CN115722806A - Transformer machining process and machining device thereof - Google Patents

Abstract

The invention discloses a transformer processing technology and a transformer processing device, which comprise a base station, a feeding assembly, a transferring assembly, a shearing assembly, a collecting assembly, a moving assembly, an adjusting assembly and a discharging assembly, wherein a first supporting plate is welded at the top of the base station, a rotating rod is movably arranged at the top of one side of the first supporting plate, the distance between a first rolling shaft and a second rolling shaft is adjusted through the discharging assembly, so that the discharging assembly can conveniently perform discharging operation on silicon steel sheets with different thicknesses, then two sides of the silicon steel sheets with different widths are placed in two limiting grooves, and a fourth motor is started to drive a conveyor belt to move left and right, so that the left and right positions of the silicon steel sheets are conveniently adjusted, the silicon steel sheets are prevented from being inclined when the length of the silicon steel sheets is adjusted, the silicon steel sheet longitudinal shearing by a laser cutting machine is more regular, and the later-stage use of the silicon steel sheets is facilitated.

Description

Transformer machining process and machining device thereof

Technical Field

The invention relates to a transformer processing technology, in particular to a transformer processing technology and a processing device thereof, and belongs to the technical field of transformer processing technology and processing tool application thereof.

Background

The silicon steel sheet has good insulating property, is easy to dissipate heat, and has short magnetic circuit, which is an important magnetic circuit part of an iron core in the production and processing of a transformer, so that a processing device is generally required to longitudinally cut the silicon steel sheet in order to improve the working performance of the silicon steel sheet and improve the adaptation range of the silicon steel sheet.

Chinese patent with application number CN202011151654.6 discloses a guider is indulged and cut to silicon steel sheet for transformer, which comprises a housing, fixed mounting has two lifters in the casing, and lifter internal rotation has two screws, screw rod internal rotation is connected with the removal frame, remove frame top inner wall and install two first flexible motors, and the output shaft of first flexible motor has the motor, be connected with the pinch shaft between the motor, the rotating electrical machines is installed to removal frame bottom inner wall, the output shaft of rotating electrical machines has the pivot, casing internal rotation is connected with two guiding axles, and be located the installation fixed plate between the guiding axle in the casing, the flexible motor of second is installed to the fixed plate bottom, and the output shaft of the flexible motor of second has the mount, mount internal rotation is connected with the lift axle. The invention can freely adjust the guide so as to be suitable for longitudinal shearing devices with different heights, can control the silicon steel sheet to move and is very convenient. This indulge and cut device degree of automation is low, and can not collect the arrangement to the piece that the silicon steel sheet produced when indulging the shearing operation.

Current transformer processingequipment still has very big defect when using, current transformer processingequipment to indulge degree of automation ground when cutting the operation at the silicon steel sheet, indulge to cut the operating efficiency low to the silicon steel sheet, current transformer processingequipment can not carry out the unloading operation to the silicon steel sheet of different thickness specifications, the adaptation scope is little, and cutting irregularity when cutting the silicon steel sheet, be unfavorable for indulging the use of cutting back silicon steel sheet, current transformer processingequipment can not concentrate the unloading to the silicon steel sheet, be not convenient for the save of silicon steel sheet, current transformer processingequipment can not collect the piece of indulging the silicon steel sheet production of cutting, can not keep processingequipment's clean and tidy nature, the influence silicon steel sheet is indulged and is cut processingequipment's next time and use.

Disclosure of Invention

The invention aims to solve the problems that the conventional transformer processing device has low operation efficiency of longitudinally shearing silicon steel sheets in the process of longitudinally shearing the silicon steel sheets to the degree of automation; the existing transformer processing device can not perform blanking operation on silicon steel sheets with different thickness specifications, has a small adaptation range, and is not beneficial to use of the silicon steel sheets after longitudinal shearing because the silicon steel sheets are cut irregularly; the existing transformer processing device cannot carry out centralized blanking on silicon steel sheets, and is inconvenient for storing the silicon steel sheets; current transformer processingequipment can not collect the piece of indulging to cut the silicon steel sheet and producing, can not keep processingequipment's clean and tidy nature, influences the silicon steel sheet and indulges the next use problem of cutting processingequipment, and provides a transformer processing technology and processingequipment thereof.

The purpose of the invention can be realized by the following technical scheme: a machining process of a transformer machining device comprises a base station, a feeding assembly, a transferring assembly, a shearing assembly, a collecting assembly, a moving assembly, an adjusting assembly and a blanking assembly, wherein a first supporting plate is welded at the top of the base station, a rotating rod is movably arranged at the top of one side of the first supporting plate, the collecting assembly is arranged between the transferring assemblies of the feeding assembly, the shearing assembly is arranged above the collecting assembly, one side of the shearing assembly is movably connected with a laser cutting machine, the top of the collecting assembly is provided with a box, the blanking assembly is movably connected above the transferring assembly, one side of the moving assembly is movably connected with a third sliding block, one side of the blanking assembly is fixedly connected with a third supporting plate, and suckers are arranged at the bottoms of two ends of the third supporting plate;

the feeding assembly comprises a second motor, a first rolling shaft, a first hydraulic cylinder and a first hydraulic rod, and the first rolling shaft is arranged right above the second rolling shaft;

transport subassembly bottom fixedly connected with base, the fourth motor is installed to base one side one end, and fourth motor one end is connected with the conveyer belt, and base top both sides all are provided with first baffle.

The invention has further technical improvements that: first backup pad is "L" type structure, and a motor is installed to bull stick one side, is provided with the bracing piece under the bull stick, and bearing roller bearing and first backup pad swing joint are passed through to bracing piece one end, and the bull stick is highly higher than first roller bearing.

The invention has the further technical improvements that: the second motor is installed in first roller bearing one side, the equal swing joint of second motor has the bottom plate at first roller bearing both ends, two bottom plate bottoms all with first backup pad top fixed connection, one of them bottom plate top fixedly connected with link plate, first pneumatic cylinder top and link plate top one side fixed connection, first hydraulic stem swing joint is in the bottom of first pneumatic cylinder, the first fender frame of first hydraulic stem bottom fixedly connected with, first fender frame is down "U" type structure, the third motor is installed in first fender frame one side, the second roller bearing passes through third motor and first fender frame swing joint, second roller bearing bottom is located first fender frame below, first roller bearing top sets up in two bottom plate tops, first roller bearing and second roller bearing all are the cuboid structure, and be parallel between first roller bearing and the second roller bearing.

