CN114102172B - High-hardness continuous casting manganese alloy rod cutting device and application method thereof - Google Patents

Abstract

The invention discloses a cutting device for a high-hardness continuous casting manganese alloy rod and a use method thereof. Including base device, base device includes the base, the upper surface embedding fixedly connected with cutting base of base, cutting base's shape presents arc, cutting base's left end upper surface fixed connection has the base curb plate, cutting base's the outside is stretched out to the lower extreme of base curb plate, cutting base's right half upper surface rear end has the visor through hinge swing joint, visor and base adaptation, base device's top is provided with puts the device, put the device and put the board including putting, put the device and form by a plurality of boards vertical arrangement of putting, evenly leave the gap between every put the board, put the board including putting the bottom plate, this high hard continuous casting adds manganese alloy stick cutting device and its application method great increase the adjustable performance of device.

Description

High-hardness continuous casting manganese alloy rod cutting device and application method thereof

Technical Field

The invention relates to the technical field of alloy rod processing, in particular to a high-hardness continuous casting manganese alloy rod cutting device and a using method thereof.

Background

Manganese q (e.g., preventing the formation of grain boundary carbides of steel) also increases the strength, toughness, and hardenability of the steel, and is widely used in steel and stainless steel manufacturing processes, such amounts being 85% to 90% of the manganese requirement. The total consumption of ferromanganese is 0.8% -0.9% of the steel yield.

At present, most of high-hardness continuous casting manganese alloy bars in the market are processed in a single processing operation mode by adopting a single alloy bar, and the high-hardness continuous casting manganese alloy bars with different lengths need to be cut for multiple times in each time, so that the cutting operation of the high-hardness continuous casting manganese alloy bars is very troublesome.

Disclosure of Invention

The invention aims to provide a cutting device for a high-hardness continuous casting manganese alloy rod and a using method thereof, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high-hardness continuous casting adds manganese alloy stick cutting device, includes base device, base device includes the base, the upper surface embedding fixedly connected with cutting base of base, the shape of cutting base presents arc, the left end upper surface fixedly connected with base curb plate of cutting base, the outside of cutting base is stretched out to the lower extreme of base curb plate, the right half upper surface rear end of cutting base has the visor through hinge swing joint, visor and base adaptation, base device's top is provided with puts the device, put the device and include puts the board, put the device and form by a plurality of boards vertical arrangement, every put evenly leave the gap between the board, put the board and put the bottom plate including putting the slope setting of bottom plate, the lower surface fixedly connected with cutting base's left half upper end of putting the board, put the even fixedly connected with of upper surface equidistance of board and put the post, it includes cylindricly to put the shape of post.

Preferably, the right surface lower extreme upside of base curb plate has the synchronizing lever through pivot swing joint, the synchronizing lever is at the one end right side fixedly connected with synchronizing handle that keeps away from the base curb plate, the shape of synchronizing handle includes circular arc platy, the inside of synchronizing handle is provided with the synchronous mobile jib, the shape of synchronous mobile jib vertical section is the square, the left end fixed connection of synchronous mobile jib is on the synchronizing lever.

Preferably, the below of synchronizing bar is provided with slide bar device, slide bar device is in the lower extreme place ahead position of base device, slide bar device includes the slide bar, the left end fixed connection of slide bar is on the base curb plate, the spacing groove has been seted up to the outside surface of slide bar, the quantity of spacing groove is two, two the spacing groove is in the upside and the rear side of slide bar respectively, the right-hand member fixedly connected with baffle of slide bar.

Preferably, the outside of slide bar device is provided with the slide ring device, the slide ring device includes the slide ring, the slide ring cup joints in the outside of slide bar and with the slide bar adaptation, fixedly connected with stopper on the inside wall of slide ring, the quantity of stopper is two, two the position of stopper is located the upside and the rear side of slide ring respectively, the stopper inserts in the spacing groove and with the spacing groove adaptation.

