CN116944095A - A cleaning device for blade of silicon steel production - Google Patents

Abstract

The invention discloses a cleaning device for silicon steel sheet production, which relates to the technical field of silicon steel sheet production. Including first support, first support rigid coupling has the protective housing, first support rigid coupling has the baffle that is located in the protective housing, the baffle rotate be connected with the control terminal electricity is connected and be the second electric roller that sharp array and mirror image distribute, the baffle rotates and is connected with the first guide roller that is sharp array and mirror image distribute, the baffle rotates and is connected with equidistant distribution and runs through third guide roller and the fourth guide roller of protective housing, third guide roller first guide roller and mirror image distribute on the second electric roller around being equipped with wiping cloth. According to the invention, the steel sheet is wiped through the wiping cloth, and sticky sundries on the steel sheet are wiped, so that the effect of cleaning the steel sheet is achieved.

Description

A cleaning device for blade of silicon steel production

Technical Field

The invention relates to the technical field of silicon steel sheet production, in particular to a cleaning device for silicon steel sheet production.

Background

Silicon steel sheets, also known as silicon steel sheets, are a special type of electrical steel that is commonly used in the manufacture of core components for motors, transformers and generators, and primarily serves to reduce eddy current and hysteresis losses in the core, thereby improving the energy efficiency and performance of the device.

The silicon steel sheet can be sticky with some sundries due to procedures such as transferring in the manufacturing process, the sundries are extruded with the surfaces of adjacent silicon steel sheets in the transportation process and the later storage process of the silicon steel sheets, and then the surfaces of the silicon steel sheets are damaged, so that the use effect of the silicon steel sheets is affected, the existing cleaning mode is generally to clean the silicon steel sheets in a water tank by holding the silicon steel sheets by a worker, the situation that the worker is tired can occur along with the increase of time, the cleaning efficiency of the silicon steel sheets is further reduced, the silicon steel sheets are manually stacked after the cleaning is completed, and then the stacked silicon steel sheets are stored by the worker, so that the process is troublesome and laborious.

Disclosure of Invention

In order to overcome the defects of the background technology, the invention provides a cleaning device for silicon steel sheet production.

The technical implementation scheme of the invention is as follows: the utility model provides a cleaning device for blade of silicon steel production, includes first support, first support rigid coupling has the protective housing, the protective housing is provided with control terminal, the protective housing is provided with feed inlet and discharge gate, first support rigid coupling has and is located baffle in the protective housing, the baffle rotates and is connected with the control terminal electricity is connected and is sharp array and the second motorized roll that mirror image distributes, the baffle rotates and is connected with the first guide roll that is sharp array and mirror image distributes, first guide roll runs through the protective housing, the baffle rotates and is connected with equidistant distribution and runs through third guide roll and the fourth guide roll of protective housing, adjacent third guide roll first guide roll and mirror image distribute around being equipped with between the second motorized roll and wipe cloth, the baffle is provided with and is located in the protective housing and be sharp array distribution's defeated material subassembly, clearance subassembly and extrusion subassembly, the baffle is provided with annotates liquid subassembly and turn-ups subassembly, one side of protective housing discharge gate is provided with and shifts the subassembly, it has the subassembly to pile up the one side of material, the terminal is piled up with the subassembly all to pile up with the control subassembly.

Further, the material conveying assembly comprises a first electric roller which is electrically connected with the control terminal and distributed in a mirror image mode, the first electric roller is rotationally connected with the partition board and the protective shell, a conveyor belt is wound between the first electric roller and is in consistent horizontal height, the conveyor belt is fixedly connected with silica gel blocks which are in an annular array and distributed in a mirror image mode, the partition board is fixedly connected with a first baffle, the first baffle is located adjacent to one side, close to a feed inlet of the protective shell, of the conveyor belt, the partition board is fixedly connected with a fixing plate located adjacent to the conveyor belt, the fixing plate is provided with protrusions, the fixing plate is located between the first guide rollers which are distributed in an adjacent mirror image mode, and the protrusions of the fixing plate are in contact with the adjacent conveyor belt.

Further, the second electric roller is located adjacent the top of first electric roller, first guide roller is located adjacent between first electric roller with the second electric roller, adjacent between the first guide roller through band pulley belt transmission connection, the baffle rotates and is connected with runs through the second guide roller of protective housing, the second guide roller with adjacent the wiping cloth contact, the second guide roller passes through the band pulley belt and is connected with adjacent first guide roller transmission, first guide roller passes through the band pulley belt and is connected with adjacent second electric roller transmission, the height of second guide roller is higher than adjacent first guide roller, the height of third guide roller is lower than adjacent fourth guide roller's height, the third guide roller passes through the band pulley belt and is connected with adjacent fourth guide roller transmission, the third guide roller passes through the band pulley belt and is connected with adjacent second electric roller transmission.

Further, the cleaning component comprises a cleaning roller, the cleaning roller rotate connect in the baffle, the cleaning roller passes through the band pulley belt and is adjacent the transmission of fourth guide roller is connected, the cleaning roller runs through the protective housing, the baffle rigid coupling has and is located adjacent the L shaped plate of third guide roller top, L shaped plate with adjacent the laminating of wiping cloth, the cleaning roller rigid coupling has mirror image and spiral distribution's brush, the brush with adjacent wiping cloth contacts, the baffle is provided with and is located adjacent the water storage shell in the wiping cloth, the water storage shell is located adjacent the cleaning roller with adjacent the below of L shaped plate.

Further, annotate the liquid subassembly including the water tank, the water tank rigid coupling in the top surface of protective housing, the baffle rotates and is connected with the mirror image and is the drain roller that the sharp array distributes, the cloth of cleaning is located adjacent between the drain roller, the drain roller passes through the band pulley belt and is adjacent the transmission of second electronic roller is connected, the mirror image distribution the equal rigid coupling of drain roller has with adjacent the annular cover of cloth laminating is cleaned, the protective housing rigid coupling have with the drain spare that the water tank communicates and the mirror image distributes, drain spare and adjacent and mirror image distribution the drain roller normal running fit, the drain roller be provided with adjacent the circulation hole of drain spare intercommunication, the drain roller is provided with the rectangle play basin that is annular array distribution.

