CN117620318A - High-strength aluminum steel production equipment and production method - Google Patents

Abstract

The invention relates to the field of aluminum steel processing, in particular to high-strength aluminum steel production equipment, which comprises a base, wherein a U-shaped supporting frame is fixedly connected to the front side of the top of the base. The high-strength aluminum steel production equipment and the high-strength aluminum steel production method are composed of a cutting mechanism and a clamping mechanism; when the transmission motor is started to carry the cutter disc to cut, the transmission motor moves horizontally on the supporting plate through the cutter disc frame in the meshing process of the adjusting gear and the adjusting gear in the adjusting frame, after the adjusting gear contacts with the inclined end of the T-shaped adjusting cylinder, the adjusting frame moves upwards or downwards to change the adjusting rack meshed with the adjusting gear, so that the rotating cutter disc moves reciprocally to cut aluminum steel at the top of the base, and meanwhile, the cutter disc frame moves slowly downwards to cut along with the reciprocal movement of the cutter disc frame and the meshing of the side wall of the first unidirectional rack in a stepwise manner, and the situation that the surface of the cutter disc is overheated is effectively avoided in a manner of reciprocally moving the shallow cutting.

Description

High-strength aluminum steel production equipment and production method

Technical Field

The invention relates to the field of aluminum steel processing, in particular to high-strength aluminum steel production equipment and a high-strength aluminum steel production method.

Background

The aluminum steel has the advantages of light weight, high strength, good corrosion resistance, good workability and the like, so that the aluminum steel is widely used, aluminum steel pipe fittings, aluminum steel plate members and the like can be produced according to the needs in the aluminum steel production process, and the aluminum steel is convenient to transport and store after being cut after being molded, and is generally processed by cutting production equipment.

The prior patent (publication number: CN 112317864A) discloses a cutting device for processing large-caliber steel pipes, which comprises a base, wherein a limiting part for fixing the steel pipes, a cutting part for cutting the steel pipes and a feeding part for moving the steel pipes are arranged on the base. In the process of realizing the scheme, the following problems in the prior art are found to be not solved well: 1. when the steel cutting equipment cuts a wider metal plate or pipe fitting, the cutting disc completely penetrates through the metal material, but when the metal material is thicker, the contact surface between the cutting disc and the metal material is larger in the cutting process of the cutting disc, at the moment, the surface of the cutting disc is easy to generate high temperature, and the cutting disc is easy to deform in a high-temperature state for a long time and influences the service life; 2. the current partial cutting equipment is in cutting sheet metal piece in-process, is difficult to adjust the cutting stroke, and when the sheet material was narrower, the cutting dish still removed the cutting with long distance's stroke, influences machining efficiency.

Disclosure of Invention

The invention aims to provide high-strength aluminum steel production equipment and a high-strength aluminum steel production method, so as to solve the problems in the background art: 1. the existing partial steel cutting equipment cuts in a manner of completely penetrating through a metal material in the use process, so that high-temperature deformation of a cutting disc is easy to cause; 2. the stroke of cutting of the cutting disc is difficult to adjust in the use process of the existing partial steel cutting equipment. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high strength aluminum steel production facility, includes the base, the front side fixedly connected with U type support frame at base top, the vertical sliding connection of front side on U type support frame upper portion has the backup pad, the middle part sliding connection of backup pad has the mounting bracket, the inside fixedly connected with transmission motor of mounting bracket, the outer wall fixedly connected with cutterhead frame of mounting bracket, swing joint has cutting mechanism between cutterhead frame and the U type support frame;

the rear side of base top swing joint has fixture, the intermediate position symmetry swing joint in the top of base has the driver.

Preferably, the cutting mechanism comprises a cutter disc, the cutter disc is rotatably connected to the inside of the cutter disc frame, and the rotating end of the transmission motor is fixedly sleeved with an adjusting gear through the cutter disc;

The middle part of the rotating end of the transmission motor is slidably connected with a T-shaped limit sleeve, one side of the T-shaped limit sleeve is movably mounted with the side wall of the cutter disc, a limit cylinder is symmetrically and fixedly connected inside the T-shaped limit cylinder, one end of the limit sleeve is slidably connected with a compression rod, the other end of the limit cylinder is slidably connected with an inserting rod, one ends of the compression rod, which are opposite to the inserting rod, are fixedly connected with limit racks, the middle part of the inner wall of the limit cylinder is rotatably connected with limit gears, the two limit racks are respectively meshed with two sides of the limit gears, insertion holes are symmetrically formed in the surface of the rotating end of the transmission motor, and one end, which is far away from the T-shaped limit sleeve, of the inserting rod is movably inserted into the corresponding insertion holes;

the rear side of the upper part of the U-shaped support frame is vertically and slidably connected with an adjusting box, the top and the bottom of the inner wall of the adjusting box are symmetrically and fixedly connected with telescopic rods, an adjusting frame is fixedly connected between the four telescopic rods, the top and the bottom of the inner wall of the adjusting frame are fixedly connected with adjusting racks, and the side walls of the adjusting gears are meshed with the side walls of adjacent adjusting racks;

the two sides of the adjusting frame are both connected with an adjusting sleeve in a sliding manner, the side wall of the adjusting box is provided with a rectangular groove matched with the adjusting sleeve, the inside of the adjusting sleeve is connected with a T-shaped adjusting cylinder matched with an adjusting gear in a sliding manner, one side of the T-shaped adjusting cylinder opposite to the T-shaped adjusting cylinder is provided with an inclined plane, one side of the T-shaped adjusting cylinder close to the cutter disc is fixedly connected with a supporting bar, the side wall of the supporting bar is symmetrically and fixedly connected with a wedge-shaped pressing bar, the two wedge-shaped pressing bars are respectively in one-to-one correspondence with the two pressing bars, and the side wall of the wedge-shaped pressing bar is fixedly connected with a pressing block matched with the T-shaped limiting sleeve;