Preferably, the upper part is fixedly connected with a connecting cake before the outer side of the limiting block.

Preferably, the screw hole has been seted up to the inner wall front downside of sliding collar, the inside of screw hole is provided with the screw thread post, screw thread post and screw hole pass through threaded connection, the rear end fixedly connected with extrusion piece of screw thread post, the extrusion piece is in the inside of sliding collar, the radian adaptation of extrusion piece and sliding collar, the front end fixedly connected with handle of screw thread post, the handle is in the outside of sliding collar.

Preferably, upper portion fixedly connected with locator card post behind the outside of slide ring, the rear end of locator card post includes the u style of calligraphy, the rear end of locator card post and be in the post contact of putting of lower extreme and with put the post adaptation, the card groove has been seted up at the back lateral wall middle part of locator card post, the card has been cup jointed in the inside embedding in card groove, the width of card is the same with every gap width that leaves between putting the board, the card stretches into the inside of locator card post through the card groove at the one end that is close to the locator card post, fixedly connected with extension spring on the preceding inner wall of locator card post, extension spring's rear end fixed connection card.

Preferably, the cake is provided with cutting device in that party who keeps away from the sliding ring, cutting device includes the cutting piece, there is the foundation post at the left and right sides surface middle part of cutting piece through motor swing joint, the foundation post passes through bearing swing joint at the one end of keeping away from the cutting piece with the cake of being connected, two the foundation post is in respectively the left and right sides of connecting the cake, two the foundation post is in the one side fixedly connected with jack-prop that deviates from mutually near the one end of cutting piece, jack-prop and synchronous handle adaptation, the synchronizing hole has been seted up in the one end surface penetration of keeping away from the foundation post, synchronizing hole and synchronous mobile jib adaptation.

The application method of the high-hardness continuous casting manganese alloy rod cutting device comprises the following steps:

s1: sequentially stacking the high-hardness continuous casting manganese alloy bars on a placing device;

s2: the protective cover is opened, the sliding ring is moved on the sliding rod, so that the positions and the number of the cutting devices involved in cutting are adjusted, and the extrusion sheet is fastened;

s3: starting a cutting piece rotating motor, pushing a synchronous handle to cut the high-hardness continuous casting manganese alloy rod;

s4: the cutting device is moved to the right side of the sliding rod, and is placed into the cutting base, and the protective cover is covered for storage.

Compared with the prior art, the invention has the advantages that: 1) According to the invention, through the arrangement of the plurality of slide ring devices and the cutting device on the outer side of the slide bar device, the slide ring device can freely slide along the slide bar under the limiting action of the limiting grooves and the limiting blocks, when the slide ring device is positioned at different positions, the cutting length and the cutting speed of the cutting device for the high-hardness continuous casting manganese alloy rod are different when the number of the slide ring device entering the cutting range is different, a cutting operator can freely adjust the cutting length and the cutting speed according to the requirement, and after the positions and the number are adjusted properly, the slide ring and the slide bar are connected by rotating the handle from the outside, so that the device cannot easily deviate during cutting, and the adjustable performance of the device is greatly improved.

2) According to the invention, through the design of the positioning clamping column and the structure of the upper placing device, the placing device is formed by vertically arranging a plurality of placing plates, gaps are uniformly reserved between each placing plate, the width of the clamping sheet is the same as the width of each placing plate, each gap is used as a node when the sliding ring moves on the sliding rod, and when the clamping sheet moves to the position of the gap, the clamping sheet can be clamped into the gap due to the existence of the gap, so that the sliding ring can accurately position each node, the existence of the gap is exactly the existence required by cutting, the cutting distance of the high-hardness continuous casting manganese alloy rod is accurately positioned while the cutting is ensured, and the cutting accuracy of the device is greatly improved.