The invention has further technical improvements that: the base bottom and first backup pad fixed connection, conveyer belt pass through fourth motor and base swing joint, and the conveyer belt top sets up in the base top, and two first baffles are the cuboid structure, and parallel between two first baffles, and the spacing groove has all been seted up to one side in opposite directions of two first baffles, and two spacing grooves and conveyer belt are at same level, one of them first baffle and base fixed connection, and another first baffle one side is provided with the promotion unit.

The invention has further technical improvements that: one end of the pushing unit is provided with a second hydraulic cylinder, and a welding plate is fixedly connected to the second hydraulic cylinder; one end of the second hydraulic cylinder is movably connected with a second hydraulic rod, one end of the second hydraulic rod is fixedly connected with a push plate, one side of the push plate is fixedly connected with one side of one of the first baffle plates, one side of the welding plate is fixedly connected with a slide rod, the slide rod is fixedly connected with the push plate, and the second hydraulic cylinder is parallel to the slide rod.

The invention has further technical improvements that: the laser cutting machine comprises a laser cutting machine body, a first slider, a first lead screw, a fifth motor, first slide rails, two first slide rails, a second support plate, a first lead screw, a second lead screw, a third motor, a fourth motor, a fifth motor, first slide rails, two first slide rails, a second support plate, a first support plate, a second support plate and two first slide rails.

The invention has further technical improvements that: the box sets up under between first roller bearing and conveyer belt, box bottom swing joint has the second slider, second slider top is provided with the rubber pad, second slider one side swing joint has the second lead screw, second lead screw both ends swing joint has the second baffle, the second baffle is "U" type structure love, sixth motor is installed to second lead screw one end, the sixth motor is installed in second baffle one side, second slider bottom opposite side swing joint has the second slide rail, be parallel between second lead screw and the second slide rail, second slide rail and second baffle fixed connection, second baffle one side and first backup pad top one side fixed connection.

The invention has further technical improvements that: swing joint and third lead screw in the middle part of the third slider, third lead screw both ends swing joint have the second to keep off the frame, the draw-in groove has been seted up at both ends about the second keeps off the frame, both ends all are provided with the fixture block about third slider one side, two fixture blocks are through two draw-in grooves and second keep off frame swing joint, seventh motor is installed to third lead screw one end, the seventh motor is installed in second keep off frame one side, second keep off frame one side and first backup pad top one side fixed connection.

The invention has further technical improvements that: adjusting part one side is provided with the fixed plate, fixed plate and third slider one side fixed connection, fixed plate top one side fixedly connected with third pneumatic cylinder, the activity of third pneumatic cylinder bottom has the third hydraulic stem, third hydraulic stem bottom fixedly connected with lifter plate, lifter plate and fixed plate swing joint, lifter plate one side fixedly connected with fourth pneumatic cylinder, fourth pneumatic cylinder one side swing joint has the fourth hydraulic stem, fourth hydraulic stem one side and third backup pad one side middle part fixed connection, the third backup pad is "U" type structure.

The machining process of the transformer machining device specifically comprises the following steps of:

the method comprises the following steps: sleeving a silicon steel sheet which is not longitudinally sheared on a rotating rod, pulling the silicon steel sheet by hand, enabling the silicon steel sheet to pass through a space between a first rolling shaft and a second rolling shaft to move to one side of a conveying belt, driving a first hydraulic rod to move up and down through a first hydraulic cylinder, adjusting the distance between the second rolling shaft and the first rolling shaft, then, starting a first motor, a second motor and a third motor, driving the rotating rod to rotate through the first motor, driving the first rolling shaft to rotate through the second motor, driving the second rolling shaft to rotate through the third motor, facilitating the first rolling shaft and the second rolling shaft to carry out blanking operation on the silicon steel sheets with different thicknesses, simultaneously, driving a second hydraulic rod to move through the second hydraulic cylinder, driving a first baffle plate to move through a push plate, placing two sides of the silicon steel sheets with different widths in two limiting grooves, starting a fourth motor, driving the conveying belt to move left and right, adjusting the left position and right position of the silicon steel sheet, avoiding inclination when the length of the silicon steel sheet is adjusted, and ensuring that the silicon steel sheet longitudinal shearing is more regular by a laser cutting machine;

step two: the sixth motor is started and drives the second screw rod to move back and forth, the second screw rod drives the second sliding block to move back and forth, the box is adjusted to be right below a silicon steel sheet longitudinal shearing line, so that scraps generated when the silicon steel sheets are longitudinally sheared by the box can be conveniently collected, meanwhile, the fifth motor is started and drives the first screw rod to move back and forth, the front and back positions of the laser cutting machine are adjusted, and the laser cutting machine can conveniently longitudinally shear the silicon steel sheets with different widths;

step three: indulge the silicon steel sheet and cut the back, open the seventh motor, the seventh motor drives third lead screw side-to-side motion, adjust the position about the unloading subassembly, make things convenient for two sucking discs to transport the unloading operation with indulging the silicon steel sheet after cutting, and simultaneously, drive the up-and-down motion of third hydraulic stem through the third pneumatic cylinder, the fourth hydraulic cylinder drives the fourth hydraulic stem seesaw, make things convenient for the unloading subassembly to indulge the unloading of cutting the different specifications's in back silicon steel sheet and transport, indulge the silicon steel sheet and cut the completion after, through opening the sixth motor, take the box out from the laser cutting machine bottom, handle the piece in the box.