The T-shaped adjusting cylinder is internally connected with an adjusting screw in a threaded manner, two sides of the U-shaped supporting frame are respectively provided with a strip-shaped groove, the two strip-shaped grooves are respectively corresponding to the two adjusting screws, one end of the adjusting screw penetrates through the strip-shaped grooves and is movably sleeved with an adjusting wheel, and the middle part of the adjusting screw is connected with an inner wall screw of the adjusting sleeve;

limiting blocks are fixedly connected to the surfaces of the two adjusting sleeves, spring pins are symmetrically arranged on two sides of the adjusting box, the two spring pins are respectively in one-to-one correspondence with the two limiting blocks, and limiting grooves matched with the spring pins are formed in the middle of the limiting blocks;

the left side of U type support frame top is symmetrically offered and is removed the groove, the inner wall in removal groove rotates and is connected with the removal screw rod, the fixed circular gear that has cup jointed of left end of removal screw rod, the upper portion in the left side of U type support frame rotates and is connected with the gear pole, the both sides of gear pole respectively with two circular gear's lateral wall meshing, the fixed action wheel that cup joints of one end of gear pole, the middle part sliding connection in the left side of U type support frame has the driven piece, the middle part rotation of driven piece is connected with from the driving wheel, action wheel, from the driving wheel with homonymy between the regulating wheel swing joint has driving belt;

The surface threaded connection who removes the screw rod has the removal swivel nut, the lateral wall fixedly connected with one-way rack of removal swivel nut, the top symmetry fixedly connected with lifting screw of blade disc frame, lifting screw's upper portion threaded connection has the lift swivel nut, the middle part rotation of lift swivel nut is connected with the transmission piece, the transmission groove has been seted up at the top of U type support frame, two the transmission piece is sliding connection respectively in two the inside of transmission groove, lifting gear has been fixedly cup jointed on the upper portion of lift swivel nut outer wall, two lifting gear respectively with one-to-one of one of one-way rack.

Preferably, the middle part symmetry of transmission motor rotation end has seted up the sliding tray, the inner wall symmetry fixedly connected with sliding block of T type stop collar, two sliding block respectively sliding connection is in two the inside of sliding tray.

Preferably, the two sides of the adjusting frame are symmetrically and fixedly connected with guide rods, the two sides of the adjusting sleeve are fixedly connected with guide blocks, the two guide blocks are respectively and slidably connected to the surfaces of the two corresponding guide rods, and guide springs matched with the guide blocks are movably sleeved on the surfaces of the guide rods.

Preferably, the driven groove has been seted up at the left middle part of U type support frame, fixedly connected with driven lever between the both sides of driven groove inner wall, driven piece sliding connection is at the surface of driven lever, swing joint has extrusion spring between the inner wall in driven groove and the lateral wall of driven piece.

Preferably, the first unidirectional rack is composed of rack plates, mounting grooves, trapezoidal teeth and compression springs, the number of the mounting grooves is six, the six mounting grooves are formed in the side wall of the rack plates at equal intervals, the number of the trapezoidal teeth is six, the six trapezoidal teeth are respectively and slidably connected in the six mounting grooves, and the compression springs are fixedly connected between the trapezoidal teeth and the inner walls of the mounting grooves;

the right side symmetry at U type support frame top is fixedly connected with electric telescopic cylinder, electric telescopic cylinder's one end fixedly connected with No. two unidirectional racks.

Preferably, the clamping mechanism comprises two movable grooves, the two movable grooves are symmetrically formed in the top of the base, an electric push rod is fixedly connected to the inner wall of the movable grooves, an arc-shaped support is fixedly connected to one end of the electric push rod, the bottom of the arc-shaped support is slidably connected to the inner bottom surface of the movable grooves, and clamping tracks are movably connected to the upper portions of the arc-shaped supports.

Preferably, the side wall of the upper part of the arc-shaped bracket is fixedly connected with a transmission motor matched with the clamping crawler belt, and the rotation directions of the two transmission motors are opposite.

The application method of the high-strength aluminum steel production equipment comprises the following steps:

s1, when the aluminum steel production cutting equipment is used, aluminum steel materials are placed at the top of a base, the aluminum steel materials are transmitted in the direction of a clamping crawler on the rear side of the base by a driver, the aluminum steel materials are clamped by the electric push rod with the clamping crawler, and then a transmission motor is started, so that the transmission motor rotates in a cutter disc frame through a T-shaped limiting sleeve with a cutter disc to carry out cutting processing;

s2, when the transmission motor rotates with the adjusting gear, the adjusting gear is meshed with an adjusting rack on the inner wall of the adjusting frame, the adjusting frame cannot translate under the limit of the telescopic rod and the adjusting box, so that the adjusting rack on the other side of the inner wall of the adjusting frame is meshed with the side wall of the adjusting gear in a sliding manner, and then the adjusting gear moves reversely to process when the cutter disc frame moves to the limit position to one side of the adjusting box, the adjusting gear is abutted against the inclined surface of a T-shaped adjusting cylinder movably arranged on the side wall of the adjusting frame, so that the T-shaped adjusting cylinder moves to the side wall of the U-shaped supporting frame with the adjusting sleeve and the adjusting screw, at the moment, the limit block on the adjusting sleeve is released from being connected with the spring pin, and the adjusting sleeve moves along the rectangular groove track of the side wall of the adjusting box along with the continuous movement of the cutter disc frame and the adjusting gear, and the adjusting rack on the other side wall of the adjusting frame moves along with the displacement of the adjusting frame, and then the cutter disc frame moves reversely to process in a rotating manner, so that the cutter disc frame moves reciprocally to cut on the top surface of the aluminum steel material;

S3, because the adjusting sleeves at two sides of the adjusting frame are symmetrically arranged with the limiting blocks, after the adjusting sleeve at one side of the adjusting frame and the corresponding spring pin are released from the limiting state, the adjusting sleeve at the other side of the adjusting frame is matched and spliced with the corresponding spring pin in the moving process of the limiting block, and the adjusting frame is limited again;

s4, when the cutter head frame moves in the transmission groove at the top of the U-shaped support frame and the support plate, and the lifting screw sleeve at the top of the cutter head frame moves leftwards to a limit position along with the lifting gear, the lifting gear is meshed with the side wall of the first unidirectional rack at the top of the U-shaped support frame, so that the two lifting screw sleeves rotate, and the two lifting screw rods on the cutter head frame slowly move downwards for a certain distance along with the cutter head frame for cutting;

s5, when the moving stroke of the cutterhead frame is required to be regulated, regulating wheels on two sides of the U-shaped supporting frame are rotated, at the moment, the regulating wheels bring regulating screws to rotate in the T-shaped regulating cylinders, the T-shaped regulating cylinders slide and translate along the inner walls of the regulating sleeves, and the moving stroke of the cutterhead frame is changed by controlling the positions between the two T-shaped regulating cylinders.