Further, the extrusion subassembly is including the rotation board that the mirror image distributes, the mirror image distributes the rotation board all rotate connect in the protective housing, rotation board sliding connection has the slide that the mirror image distributes, the rotation board with be provided with the torsional spring between the protective housing, protective housing sliding connection has the mirror image and is the squeeze roll that the straight line array distributes, the cloth of cleaning is located adjacent mirror image distributes between the squeeze roll, be close to adjacent rotate between the squeeze roll that the mirror image distributes on one side of the cleaning roll is connected with first articulated elements, first articulated elements with adjacent slide normal running fit on rotation board right side keeps away from adjacent rotate between the squeeze roll that the mirror image distributes on one side of the cleaning roll is connected with the second articulated elements, the downside the guide roll rigid coupling has the cam that the mirror image distributes, the cam cooperates with adjacent second articulated elements.

Further, the flanging component comprises a rotating roller, the rotating roller is rotationally connected to the partition board, the rotating roller is connected with the adjacent first electric roller in a transmission manner through a belt wheel belt, the rotating roller penetrates through the protective shell, the rotating roller is located between the adjacent first electric rollers, fixing pieces which are in annular arrays and distributed in linear arrays are fixedly connected to the rotating roller, the fixing pieces are slidably connected with first sliding pieces, springs are arranged between the first sliding pieces and the adjacent fixing pieces, and the first sliding pieces are matched with the adjacent conveying belts.

Further, the transfer assembly comprises second supports distributed in a mirror image mode, the second supports distributed in the mirror image mode are arranged on one side of the discharge hole of the protective shell, the second supports are provided with belt conveyors electrically connected with the control terminal, and connecting plates are fixedly connected between the second supports distributed in the mirror image mode.

Further, one side of the baffle close to the discharge hole of the protective shell is fixedly connected with an arc plate, the arc plate is attached to the adjacent conveying belt, and the arc plate is matched with the adjacent silica gel block.

Further, pile up the subassembly including the slide bar that mirror image distributes, mirror image distributed the equal sliding connection of slide bar in the connecting plate, mirror image distributed the slide bar rigid coupling has L shape frame, mirror image distributed the slide bar rigid coupling has the mirror image distributed the slide shell, the slide shell be provided with the pressure sensor that control terminal electricity is connected, the connecting plate rigid coupling has the second baffle that mirror image distributed, the second baffle with adjacent the slide shell cooperation, the connecting plate be provided with the driving motor that control terminal electricity is connected, driving motor's drive shaft rigid coupling have with L shape frame screw thread fit's threaded rod, slide shell sliding connection has the second slider, second slider with be provided with the spring between the adjacent the slide shell with the second slider, slide shell sliding connection has the slide pin that mirror image distributes, the slide pin swivelling joint has the bull stick, be provided with the torsional spring between bull stick and the adjacent the slide pin, the rigid coupling has the second rotating block with the second extrusion terminal has the extrusion piece, the second slider has the extrusion end to be provided with the extrusion end rigid coupling.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the steel sheet is wiped through the wiping cloth, sticky impurities on the steel sheet are wiped, so that the effect of cleaning the steel sheet is achieved, and the cleaning liquid is added into the wiping cloth through the liquid injection assembly, so that the wiping cloth wipes the steel sheet in a wet state, and in the process of wiping the impurities, the impurities on the steel sheet are adsorbed and collected so as not to be sticky to the subsequent steel sheet.

2. According to the steel sheet stacking and storing device, steel sheets are stacked and stored in a production line mode, and the steel sheets are cleaned in the storing process, so that the stacking and storing of the steel sheets are not affected by sundries carried by the steel sheets in the stacking and storing process.

3. The cleaning assembly is used for cleaning the wiping cloth, so that the effect of wiping the steel sheet by the wiping cloth is enhanced, and the wiping cleanliness is improved.

4. The steel sheet is turned over through the turn-ups subassembly, makes the upper and lower both sides of steel sheet all can be cleared up.

5. Through the cooperation of stacking component and transporting the subassembly, accomplish the stack of accomodating the steel sheet, and accomplish the transfer to the steel sheet in-process of stacking to make the steel sheet handled the process be continuity, in order to improve the stacking effect to the steel sheet.

Drawings

FIG. 1 is a front view of a three-dimensional structure of the present invention;

fig. 2 is a perspective structural sectional view of the protective case of the present invention;

FIG. 3 is a rear perspective view of the protective case of the present invention;

FIG. 4 is a rear perspective view of the separator of the present invention;

FIG. 5 is a schematic perspective view of a material handling assembly according to the present invention;

FIG. 6 is a schematic perspective view of a power tandem extrusion assembly of the present invention;

FIG. 7 is an exploded view of the three-dimensional structure of the cleaning assembly of the present invention;

FIG. 8 is an exploded view of the perspective construction of the injection assembly of the present invention;

FIG. 9 is an exploded view of the three-dimensional structure of the flange assembly of the present invention;

FIG. 10 is a schematic view of a novel perspective structure of a transfer assembly according to the present invention;

FIG. 11 is a schematic perspective view of a stacked assembly of the present invention;

FIG. 12 is an enlarged view of the three-dimensional structure of the stacked assembly of the present invention;

fig. 13 is an enlarged view of the invention at a in fig. 11.

