CN213924910U - Vertical roller induction heating ageing professional equipment - Google Patents

Abstract

The utility model relates to a roll firing equipment technical field especially relates to a vertical roll induction heating ageing professional equipment. The special equipment for heating aging comprises a base, an upright vertically arranged on the base, a clamping unit and a heating unit, wherein the clamping unit comprises an upper clamping mechanism and a lower clamping mechanism, the upper clamping mechanism comprises an upper ejection column arranged on the upright in a lifting manner, the lower clamping mechanism comprises a lower ejection column arranged on the upright in a lifting manner, the upper ejection column and the lower ejection column extend along the same straight line, and a working space for clamping a workpiece is formed between the upper ejection column and the lower ejection column; the heating unit comprises a heating device, the heating device is arranged on the stand column in a liftable mode, a heating cavity is arranged in the heating device, and openings are formed in the upper end and the lower end of the heating cavity. The embodiment of the utility model provides an in whole adopt vertical structure, go up fore-set and fore-set centre gripping work piece down, adopt electromagnetic induction heating, solved axle type part and appeared bending deformation's technical problem when heating ageing treatment.

Description

Vertical roller induction heating ageing professional equipment

Technical Field

The utility model relates to a roll firing equipment technical field, concretely relates to vertical roll induction heating ageing professional equipment.

Background

The main working parts and tools on the rolling mill produce continuous plastic deformation of the metal. The roller mainly comprises a roller body, a roller neck and a shaft head 3. The roll body is the middle part of the roll that actually participates in rolling metal. It has a smooth cylindrical or grooved surface. The roll neck is mounted in bearings and transmits the rolling force to the stand through a bearing block and a screw down device. The driving end shaft head is connected with the gear seat through a connecting shaft, and the rotating torque of the motor is transmitted to the roller. The rolls may be arranged in two, three, four or more rolls in the mill stand.

In the prior art, when the aging treatment is carried out, because the roller or the shaft part is generally directly subjected to the heating lamp aging treatment process after being placed, the phenomena of bending deformation and the like easily occur, the quality of the aging treatment is greatly reduced, and the damage to a machined workpiece is easily caused.

Therefore, it is necessary to design a special vertical roll induction heating aging equipment for reducing bending deformation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the above-mentioned technical problem who exists among the prior art, provide a vertical roll induction heating ageing professional equipment, wholly adopt vertical structure, adopt electromagnetic induction heating for the induction heating ageing of roll or large-scale axle type part, release work piece internal stress has solved axle type part and has appeared bending deformation's technical problem when heating ageing treatment.

In order to realize the technical purpose, the embodiment of the utility model provides a vertical roll induction heating ageing professional equipment is provided, be in including base, vertical setting stand, centre gripping unit and the heating unit on the base, wherein: the clamping unit comprises an upper clamping mechanism and a lower clamping mechanism, the upper clamping mechanism comprises an upper ejection column which is arranged on the upright column in a liftable mode, the lower clamping mechanism comprises a lower ejection column which is arranged on the upright column in a liftable mode, the upper ejection column and the lower ejection column extend along the same straight line, and a working space for clamping a workpiece is formed between the upper ejection column and the lower ejection column; and the heating unit is including setting up go up the fore-set with heating device between the fore-set down, heating device sets up with liftable on the stand, just be provided with the heating chamber in the heating device, the upper and lower both ends in heating chamber all are formed with the opening.

Further, the upper clamping mechanism further comprises:

the upper top column cross beam is connected with the upright column in a sliding way;

the first driving assembly is arranged on the upright post, and the upper top post beam is connected with the first driving assembly; the first drive assembly includes:

a first driving device;

the first screw rod is in transmission connection with the first driving device, a first nut seat is arranged on the upper prop beam, and the first nut seat is assembled on the first screw rod through a ball nut pair.

Furthermore, the upper clamping mechanism also comprises an auxiliary clamping assembly, and the auxiliary clamping assembly is connected with the upper top column; the supplementary centre gripping subassembly includes:

and the ram is connected with the upper top column and generates relative motion with the upper top column beam through a linear guide rail pair.

Further, the heating unit further includes:

the sensor beam is connected with the upright column in a sliding manner;

the base is connected with the inductor beam, and the heating device is arranged on the base;

the second driving assembly is arranged on the upright post, and the sensor beam is connected with the second driving assembly; the second drive assembly includes:

a second driving device;

and the second screw is in transmission connection with the second driving device, a second nut seat is arranged on the sensor beam, and the second nut seat is assembled on the second screw through a ball nut pair.