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

according to the invention, through the matched use of the U-shaped bracket, the T-shaped adjusting cylinder, the adjusting frame and other parts, when the transmission motor is started to carry the cutter disc to carry out cutting processing, as the adjusting frame is limited by the telescopic rod and the adjusting box and can not translate up and down, the transmission motor can translate on the supporting plate with the cutter disc frame in the meshing process of the adjusting gear and the adjusting gear in the adjusting frame, after the adjusting gear is contacted with the inclined end of the T-shaped adjusting cylinder, the adjusting frame moves up or down to change the adjusting rack meshed with the adjusting gear, so that the rotating cutter disc can reciprocate to cut aluminum steel at the top of the base, and meanwhile, the cutter disc frame moves down slowly to cut along with the reciprocating movement of the cutter disc frame and is meshed with the side wall of the first unidirectional rack in a stepwise manner of cutting in the cutting process, so that the condition that the surface of the cutter disc is overheated is effectively avoided in the mode of reciprocating movement of shallow cutting, and the processing efficiency and the service life of the cutter disc are improved.

According to the invention, through the cooperation of the adjusting screw, the T-shaped adjusting cylinders, the adjusting sleeves and other parts, the adjusting wheels on the two sides of the U-shaped supporting frame are rotated, the adjusting wheels rotate in the T-shaped adjusting cylinders with the adjusting screw, the T-shaped adjusting cylinders slide and translate along the inner walls of the adjusting sleeves, and the moving stroke of the cutter disc frame is changed by controlling the positions between the two T-shaped adjusting cylinders, so that the narrow aluminum steel workpiece can be conveniently processed in a short stroke.

According to the invention, through the cooperation of the wedge-shaped pressing strip, the pressing block, the T-shaped limiting sleeve and other parts, when the cutter disc frame moves to the position of the T-shaped adjusting cylinder with the T-shaped limiting sleeve, the cutter disc is not in a cutting state any more, the pressing rod on the T-shaped limiting sleeve is contacted with the wedge-shaped pressing strip, at the moment, the insertion rod is moved to release the insertion connection with the insertion hole, meanwhile, the pressing block presses the side wall of the T-shaped limiting sleeve, the T-shaped limiting sleeve is attached to the cutter disc, the cutter disc and the T-shaped limiting sleeve are mounted for rechecking, when slight deviation occurs in the use process of the cutter disc, the deviation accumulation is avoided through timely calibration, and the use stability of the cutter disc is improved.

Drawings

FIG. 1 is a front cross-sectional view of a lower partial position of a base of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1B in accordance with the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1A in accordance with the present invention;

FIG. 4 is a right side view of the partial positions of the mounting bracket and cutterhead bracket of the present invention;

FIG. 5 is a perspective view showing a state where a T-shaped limit sleeve and a wedge-shaped pressing strip are adjacent to each other;

FIG. 6 is a cross-sectional view of the T-shaped stop collar and motor rotational end position of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at C in accordance with the present invention;

FIG. 8 is a rear cross-sectional view of a partial position of the U-shaped support bracket and the adjustment box of the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 8D in accordance with the present invention;

FIG. 10 is an enlarged view of the structure at E of FIG. 8 in accordance with the present invention;

FIG. 11 is a side cross-sectional view of a partial position of the adjustment box and T-stop collar of the present invention;

FIG. 12 is a perspective view of a partial position of a T-shaped adjustment cylinder and a wedge-shaped batten of the present invention;

FIG. 13 is a top view of a partial position of a U-shaped support bracket and a mobile slot of the present invention;

FIG. 14 is a left side view of the driven block and drive belt positions of the present invention;

FIG. 15 is a top view of a partial position of the U-shaped support bracket and the adjustment box of the present invention;

FIG. 16 is a top view in elevation of a partial position of the shifting collar and one-way rack of the present invention;

fig. 17 is a side cross-sectional view of a partial location of a U-shaped support bracket and transfer block of the present invention.

In the figure: 1. a base; 2. a U-shaped supporting frame; 3. a support plate; 4. a mounting frame; 5. a transmission motor; 6. a cutterhead frame; 7. a cutting mechanism; 701. a cutter disc; 702. an adjusting gear; 703. t-shaped limit sleeve; 704. a limiting cylinder; 705. a compression bar; 706. a rod; 707. a limit rack; 708. a limit gear; 709. a jack; 710. an adjustment box; 711. a telescopic rod; 712. an adjusting frame; 713. adjusting the rack; 714. an adjusting sleeve; 715. rectangular grooves; 716. a T-shaped adjusting cylinder; 717. a support bar; 718. a wedge-shaped batten; 719. pressing blocks; 720. adjusting a screw; 721. a bar-shaped groove; 722. an adjusting wheel; 723. a limiting block; 724. a spring pin; 725. a limit groove; 726. a moving groove; 727. moving the screw; 728. a circular gear; 729. a gear lever; 730. a driving wheel; 731. a driven block; 732. driven wheel; 733. a drive belt; 734. moving the screw sleeve; 735. a first unidirectional rack; 736. lifting screw rods; 737. lifting the screw sleeve; 738. a transport block; 739. a transmission groove; 740. a lifting gear; 8. a clamping mechanism; 801. a movable groove; 802. an electric push rod; 803. an arc-shaped bracket; 804. clamping the crawler belt; 9. a driver.

Detailed Description

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

Referring to fig. 1 to 17, the present invention provides a technical solution: the utility model provides a high strength aluminum steel production facility, includes base 1, the front side fixedly connected with U type support frame 2 at base 1 top, the vertical sliding connection of front side on U type support frame 2 upper portion has backup pad 3, the middle part sliding connection of backup pad 3 has mounting bracket 4, the inside fixedly connected with transmission motor 5 of mounting bracket 4, the outer wall fixedly connected with blade disc frame 6 of mounting bracket 4, swing joint has cutting mechanism 7 between blade disc frame 6 and the U type support frame 2. It should be noted that: the cutterhead frame 6 can slide on the side wall of the supporting plate 3 through the mounting frame 4; both ends of the supporting plate 3 and the adjusting box 710 are respectively and rotatably connected with a pulley, and the inner wall of the U-shaped supporting frame 2 is vertically provided with a chute matched with the pulley, so that the supporting plate 3 and the adjusting box 710 can stably slide between both sides of the inner wall of the U-shaped supporting frame 2.