The marks of the components in the drawings are as follows: 1: steel sheet, 101: first support, 102: protective housing 1021: control terminal, 103: separator, 2: feeding assembly, 201: first motorized roller, 202: conveyor belt, 203: silica gel block, 204: first baffle, 205: fixing plate, 206: arcuate plate, 301: second motorized roller, 302: first guide roller, 303: second guide roller, 304: third guide roller, 305: fourth guide roller, 306: wiping cloth, 4: cleaning assembly, 401: cleaning roller, 402: l-shaped plate, 403: brush, 404: water storage shell, 5: extrusion assembly, 501: rotating plate, 502: squeeze roll, 503: first hinge, 504: second hinge, 505: cam, 6: annotate liquid subassembly, 601: water tank, 602: liquid guiding roller, 603: annular sleeve, 604: liquid guide piece, 7: flanging assembly, 701: rotating roller, 702: fixing member, 703: first slider, 8: transport assembly, 801: second stand-offs, 802: belt conveyor, 803: connecting plate, 9: stacking assembly, 901: slide bar, 9011: l-shaped rack, 902: slide case, 9021: pressure sensor, 903: second baffle, 904: drive motor, 905: threaded rod, 906: second slider 907: slide pin, 908: rotating rod, 909: swivel plate, 910: extrusion block, 911: mount, 912: electric putter, 913: and extruding the plate.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. The application is as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1: a cleaning device for silicon steel sheet production is shown in figures 1, 2 and 5, and comprises a first support 101, a protective shell 102 is fixedly connected to the upper side of the first support 101, a control terminal 1021 is arranged on the front side of the protective shell 102, a feed inlet is arranged on the right side of the protective shell 102, a discharge outlet is arranged on the left side of the protective shell 102, a steel sheet 1 enters from the feed inlet of the protective shell 102 after cleaning, the steel sheet is removed from the discharge outlet of the protective shell 102, a baffle 103 is fixedly connected to the first support 101, the baffle 103 is positioned in the protective shell 102, the section shape of the baffle 103 is the same as the shape of the inner side wall of the protective shell 102, the protective shell 102 is used for protecting the baffle 103 and parts on the baffle, the baffle 103 is rotationally connected with four second electric rollers 301 which are in a linear array and are in mirror image distribution, the baffle 103 is rotationally connected with four first guide rollers 302 which are in a linear array and in mirror image distribution, the baffle 103 is rotationally connected with two third guide rollers 304 and two fourth guide rollers which are distributed at equal intervals, the first guide roller 302, the third guide roller 304 and the fourth guide roller 305 penetrate through the protective shell 102, a wiping cloth 306 is wound between the adjacent third guide roller 304, the first guide roller 302 and the mirror-image distributed second electric roller 301, the wiping cloth 306 is used for wiping the steel sheet 1, the two wiping cloths 306 are respectively used for wiping two side surfaces of the steel sheet 1 so as to ensure the surface of the steel sheet 1 to be clean, the baffle 103 is provided with two material conveying assemblies 2, two cleaning assemblies 4 and two extrusion assemblies 5 which are distributed in a linear array, the material conveying assemblies 2, the cleaning assemblies 4 and the extrusion assemblies 5 are all positioned in the protective shell 102, the material conveying assemblies 2 are used for supporting and transporting the steel sheet 1, the wiping cloth 306 can clean the steel sheet 1, the cleaning assemblies 4 are used for cleaning the adjacent wiping cloth 306, the cleaning cloth 306 is used for keeping a clean state when cleaning the steel sheet 1, the extrusion assembly 5 is used for extruding sewage remained in the cleaning cloth 306, the partition plate 103 is provided with the liquid injection assembly 6 which is arranged in the protective shell 102, the liquid injection assembly 6 is used for keeping the cleaning cloth 306 moist, the middle lower part of the partition plate 103 is provided with the flanging assembly 7 which is arranged between the two material conveying assemblies 2, the flanging assembly 7 is used for conveying the steel sheet 1 from the left material conveying assembly 2 to the right material conveying assembly 2 and flanging the steel sheet 1 in the conveying process, the left side of the protective shell 102 is provided with the transferring assembly 8, the transferring assembly 8 is used for conveying the piled steel sheet 1, the stacking assembly 9 is used for stacking the steel sheet 1, the steel sheet 1 is convenient to store and convey the steel sheet 1 later, the material conveying assembly 2, the transferring assembly 8 and the stacking assembly 9 are electrically connected with the control terminal, the steel sheet 1 is cleaned by the cleaning cloth 306, the adhered and the steel sheet 1 is erased by the steel sheet 1, the cleaning liquid assembly 6 is added into the steel sheet 306, the steel sheet 1 is prevented from being cleaned by the cleaning liquid assembly 6, and the adhered to the steel sheet 1 is prevented from being cleaned by the adhered to the steel sheet 1 in the moist state, and the adhered to the steel sheet 1 is cleaned later.

As shown in fig. 2-6 and 10, the material conveying assembly 2 comprises two first electric rollers 201 in mirror image distribution, the first electric rollers 201 are rotatably connected to the partition plate 103 and the protective shell 102, the two first electric rollers 201 in mirror image distribution are electrically connected with the control terminal 1021, the two first electric rollers 201 in mirror image distribution are located at the lower parts of the partition plate 103 and the protective shell 102, a conveying belt 202 is wound between the first electric rollers 201 in mirror image distribution, the conveying belt 202 is used for conveying the steel sheet 1 and supporting the steel sheet 1, so that the cleaning cloth 306 is more stable when cleaning the steel sheet 1, the conveying belt 202 is fixedly connected with silicon rubber blocks 203 in an annular array and in mirror image distribution, the adjacent four silicon rubber blocks 203 are used for fixing the steel sheet 1, the steel sheet 1 is kept stable in the cleaning and conveying process, the partition plate 103 is fixedly connected with a first baffle 204 located at the right side of the adjacent conveying belt 202, the first baffle 204 is used for extruding the steel sheet 1 placed on the adjacent conveying belt 202, the steel sheet 1 is further improved, the steel sheet 1 is fixedly connected with the steel sheet block 203, the height 205 of the conveying belt 202 is higher than the height 205 of the conveying belt 202, the upper side 205 is higher than the upper side 205 of the conveying plate 205 is located at the upper side 205, and is in contact with the adjacent conveying plate 1, and is fixedly connected with the upper plate 205, and is located at the upper side 205, and is fixedly connected with the upper plate and is used for the upper fixedly connected with the upper plate.