Furthermore, the upper end face of the base is provided with a heat insulation pad, and the heat insulation pad is made of ceramic fibers.

Furthermore, a positioning ring is connected to the sensor beam and is annularly arranged on the periphery of the heating device.

Further, the special heating aging equipment further comprises an alignment unit, wherein the alignment unit is used for moving the workpiece to be aligned with the lower ejection column; the alignment unit includes first alignment mechanism and second alignment mechanism, first alignment mechanism includes:

the supporting seat is provided with a first aligning groove matched with the workpiece;

the turnover mechanism is connected with the supporting seat and used for controlling the supporting seat to be turned over to a vertical position;

and the moving mechanism is connected with the turnover mechanism and used for controlling the turnover mechanism and the supporting seat to move towards or back to the lower ejection column.

Further, the turnover mechanism includes:

the turnover body is connected with the moving mechanism, and the supporting seat is rotatably connected with the turnover body;

the sliding block is connected with the turnover body in a sliding manner;

the first end of the connecting rod is rotatably connected with the sliding block, and the second end of the connecting rod is rotatably connected with the supporting seat.

Further, the second alignment mechanism comprises an alignment body which is slidably arranged on the base; and the alignment body is provided with a second alignment groove corresponding to the first alignment groove.

Furthermore, the groove walls of the first aligning groove and the second aligning groove are provided with heat-resistant steel bars.

The embodiment of the utility model provides an in one or more technical scheme, following technological effect or advantage have at least:

1. the embodiment of the utility model provides an in whole adopt vertical structure, last fore-set and lower fore-set centre gripping work piece in the centre gripping unit adopt electromagnetic induction heating for the induction heating ageing of roll or large-scale axle type part, release internal stress of work piece has solved axle type part and has appeared bending deformation's technical problem when heating ageing treatment.

2. The embodiment of the utility model provides an in go up and be provided with 400X400 mm's square ram in the top cylinder, the roll rail supports, and the ram is connected the fore-set, and when work piece thermal elongation (thermal elongation is no longer than 40mm), the ram can upwards freely slide, realizes that the fore-set dead weight pushes up tightly.

3. The embodiment of the utility model provides an in adopted alignment unit for remove the work piece to adjust well with lower fore-set, inlay on the cell wall in first alignment groove and second alignment groove stainless steel heat-resisting billet (316L) and work piece contact, when the work piece to heat-resisting billet wearing and tearing when serious, can conveniently change the heat-resisting billet of wearing and tearing.

Drawings

FIG. 1 is a perspective view of a vertical roller induction heating aging apparatus with a first view angle according to an embodiment of the present invention;

FIG. 2 is a perspective view of the vertical roller induction heating aging apparatus with a second view angle in the embodiment of the present invention;

fig. 3 is a perspective view of a first alignment mechanism at a first viewing angle according to an embodiment of the present invention;

fig. 4 is a perspective view of a first alignment mechanism at a second viewing angle according to an embodiment of the present invention;

fig. 5 is a perspective view of the first alignment mechanism at a third viewing angle according to an embodiment of the present invention;

fig. 6 is a perspective view of a second alignment mechanism according to an embodiment of the present invention.

Description of the reference numerals

10-base, 101-foundation bolt, 102-sizing block;

20-upright column, 201-coupling beam, 202-upright column protective cover;

30-an upper clamping mechanism, 301-an upper top column, 302-an upper top column cross beam, 303-a first lifting motor, 304-a first speed reducer, 305-a first lead screw, 306-an upper top column body, 307-a ram;

40-lower clamping mechanism, 401-lower top column, 402-lower supporting body;

50-a heating unit, 501-a heating device, 502-an inductor beam, 503-a base, 504-a second lifting motor, 505-a second speed reducer, 506-a second lead screw and 507-a positioning ring;

60-alignment unit, 601-support seat, 6011-first alignment groove, 602-turnover body, 603-sliding block, 604-connecting rod, 605-lathe bed, 606-alignment body, 607-second alignment groove and 608-rotating shaft;

70-workpiece.

Detailed Description

Other objects and advantages of the present invention will become apparent from the following explanation of the preferred embodiments of the present invention.

Fig. 1-6 show the structure schematic diagram of the special vertical roller induction heating aging equipment provided by the utility model. For convenience of description, the terms "upper", "lower", "left" and "right" are used in the same way as the drawings, but do not limit the structure of the present invention.