3) According to the invention, through the matching design of the synchronous hole and the synchronous device, when the slide ring slides on the slide rod, and when the slide ring enters the cutting space where the placing device is positioned, the synchronous hole is aligned with and sleeved with the synchronous main rod, so that the cutting devices participating in cutting are controlled by the synchronous device at the same time, and thus, when the cutting devices are used for cutting, the cutting of the cutting devices is ensured to be synchronously performed, and the cutting synchronism of the devices is greatly improved.

4) According to the invention, through the inclined arrangement of the placing bottom plate and the cooperation between the cutting device and the slide ring device, the high-hardness continuous casting manganese alloy rod which is not cut can be blocked on the placing device by the slide ring device due to the length problem, but after the cutting is completed, the cutting length is matched with the position of the cutting device, so that the high-hardness continuous casting manganese alloy rod which is cut is free of the blocking of the cutting device, and can freely roll on the inclined placing bottom plate, so that manual unloading is not needed, the finishing time required by the cutting of the high-hardness continuous casting manganese alloy rod is greatly saved, and the cutting rate of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of a synchronization apparatus according to the present invention;

FIG. 3 is a schematic view of a base unit according to the present invention;

FIG. 4 is an enlarged schematic view of the invention at A;

FIG. 5 is a schematic view of a slide bar apparatus according to the present invention;

FIG. 6 is a schematic view of a cutting apparatus according to the present invention;

FIG. 7 is a schematic view of a slide ring device according to the present invention.

In the figure: 1. a base device; 101. a base; 102. cutting a base; 103. a base side plate; 104. a protective cover; 2. placing devices; 201. placing plates; 202. placing a bottom plate; 203. placing a column; 3. a synchronizing device; 301. a synchronizing lever; 302. a synchronous handle; 303. synchronizing the main rod; 4. a slide bar device; 401. a slide bar; 402. a limit groove; 403. a baffle; 5. a slide ring device; 501. a slide ring; 502. a limiting block; 503. connecting cakes; 504. a threaded hole; 505. a threaded column; 506. extruding the sheet; 507. a handle; 508. positioning a clamping column; 509. a card slot; 510. a card; 511. a telescopic spring; 6. a cutting device; 601. cutting the sheet; 602. a bottom post; 603. a top column; 604. and synchronizing the holes.

Detailed Description

The invention provides a technical scheme that: the utility model provides a high-hardness continuous casting adds manganese alloy stick cutting device, including base device 1, base device 1 includes base 101, the right-hand member upper surface of base 101 is less than left end upper surface, the upper surface embedding fixedly connected with cutting base 102 of base 101, cutting base 102's shape presents arc, cutting base 102's left end upper surface fixedly connected with base curb plate 103, the outside (as shown in fig. 3) of cutting base 102 is stretched out to the lower extreme of base curb plate 103, cutting base 102's right half upper surface rear end has visor 104 through hinge swing joint, visor 104 and base 101 adaptation, when not needing to use, can put into cutting device 6 all the time into cutting base 102's right side part and accomodate, cover visor 104 and guarantee cutting device 6 and not expose outside, cause danger, base device 1's top is provided with put device 2, put device 2 and is formed by a plurality of putting plate 201 vertical range, evenly leave the gap between every putting plate 201, put plate 201 includes bottom plate 202, put bottom plate 202's lower surface fixed connection of bottom plate 202's lower surface of bottom plate 202 is connected with the lower half upper end 203 of cutting base 102, put column 203 and be arranged by column shape is in proper order, put column 203 is put in proper order, put column shape is put.

The upper side of the lower end of the right surface of the base side plate 103 is movably connected with a synchronizing rod 301 through a rotating shaft, the right side of the end, far away from the base side plate 103, of the synchronizing rod 301 is fixedly connected with a synchronizing handle 302, the shape of the synchronizing handle 302 comprises a circular arc plate shape, a synchronizing main rod 303 is arranged in the synchronizing handle 302, the vertical section of the synchronizing main rod 303 is square, and the left end of the synchronizing main rod 303 is fixedly connected to the synchronizing rod 301.