As shown in fig. 2 to 6, two second electric rollers 301 with consistent horizontal heights are all positioned above two adjacent first electric rollers 201, two adjacent first guide rollers 302 are in transmission connection through belt wheels, two first guide rollers 302 are all positioned between two adjacent first electric rollers 201 and two second electric rollers 301, a left first guide roller 302 is in transmission connection with a left second electric roller 301 through belt wheels, a third guide roller 304 is in transmission connection with an adjacent fourth guide roller 305 through belt wheels, a fixed plate 205 is positioned between two adjacent first guide rollers 302 in mirror image distribution, a partition plate 103 is in rotation connection with a second guide roller 303 in transmission connection with the adjacent first guide roller 302 through belt wheels, the second guide roller 303 penetrates through the protective shell 102, the second guide roller 303 is in contact with the adjacent wiping cloth 306, the height of the second guide roller 303 is higher than that of the adjacent first guide roller 302, the height of the third guide roller 304 is lower than that of the adjacent fourth guide roller 305, the third guide roller 304 is in transmission connection with the adjacent second motor roller 301 through a belt wheel belt, a trapezoid channel (the trapezoid channel gradually narrows from the right side to the left side) is formed between the wiping cloth 306 and the adjacent conveying belt 202 under the action that the height of the second guide roller 303 is higher than that of the adjacent first guide roller 302, and is used for sequentially wiping sticky sundries on the steel sheet 1, further sequentially wiping sundries with different particle sizes and further enhancing the cleaning effect of the steel sheet 1.

As shown in fig. 2 and fig. 5-fig. 7, the cleaning assembly 4 comprises a cleaning roller 401, the cleaning roller 401 is rotatably connected to the upper part of the partition plate 103, the cleaning roller 401 is in transmission connection with the adjacent fourth guide roller 305 through a belt wheel belt, the cleaning roller 401 penetrates through the protective shell 102, the partition plate 103 is fixedly connected with an L-shaped plate 402, the L-shaped plate 402 is located above the adjacent third guide roller 304, the L-shaped plate 402 is matched with the adjacent third guide roller 304 and is used for extruding the adjacent wiping cloth 306, the dirty water in the wiping cloth 306 is extruded, the front and rear parts of the lower side of the L-shaped plate 402 are lower than the middle part, the height of the front and rear parts of the lower side of the L-shaped plate 402 is used for guiding the dirty water and sundries, the L-shaped plate 402 is attached to the adjacent wiping cloth 306, the cleaning roller 401 is fixedly connected with a mirror image and spiral-distributed brush 403, the brush 403 is used for cleaning the adjacent wiping cloth 306, the brush 403 is contacted with the adjacent wiping cloth 306, the sundries on the adjacent wiping cloth 306 are guided towards the front and rear sides of the partition plate 103, the cleaning plate 103 is provided with a water storage shell 404, the water storage shell 404 is located in the adjacent wiping cloth 306, the dirty water and the dirty water in the adjacent cleaning cloth 306 falls into the water storage shell from the adjacent cleaning cloth 306.

As shown in fig. 2 and fig. 5-fig. 8, the liquid injection component 6 includes a water tank 601, the water tank 601 is fixedly connected to the top surface of the protective shell 102, the partition 103 is rotationally connected with four liquid guide rollers 602 which are mirror images and distributed in a linear array, the wiping cloth 306 is located between the adjacent liquid guide rollers 602, the liquid guide rollers 602 at the lower side are in transmission connection with the adjacent second electric roller 301 through a belt with wheels, the liquid guide rollers 602 are fixedly connected with an annular sleeve 603, the annular sleeve 603 is made of an annular water absorbing material, the annular sleeve 603 is attached to the adjacent wiping cloth 306, the annular sleeve 603 is used for wetting the adjacent wiping cloth 306, the protective shell 102 is fixedly connected with liquid guide members 604 which are in mirror images, the liquid guide members 604 are communicated with the water tank 601, the liquid guide members 604 are in rotational fit with the adjacent liquid guide rollers 602, the liquid guide rollers 602 are provided with circulation holes which are communicated with the adjacent liquid guide members 604, the liquid guide rollers 602 are provided with rectangular water outlet grooves distributed in an annular array, the adjacent annular sleeve 603 is soaked by the rectangular water outlet grooves of the liquid guide rollers 602, the adjacent annular sleeve 603 is soaked by the rectangular water outlet grooves, the adjacent wiping cloth 306 is soaked by the annular sleeve 603, and the adhesion of the wiping cloth 306 to sundries on the 1 is improved.

As shown in fig. 2, fig. 5 and fig. 6, the squeezing assembly 5 includes two rotating plates 501 with mirror images distributed back and forth, the two rotating plates 501 with mirror images distributed back and forth are both rotatably connected to the protective housing 102, the rotating plates 501 are slidably connected with two sliding plates with mirror images distributed, torsion springs are disposed between the rotating plates 501 and the protective housing 102, the protective housing 102 is slidably connected with squeezing rollers 502 with mirror images distributed in a linear array, the wiping cloth 306 is located between the squeezing rollers 502 with mirror images distributed adjacently, a first hinge member 503 is rotatably connected between the squeezing rollers 502 with mirror images distributed on the right side, the first hinge member 503 is rotatably matched with the sliding plates on the right side of the adjacent rotating plates 501, a second hinge member 504 is rotatably connected between the squeezing rollers 502 with mirror images distributed on the left side, a cam 505 is fixedly connected with the cam 505 with the adjacent second hinge member 504, when the protrusion of the cam 505 is upward, the cam 505 extrudes the adjacent second hinge member 504 upward, and the wiping cloth 306 is stretched by the up-and-down reciprocating movement of the two squeezing rollers 502 on the left side and right side, so that the wiping cloth 306 is pulled by the user to simulate the speed of squeezing viscera of the wiping cloth 306.

As shown in fig. 2, fig. 5, fig. 6 and fig. 9, the flanging assembly 7 includes a rotating roller 701, the rotating roller 701 is rotatably connected to the middle lower portion of the partition 103, the rotating roller 701 is located between two adjacent first electric rollers 201, the rotating roller 701 penetrates through the protective housing 102, the rotating roller 701 is in transmission connection with the first electric rollers 201 adjacent to the right side through a belt with wheels, fixing pieces 702 distributed in an annular array are fixedly connected to the rotating roller 701, the fixing pieces 702 are distributed on the rotating roller 701 in a linear array, the fixing pieces 702 are slidably connected with first sliding pieces 703, the first sliding pieces 703 are made of soft silica gel, springs are arranged between the first sliding pieces 703 and the adjacent fixing pieces 702, the first sliding pieces 703 are matched with the two adjacent conveying belts 202, when the first sliding pieces 703 rotate to the adjacent conveying belts 202, the first sliding pieces 703 are extruded to enable the adjacent springs to shrink, so that the first sliding pieces 703 can be tightly attached to the adjacent conveying belts 202, and the steel sheet 1 can be turned over in the process of transferring through the rotation of the rotating rollers 703.