The utility model provides a vertical roll induction heating ageing professional equipment which characterized in that, includes base 10, vertical stand 20, the centre gripping unit and the heating unit 50 of setting on base 10, wherein: the clamping unit comprises an upper clamping mechanism 30 and a lower clamping mechanism 40, the upper clamping mechanism 30 comprises an upper support pillar 301 which is arranged on the upright post 20 in a lifting manner, the lower clamping mechanism 40 comprises a lower support pillar 401 which is arranged on the upright post 20 in a lifting manner, the upper support pillar 301 and the lower support pillar 401 extend along the same straight line, and a working space for clamping the workpiece 70 is formed between the upper support pillar 301 and the lower support pillar 401; and the heating unit 50 comprises a heating device 501 arranged between the upper top column 301 and the lower top column 401, the heating device 501 is arranged on the upright post 20 in a lifting manner, a heating cavity is arranged in the heating device 501, and openings for allowing the workpieces 70 to pass through are formed at the upper end and the lower end of the heating cavity.

Specifically, the upright column 20 is a welded structural member, and a sizing block 102 and an anchor bolt 101 are arranged below the upright column 20 and connected with the base 10. The upright post 20 comprises two upright posts, and the two upright posts 20 are connected by a connecting beam 201. The upright post 20 is provided with an upright post shield 202 for insulating heat and reducing the influence of the heat radiation of the workpiece 70 on the transmission part and the motor. The heating device 501 is an inductor, purchased for the whole market, and heated by frequency conversion electromagnetic induction. The upper and lower jacks 301 and 401 each have a center structure for tightly pushing against the workpiece 70 through a center hole of the workpiece 70.

The embodiment of the utility model provides an in whole adopt vertical structure, last fore-set 301 in the centre gripping unit and fore-set 401 centre gripping work piece 70 down adopt electromagnetic induction heating for the induction heating ageing of roll or large-scale axle type part, release work piece 70 internal stress has solved axle type part and has appeared bending deformation's technical problem when heating ageing treatment.

In some embodiments, as shown in fig. 1, the upper clamping mechanism 30 further comprises: an upper top column cross member 302 slidably connected to the column 20; the first driving assembly is arranged on the upright post 20, and the upper top post cross beam 302 is connected with the first driving assembly; the first drive assembly includes: a first driving device; and the first lead screw 305 is in transmission connection with a first driving device, and a first nut seat is arranged on the upper prop beam 302 and assembled on the first lead screw 305 through a ball nut pair.

Specifically, the upper top pillar beam 302 is a welded structure, the movement is realized by driving of a motor, a reducer and a ball screw, and the ends of two first screws 305 are provided with absolute value encoders, so that a numerical control system realizes a synchronization function. The first lifting motor 303-the first speed reducer 304 adopt a one-driving-two mode and are arranged on the upper portion of the connecting beam 201. The beam guide rail pair adopts a graphite self-lubricating guide rail or other reliable structures, so that the lubricating property is improved, and the guide rail is provided with a stainless steel scrap scraping plate for protection.

In some embodiments, as shown in fig. 1, the upper clamping mechanism 30 further comprises an auxiliary clamping assembly connected to the upper stem 301; supplementary centre gripping subassembly includes: and the ram 307 is connected with the upper top column 301, and the ram 307 generates relative motion with the upper top column cross beam 302 through a linear guide rail pair.

The front side of the upper top column cross beam 302 is connected with an upper top column 306, a square ram 307 of 400X400mm is arranged in the upper top column 306, the ram 307 is supported by a rolling guide rail and connected with the upper top column 301, and when the workpiece 70 is thermally elongated (the thermal elongation is not more than 40mm), the ram 307 can freely slide upwards, so that the self-weight jacking of the upper top column 301 is realized. The ram 307, the upper column shaft and the cooling water have a weight not less than 4 tons, and this weight is the pressing force of the workpiece 70. The upper support column 301 is made of high-temperature-resistant stainless steel. The cooling is that a water tank water pump is arranged on the foundation, and cooling water is conveyed to a cooling part through a pipeline.

The lower clamping mechanism 40 is realized by driving the lower top column 401 to move by adopting a servo motor, a speed reducer and a ball screw, the lifting stroke ensures that the uppermost end of the lower top column 401 at the highest position enters 650mm of the bottom of the heating device 501, and the lower position is not less than 30mm away from the upper surface of the hook after the workpiece 70 tipping mechanism is moved upwards to a proper position. The upper end of the lower top column 402 is provided with a lower top column 401. When the clamping device works, after the workpiece 70 is erected at the center of the equipment, the lower clamping mechanism 40 stops after reaching a specified position, the motor is locked by a band-type brake, and the stroke is controlled by a servo motor.