The below of synchronizing bar 301 is provided with slide bar device 4, and slide bar device 4 is in the lower extreme place ahead of base device 1, and slide bar device 4 includes slide bar 401, and the length of slide bar 401 is the same with the length of base 101, and slide bar 401's left end fixed connection is on base curb plate 103, and slide bar 401's outside surface has seted up spacing groove 402, and the quantity of spacing groove 402 is two, and two spacing grooves 402 are in the upside and the rear side of slide bar 401 respectively, and slide bar 401's right-hand member fixedly connected with baffle 403.

The outside of slide bar device 4 is provided with slide bar device 5, and slide bar device 5 includes slide bar 501, and slide bar 501 cup joints in the outside of slide bar 401 and with slide bar 401 adaptation, fixedly connected with stopper 502 on the inside wall of slide bar 501, and the quantity of stopper 502 is two, and the position of two stoppers 502 is located the upside and the rear side of slide bar 501 respectively, and stopper 502 inserts in spacing groove 402 and with spacing groove 402 adaptation.

The upper front part of the outer side of the limiting block 502 is fixedly connected with a connecting cake 503, and the left-right width of the connecting cake 503 is narrower than the left-right width of the slide ring 501.

Screw hole 504 has been seted up to the inner wall front downside of slide ring 501, and the inside of screw hole 504 is provided with screw hole 505, and screw hole 505 passes through threaded connection with screw hole 504, and screw hole 505's rear end fixedly connected with extrusion piece 506, extrusion piece 506 are in the inside of slide ring 501, and extrusion piece 506 and the radian adaptation of slide ring 501, screw hole 505's front end fixedly connected with handle 507, and handle 507 is in the outside of slide ring 501.

The upper portion fixedly connected with locator card post 508 behind the outside of slide ring 501, the rear end of locator card post 508 includes the u style of calligraphy, the rear end of locator card post 508 and be in the contact of the post 203 of putting of lower extreme and with put post 203 adaptation, card slot 509 has been seted up at the back lateral wall middle part of locator card post 508, card 510 has been cup jointed in the inside embedding of card slot 509, leave the gap width the same between card 510 and every board 201 of putting, card 510 stretches into the inside of locator card post 508 through card slot 509 at the one end that is close to locator card post 508, fixedly connected with extension spring 511 on the preceding inner wall of locator card post 508, the rear end fixed connection card 510 of extension spring 511.

The connection cake 503 is provided with cutting device 6 in that party that keeps away from the retainer plate 501, cutting device 6 includes cutting piece 601, the outside edge of cutting piece 601 is the pointed end, there is a sill pillar 602 at the left and right surfaces middle part of cutting piece 601 through motor swing joint, sill pillar 602 passes through bearing swing joint with connection cake 503 in that end that keeps away from cutting piece 601, two sill pillars 602 are in the left and right sides of connection cake 503 respectively, two sill pillars 602 are in the side fixedly connected with spliced pole 603 that is close to that end that cuts away from of cutting piece 601 mutually, spliced pole 603 and synchronous handle 302 adaptation, the synchronizing hole 604 has been seted up in the surface of that one end that is kept away from sill pillar 603 runs through, synchronizing hole 604 and synchronous mobile jib 303 adaptation.

The application method of the high-hardness continuous casting manganese alloy rod cutting device comprises the following steps:

s1: sequentially stacking the high-hardness continuous casting manganese alloy bars on a placing device 2;

s2: opening the protective cover 104, moving the slide ring 501 on the slide bar 401, thereby adjusting the position and the number of the participating cutting devices 6, and fastening the squeeze piece 506;

s3: starting a rotary motor of the cutting blade 601, and pushing the synchronous handle 302 to cut the high-hardness continuous casting manganese alloy rod;

s4: the cutter unit 6 is moved to the right of the slide bar 401, and is placed inside the cutter base 102, and the protective cover 104 is put on the cutter base for storage.