The material conveying component 2, the cleaning component 4 and the extrusion component 5 on two sides in the protective shell 102 are consistent in the cleaning process of the steel sheet 1, and the difference is that the material conveying component 2, the cleaning component 4 and the extrusion component 5 on the right side are used for cleaning one side of the steel sheet 1, the material conveying component 2, the cleaning component 4 and the extrusion component 5 on the left side are used for cleaning the other side of the steel sheet 1, the steel sheet 1 is cleaned in a double-sided cleaning mode, the cleaning effect of the steel sheet 1 is improved, and the steel sheet 1 does not need to be turned back and forth by a person, so that the material conveying component 2, the cleaning component 4 and the extrusion component 5 on the right side are only described in detail in the working process.

In the process of processing the silicon steel sheet, a user starts two first electric rollers 201 and two second electric rollers 301 on the right side through a control terminal 1021, the two first electric rollers 201 drive a conveying belt 202 to rotate, the two second electric rollers 301 drive wiping cloth 306 to rotate, the rotating direction of the second electric rollers 301 is consistent with that of the first electric rollers 201, the second electric rollers 301 close to the feed inlet side of a protective shell 102 (taking an example in fig. 6) drive a third guide roller 304 to rotate through a belt pulley belt, the third guide roller 304 drives an adjacent fourth guide roller 305 to rotate through a belt pulley belt, the fourth guide roller 305 drives an adjacent cleaning roller 401 and a brush 403 on the adjacent cleaning roller through a belt pulley belt, the left second electric rollers 301 drive the left first guide roller 302 to rotate through a belt pulley belt, the adjacent two first guide rollers 302 are connected through a belt pulley belt, the right first guide roller 302 drives the adjacent second guide roller 303 to rotate through the belt pulley belt, the left second guide roller 301 is driven by the adjacent guide roller 602 to rotate through the belt pulley belt, and the adjacent cleaning roller 301 is driven by the adjacent guide roller 602 to rotate through the belt.

The user injects the cleaning solution into the water tank 601, the cleaning solution in the water tank 601 is conveyed to the liquid guide member 604 by the water tank 601, the cleaning solution is conveyed into the two adjacent liquid guide rollers 602 through the flow holes on the two adjacent liquid guide rollers 602 by the liquid guide member 604, the cleaning solution in the water tank is conveyed to the two adjacent annular sleeves 603 by the rectangular water outlet grooves of the liquid guide rollers 602, the two adjacent annular sleeves 603 are soaked, and the cleaning solution on the two adjacent annular sleeves 603 wets the wiping cloth 306.

After the preparation work is finished, a user sequentially places the steel sheet 1 on the conveying belt 202, four adjacent silica gel blocks 203 on the conveying belt 202 fix the steel sheet 1, so that the steel sheet 1 is kept stable in the cleaned process, then the conveying belt 202 conveys the steel sheet 1 on the steel sheet 1 to the left side, when the steel sheet 1 is not completely fixed by the four adjacent silica gel blocks 203, the steel sheet 1 is pressed into the four adjacent silica gel blocks 203 through shielding of the first baffle 204, fixing of the steel sheet 1 by the four adjacent silica gel blocks 203 is further finished, under the action that the height of the second guide roller 303 is higher than that of the adjacent first guide roller 302, a trapezoid channel is formed between the wiping cloth 306 and the adjacent conveying belt 202 (the trapezoid channel gradually narrows from the right side to the left side), when the conveying belt 202 conveys the steel sheet 1 to the cleaning cloth 306 and the adjacent conveying belt 202, the adhered steel sheet 1 is sequentially erased by the wiping cloth 306, further the adhered steel sheets with different grain sizes are sequentially erased, cleaning cloth 306 is further enhanced, and the adhered sundries carried by the cleaning liquid is prevented from being adhered to the cleaning liquid 1, and the sundries are prevented from being adhered to the cleaning liquid.

When the conveying belt 202 conveys the steel sheet 1 between the fixing plate 205 and the first guide roller 302, the protrusion in the middle of the fixing plate 205 ejects the steel sheet 1 upwards, so that part of the steel sheet 1 is separated from the adhesion with the adjacent conveying belt 202, the protrusion in the middle of the fixing plate 205 pushes the steel sheet 1 upwards, the steel sheet 1 is extruded to the adjacent wiping cloth 306, the distance between the steel sheet 1 and the adjacent wiping cloth 306 is further reduced, the friction force between the steel sheet 1 and the wiping cloth 306 is increased, the wiping cloth 306 cleans impurities with stronger adsorption force on the steel sheet 1, and the cleaning degree of the steel sheet 1 is improved through continuous movement of the wiping cloth 306.

The conveyor belt 202 continues to convey the cleaned steel sheet 1 to the left, and the water mark on the steel sheet 1 gradually dries as the steel sheet 1 is conveyed.

The region of the wiping cloth 306, which is wiped by the steel sheet 1, is contacted with the adjacent L-shaped plate 402 and the third guide roller 304 in the rotating process, dirty water in the wiping cloth 306 is extruded by the extrusion force generated between the L-shaped plate 402 and the third guide roller 304, so that the dirty water is dripped into the water storage shell 404, the region wiped by the wiping cloth 306 is cleaned by the rotation of the cleaning roller 401 and the brush 403, sticky impurities on the region wiped by the wiping cloth 306 are swept out, the impurities are thrown to the adjacent L-shaped plate 402, the dirty water and the impurities fall into the water storage shell 404 from the front part and the rear part of the L-shaped plate 402 under the action that the front part and the rear part of the L-shaped plate 402 are lower than the middle part, and the dirty water and the impurities on the wiping cloth 306 are swept from the middle part to the front part and the rear part by the characteristic of the spiral distribution of the brush 403, so that the swept dirty water and the impurities directly fall into the water storage shell 404.