In some embodiments, as shown in fig. 2, the heating unit 50 further includes: a sensor beam 502 slidably connected to the column 20; a base 503 connected to the sensor beam 502, the heating device 501 being mounted on the base 503; the second driving assembly is arranged on the upright post 20, and the sensor beam 502 is connected with the second driving assembly; the second drive assembly includes: a second driving device; and the second lead screw 506 is in transmission connection with a second driving device, a second nut seat is arranged on the sensor beam 502, and the second nut seat is assembled on the second lead screw 506 through a ball nut pair. The sensor beam 502 is a welded part and is of an integral structure. The movement of the sensor beam 502 is achieved by motor-reducer-ball screw drive. The second lifting motor 504-the second speed reducer 505 adopt a one-driving-two mode and are arranged on the upper part of the connecting beam 201. The moving guide rail pair of the sensor beam 502 adopts a graphite self-lubricating guide rail plate or other reliable structures, so that the lubricating property is improved, and the guide rail of the upright post 20 is prevented from being worn abnormally. The guide rail is provided with a stainless steel scrap scraping plate for protection. The sensor beam 502 is moved on the two posts 20 by means of two carriages to heat the workpiece 70. The lower parts of the two plankers are respectively provided with a stainless steel protective cover, and each layer is connected by a copper bar.

In some embodiments, the upper end surface of the base 503 is provided with a thermal insulation pad, and the thermal insulation pad is made of ceramic fiber. The inductor sealing base 503 is a welded structure and is directly on the foundation. The diameter of the base 503 is not less than 1200mm, and ceramic fiber with the thickness of about 100mm is paved on the base for sealing and heat preservation of the inductor. The design of the sealing base 503 ensures that the connection of the water inlet and outlet of the lower top column 401 is not affected, and the part of the water cooling shaft at the lower part of the base 503 is not less than 500mm, which is convenient for heat dissipation.

In some embodiments, as shown in fig. 2, the upper roof rail 302 has a retaining ring 507 attached thereto, and the retaining ring 507 is disposed around the periphery of the heating device 501. The total height of the inductor is 3530mm, a positioning ring 507 is arranged at the lower end, the positioning size is phi 1050 x 30, 1050 has the taper of 1:10, and a supporting and positioning table is positioned in the middle and used for replacement.

In some embodiments, as shown in fig. 2-6, the apparatus for thermal aging further includes an alignment unit 60 for moving the workpiece 70 into alignment with the lower support pillar 401; the aligning unit 60 includes a first aligning mechanism and a second aligning mechanism, and the first aligning mechanism includes: the supporting seat 601, a first aligning groove 6011 matched with the workpiece 70 is arranged on the supporting seat 601; the turnover mechanism is connected with the supporting seat 601 and used for controlling the supporting seat 601 to turn over to a vertical position; and the moving mechanism is connected with the turnover mechanism and used for controlling the turnover mechanism and the supporting seat 601 to move towards or back to the lower top column 401. The first alignment groove 6011 is a through groove, and when the turnover mechanism turns the workpiece 70 to a vertical state, the clamping and fixing of the workpiece 70 by the upper and lower pillars 301 and 401 is not affected.

In some embodiments, as shown in fig. 3-5, the canting mechanism comprises: the turnover body 602 is connected with the moving mechanism, and the supporting seat 601 is rotatably connected with the turnover body 602 through a rotating shaft 608; a slide block 603 slidably connected to the flip 602; the first end of the connecting rod 604 is rotatably connected to the sliding block 603, and the second end thereof is rotatably connected to the supporting base 601.

Specifically, the automatic turning uses a motor to drive a lead screw, the lead screw drives a sliding block 603 to move, the support seat 601 is pushed by the connecting rod 604 in a swinging mode, the first alignment mechanism moves by adopting a servo motor-speed reducer-ball screw transmission structure, the stroke is calculated by a numerical control system according to the outer diameter of the workpiece 70, and the workpiece is automatically moved in place. When the workpiece 70 is moved into position and turned over to a vertical position, the workpiece 70 is positioned right at the center of the apparatus. The supporting seat 601 is made of V-shaped iron; when the turnover mechanism is vertical, the distance between the upper end surface of the V-shaped iron bearing hook and the upper end surface of the V-shaped iron is 2200 mm. When the V-shaped iron is turned to be in a vertical state, the distance between the upper end face of the turning hook of the V-shaped iron and the origin of coordinates (the contact surface between the lower end face of the inductor and the heat insulation pad on the base 503, namely the zero point of the coordinates of the equipment) is 300mm, the total length of the workpiece 70 with the turning accuracy in place is not more than 2mm, clear signal control is realized, and hard limit is not used so as to avoid damaging the turning mechanism. The moving mechanism comprises a sliding plate, the sliding plate moves on the lathe body 605, the lathe body 605 is a casting part or a welding structural part, the sliding plate adopts a sliding guide rail, the sliding guide rail adopts a graphite self-lubricating guide rail plate or other reliable structures, the wear resistance of the sliding guide rail is improved, and the guide rail is provided with a scrap scraping plate for protection.