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

1. the silicon steel sheets which are not longitudinally cut are sleeved on the rotating rod to play a role of supporting the silicon steel sheets, the silicon steel sheets which are longitudinally cut are conveyed to one side of the conveyor belt through the movement between the first roller and the second roller, the longitudinal cut silicon steel sheets are conveyed through the conveyor belt, then, the first hydraulic rod is driven to move up and down through the first hydraulic cylinder, the distance between the second roller and the first roller is adjusted, the first roller and the second roller are convenient to clamp the silicon steel sheets with different thicknesses, the silicon steel sheets are prevented from being wound in the longitudinal cutting process, meanwhile, the first motor, the second motor and the third motor are started to drive, the first motor drives the rotating rod to rotate, the second motor drives the first roller to rotate, the third motor drives the second roller bearing and rotates, make things convenient for first roller bearing and second roller bearing to carry out the unloading operation to the silicon steel sheet of different thickness, it is wider to the adaptation scope of the silicon steel sheet unloading of different thickness to have guaranteed this processing dress, and simultaneously, drive the motion of second hydraulic cylinder through the second pneumatic cylinder, the push pedal drives a first baffle motion, place the silicon steel sheet both sides of different widths in two spacing grooves, through opening the fourth motor, the fourth motor drives the conveyer belt side-to-side motion, be convenient for adjust the position about the silicon steel sheet, the emergence slope when avoiding adjusting the length of silicon steel sheet, it is more regular to the silicon steel sheet longitudinal shear to guarantee laser cutting machine, make things convenient for the use in silicon steel sheet later stage.

2. Through opening the fifth motor, the fifth motor drives first lead screw seesaw, be convenient for adjust laser cutting machine's position from beginning to end, be favorable to laser cutting machine to indulge the operation of cutting to the silicon steel sheet of different width, and simultaneously, the collection subassembly of subassembly bottom is cuted in the cooperation, through opening the sixth motor, the sixth motor drives second lead screw seesaw, the second lead screw drives second slider seesaw, be convenient for adjust box to silicon steel sheet indulge under the trimming, make things convenient for the piece that the box produced when indulging the silicon steel sheet to cut to collect, make the shearing subassembly to indulge the silicon steel sheet and keep this processingequipment's clean and tidy clean when cutting, be convenient for this processingequipment's next use.

3. Through opening the seventh motor, the seventh motor drives third lead screw side-to-side motion, be convenient for adjust the position about unloading subassembly, be favorable to two sucking discs to the conveying belt to transfer to the assigned position with the silicon steel sheet after indulging the shearing, the convenience is to indulging the unified arrangement of cutting back silicon steel sheet, and simultaneously, the adjustment assembly of subassembly one side is removed in the cooperation, drive the up-and-down motion of third hydraulic stem through the third pneumatic cylinder, the fourth pneumatic cylinder drives the fourth hydraulic stem seesaw, make things convenient for the unloading subassembly to carry on the conveying belt to indulge the silicon steel sheet of cutting back different specifications and carry out the unloading transportation, the flexibility of this processingequipment when unloading the silicon steel sheet has been improved.

4. According to the silicon steel sheet longitudinal shearing device, the obtained information is transmitted to the PLC through the infrared sensor, the PLC controls the feeding assembly, the conveying assembly, the shearing assembly, the moving assembly, the adjusting assembly and the discharging assembly through the obtained information, so that the silicon steel sheet is conveniently transported to the conveying assembly by the feeding assembly, the silicon steel sheet is conveniently longitudinally sheared by the shearing assembly, meanwhile, the discharging assembly is conveniently used for discharging the silicon steel sheet on the conveying belt through the moving assembly and the adjusting assembly, the automation degree of the silicon steel sheet longitudinal shearing operation of the processing device is further guaranteed to be higher, manpower is saved, and the efficiency of the silicon steel sheet longitudinal shearing operation of the processing device is improved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the feeding assembly of the present invention.

FIG. 3 is a schematic view of a transfer module according to the present invention.

FIG. 4 is an enlarged view of the area A in FIG. 3 according to the present invention.

FIG. 5 is a schematic view of a pushing unit according to the present invention.

FIG. 6 is a schematic view of the shear assembly of the present invention.

FIG. 7 is a schematic view of the collection assembly of the present invention.

FIG. 8 is a schematic view of a moving assembly according to the present invention.

FIG. 9 is a schematic view of an adjusting assembly according to the present invention.

Fig. 10 is a schematic structural view of the blanking assembly of the present invention.

In the figure: 1. a base station; 2. a first support plate; 3. a rotating rod; 301. a first motor; 4. a feeding assembly; 401. a base plate; 402. a second motor; 403. a first roller; 404. hanging the plate; 405. a first hydraulic cylinder; 406. a first hydraulic lever; 407. a first barrier frame; 408. a second roller; 409. a third motor; 5. a transfer assembly; 501. a base; 502. a fourth motor; 503. a conveyor belt; 504. a first baffle plate; 505. a pushing unit; 5051. a second hydraulic cylinder; 5052. a second hydraulic rod; 5053. pushing the plate; 506. a limiting groove; 6. a shear assembly; 601. a second support plate; 602. a fifth motor; 603. a first lead screw; 604. a first slider; 605. a laser cutting machine; 606. a first slide rail; 7. a collection assembly; 701. a second baffle; 702. a sixth motor; 703. a second lead screw; 704. a second slider; 705. a box; 706. a second slide rail; 8. a moving assembly; 801. a second barrier frame; 802. a seventh motor; 803. a third screw rod; 804. a third slider; 9. an adjustment assembly; 901. a fixing plate; 902. a third hydraulic cylinder; 903. a third hydraulic lever; 904. a lifting plate; 905. a fourth hydraulic cylinder; 906. a fourth hydraulic lever; 10. a blanking assembly; 1001. a third support plate; 1002. a suction cup.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, a transformer processing device processing technology comprises a base 1, a feeding assembly 4, a transferring assembly 5, a shearing assembly 6, a collecting assembly 7, a moving assembly 8, an adjusting assembly 9 and a discharging assembly 10, wherein a first support plate 2 is welded to the top of the base 1, a rotating rod 3 is movably arranged at the top of one side of the first support plate 2, the collecting assembly 7 is arranged between the transferring assemblies 5 of the feeding assembly 4, the shearing assembly 6 is arranged above the collecting assembly 7, one side of the shearing assembly 6 is movably connected with a laser cutting machine 605 (TFL-LCP 4050-1 manufacturer: shandonnauzhen city general laser equipment limited company), one side of the top of the laser cutting machine 605 is provided with an infrared sensor (model: RS-HW-N01 manufacturer: shandonnaokouke measurement and control technology limited company), the infrared sensor collects the size and position of a silicon steel sheet moved from between a first roller 403 and a second roller 408, the collecting assembly 7 is provided with a box 705, the discharging assembly 10 is movably connected above the transferring assembly 5, one side of the moving assembly 8 is connected with a third slider 804, one side of the supporting plate is connected with a third supporting plate 10, the supporting plate is connected with an electrical control sucker device 1002, the feeding assembly 1001, the feeding assembly 5, the feeding assembly 6 and the feeding assembly 5 is connected with an electrical control sucker device 1002, the PLC 4, the PLC control assembly 1002 is connected with the PLC 4, the PLC control module 1002 and the PLC control module 1002 are convenient for transmitting information to the PLC control module 6, the PLC control module 1002 and the PLC control module 6, meanwhile, the blanking assembly 10 can conveniently perform blanking operation on the silicon steel sheet on the conveying belt 503 through the moving assembly 8 and the adjusting assembly 9, the automation degree of the silicon steel sheet longitudinal shearing operation of the processing device is further ensured to be higher, manpower is saved, and the efficiency of the silicon steel sheet longitudinal shearing operation of the processing device is improved.