In the process of cleaning the wiping cloth 306, two cams 505 on the liquid guiding roller 602 respectively drive two adjacent second hinging parts 504 to move upwards, the two second hinging parts 504 respectively drive two adjacent liquid guiding rollers 602 to move upwards, the second hinging parts 504 drive two adjacent liquid guiding rollers 602 to move downwards through the adjacent sliding plates (the adjacent torsional springs are screwed in the process of rotating the rotating plate 501), the rotating plate 501 drives two adjacent first hinging parts 503 to move downwards through the adjacent sliding plates, the two first hinging parts 503 drive the two adjacent liquid guiding rollers 602 to move downwards so as to play a stretching role on the wiping cloth 306, thereby simulating the stretching of the wiping cloth 306 by a user, so that dirty water in the wiping cloth 306 is dripped downwards into the water storage shell 404, after the convex parts of the cams 505 are not contacted with the adjacent second hinging parts 504, under the action of the adjacent torsional springs of the rotating plate 501, the second hinging parts 504 drive the two adjacent liquid guiding rollers 602 to move downwards for resetting, and the first hinging parts 503 and the two adjacent liquid guiding rollers 602 move upwards for resetting, and the wiping cloth 306 are stretched by reciprocating the wiping cloth 306, so that the speed of the wiping cloth 306 is lifted, and the viscera is extruded.

In the process of cleaning the wiping cloth 306, when the first hinge member 503 and the two adjacent liquid guide rollers 602 move upwards, the wiping cloth 306 is pulled upwards, the contact area of the wiping cloth 306 and the cleaning roller 401 is increased, and the cleaning area of the cleaning roller 401 to the wiping cloth 306 is further increased.

The first electric roller 201 on the right side of the middle part drives the rotating roller 701 to rotate through a belt wheel belt in the process of rotating, the rotating roller 701 drives parts on the rotating roller 701 to rotate, after the steel sheet 1 on the conveying belt 202 moves to be in contact with the first sliding part 703, the steel sheet 1 is transferred onto the conveying belt 202 on the left side from the conveying belt 202 on the right side through the first sliding part 703 and the fixing part 702 in the rotating process, the steel sheet 1 is turned over in the process of transferring, one cleaned side of the steel sheet 1 is attached to the conveying belt 202 on the left side, one uncleaned side of the steel sheet 1 is exposed in the protective shell 102, the steel sheet 1 is cleaned through the conveying assembly 2 on the left side and the parts on the conveying assembly, and the cleaning process is repeated.

After the steel sheet 1 is cleaned by the left conveying component 2 and parts thereon, the steel sheet 1 is gradually dried in the conveying process of the left conveying belt 202, the steel sheet 1 is conveyed to subsequent stacking and containing equipment by the left conveying belt 202, and the steel sheet 1 is further regulated by the subsequent stacking and containing equipment.

When the steel sheet 1 is not required to be stored, the user closes all the first electric roller 201 and the second electric roller 301 through the control terminal 1021, the user does not inject the cleaning liquid into the water tank 601 at this time, and the user discharges the dirty water in the water storage case 404.

Example 2: on the basis of embodiment 1, as shown in fig. 1 and 10, the transferring assembly 8 includes two second supports 801 distributed in a front-back mirror image manner, the two second supports 801 are all disposed on the left side of the protective shell 102, an arc plate 206 attached to the left conveying belt 202 is fixedly connected on the left side of the partition plate 103, the arc plate 206 is provided with two grooves distributed in a front-back mirror image manner, the grooves of the arc plate 206 are in sliding fit with the adjacent silica gel blocks 203 and are used for moving out the steel sheet 1 on the left conveying belt 202, the second supports 801 are provided with a belt conveyor 802, the belt conveyor 802 is electrically connected with a control terminal 1021, a connecting plate 803 is fixedly connected between the second supports 801 distributed in a mirror image manner, and the belt conveyor 802 is used for conveying the stacked steel sheet 1.

As shown in fig. 1 and 10-13, the stacking assembly 9 includes two sliding rods 901 in mirror image distribution from left to right, the two sliding rods 901 in mirror image distribution from left to right are both slidingly connected to a connection plate 803, the two sliding rods 901 in mirror image distribution are fixedly connected with an L-shaped frame 9011, the two sliding rods 901 in mirror image distribution are fixedly connected with two sliding shells 902 in mirror image distribution from front to back, the sliding shells 902 are provided with pressure sensors 9021, the pressure sensors 9021 are electrically connected with a control terminal 1021, the connection plate 803 is fixedly connected with two second baffles 903 in mirror image distribution from front to back, the second baffles 903 are matched with adjacent sliding shells 902, the connection plate 803 is provided with a driving motor 904, the driving motor 904 is electrically connected with the control terminal 1021, a driving shaft of the driving motor 904 is fixedly connected with a threaded rod 905, the threaded rod 905 is in threaded fit with the L-shaped frame 9011, the L-shaped frame 9011 is moved back and forth through forward and reverse rotation of the threaded rod 905, the sliding shell 902 is slidingly connected with a second sliding piece 906, the second sliding piece 906 is used for placing a steel sheet 1, a spring is arranged between the second sliding piece 906 and the adjacent sliding shell 902, a pressure sensor 9021 is positioned between the adjacent sliding shell 902 and the second sliding piece 906, the sliding shell 902 is slidingly connected with two sliding pins 907 which are distributed in a front-back mirror image mode, the sliding pins 907 are rotationally connected with a rotating rod 908, a torsion spring is arranged between the rotating rod 908 and the adjacent sliding pins 907, the rotating rod 908 is fixedly connected with a rotating plate 909, the rotating rod 908 and the rotating plate 909 on the rotating rod exert force on the rotating rod 908 through the torsion spring adjacent to the rotating rod 908 to shield the steel sheet 1 falling onto the second sliding piece 906, the steel sheet 1 is prevented from falling, the second sliding piece 906 is fixedly connected with a pressing block 910, the pressing block 910 is matched with the adjacent pressure sensor 9021, the second support 801 is fixedly connected with a fixing frame 911, the electric push rod 912 is arranged on the fixing frame 912, the electric push rod is electrically connected with a control terminal 1021, the telescopic end of the electric push rod 912 is fixedly connected with an extrusion plate 913, and the extrusion plate 913 is in sliding fit with the adjacent sliding shell 902.

