comprises the steps that a worker firstly installs a hot-rolled coil (2) on a transmission shaft (32), then works by controlling a driving motor (35) so as to drive a fixed shaft (33) to start rotating, so that a driving gear (34) rotates synchronously, the hot-rolled coil (2) is enabled to rotate through the transmission shaft (32) and continuously feed on a transmission bracket (1), a linkage gear (43) meshed with the driving gear (34) is driven to rotate in the opposite direction in the rotating process of the driving gear (34), a driving roller (41) is driven to rotate through a second driving belt (46), and a plurality of driving rollers (41) rotate in the same direction under the action of a first driving belt (42), so that the hot-rolled coil (2) rotates in the direction away from the driving roller (41), and continuously move to one end of the hot-rolled coil (2) on the driving roller (41) in the feeding process;

S2: the trigger piece (514) is driven to synchronously rotate while the driving roller (41) rotates, the matching moving rod (521) and the telescopic spring (522) are arranged in a sliding way, so that the matching moving piece (519) and the sliding piece (517) are driven to horizontally slide along the direction of the sliding track (516) through the curved block (520), after the sliding piece (517) is moved to one end of the sliding track (516) to stop, the curved block (520) and the matching moving piece (519) are driven to vertically move along the sliding shaft (518), after the trigger piece (514) rotates for one circle, the sliding piece (517) and the matching moving piece (519) are driven to restore to the initial position, the matching moving piece (519) is driven to slide along the edge of the rectangular opening (512), the switching base (531) is driven to regularly move, the matching moving piece (519) horizontally slides above the rectangular opening (512), the switching base (531) is driven to synchronously slide above the rectangular opening (512) along the box (61), the stretching spring (535) is arranged, the gear (536) is always prevented from abutting against the baffle (536) in the process of rotating, and the baffle (534) is prevented from rotating, then, a spraying water gun (62) in the mounting box (61) is convenient to clean a hot rolled plate coil (2) positioned on the driving roller (41), when the matching moving part (519) moves along the sliding shaft (518) in the vertical direction, the triggering gear (532) is driven to rotate, the stretching spring (535) connected with the triggering gear (534) is stretched by the clamping columns (534), after the triggering gear (532) rotates 180 degrees, the two clamping columns (534) are driven to respectively abut against the other side of the other baffle (536), so that the wiping part (63) can be attached to the hot rolled plate coil (2) and move through the wiping part to clean the surface of the hot rolled plate coil, and when the wiping part moves to the other side of the rectangular opening (512), the matching gear (538) is driven to rotate, the triggering gear (532) meshed with the matching gear (538) is driven to rotate in the opposite direction to the front, the clamping columns (534) and the stretching spring (535) are driven to restore to the initial state and locked, and the mounting box (61) is driven to reset;

S3: when the cooperation moving member (519) moves to drive the wiping member (63) to work at the bottom of the rectangular opening (512), thereby the connecting member (75) and the telescopic rod (76) are synchronously driven to move away from the water storage tank (79) through the sliding block (517), thereby the movable plug (72) is driven to move away from the water storage tank (79) in the movable air cylinder (71) through the linkage rod (74) and the L-shaped supporting rod (73), thereby the water flow in the water storage tank (79) is absorbed into the movable air cylinder (71) through the pipeline (78) in the moving process, at the moment, the water flow is prevented from flowing out through the hose (77) through the arranged first one-way valve (8), and when the installation box (61) is overturned to drive the spraying water gun (62) to face the hot rolled plate coil (2) and drive the cooperation moving member (519) to move in the opposite direction, the movable plug (72) is driven to move towards the water storage tank (79), the water flow stored in the movable air cylinder (71) is guided into the direction of the water storage tank (79) through the hose (77), the water flow in each water gun (62) at the moving process, the water flow in the water storage tank (78) is automatically sprayed through the hose (78), the second one-way valve (9) is arranged at the moment, the water flow in the water storage tank can be prevented from flowing back through the automatic control valve (9) at the moment, and the water storage tank can be further cleaned, and the water flow can be further cleaned in the water storage tank (79) through the water tank.