The feeding assembly 4 comprises a second motor 402, a first roller 403, a first hydraulic cylinder 405 and a first hydraulic rod 406, and the first roller 403 is arranged right above the second roller 408.

Transport subassembly 5 bottom fixedly connected with base 501, fourth motor 502 is installed to base 501 one side one end, and fourth motor 502 one end is connected with conveyer belt 503, and base 501 top both sides all are provided with first baffle 504.

In an optional implementation manner of the embodiment of the invention, the first support plate 2 is in an L-shaped structure, the first motor 301 is installed on one side of the rotating rod 3, the support rod is arranged right below the rotating rod 3, the silicon steel sheet which is not longitudinally sheared is sleeved on the rotating rod 3 to support the silicon steel sheet, one end of the support rod is movably connected with the first support plate 2 through a roller bearing, and the height of the rotating rod 3 is higher than that of the first roller 403, so that the blanking of the silicon steel sheet is more stable.

In an optional implementation manner of the embodiment of the present invention, the second motor 402 is installed at one side of the first roller 403, two ends of the first roller 403 are movably connected with the bottom plates 401 through the second motor 402, bottoms of the two bottom plates 401 are fixedly connected with the top of the first support plate 2, the top of one bottom plate 401 is fixedly connected with the hanging plate 404, the top of the first hydraulic cylinder 405 is fixedly connected with one side of the top of the hanging plate 404, the first hydraulic rod 406 is movably connected with the bottom of the first hydraulic cylinder 405, the bottom of the first hydraulic rod 406 is fixedly connected with the first blocking frame 407, the first blocking frame 407 is in an inverted "U" shape structure, the third motor 409 is installed at one side of the first blocking frame 407, the second roller 408 is movably connected with the first blocking frame 407 through the third motor 409, and is moved to one side of the conveyor belt 503 through the space between the first roller 403 and the second roller 408, which is beneficial for transporting the longitudinally cut silicon steel sheet through the conveyor belt 503, the first hydraulic cylinder 405 drives the first hydraulic rod 406 to move up and down to adjust the distance between the second roller 408 and the first roller 403, so that the first roller 403 and the second roller 408 can clamp silicon steel sheets with different thicknesses, winding of the silicon steel sheets in the longitudinal shearing process is avoided, meanwhile, the first motor 301, the second motor 402 and the third motor 409 are started, the first motor 301 drives the rotating rod 3 to rotate, the second motor 402 drives the first roller 403 to rotate, the third motor 409 drives the second roller 408 to rotate, so that the first roller 403 and the second roller 408 can perform blanking operation on the silicon steel sheets with different thicknesses, the blanking adaptation range of the processing device for the silicon steel sheets with different thicknesses is wider, the bottom of the second roller 408 is positioned below the first blocking frame 407, the top of the first roller 403 is arranged above the two bottom plates 401, and the first roller 403 and the second roller 408 are both in a cuboid structure, and the first roller 403 and the second roller 408 are parallel to each other, so that the silicon steel sheet can move more stably between the first roller 403 and the second roller 408, and the laser cutting machine 6055 can more stably perform longitudinal shearing operation on the silicon steel sheet.

In an optional implementation manner of the embodiment of the present invention, the bottom of the base 501 is fixedly connected to the first support plate 2, the conveyor belt 503 is movably connected to the base 501 through the fourth motor 502, the top of the conveyor belt 503 is disposed above the base 501, the two first baffles 504 are in a rectangular parallelepiped structure, the two first baffles 504 are parallel to each other, the two first baffles 504 are each provided with a limiting groove 506 on one side opposite to each other, the two limiting grooves 506 and the conveyor belt 503 are at the same horizontal height, the fourth motor 502 is turned on to drive the conveyor belt 503 to move left and right, so that the left and right positions of the silicon steel sheet can be adjusted, the silicon steel sheet can be prevented from being inclined when the length of the silicon steel sheet is adjusted, the longitudinal shearing of the silicon steel sheet by the laser cutting machine 605 can be more regular, the later-stage use of the silicon steel sheet is facilitated, one of the first baffles 504 is fixedly connected to the base 501, and one of the other first baffles 504 are provided with the pushing unit 505.

In an optional implementation manner of the embodiment of the present invention, one end of the pushing unit 505 is provided with a second hydraulic cylinder 5051, and the second hydraulic cylinder 5051 is fixedly connected with a welding plate; second hydraulic cylinder 5051 one end swing joint has second hydraulic rod 5052, second hydraulic rod 5052 one end fixedly connected with push pedal 5053, push pedal 5053 one side and one of them first baffle 504 one side fixed connection, weld board one side fixedly connected with slide bar, slide bar and push pedal 5053 fixed connection, it is parallel between second hydraulic cylinder 5051 and the slide bar, be convenient for adjust the distance between two first baffles 504, make two first baffles 504 can carry out spacing operation to the silicon steel sheet of different width, the silicon steel sheet of having guaranteed different widths can all carry out steady transportation operation through conveyer belt 605.