The rear side of the top of the base 1 is movably connected with a clamping mechanism 8, and the middle position of the top of the base 1 is symmetrically and movably connected with a driver 9. It should be noted that: the rear end at base 1 top is provided with the limiting plate, and this limiting plate can adjust the distance that aluminium steel material removed at base 1 top to control cutting length, and driver 9 can take aluminium steel material to remove at base 1 top, and here limiting plate and driver 9 are prior art, and not described in detail again.

In this embodiment, as shown in fig. 1 to 17, the cutting mechanism 7 comprises a cutter disc 701, the cutter disc 701 being rotatably connected to the inside of the disc holder 6, and an adjusting gear 702 being fixedly sleeved through the cutter disc 701 at the rotating end of the transmission motor 5.

The middle part sliding connection of the transmission motor 5 rotation end has T type stop collar 703, the side wall movable mounting of one side and the cutter disc 701 of T type stop collar 703, the inside symmetry fixedly connected with stop collar 704 of T type stop collar 703, the one end sliding connection of stop collar 704 has depression bar 705, the other end sliding connection of stop collar 704 has inserted bar 706, the equal fixedly connected with spacing rack 707 of one end that depression bar 705 is opposite with inserted bar 706, the middle part rotation of the inner wall of stop collar 704 is connected with spacing gear 708, two spacing racks 707 mesh with the both sides of spacing gear 708 respectively, jack 709 has been seted up to the surface symmetry of transmission motor 5 rotation end, the one end activity grafting that inserted bar 706 kept away from T type stop collar 703 is in the inside of corresponding jack 709. It should be noted that: a restoring spring is fixedly connected between the compression bar 705 and the inserted bar 706 and the two limiting racks 707 respectively; when the plunger 705 is compressed, the plunger 706 is moved and released from engagement with the receptacle 709 by the engagement of the two stop racks 707 with the stop gear 708, thereby facilitating a re-calibration adjustment of the position between the T-stop 703 and cutter disc 701.

The vertical sliding connection in rear side on U type support frame 2 upper portion has regulation box 710, and the equal symmetrical fixedly connected with telescopic link 711 in top and the bottom of regulation box 710 inner wall, fixedly connected with adjusts frame 712 between four telescopic links 711, and the equal fixedly connected with of top and the bottom of regulation frame 712 inner wall adjusts rack 713, and the lateral wall of adjusting gear 702 meshes with the lateral wall of adjacent regulation rack 713.

The both sides of adjusting frame 712 all sliding connection has adjusting collar 714, rectangular groove 715 with adjusting collar 714 matched with is seted up to the lateral wall of adjusting box 710, adjusting collar 714's inside sliding connection has T type adjusting cylinder 716 with adjusting gear 702 matched with, two opposite sides of T type adjusting cylinder 716 all set up to the inclined plane, one side fixedly connected with support bar 717 that T type adjusting cylinder 716 is close to cutter disc 701, the lateral wall symmetry fixedly connected with wedge layering 718 of support bar 717, two wedge layering 718 respectively with two depression bars 705 one-to-one, wedge layering 718's lateral wall fixedly connected with T type stop collar 703 matched with presses briquetting 719. It should be noted that: the inner wall of the adjusting sleeve 714 is symmetrically provided with an orientation groove, and the outer wall of the T-shaped adjusting cylinder 716 is symmetrically and fixedly connected with an orientation block matched with the orientation groove; when the T-shaped limiting sleeve 703 moves along with the cutter disc frame 6 to limit positions at two ends, the cutter disc 701 is not in a cutting state at this moment, so that a compression bar 705 on the T-shaped limiting sleeve 703 is pressed after being contacted with a wedge-shaped pressing bar 718, then two inserting rods 706 move oppositely to release the insertion of the inserting holes 709, meanwhile, a pressing block 719 presses the T-shaped limiting sleeve 703 to attach to the cutter disc 701, the cutter disc 701 and the T-shaped limiting sleeve 703 are re-calibrated, slight deviation is avoided in the using process of the cutter disc 701, the deviation is prevented from accumulating through timely calibration, and the using stability of the cutter disc 701 is improved; the pressing block 719 is made of deformable material, so that the pressing is prevented from being damaged in the process of pressing the side wall of the T-shaped limit sleeve 703.

The internal thread connection of T type section of thick bamboo 716 has adjusting screw 720, and bar slot 721 has all been seted up to the both sides of U type support frame 2, and two bar slots 721 correspond with two adjusting screw 720 respectively, and bar slot 721 has been run through to the one end of adjusting screw 720 activity cup jointed adjusting wheel 722, and adjusting screw 720's middle part is connected with the inner wall screw rod of adjusting sleeve 714. It should be noted that: when the adjusting gear 702 moves to the right to the inclined plane position of the T-shaped adjusting cylinder 716, the T-shaped adjusting cylinder 716 moves with the adjusting sleeve 714 to unlock the limiting state after being pressed, at the moment, the adjusting frame 712 moves downwards to enable the adjusting rack 713 at the upper part of the adjusting frame 712 to be meshed with the adjusting gear 702, then the adjusting gear 702 moves leftwards again and contacts with the T-shaped adjusting cylinder 716 at the left side of the adjusting frame 712, so that the reciprocating cutting effect is realized; the positioning groove is symmetrically formed in one side, far away from the T-shaped adjusting cylinder 716, of the adjusting screw 720, the positioning block matched with the positioning groove is symmetrically and fixedly connected to the inner ring of the adjusting wheel 722, the adjusting screw 720 is prevented from moving to form interference with the adjusting wheel 722 in the translation process through the positioning groove and the positioning block, a supporting bearing is arranged between the side wall of the adjusting wheel 722 and the side wall of the U-shaped supporting frame 2, and the use stability of the adjusting wheel 722 is further improved.