The working process of the invention is as follows: the first step: through the setting of a plurality of slide ring devices 5 in slide bar device 4 outside and cutting device 6, firstly through the spacing effect of spacing groove 402 and stopper 502 that sets up, can be along slide bar 401 free slip slide ring device 5, when slide ring device 5 is in different positions, when the quantity of the entering cutting scope of slide ring device 5 is different during the cutting, cutting device 6 all can be different to the cutting length and the cutting speed of high-hardness continuous casting manganese alloy stick, the operating personnel of cutting can carry out free adjustment as required, position and quantity are all adjusted suitably afterwards, thereby through the connection of fastening slide ring 501 and slide bar 401 from outside rotation handle 507, make the device can not take place the skew easily in the cutting, thereby great increase the adjustable performance of device.

And a second step of: through the design of location card post 508, cooperate and put the structure of device 2, put device 2 and form by a plurality of vertical ranges of putting board 201, evenly leave the gap between every putting board 201, the width of card 510 is the same with the gap width that leaves between every putting board 201, when removing slide ring 501 on slide bar 401 like this, with every gap as a node, when card 510 removes the position of gap, card 510 all can block into in the gap owing to the existence of gap, thereby make slide ring 501 can carry out the accurate location of every node, and the existence of gap just in time is the existence that the cutting is required again, when having guaranteed the going on of cutting, have carried out accurate location to the distance that high-hardness continuous casting adds the manganese alloy stick cutting, great improvement the accuracy of device cutting.

And a third step of: through the cooperation design of the synchronizing hole 604 and the synchronizing device 3, when the slide ring 501 slides on the slide rod 401, and when the slide ring 501 enters a cutting space where the placing device 2 is located, the synchronizing hole 604 is aligned with and sleeved with the synchronizing main rod 303, so that the cutting devices 6 participating in cutting are controlled by the synchronizing device 3 at the same time, and thus, when the cutting devices 6 are used for cutting, the cutting devices 6 are ensured to be synchronously carried out, and the cutting synchronism of the devices is greatly improved.

Fourth step: through the slope setting of putting bottom plate 202 to and with the cooperation between slide ring device 5, the cutting device 6, the high hard continuous casting that does not cut adds the manganese alloy stick can be blocked on putting device 2 because the length problem by slide ring device 5, but after the cutting is accomplished, because the length of cutting and the position adaptation that cutting device 6 is located, thereby the high hard continuous casting that cuts after accomplishing adds the manganese alloy stick will lose the separation of cutting device 6, thereby can be on the slope put bottom plate 202 free roll, need not carry out artificial unloading like this, great saving high hard continuous casting and add required arrangement time after the manganese alloy stick cutting is accomplished, improved the cutting rate of device.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a high hard continuous casting adds manganese alloy stick cutting device, includes base device (1), base device (1) include base (101), its characterized in that: the cutting device comprises a base (101), wherein a cutting base (102) is fixedly connected to the upper surface of the base (101), the shape of the cutting base (102) is in a circular arc shape, a base side plate (103) is fixedly connected to the upper surface of the left end of the cutting base (102), the lower end of the base side plate (103) extends out of the outer side of the cutting base (102), a protective cover (104) is movably connected to the rear end of the upper surface of the right half part of the cutting base (102) through a hinge, the protective cover (104) is matched with the base (101), a placing device (2) is arranged above the base device (1), the placing device (2) comprises placing plates (201), the placing plates (201) are vertically arranged, gaps are uniformly reserved between the placing plates (201), the placing plates (201) comprise a base plate (202), the upper end of the left half part of the cutting base (102) is fixedly connected to the lower surface of the placing base (202), the upper surface of the placing plate (201) is uniformly connected with placing columns (203), and the placing columns (203) are in equal distance and comprise placing columns;