In an optional implementation manner of the embodiment of the present invention, a first slider 604 is fixedly connected to one side of the top of the laser cutting machine 605, a first lead screw 603 is movably connected to the middle of the first slider 604, a fifth motor 602 is installed at one end of the first lead screw 603, the fifth motor 602 drives the first lead screw 603 to move back and forth by turning on the fifth motor 602, so as to adjust the front and back positions of the laser cutting machine, which is beneficial for the laser cutting machine 605 to longitudinally cut silicon steel sheets with different widths, the two sides of the bottom of the first slider 604 are movably connected with first slide rails 606, the bottoms of the two first slide rails 606 are fixedly connected with second support plates 601, the second support plates 601 are in a "U" shape structure, one side of each second support plate 601 is fixedly connected with one side of the top of the first support plate 2, and the first lead screw 603 is parallel to the two first slide rails 606, thereby ensuring that the laser cutting machine 605 is more stable when longitudinally cuts silicon steel sheets.

In an optional implementation manner of the embodiment of the present invention, the box 705 is disposed right below the position between the first roller 403 and the conveyor belt 503, the bottom of the box 705 is movably connected with the second slider 704, the top of the second slider 704 is provided with a rubber pad, one side of the second slider 704 is movably connected with the second lead screw 703, two ends of the second lead screw 703 are movably connected with the second baffle 701, the second baffle 701 is in a U-shaped structure, one end of the second lead screw 703 is mounted with the sixth motor 702, the sixth motor 702 is mounted on one side of the second baffle 701, by turning on the sixth motor 702, the sixth motor 702 drives the second lead screw 703 to move back and forth, the second lead screw 703 drives the second slider 704 to move back and forth, so as to conveniently adjust the box 705 to be right below the silicon sheet longitudinal shearing line, make things convenient for box 705 to gather the piece that produces when indulging the silicon steel sheet, make the shearing subassembly to keep this processingequipment's clean and tidy clean when indulging the shearing to the silicon steel sheet, the next use of this processingequipment of being convenient for, second slider 704 bottom opposite side swing joint has second slide rail 706, it is parallel between second lead screw 703 and the second slide rail 706, second slide rail 706 and second baffle 701 fixed connection, second baffle 701 one side and 2 top one side fixed connection of first backup pad, be favorable to the steady follow laser cutting machine 605 bottom of box 705 to shift out, the piece in having avoided the box 605 spills when shifting out, the piece that the convenient silicon steel sheet produced in to the box 605 is handled.

In an optional implementation manner of the embodiment of the present invention, the middle of the third slider 804 is movably connected to the third lead screw 803, two ends of the third lead screw 803 are movably connected to the second stop frame 801, two ends of the second stop frame 801 are provided with a slot, two ends of the third slider 804 are provided with a fixture block, and the two fixture blocks are movably connected to the second stop frame 801 through the two slots, so as to ensure more stability in adjusting the left and right positions of the blanking assembly 10, avoid the situation that the longitudinally sheared silicon steel sheet turns on its side after the blanking process, and protect the silicon steel sheet, one end of the third lead screw 803 is provided with the seventh motor 802, the seventh motor 802 is installed at one side of the second stop frame 801, one side of the second stop frame 801 is fixedly connected to one side of the top of the first support plate 2, and the seventh motor 802 is turned on to drive the third lead screw 803 to move left and right, so as to facilitate adjusting 605 the left and right positions of the blanking assembly 10, thereby facilitating the two suction cups to transfer the longitudinally sheared silicon steel sheet to a designated position, and facilitating uniform finishing of the longitudinally sheared silicon steel sheet.

In an optional implementation manner of the embodiment of the present invention, a fixing plate 901 is disposed on one side of the adjusting assembly 9, the fixing plate 901 is fixedly connected to one side of the third slider 804, one side of the top of the fixing plate 901 is fixedly connected to a third hydraulic cylinder 902, a third hydraulic rod 903 is movably disposed at the bottom of the third hydraulic cylinder 902, a lifting plate 904 is fixedly connected to the bottom of the third hydraulic rod 903, the lifting plate 904 is movably connected to the fixing plate 901, one side of the lifting plate 904 is fixedly connected to a fourth hydraulic cylinder 905, one side of the fourth hydraulic cylinder 905 is movably connected to a fourth hydraulic rod 906, one side of the fourth hydraulic rod 906 is fixedly connected to the middle of one side of the third support plate 1001, the third support plate 1001 is in a "U" shape, the third hydraulic cylinder 902 drives the third hydraulic rod 903 to move up and down, and the fourth hydraulic cylinder 905 drives the fourth hydraulic rod 906 to move back and forth, which is convenient for the blanking assembly 10 to carry out blanking transfer for silicon steel sheets of different specifications after longitudinal shearing on the conveying belt 605, thereby improving flexibility of the processing apparatus in blanking.

The machining process of the transformer machining device specifically comprises the following steps of: the method comprises the following steps: sleeving a silicon steel sheet which is not longitudinally cut on a rotating rod 3, pulling the silicon steel sheet by a hand, enabling the silicon steel sheet to pass through a space between a first roller 403 and a second roller 408 to move to one side of a conveyor belt 503, driving a first hydraulic rod 406 to move up and down through a first hydraulic cylinder 405, adjusting the distance between the second roller 408 and the first roller 403, then, starting a first motor 301, a second motor 402 and a third motor 409, wherein the first motor 301 drives the rotating rod 3 to rotate, the second motor 402 drives the first roller 403 to rotate, the third motor 409 drives the second roller 408 to rotate, so that the first roller 403 and the second roller 408 can conveniently carry out blanking operation on the silicon steel sheets with different thicknesses, meanwhile, the second hydraulic cylinder 5051 drives a second hydraulic rod 5052 to move, a push plate 5053 drives a first baffle 407 to move, two sides of the silicon steel sheets with different widths are placed in two limiting grooves 506, the fourth motor 502 is started, the fourth motor 502 drives the conveyor belt 503 to move left and right, the left and right positions of the silicon steel sheet are adjusted, the length of the silicon steel sheet is prevented from being adjusted, and the laser cutting machine is enabled to be more compact to 605;