Limiting blocks 723 are fixedly connected to the surfaces of the two adjusting sleeves 714, spring pins 724 are symmetrically arranged on two sides of the adjusting box 710, the two spring pins 724 are respectively in one-to-one correspondence with the two limiting blocks 723, and limiting grooves 725 matched with the spring pins 724 are formed in the middle of the limiting blocks 723. It should be noted that: the cross section of the spring pin 724 is rectangular, so that the spring pin 724 is prevented from rotating, one side of the spring pin 724, which is close to the adjusting sleeve 714, is provided with an inclined plane, and when the adjusting sleeve 714 moves towards the position of the spring pin 724 with the limiting block 723, the spring pin 724 can automatically stretch out and draw back and be inserted into the corresponding limiting groove 725.

The left side symmetry at U type support frame 2 top has seted up the removal groove 726, the inner wall rotation of removal groove 726 is connected with removal screw 727, the fixed circular gear 728 that has cup jointed in the left end of removal screw 727, the upper portion rotation in the left side of U type support frame 2 is connected with gear pole 729, the both sides of gear pole 729 respectively with the lateral wall meshing of two circular gears 728, the fixed action wheel 730 that cup joints of one end of gear pole 729, the middle part sliding connection in the left side of U type support frame 2 has driven piece 731, the middle part rotation of driven piece 731 is connected with driven wheel 732, action wheel 730, from the driving wheel 732 and homonymy regulating wheel 722 between swing joint have driving belt 733. It should be noted that: the threads of the two travel screws 727 are in opposite directions so that the two travel screws 734 can move in the same direction in unison when the gear bar 729 is engaged with the two circular gears 728.

The surface threaded connection who removes screw 727 has removal swivel nut 734, the lateral wall fixedly connected with one-way rack 735 of removal swivel nut 734, the top symmetry fixedly connected with lift screw 736 of blade disc frame 6, the upper portion threaded connection of lift screw 736 has lift swivel nut 737, the middle part rotation of lift screw 737 is connected with transmission piece 738, transmission groove 739 has been seted up at the top of U type support frame 2, two transmission pieces 738 are sliding connection respectively in the inside of two transmission grooves 739, the fixed cover in upper portion of lift swivel nut 737 outer wall has been connected with lifting gear 740, two lifting gear 740 respectively with one-to-one of two one-way racks 735. It should be noted that: when the cutter disc frame 6 moves to the position of the first unidirectional rack 735 with the lifting screw 736 and the lifting screw sleeve 737, the side wall of the first unidirectional rack 735 is meshed with the side wall of the lifting gear 740, so that the lifting screw sleeve 737 rotates, and at the moment, the lifting screw 736 moves downwards for a certain distance slowly and automatically to cut with the cutter disc frame 6, and the surface overheating condition of the cutter disc 701 is effectively avoided by a mode of reciprocating shallow cutting, so that the cutting efficiency is improved; the side of the moving screw sleeve 734 away from the first unidirectional rack 735 is slidably coupled to the inner wall of the moving slot 726.

In this embodiment, as shown in fig. 1 to 17, sliding grooves are symmetrically formed in the middle of the rotating end of the transmission motor 5, sliding blocks are symmetrically and fixedly connected to the inner wall of the T-shaped stop collar 703, and the two sliding blocks are respectively slidably connected to the inner portions of the two sliding grooves. It should be noted that: the side of the T-shaped stop collar 703 adjacent to the cutter disc 701 is fixedly connected with a bayonet lock, the side wall of the cutter disc 701 is provided with a bayonet lock mating with the bayonet lock, the bayonet lock is snapped into the interior of the bayonet lock of the cutter disc 701, and when the motor rotates with the T-shaped stop collar 703 and simultaneously rotates with the cutter disc 701, the bayonet lock and the bayonet lock are installed as in the prior art and will not be described in detail.

In this embodiment, as shown in fig. 1 to 17, guide rods are symmetrically and fixedly connected to two sides of the adjusting frame 712, guide blocks are fixedly connected to two sides of the adjusting sleeve 714, the two guide blocks are respectively and slidably connected to surfaces of the two corresponding guide rods, and guide springs matched with the guide blocks are movably sleeved on the surfaces of the guide rods. It should be noted that: the adjustment sleeve 714 and the T-shaped adjustment cylinder 716 after the pressure is released can be automatically reset by the guide spring.

In this embodiment, as shown in fig. 1 to 17, a driven groove is formed in the middle of the left side of the U-shaped support frame 2, a driven rod is fixedly connected between two sides of the inner wall of the driven groove, a driven block 731 is slidably connected to the surface of the driven rod, and an extrusion spring is movably connected between the inner wall of the driven groove and the side wall of the driven block 731. It should be noted that: through the cooperation of driven wheel 732, action wheel 730 and adjustment wheel 722, when making adjustment screw 720 rotate and adjust T type adjustment cylinder 716 position, the one-way rack 735 of U type support frame 2 top also can follow the adjustment position, ensures that cutting blade disc 701 cutting stroke changes the back, still can slowly move down in the cutting process.

In this embodiment, as shown in fig. 1 to 17, the first unidirectional rack 735 is composed of rack plates, mounting grooves, trapezoidal teeth and compression springs, the number of the mounting grooves is six, the six mounting grooves are equidistantly formed in the side walls of the rack plates, the number of the trapezoidal teeth is six, the six trapezoidal teeth are respectively and slidably connected in the six mounting grooves, and the compression springs are fixedly connected between the trapezoidal teeth and the inner walls of the mounting grooves. It should be noted that: the manner in which the first unidirectional rack is disposed is in the prior art and will not be described in detail herein; through the arrangement of the trapezoid teeth, the lifting gear 740 on the lifting screw sleeve 737 can only be in one-way engagement with the first one-way rack 735, so that the effect of downward movement of the cutterhead frame 6 is prevented from being influenced; and the opposite directions of the two first unidirectional racks 735 are set, so that in the same direction movement process of the two lifting screw sleeves 737, the two lifting gears 740 can be meshed with the corresponding first unidirectional racks 735 to enable the lifting screw 736 to move downwards in the lifting screw sleeves 737.