a slide bar device (4) is arranged below the synchronous bar (301), the slide bar device (4) is positioned in front of the lower end of the base device (1), the slide bar device (4) comprises a slide bar (401), the left end of the slide bar (401) is fixedly connected to the base side plate (103), limit grooves (402) are formed in the outer side surface of the slide bar (401), the number of the limit grooves (402) is two, the two limit grooves (402) are respectively positioned on the upper side and the rear side of the slide bar (401), and the right end of the slide bar (401) is fixedly connected with a baffle (403);

the sliding rod device is characterized in that a sliding ring device (5) is arranged on the outer side of the sliding rod device (4), the sliding ring device (5) comprises a sliding ring (501), the sliding ring (501) is sleeved on the outer side of the sliding rod (401) and is matched with the sliding rod (401), limiting blocks (502) are fixedly connected to the inner side wall of the sliding ring (501), the number of the limiting blocks (502) is two, the positions of the two limiting blocks (502) are respectively located on the upper side and the rear side of the sliding ring (501), and the limiting blocks (502) are inserted into the limiting grooves (402) and are matched with the limiting grooves (402);

the upper front part of the outer side of the limiting block (502) is fixedly connected with a connecting cake (503);

screw holes (504) are formed in the front lower side of the inner wall of the sliding ring (501), screw thread columns (505) are arranged in the screw holes (504), the screw thread columns (505) are connected with the screw holes (504) through screw threads, extrusion pieces (506) are fixedly connected to the rear ends of the screw thread columns (505), the extrusion pieces (506) are located in the sliding ring (501), the extrusion pieces (506) are matched with the radian of the sliding ring (501), handles (507) are fixedly connected to the front ends of the screw thread columns (505), and the handles (507) are located on the outer side of the sliding ring (501);

the utility model discloses a card post is put in card post (508), card post (510) is put in card post (508), card groove (509) is offered at card post (508)'s back lateral wall middle part, card (510) has been cup jointed in card groove (509)'s inside embedding, the width of card (510) is the same with the gap width that leaves between every putting board (201), card (510) are at the inside that stretches into card post (508) through card groove (509) in the one end that is close to card post (508), fixedly connected with extension spring (511) on the preceding inner wall of card post (508), card (510) is connected in the rear end fixed connection of extension spring (511).

2. The cutting device for the high-hardness continuous casting manganese alloy rod according to claim 1, wherein the cutting device comprises the following components: the utility model discloses a synchronous device, including base curb plate (103), synchronous lever (301) are connected with through pivot swing joint in the right side of the right surface lower extreme upside of base curb plate (103), synchronous lever (301) are in the one end right side fixedly connected with synchronous handle (302) of keeping away from base curb plate (103), the shape of synchronous handle (302) includes circular arc platy, the inside of synchronous handle (302) is provided with synchronous mobile jib (303), the shape of the vertical section of synchronous mobile jib (303) is the square, the left end fixed connection of synchronous mobile jib (303) is on synchronous lever (301).

3. The cutting device for the high-hardness continuous casting manganese alloy rod according to claim 1, wherein the cutting device comprises the following components: the utility model discloses a synchronous device, including cutting device (603), cutting device (6) including cutting piece (601), there is foundation (602) in the left and right surfaces middle part of cutting piece (601) through motor swing joint, foundation (602) are in the left and right sides that connects cake (503) that is in cake (503) respectively in connection with foundation (602) through bearing swing joint, two foundation (602) are in the left and right sides of cake (503) respectively, two foundation (602) are in the one side fixedly connected with jack-prop (603) that deviates from that is close to the one end of cutting piece (601), jack-prop (603) and synchronous handle (302) adaptation, synchronization hole (604) have been seted up in the one end surface penetration of keeping away from foundation (602), synchronization hole (604) and synchronous mobile jib (303) adaptation.