step two: the sixth motor 702 is started, the sixth motor 702 drives the second screw rod 703 to move back and forth, the second screw rod 703 drives the second slider 704 to move back and forth, the box 705 is adjusted to be right below a silicon steel sheet longitudinal shearing line, so that the box 705 can conveniently collect scraps generated during longitudinal shearing of silicon steel sheets, meanwhile, the fifth motor 602 is started, the fifth motor 602 drives the first screw rod 603 to move back and forth, the front and rear positions of the laser cutting machine are adjusted, and the laser cutting machine 605 can conveniently perform longitudinal shearing operation on silicon steel sheets with different widths;

step three: after the silicon steel sheet is longitudinally cut, a seventh motor 802 is started, the seventh motor 802 drives a third lead screw 803 to move left and right, the left and right positions of the blanking assembly 10 are adjusted, the two suction cups 1002 are convenient to transfer the longitudinally cut silicon steel sheet for blanking operation, meanwhile, a third hydraulic rod 903 is driven to move up and down through a third hydraulic cylinder 902, a fourth hydraulic rod 906 is driven to move back and forth through a fourth hydraulic cylinder 905, the blanking assembly 10 is convenient to perform blanking transfer on the longitudinally cut silicon steel sheets with different specifications, after the longitudinal cutting of the silicon steel sheet is completed, a box 705 is drawn out from the bottom of a laser cutting machine 605 by starting a sixth motor 702, and scraps in the box 605 are treated.

When the silicon steel sheet cutting machine is used, firstly, a silicon steel sheet which is not longitudinally cut is sleeved on the rotating rod 3, the silicon steel sheet is pulled by a hand, the silicon steel sheet passes through a space between the first rolling shaft 403 and the second rolling shaft 408 and moves to one side of the conveying belt 503, the first hydraulic cylinder 405 drives the first hydraulic rod 406 to move up and down, the distance between the second rolling shaft 408 and the first rolling shaft 403 is adjusted, secondly, the first motor 301, the second motor 402 and the third motor 409 are started, the first motor 301 drives the rotating rod 3 to rotate, the second motor 402 drives the first rolling shaft 403 to rotate, the third motor 409 drives the second rolling shaft 408 to rotate, the first rolling shaft 403 and the second rolling shaft 408 can conveniently perform blanking operation on the silicon steel sheets with different thicknesses, meanwhile, the second hydraulic cylinder 5051 drives the second hydraulic rod 5052 to move, the push plate 5053 drives the first baffle 407 to move, two sides of the silicon steel sheets with different widths are placed in the two limit grooves 506, the fourth motor 502 is started, the fourth motor 502 drives the conveying belt 503 to move left and right, the left and right positions of the silicon steel sheet are adjusted, and the length of the silicon steel sheet cutting machine is prevented from being adjusted, and the length of the silicon steel sheet is ensured to be adjusted by the laser cutting machine;

then, a sixth motor 702 is started, the sixth motor 702 drives a second lead screw 703 to move back and forth, the second lead screw 703 drives a second slider 704 to move back and forth, a box 705 is adjusted to be right below a silicon steel sheet longitudinal shearing line, so that the box 705 can conveniently collect scraps generated during longitudinal shearing of silicon steel sheets, meanwhile, a fifth motor 602 is started, the fifth motor 602 drives a first lead screw 603 to move back and forth, the front and rear positions of a laser cutting machine are adjusted, and the laser cutting machine 605 can conveniently perform longitudinal shearing operation on silicon steel sheets with different widths;

finally, after the silicon steel sheets are longitudinally cut, a seventh motor 802 is started, the seventh motor 802 drives a third screw 803 to move left and right, the left and right positions of the blanking assembly 10 are adjusted, the two suction cups 1002 are convenient to transfer the longitudinally cut silicon steel sheets for blanking operation, meanwhile, a third hydraulic rod 903 is driven by a third hydraulic cylinder 902 to move up and down, a fourth hydraulic rod 906 is driven by a fourth hydraulic cylinder 905 to move back and forth, the blanking assembly 10 is convenient to perform blanking transfer on the longitudinally cut silicon steel sheets with different specifications, after the longitudinal cutting of the silicon steel sheets is completed, the box 705 is drawn out from the bottom of the laser cutting machine 605 by starting a sixth motor 702, and scraps in the box 605 are treated.

Silicon steel sheets which are not longitudinally cut are sleeved on the rotating rod 3 to play a role of supporting the silicon steel sheets, the silicon steel sheets are moved to one side of the conveyor belt 503 through the space between the first roller 403 and the second roller 408, the longitudinally cut silicon steel sheets are transported through the conveyor belt 503, secondly, the first hydraulic rod 406 is driven by the first hydraulic cylinder 405 to move up and down, the distance between the second roller 408 and the first roller 403 is adjusted, the silicon steel sheets with different thicknesses can be clamped by the first roller 403 and the second roller 408, winding of the silicon steel sheets in the longitudinal cutting process is avoided, meanwhile, the first motor 301, the second motor 402 and the third motor 409 are started to drive, the first motor 301 drives the rotating rod 3 to rotate, and the second motor 402 drives the first roller 403 to rotate, the third motor 409 drives the second roller 408 to rotate, so that the first roller 403 and the second roller 408 can conveniently perform blanking operation on silicon steel sheets with different thicknesses, the adaptive range of the processing device for blanking the silicon steel sheets with different thicknesses is wider, meanwhile, the second hydraulic cylinder 5051 drives the second hydraulic rod 5052 to move, the push plate 5053 drives the first baffle 407 to move, two sides of the silicon steel sheets with different widths are placed in the two limiting grooves 506, the fourth motor 502 is opened to drive the conveyor belt 503 to move left and right, the left and right positions of the silicon steel sheets can be conveniently adjusted, the silicon steel sheets are prevented from being inclined when the length of the silicon steel sheets is adjusted, the laser cutting machine 605 can ensure that the longitudinal shearing of the silicon steel sheets is more regular, and the later-stage use of the silicon steel sheets is facilitated;