When the steel sheet 1 is conveyed onto the arc plate 206 by the left conveying belt 202, the steel sheet 1 slides out from the left conveying belt 202 through the cooperation of the arc plate 206 and the adjacent silica gel block 203, the arc plate 206 conveys the steel sheet 1 onto the adjacent second sliding piece 906, the steel sheet 1 cannot fall off by taking the second sliding piece 906 on the front side as an example, shielding the steel sheet 1 by the two rotating plates 909, the steel sheet 1 after the steel sheet 1 is cleaned gradually falls onto the second sliding piece 906, stacking and containing of the steel sheet 1 are completed, the second sliding piece 906 and an upper part thereof are pressed downwards by the weight of the steel sheet 1, adjacent springs are pressed in the process that the second sliding piece 906 moves downwards, when the second sliding piece 906 is pressed by the steel sheet 1 to be attached to the pressing block 910 and the pressure sensor 9021, the pressure sensor 9021 sends an electric signal, the control terminal 1021 receives the electric signal of the pressure sensor 9021, the control terminal 1021 drives the threaded rod 905 to rotate, the L-shaped frame 9011 and the upper part thereof are driven by the control terminal 1021 to move forwards, the front side of the sliding shell is driven by the drive motor 905 to move, and the sliding shell 902 is driven by the control terminal 1021 to move to the upper side of the sliding shell 902 to be attached to the lower than the sliding shell 902, and the control terminal 902 is not driven to move continuously to rotate the sliding shell 902.

At this time, the control terminal 1021 controls the electric push rod 912 at the front side to drive the extrusion plate 913 to move forward, the stacked steel sheets 1 are pushed to the left side in the process of moving the extrusion plate 913 to the left side, in the process of pushing the steel sheets 1 by the extrusion plate 913, the two rotation plates 909 swing outwards (the adjacent torsion springs are screwed in the process of swinging the second sliding piece 906), thereby disengaging the shielding of the steel sheets 1, after the steel sheets 1 are pushed onto the belt conveyor 802 by the extrusion plate 913, the belt conveyor 802 conveys the stacked steel sheets 1 to the left side, the electric push rod 912 drives the extrusion plate 913 to move to the right side to disengage from the contact with the adjacent sliding shell 902, then the electric push rod 912 at the front side stops working, the two rotation plates 909 swing inwards under the action of the adjacent torsion springs, after the extrusion plate 913 is disengaged from the adjacent sliding shell 902, the second sliding piece 906 drives the upper parts to move upwards to reset under the action of the adjacent springs, and the stacked steel sheets 1 are reciprocally transported by the steps, and the processed process of the steel sheets 1 is continuous.

When the second sliding member 906 on the rear side is fully stacked with the steel sheet 1, the control terminal 1021 controls the driving motor 904 to drive the threaded rod 905 to rotate reversely, and the threaded rod 905 drives the L-shaped frame 9011 and the upper part thereof to move backward in the process of rotating reversely, so that the sliding shell 902 on the rear side moves to be attached to the second baffle 903 on the rear side, and the sliding shell 902 on the front side moves to be located below the arc plate 206, thereby repeating the above actions.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (10)

1. A cleaning device for blade of silicon steel production, characterized by: including first support (101), first support (101) rigid coupling has protective housing (102), protective housing (102) are provided with control terminal (1021), protective housing (102) are provided with feed inlet and discharge gate, first support (101) rigid coupling has and is located baffle (103) in protective housing (102), baffle (103) rotate be connected with control terminal (1021) electricity is connected and be sharp array and mirror image distributed second electric roller (301), baffle (103) rotate be connected with be sharp array and mirror image distributed first guide roller (302), first guide roller (302) run through protective housing (102), baffle (103) rotate be connected with equidistant distribution and run through third guide roller (304) and fourth guide roller (305) of protective housing (102), adjacent third guide roller (304) first guide roller (302) and mirror image distributed second electric roller (301) between be equipped with wipe cloth (306), baffle (103) are located in sharp array (4) and are located in baffle (103) are located the assembly (4) and are located the extrusion subassembly (4) of protective housing (4), one side of protective housing (102) discharge gate is provided with and transports subassembly (8), it is provided with stack subassembly (9) to transport subassembly (8), defeated material subassembly (2) transport subassembly (8) with stack subassembly (9) all with control terminal (1021) electricity is connected.

2. The cleaning device for silicon steel sheet production according to claim 1, characterized in that: the conveying assembly (2) comprises first electric rollers (201) which are electrically connected with the control terminal (1021) and distributed in a mirror image mode, the first electric rollers (201) are rotationally connected with the partition boards (103) and the protective shell (102), conveying belts (202) are wound between the first electric rollers (201) in a mode that the horizontal heights are consistent, silica gel blocks (203) which are in annular arrays and distributed in a mirror image mode are fixedly connected with the conveying belts (202), the partition boards (103) are fixedly connected with first baffle plates (204), the first baffle plates (204) are located adjacent to one side, close to a feed inlet of the protective shell (102), of the conveying belts (202), fixing plates (205) are located adjacent to the partition boards (103), the fixing plates (205) are arranged in a mode that the fixing plates (205) are located between the first guide rollers (302) which are distributed in an adjacent mirror image mode, and the protrusions of the fixing plates (205) are in contact with the adjacent conveying belts (202).

3. A cleaning device for silicon steel sheet production according to claim 2, characterized in that: the second electric roller (301) is located adjacent the top of first electric roller (201), first guide roller (302) are located adjacent between first electric roller (201) and second electric roller (301), adjacent between first guide roller (302) through the belt pulley belt transmission connection, baffle (103) rotate be connected with run through second guide roller (303) of protective housing (102), second guide roller (303) with adjacent wiper cloth (306) contact, second guide roller (303) through the band pulley belt with adjacent first guide roller (302) transmission connection, first guide roller (302) through the band pulley belt with adjacent second electric roller (301) transmission connection, the height of second guide roller (303) is higher than the height of adjacent first guide roller (302), the height of third guide roller (304) is lower than the height of adjacent fourth guide roller (305) through the belt pulley belt transmission connection with adjacent second guide roller (301).