The right side symmetry at U type support frame 2 top is fixedly connected with electric telescopic cylinder, and electric telescopic cylinder's one end fixedly connected with No. two unidirectional racks. It should be noted that: the length of the second unidirectional rack is set to be half of the length of the U-shaped support frame 2, the direction of trapezoidal teeth on the second unidirectional rack is opposite to that of trapezoidal teeth of the first unidirectional rack 735 on the same side, and when the electric telescopic cylinder moves to the position of the transmission groove 739 with the second unidirectional rack, the second unidirectional rack can be lifted up to facilitate lifting and resetting of the cutterhead frame 6 after the cutterhead frame 6 is used in the process of meshing the second unidirectional rack with the lifting gear 740 on the lifting screw sleeve 737.

In this embodiment, as shown in fig. 1 to 17, the clamping mechanism 8 includes two movable grooves 801, two movable grooves 801 are symmetrically formed at the top of the base 1, the inner wall of the movable groove 801 is fixedly connected with an electric push rod 802, one end of the electric push rod 802 is fixedly connected with an arc-shaped bracket 803, the bottom of the arc-shaped bracket 803 is slidably connected with the inner bottom surface of the movable groove 801, and the upper portion of the arc-shaped bracket 803 is movably connected with a clamping crawler 804.

In this embodiment, as shown in fig. 1 to 17, a driving motor matched with the clamping crawler 804 is fixedly connected to the side wall at the upper part of the arc-shaped bracket 803, and the rotation directions of the two driving motors are opposite. It should be noted that: the clamping crawler 804 runs through the driving motor, and when the two clamping crawler 804 clamp the aluminum steel pipe for cutting, the two clamping crawler 804 can rotate in different directions to cut the aluminum steel pipe in a rotating mode.

In this embodiment, as shown in fig. 1 to 17, a method for using a high-strength aluminum steel production apparatus includes the following steps:

s1, when the aluminum steel production cutting equipment is used, aluminum steel materials are placed on the top of a base 1, the aluminum steel materials are conveyed towards a clamping crawler 804 on the rear side of the base 1 by a driver 9, the aluminum steel materials are clamped by the electric push rod 802 and the clamping crawler 804, then a conveying motor 5 is started, and the conveying motor 5 rotates in a cutter disc frame 6 through a T-shaped limit sleeve 703 and a cutter disc 701 to carry out cutting processing;

S2, when the transmission motor 5 carries the adjusting gear 702 to rotate, the adjusting gear 702 is meshed with an adjusting rack 713 on the inner wall of the adjusting frame 712, the adjusting frame 712 is not translated under the limit of the telescopic rod 711 and the adjusting box 710, so that the adjusting gear 702 carries the cutterhead rack 6 and the mounting frame 4 to slide and translate in the supporting plate 3 in the process of meshing the adjusting rack 713 with the adjusting gear rack 711, when the cutterhead rack 6 moves to the limit position to one side of the adjusting box 710, the adjusting gear 702 is abutted against the inclined surface of a T-shaped adjusting cylinder 716 movably mounted on the side wall of the adjusting frame 712, the T-shaped adjusting cylinder 716 carries the adjusting sleeve 714 and the adjusting screw 720 to move to the side wall of the U-shaped supporting frame 2, at the moment, a limiting block 723 on the adjusting sleeve 714 is released from being spliced with a spring pin 724, and as the cutterhead rack 6 and the adjusting gear 702 continue to move, the adjusting sleeve 714 carries the rectangular groove 715 along the side wall of the adjusting box 710, and moves along with the moving of the adjusting frame 712, so that the adjusting rack 713 on the other side of the inner wall of the adjusting frame 712 is meshed with the side wall of the adjusting gear rack 702, then the adjusting gear rack 702 moves reversely in the process of rotating the adjusting gear 702, so that the cutterhead rack 6 carries the cutterhead rack 6 moves along the rotating, and the cutting disc 6 moves reciprocally, and cuts the steel material;

S3, because the adjusting sleeves 714 on two sides of the adjusting frame 712 are symmetrically arranged with the limiting blocks 723, after the limiting state of the adjusting sleeve 714 on one side of the adjusting frame 712 is released from the corresponding spring pin 724, the adjusting sleeve 714 on the other side of the adjusting frame 712 is matched and spliced with the corresponding spring pin 724 in the moving process of the limiting blocks 723, and the adjusting frame 712 is limited again;

s4, when the cutter head frame 6 moves in the supporting plate 3 and the transmission groove 739 at the top of the U-shaped supporting frame 2, and the lifting screw sleeve 737 at the top of the cutter head frame 6 moves leftwards to the limit position with the lifting gear 740, the lifting gear 740 is meshed with the side wall of the one-way rack 735 at the top of the U-shaped supporting frame 2, so that the two lifting screw sleeves 737 rotate, and the two lifting screw rods 736 on the cutter head frame 6 slowly move downwards for a certain distance with the cutter head frame 6 for cutting;

s5, when the moving stroke of the cutterhead frame 6 needs to be regulated, regulating wheels 722 on two sides of the U-shaped supporting frame 2 are rotated, at the moment, the regulating wheels 722 drive regulating screws 720 to rotate in the T-shaped regulating cylinders 716, the T-shaped regulating cylinders 716 slide and translate along the inner walls of the regulating sleeves 714, and the moving stroke of the cutterhead frame 6 is changed by controlling the positions between the two T-shaped regulating cylinders 716;

S6, when the T-shaped limiting sleeve 703 moves along with the cutter disc frame 6 to limit positions at two ends, the cutter disc 701 is not in a cutting state at this time, so that a pressing rod 705 on the T-shaped limiting sleeve 703 is pressed after being contacted with a wedge-shaped pressing strip 718, then two inserting rods 706 move oppositely to release the insertion of the inserting holes 709, meanwhile, the pressing block 719 presses the T-shaped limiting sleeve 703 to attach to the cutter disc 701, the installation of the cutter disc 701 and the T-shaped limiting sleeve 703 is re-calibrated, and when slight deviation occurs in the use process of the cutter disc 701, the deviation accumulation is avoided through timely calibration.