by opening the fifth motor 602, the fifth motor 602 drives the first lead screw 603 to move back and forth, so that the front and back positions of the laser cutting machine can be conveniently adjusted, the laser cutting machine 605 can longitudinally cut silicon steel sheets with different widths conveniently, meanwhile, the collection assembly 7 at the bottom of the shearing assembly 6 is matched, by opening the sixth motor 702, the sixth motor 702 drives the second lead screw 703 to move back and forth, the second lead screw 703 drives the second slider 704 to move back and forth, so that the box 705 can be conveniently adjusted to be right below a longitudinal cutting line of the silicon steel sheets, and the box 705 can conveniently collect scraps generated during longitudinal cutting of the silicon steel sheets, so that the shearing assembly can keep the processing device clean and tidy during longitudinal cutting of the silicon steel sheets, and the next use of the processing device is convenient;

by starting the seventh motor 802, the seventh motor 802 drives the third lead screw 803 to move left and right, so that the left and right positions of the blanking assembly 10 can be conveniently adjusted, the two suckers 1002 are favorable for transferring the silicon steel sheets longitudinally sheared on the conveying belt 605 to a designated position, the silicon steel sheets longitudinally sheared can be conveniently and uniformly tidied, meanwhile, the third hydraulic rod 903 is driven to move up and down through the third hydraulic cylinder 902 by matching with the adjusting assembly 9 on one side of the moving assembly 8, the fourth hydraulic cylinder 905 drives the fourth hydraulic rod 906 to move back and forth, the blanking assembly 10 can conveniently carry out blanking transfer on the silicon steel sheets of different specifications longitudinally sheared on the conveying belt 605, and the flexibility of the processing device in blanking the silicon steel sheets is improved;

according to the silicon steel sheet longitudinal shearing device, the obtained information is transmitted to the PLC through the infrared sensor, and the PLC controls the feeding assembly 4, the conveying assembly 5, the shearing assembly 6, the moving assembly 8, the adjusting assembly 9 and the blanking assembly 10 through the obtained information, so that the feeding assembly 4 can transfer the silicon steel sheets to the conveying assembly 5, the shearing assembly 6 can conveniently perform longitudinal shearing operation on the silicon steel sheets, meanwhile, the blanking assembly 10 can conveniently perform blanking operation on the silicon steel sheets on the conveying belt 503 through the moving assembly 8 and the adjusting assembly 9, the automation degree of the silicon steel sheet longitudinal shearing operation of the processing device is further improved, manpower is saved, and the efficiency of the processing device in the silicon steel sheet longitudinal shearing operation is improved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a transformer processingequipment which characterized in that: the automatic feeding device comprises a base platform (1), a feeding assembly (4), a transferring assembly (5), a shearing assembly (6), a collecting assembly (7), a moving assembly (8), an adjusting assembly (9) and a discharging assembly (10), wherein a first supporting plate (2) is welded at the top of the base platform (1), a rotating rod (3) is movably arranged at the top of one side of the first supporting plate (2), the collecting assembly (7) is arranged between the transferring assemblies (5) of the feeding assembly (4), the shearing assembly (6) is arranged above the collecting assembly (7), a laser cutting machine (605) is movably connected to one side of the shearing assembly (6), a box (705) is arranged at the top of the collecting assembly (7), the discharging assembly (10) is movably connected above the transferring assembly (5), a third sliding block (804) is movably connected to one side of the moving assembly (8), a third supporting plate (1001) is fixedly connected to one side of the discharging assembly (10), and suckers (1002) are arranged at the bottoms of two ends of the third supporting plate (1001);

the feeding assembly (4) comprises a second motor (402), a first roller (403), a first hydraulic cylinder (405) and a first hydraulic rod (406), and a first roller (403) is arranged right above the second roller (408);

transport subassembly (5) bottom fixedly connected with base (501), fourth motor (502) are installed to base (501) one side one end, fourth motor (502) one end is connected with conveyer belt (503), base (501) top both sides all are provided with first baffle (504).

2. The machining process of the transformer machining device according to claim 1, wherein the first support plate (2) is of an L-shaped structure, the first motor (301) is mounted on one side of the rotating rod (3), a support rod is arranged right below the rotating rod (3), one end of the support rod is movably connected with the first support plate (2) through a roller bearing, and the height of the rotating rod (3) is higher than that of the first roller (403).

3. The machining process of the transformer machining device according to claim 1, characterized in that a second motor (402) is installed on one side of a first roller (403), both ends of the first roller (403) are movably connected with bottom plates (401) through the second motor (402), the bottoms of the two bottom plates (401) are fixedly connected with the top of a first supporting plate (2), a hanging plate (404) is fixedly connected with the top of one bottom plate (401), the top of a first hydraulic cylinder (405) is fixedly connected with one side of the top of the hanging plate (404), a first hydraulic rod (406) is movably connected with the bottom of the first hydraulic cylinder (405), a first blocking frame (407) is fixedly connected with the bottom of the first hydraulic rod (406), the first blocking frame (407) is of an inverted U-shaped structure, a third motor (409) is installed on one side of the first blocking frame (407), a second roller (408) is movably connected with the first blocking frame (407) through a third motor (409), the bottom of the second blocking frame (408) is located below the first blocking frame (407), the first roller (403) is arranged above the two rollers (403), and the top of the second roller (408) is parallel to the second roller (403).

4. The machining process of the transformer machining device according to claim 1, wherein the bottom of the base (501) is fixedly connected with the first supporting plate (2), the conveyor belt (503) is movably connected with the base (501) through the fourth motor (502), the top of the conveyor belt (503) is arranged above the base (501), the two first baffles (504) are of a cuboid structure, the two first baffles (504) are parallel to each other, limiting grooves (506) are formed in opposite sides of the two first baffles (504), the two limiting grooves (506) and the conveyor belt (503) are at the same horizontal height, one of the first baffles (504) is fixedly connected with the base (501), and a pushing unit (505) is arranged on one side of the other first baffle (504).

5. The machining process of the transformer machining device according to claim 1, wherein one end of the pushing unit (505) is provided with a second hydraulic cylinder (5051), and a welding plate is fixedly connected to the second hydraulic cylinder (5051); one end of the second hydraulic cylinder (5051) is movably connected with a second hydraulic rod (5052), one end of the second hydraulic rod (5052) is fixedly connected with a push plate (5053), one side of the push plate (5053) is fixedly connected with one side of one of the first baffle plates (504), one side of the welding plate is fixedly connected with a sliding rod, the sliding rod is fixedly connected with the push plate (5053), and the second hydraulic cylinder (5051) is parallel to the sliding rod.