4. A cleaning device for silicon steel sheet production according to claim 3, characterized in that: cleaning component (4) including cleaning roller (401), cleaning roller (401) rotate connect in baffle (103), cleaning roller (401) pass through the band pulley belt with adjacent fourth guide roller (305) transmission is connected, cleaning roller (401) run through protective housing (102), baffle (103) rigid coupling has and is located adjacent L shaped plate (402) of third guide roller (304) top, L shaped plate (402) with adjacent brush (306) laminating, cleaning roller (401) rigid coupling has mirror image and spiral distributed's brush (403), brush (403) with adjacent brush (306) contact, baffle (103) are provided with and are located adjacent brush (306) in water storage shell (404), water storage shell (404) are located adjacent cleaning roller (401) and adjacent the below of L shaped plate (402).

5. The cleaning device for silicon steel sheet production according to claim 4, wherein: annotate liquid subassembly (6) including water tank (601), water tank (601) rigid coupling in the top surface of protective housing (102), baffle (103) rotate and be connected with mirror image and be sharp array distribution's drain roller (602), wipe cloth (306) and be located adjacently between drain roller (602), drain roller (602) pass through the band pulley belt with adjacent second motorized roll (301) transmission is connected, mirror image distribution drain roller (602) all rigid coupling have with adjacently annular cover (603) that wipe cloth (306) laminating, protective housing (102) rigid coupling have with water tank (601) intercommunication and mirror image distribution's drain piece (604), drain piece (604) and adjacent and mirror image distribution drain roller (602) normal running fit, drain roller (602) are provided with adjacent the circulation hole of drain piece (604) intercommunication, drain roller (602) are provided with and are annular array distribution's rectangle water outlet groove.

6. The cleaning device for silicon steel sheet production according to claim 5, wherein: the extrusion subassembly (5) including mirror image distributed rotating plate (501), mirror image distributed rotating plate (501) all rotate connect in protective housing (102), rotating plate (501) sliding connection has mirror image distributed slide, rotating plate (501) with be provided with the torsional spring between protective housing (102), protective housing (102) sliding connection has mirror image and is sharp array distributed squeeze roll (502), wiping cloth (306) are located adjacent mirror image distributed squeeze roll (502) between, be close to adjacent be connected with first articulated member (503) between squeeze roll (502) of sweeping roll (401) one side mirror image distribution, first articulated member (503) with adjacent slide normal running fit on rotating plate (501) right side, keep away from adjacent sweeping roll (401) one side mirror image distributed squeeze roll (502) between rotate and be connected with second articulated member (504), downside liquid guide roll (602) rigid coupling has mirror image distributed cam (505), cam (505) with adjacent second articulated member (504).

7. The cleaning device for silicon steel sheet production according to claim 5, wherein: the flanging assembly (7) comprises a rotating roller (701), the rotating roller (701) is rotationally connected to the partition board (103), the rotating roller (701) is in transmission connection with the adjacent first electric roller (201) through a belt wheel belt, the rotating roller (701) penetrates through the protective shell (102), the rotating roller (701) is located between the adjacent first electric rollers (201), fixing pieces (702) which are in annular arrays and distributed in linear arrays are fixedly connected to the rotating roller (701), the fixing pieces (702) are in sliding connection with first sliding pieces (703), springs are arranged between the first sliding pieces (703) and the adjacent fixing pieces (702), and the first sliding pieces (703) are matched with the adjacent conveying belt (202).

8. The cleaning device for silicon steel sheet production according to claim 6, wherein: the transfer assembly (8) comprises second supports (801) distributed in a mirror image mode, the second supports (801) distributed in the mirror image mode are arranged on one side of a discharge hole of the protective shell (102), the second supports (801) are provided with belt conveyors (802) electrically connected with the control terminals (1021), and connecting plates (803) are fixedly connected between the second supports (801) distributed in the mirror image mode.

9. The cleaning device for silicon steel sheet production according to claim 7, wherein: one side of the baffle (103) close to a discharge hole of the protective shell (102) is fixedly connected with an arc-shaped plate (206), the arc-shaped plate (206) is attached to the adjacent conveying belt (202), and the arc-shaped plate (206) is matched with the adjacent silica gel block (203).

10. The cleaning device for silicon steel sheet production according to claim 8, wherein: the stacking assembly (9) comprises a mirror-distributed sliding rod (901), the mirror-distributed sliding rods (901) are all in sliding connection with the connecting plate (803), the mirror-distributed sliding rods (901) are fixedly connected with L-shaped frames (9011), the mirror-distributed sliding rods (901) are fixedly connected with mirror-distributed sliding shells (902), the sliding shells (902) are provided with pressure sensors (9021) electrically connected with control terminals (1021), the connecting plate (803) is fixedly connected with mirror-distributed second baffle plates (903), the second baffle plates (903) are matched with adjacent sliding shells (902), the connecting plate (803) is provided with a driving motor (904) electrically connected with the control terminals (1021), a driving shaft of the driving motor (904) is fixedly connected with a threaded rod (905) in threaded fit with the L-shaped frames (9011), the sliding shells (902) are in sliding connection with second sliding pieces (906), springs are arranged between the second sliding pieces (906) and adjacent sliding shells (902), the second sliding pieces (907) are connected with the mirror-distributed sliding pins (908), the utility model discloses a sliding shell, including bull stick (908) and slip round pin (907), bull stick (908) and adjacent be provided with the torsional spring between slip round pin (907), bull stick (908) rigid coupling has rotating plate (909), second slider (906) rigid coupling have with adjacent pressure sensor (9021) complex extrusion piece (910), second support (801) rigid coupling has mount (911), mount (911) be provided with electric putter (912) that control terminal (1021) electricity is connected, electric putter (912) flexible end rigid coupling have with adjacent sliding shell (902) sliding fit's extrusion plate (913).