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

Claims (9)

1. High-strength aluminum steel production equipment comprises a base (1), and is characterized in that: the novel cutter head is characterized in that a U-shaped supporting frame (2) is fixedly connected to the front side of the top of the base (1), a supporting plate (3) is vertically and slidably connected to the front side of the upper portion of the U-shaped supporting frame (2), a mounting frame (4) is slidably connected to the middle portion of the supporting plate (3), a transmission motor (5) is fixedly connected to the inside of the mounting frame (4), a cutter head frame (6) is fixedly connected to the outer wall of the mounting frame (4), and a cutting mechanism (7) is movably connected between the cutter head frame (6) and the U-shaped supporting frame (2);

The rear side of base (1) top swing joint has fixture (8), the intermediate position symmetry swing joint at the top of base (1) has driver (9).

2. The high strength aluminum steel production facility of claim 1 wherein: the cutting mechanism (7) comprises a cutter disc (701), the cutter disc (701) is rotatably connected inside the cutter disc frame (6), and the rotating end of the transmission motor (5) penetrates through the cutter disc (701) and is fixedly sleeved with an adjusting gear (702);

the novel cutting knife is characterized in that a T-shaped limit sleeve (703) is slidably connected to the middle of the rotating end of the transmission motor (5), one side of the T-shaped limit sleeve (703) is movably mounted on the side wall of the cutter disc (701), a limit cylinder (704) is symmetrically and fixedly connected to the inner side of the T-shaped limit sleeve (703), a pressing rod (705) is slidably connected to one end of the limit cylinder (704), a plug rod (706) is slidably connected to the other end of the limit cylinder (704), limit racks (707) are fixedly connected to the opposite ends of the pressing rod (705) and the plug rod (706), limit gears (708) are rotatably connected to the middle of the inner wall of the limit cylinder (704), the two limit racks (707) are respectively meshed with two sides of the limit gears (708), insertion holes (709) are symmetrically formed in the surface of the rotating end of the transmission motor (5), and one end, far away from the T-shaped limit sleeve (703), of the plug rod is movably inserted into the corresponding insertion holes (709);

The rear side of the upper part of the U-shaped supporting frame (2) is vertically and slidingly connected with an adjusting box (710), the top and the bottom of the inner wall of the adjusting box (710) are symmetrically and fixedly connected with telescopic rods (711), an adjusting frame (712) is fixedly connected between the four telescopic rods (711), the top and the bottom of the inner wall of the adjusting frame (712) are fixedly connected with adjusting racks (713), and the side wall of the adjusting gear (702) is meshed with the side wall of the adjacent adjusting rack (713);

the two sides of the adjusting frame (712) are both connected with an adjusting sleeve (714) in a sliding manner, rectangular grooves (715) matched with the adjusting sleeve (714) are formed in the side wall of the adjusting box (710), T-shaped adjusting cylinders (716) matched with the adjusting gears (702) are connected in a sliding manner in the adjusting sleeve (714), one sides of the two T-shaped adjusting cylinders (716) are both inclined planes, one side of the T-shaped adjusting cylinders (716) close to the cutter disc (701) is fixedly connected with a supporting bar (717), wedge-shaped pressing bars (718) are symmetrically and fixedly connected to the side wall of the supporting bar (717), the two wedge-shaped pressing bars (718) are respectively in one-to-one correspondence with the two pressing bars (705), and pressing blocks (719) matched with the T-shaped limiting sleeves (703) are fixedly connected to the side wall of the wedge-shaped pressing bars (718);

An adjusting screw (720) is connected with the inner threads of the T-shaped adjusting cylinder (716), strip-shaped grooves (721) are formed in two sides of the U-shaped supporting frame (2), the two strip-shaped grooves (721) respectively correspond to the two adjusting screw (720), one end of the adjusting screw (720) penetrates through the strip-shaped grooves (721) to be movably sleeved with an adjusting wheel (722), and the middle part of the adjusting screw (720) is connected with an inner wall screw of the adjusting sleeve (714);

limiting blocks (723) are fixedly connected to the surfaces of the two adjusting sleeves (714), spring pins (724) are symmetrically arranged on the two sides of the adjusting box (710), the two spring pins (724) are respectively in one-to-one correspondence with the two limiting blocks (723), and limiting grooves (725) matched with the spring pins (724) are formed in the middle of the limiting blocks (723);

the left side symmetry at U type support frame (2) top has seted up removal groove (726), the inner wall in removal groove (726) rotates and is connected with removal screw rod (727), the fixed circular gear (728) that has cup jointed in the left end of removal screw rod (727), the upper portion in the left side of U type support frame (2) rotates and is connected with gear lever (729), the both sides of gear lever (729) respectively with two the lateral wall meshing of circular gear (728), the fixed action wheel (730) that cup joints of one end of gear lever (729), the middle part in the left side of U type support frame (2) is connected with driven piece (731) in a sliding manner, the middle part of driven piece (731) rotates and is connected with driven wheel (732), action wheel (730), driven wheel (732) and homonymy between regulating wheel (722) swing joint have driving belt (733);

The surface of the movable screw (727) is in threaded connection with a movable screw sleeve (734), the side wall of the movable screw sleeve (734) is fixedly connected with a first unidirectional rack (735), the top of the cutterhead frame (6) is symmetrically and fixedly connected with a lifting screw (736), the upper part of the lifting screw (736) is in threaded connection with a lifting screw sleeve (737), the middle part of the lifting screw sleeve (737) is in rotary connection with a transmission block (738), the top of U type support frame (2) has seted up transmission groove (739), two transmission piece (738) respectively sliding connection is in the inside of two transmission groove (739), the fixed cover in upper portion of lift swivel nut (737) outer wall has cup jointed elevating gear (740), two elevating gear (740) respectively with two one-to-one of one unidirectional rack (735).

3. A high strength aluminum steel production facility as claimed in claim 2, wherein: the middle part symmetry of transmission motor (5) rotation end has seted up the sliding tray, the inner wall symmetry fixedly connected with sliding block of T type stop collar (703), two sliding block respectively sliding connection is in two the inside of sliding tray.

4. A high strength aluminum steel production facility as claimed in claim 2, wherein: the two sides of the adjusting frame (712) are symmetrically and fixedly connected with guide rods, the two sides of the adjusting sleeve (714) are fixedly connected with guide blocks, the two guide blocks are respectively and slidably connected to the surfaces of the corresponding two guide rods, and guide springs matched with the guide blocks are movably sleeved on the surfaces of the guide rods.