6. The machining process of the transformer machining device according to claim 1, wherein a first sliding block (604) is fixedly connected to one side of the top of a laser cutting machine (605), a first lead screw (603) is movably connected to the middle of the first sliding block (604), a fifth motor (602) is installed at one end of the first lead screw (603), first sliding rails (606) are movably connected to two sides of the bottom of the first sliding block (604), a second supporting plate (601) is fixedly connected to the bottoms of the two first sliding rails (606), the second supporting plate (601) is of a U-shaped structure, one side of the second supporting plate (601) is fixedly connected to one side of the top of the first supporting plate (2), and the first lead screw (603) is parallel to the two first sliding rails (606).

7. The machining process of the transformer machining device according to claim 1, wherein a box (705) is arranged right below a position between the first rolling shaft (403) and the conveyor belt (503), the bottom of the box (705) is movably connected with a second sliding block (704), a rubber pad is arranged at the top of the second sliding block (704), one side of the second sliding block (704) is movably connected with a second lead screw (703), two ends of the second lead screw (703) are movably connected with a second baffle plate (701), the second baffle plate (701) is in a U-shaped structure, one end of the second lead screw (703) is provided with a sixth motor (702), the sixth motor (702) is arranged on one side of the second baffle plate (701), the other side of the bottom of the second sliding block (704) is movably connected with a second sliding rail (706), the second lead screw (703) is parallel to the second sliding rail (706), the second sliding rail (706) is fixedly connected with the second baffle plate (701), and one side of the second baffle plate (701) is fixedly connected with one side of the top of the first supporting plate (2).

8. The machining process of the transformer machining device according to claim 1, wherein the middle of a third sliding block (804) is movably connected with a third screw rod (803), two ends of the third screw rod (803) are movably connected with a second blocking frame (801), clamping grooves are formed in the upper end and the lower end of the second blocking frame (801), clamping blocks are arranged at the upper end and the lower end of one side of the third sliding block (804), the two clamping blocks are movably connected with the second blocking frame (801) through the two clamping grooves, a seventh motor (802) is installed at one end of the third screw rod (803), the seventh motor (802) is installed at one side of the second blocking frame (801), and one side of the second blocking frame (801) is fixedly connected with one side of the top of the first supporting plate (2).

9. The machining process of the transformer machining device according to claim 1, wherein a fixing plate (901) is arranged on one side of the adjusting assembly (9), the fixing plate (901) is fixedly connected with one side of a third sliding block (804), a third hydraulic cylinder (902) is fixedly connected with one side of the top of the fixing plate (901), a third hydraulic rod (903) is movably arranged at the bottom of the third hydraulic cylinder (902), a lifting plate (904) is fixedly connected to the bottom of the third hydraulic rod (903), the lifting plate (904) is movably connected with the fixing plate (901), a fourth hydraulic cylinder (905) is fixedly connected to one side of the lifting plate (904), a fourth hydraulic rod (906) is movably connected to one side of the fourth hydraulic cylinder (905), one side of the fourth hydraulic rod (906) is fixedly connected with the middle of one side of the third supporting plate (1001), and the third supporting plate (1001) is of a U-shaped structure.

10. The machining process of the transformer machining device according to any one of claims 1 to 9, characterized by comprising the following steps:

the method comprises the following steps: sleeving silicon steel sheets which are not longitudinally cut on a rotating rod (3), pulling the silicon steel sheets by hands, enabling the silicon steel sheets to pass through a space between a first roller (403) and a second roller (408) and move to one side of a conveyor belt (503), driving a first hydraulic rod (406) to move up and down through a first hydraulic cylinder (405), adjusting the distance between the second roller (408) and the first roller (403), then, starting a first motor (301), a second motor (402) and a third motor (409), driving the rotating rod (3) to rotate through the first motor (301), driving the first roller (403) to rotate through the second motor (409), driving a second motor (5052) to move through the third motor (409), driving a second roller (408) to rotate through the third motor (409), facilitating the first roller (403) and the second roller (408) to carry out blanking operations on silicon steel sheets with different thicknesses, meanwhile, driving a second hydraulic cylinder (5052) to move, driving a first baffle (407) to move through a push plate (5053), placing the silicon steel sheets with different widths on two sides, and further preventing a left-right-side silicon steel sheet cutting machine (502) from moving, and preventing a left-right-side silicon steel sheet cutting machine (502) from moving and a left-right-side cutting machine from adjusting left-right-side silicon steel sheet cutting machine (502) from moving;

step two: the sixth motor (702) is started, the sixth motor (702) drives the second screw rod (703) to move back and forth, the second screw rod (703) drives the second sliding block (704) to move back and forth, the box (705) is adjusted to be right below a silicon steel sheet longitudinal shearing line, so that scraps generated when the box (705) longitudinally shears the silicon steel sheet can be conveniently collected, meanwhile, the fifth motor (602) is started, the fifth motor (602) drives the first screw rod (603) to move back and forth, the front and back positions of the laser cutting machine are adjusted, and the laser cutting machine (605) can conveniently longitudinally shear silicon steel sheets with different widths;

step three: after indulging the shearing of silicon steel sheet, open seventh motor (802), seventh motor (802) drive third lead screw (803) side-to-side movement, adjust the left and right sides position of unloading subassembly (10), make things convenient for two sucking discs (1002) to transport the unloading operation with indulging the silicon steel sheet after shearing, and simultaneously, drive third hydraulic stem (903) up-and-down motion through third pneumatic cylinder (902), fourth hydraulic cylinder (905) drive fourth hydraulic stem (906) seesaw, make things convenient for unloading subassembly (10) to carry out the unloading to indulge the silicon steel sheet of cutting different specifications back and transport, indulge the shearing of silicon steel sheet and accomplish the back, through opening sixth motor (702), take box (705) out from laser cutting machine (605) bottom, handle the piece in box (605).

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