5. A high strength aluminum steel production facility as claimed in claim 2, wherein: the novel U-shaped support frame is characterized in that a driven groove is formed in the middle of the left side of the U-shaped support frame (2), a driven rod is fixedly connected between two sides of the inner wall of the driven groove, a driven block (731) is slidably connected to the surface of the driven rod, and an extrusion spring is movably connected between the inner wall of the driven groove and the side wall of the driven block (731).

6. A high strength aluminum steel production facility as claimed in claim 2, wherein: the first unidirectional rack (735) is composed of rack plates, mounting grooves, trapezoidal teeth and compression springs, wherein the number of the mounting grooves is six, the six mounting grooves are formed in the side wall of the rack plates at equal intervals, the number of the trapezoidal teeth is six, the six trapezoidal teeth are respectively and slidably connected in the six mounting grooves, and the compression springs are fixedly connected between the trapezoidal teeth and the inner walls of the mounting grooves;

the right side symmetry at U type support frame (2) top is fixedly connected with electric telescopic cylinder, electric telescopic cylinder's one end fixedly connected with No. two unidirectional racks.

7. The high strength aluminum steel production facility of claim 1 wherein: clamping mechanism (8) are including movable groove (801), movable groove (801) are established to two, two the top at base (1) is seted up to movable groove (801) symmetry, the inner wall fixedly connected with electric putter (802) of movable groove (801), the one end fixedly connected with arc support (803) of electric putter (802), the bottom sliding connection of arc support (803) is in the interior bottom surface of movable groove (801), the upper portion swing joint of arc support (803) has centre gripping track (804).

8. The high strength aluminum steel production facility of claim 7 wherein: the side wall of the upper part of the arc-shaped bracket (803) is fixedly connected with a transmission motor matched with the clamping crawler belt (804), and the rotation directions of the two transmission motors are opposite.

9. The method of using a high strength aluminum steel production facility as claimed in claim 1, comprising the steps of:

s1, when the aluminum steel production cutting equipment is used, aluminum steel materials are placed on the top of a base (1), the aluminum steel materials are conveyed to a clamping crawler belt (804) on the rear side of the base (1) through a driver (9), the aluminum steel materials are clamped by an electric push rod (802) through movement of the clamping crawler belt (804), then a conveying motor (5) is started, and the conveying motor (5) rotates in a cutter disc frame (6) through a T-shaped limit sleeve (703) through a cutter disc (701) to carry out cutting processing;

s2, when the transmission motor (5) rotates with the adjusting gear (702), the adjusting gear (702) is meshed with an adjusting rack (713) on the inner wall of the adjusting frame (712), the adjusting frame (712) cannot translate under the limit of the telescopic rod (711) and the adjusting box (710), so that the adjusting gear (702) and the adjusting rack (713) are meshed, the cutterhead frame (6) and the mounting frame (4) slide and translate in the supporting plate (3), when the cutterhead frame (6) moves to the limit position towards one side of the adjusting box (710), the adjusting gear (702) is abutted against the inclined surface of a T-shaped adjusting cylinder (716) movably arranged on the side wall of the adjusting frame (712), the T-shaped adjusting cylinder (716) moves towards the side wall of the U-shaped supporting frame (2) with the adjusting sleeve (714) and the adjusting screw (720), at the moment, a limit block (723) on the adjusting sleeve (714) is released from being spliced with a spring pin (724), and the cutterhead frame (6) and the adjusting gear (702) continue to move, so that the adjusting sleeve (712) moves along the side wall of the adjusting box (712) along the adjusting box (710) and moves along the side wall (712) along with the side wall of the adjusting box (712) to move along with the side wall of the adjusting box (712) and the adjusting box (712) to move along with the side wall (713), then the adjusting gear (702) rotates to drive the cutter disc frame (6) to move reversely for processing, so that the cutter disc frame (6) drives the rotating cutter disc (701) to move reciprocally and cut on the top surface of the aluminum steel material;

S3, because the adjusting sleeves (714) on two sides of the adjusting frame (712) are symmetrically arranged with the limiting blocks (723), after the limiting state of the adjusting sleeve (714) on one side of the adjusting frame (712) is released from the corresponding spring pin (724), the adjusting sleeve (714) on the other side of the adjusting frame (712) is matched and spliced with the corresponding spring pin (724) in the moving process of the limiting blocks (723), and the adjusting frame (712) is limited again;

s4, when the cutter head frame (6) moves in the supporting plate (3) and the transmission groove (739) at the top of the U-shaped supporting frame (2), and when the lifting screw sleeve (737) at the top of the cutter head frame (6) moves leftwards to the limit position with the lifting gear (740), the lifting gear (740) is meshed with the side wall of the first unidirectional rack (735) at the top of the U-shaped supporting frame (2), so that the two lifting screw sleeves (737) rotate, and the two lifting screws (736) on the cutter head frame (6) slowly move downwards for a certain distance to cut;

s5, when the moving stroke of the cutterhead frame (6) needs to be regulated, regulating wheels (722) on two sides of the U-shaped supporting frame (2) are rotated, at the moment, the regulating wheels (722) drive regulating screws (720) to rotate in T-shaped regulating cylinders (716), the T-shaped regulating cylinders (716) slide and translate along the inner walls of the regulating sleeves (714), and the moving stroke of the cutterhead frame (6) is changed by controlling the positions between the two T-shaped regulating cylinders (716);

S6, when the T-shaped limiting sleeve (703) moves along with the cutter disc frame (6) to be at two end limiting positions, the cutter disc (701) is not in a cutting state, a pressing rod (705) on the T-shaped limiting sleeve (703) is pressed after being contacted with a wedge-shaped pressing strip (718), then two inserting rods (706) move oppositely to release the insertion of the inserting holes (709), meanwhile, the pressing block (719) presses the T-shaped limiting sleeve (703) to be attached to the cutter disc (701), the cutter disc (701) and the T-shaped limiting sleeve (703) are mounted for rechecking, and when slight deviation occurs in the using process of the cutter disc (701), deviation accumulation is avoided through timely calibration.