In some embodiments, as shown in fig. 1 and 6, the second alignment mechanism includes an alignment body 606, the alignment body 606 being slidably disposed on the base 10; the alignment body 606 is provided with a second alignment groove 607 corresponding to the first alignment groove 6011. Specifically, the second alignment mechanism adopts a servo motor-reducer-ball screw transmission structure, and the alignment body 606 adopts a V-shaped iron form. During initial alignment, the stroke is calculated by the numerical control system according to the outer diameter of the workpiece 70, and the workpiece is automatically moved in place. The height of the alignment body 606 is the same as the height of the support base 601.

In some embodiments, the walls of the first and second alignment grooves 6011, 607 are provided with heat-resistant steel bars. Stainless steel heat-resistant bars (316L) are embedded on the groove walls of the first aligning groove 6011 and the second aligning groove 607 to contact the workpiece 70, so that the worn heat-resistant bars can be replaced conveniently when the workpiece 70 is seriously worn.

The machine tool is provided with a set of hand-held wireless operating button stations, and the operating panel is provided with inching operating buttons (inching action of any axis required by manual operation) of each axis of the machine tool; the button is turned up and put back on the supporting seat 601; an up and down button of the lower top column 401; an emergency stop button; a zero returning button (realizing that all axes of one key return to respective set zero positions in the automatic mode) and a starting button (realizing that all axes of one key move to a specified position in the automatic mode); a manual/automatic mode selection switch (in the manual mode, the machine tool needs to be operated by inching); heating in progress indicator light (flashing at fault). All electric and hydraulic wiring is protected by a protective sleeve or a drag chain.

The equipment is provided with a Siemens 828D numerical control system, a numerical control shaft motor adopts a Siemens servo motor, and an alternating current servo drive adopts a Siemens S120 drive unit. An absolute value encoder is arranged at the end part of the lead screw, so that the position setting and displaying of the up-and-down displacement of the inductor are realized, and the axial reciprocating positioning movement is realized.

The embodiment of the utility model provides an electric connection is accomplished to precedence work order between each electric component, and its detailed connection means for the well-known technique in this field, theory of operation and process are mainly introduced in the following, do not explain electrical control again.

The utility model relates to a theory of operation of embodiment is: the workpiece 70 is placed in the first alignment groove 6011, the moving mechanism moves in place, and the turnover mechanism turns over the workpiece 70 to be in a vertical state; the second alignment mechanism moves to the right position; the workpiece 70 is lifted to the proper position by the lower clamping mechanism 40 after being installed and aligned. The upper top column beam 302 and the sensor beam 502 move on the two vertical columns 20 to realize the tightening and heating of the workpiece 70, and the thermal expansion elongation of the workpiece 70 is compensated by the upper top column beam 302 (electrically controlled) and the upper top column 301 (self weight) in the heating process.

The vertical roller induction heating aging dedicated apparatus of the present invention has been described in detail with reference to the preferred embodiments of the present invention, however, it should be noted that those skilled in the art can make any modification, embellishment and change on the basis of the above disclosure without departing from the spirit of the present invention. The present invention includes the above-described embodiments and any equivalents thereof.

Claims (10)

1. The utility model provides a vertical roll induction heating ageing professional equipment which characterized in that, includes base (10), vertical setting stand (20), centre gripping unit and the heating unit (50) on base (10), wherein:

the clamping unit comprises an upper clamping mechanism (30) and a lower clamping mechanism (40), the upper clamping mechanism (30) comprises an upper support pillar beam (302) which is arranged on the upright post (20) in a liftable mode, the lower clamping mechanism (40) comprises a lower support pillar (401) which is arranged on the upright post (20) in a liftable mode, the upper support pillar beam (302) and the lower support pillar (401) extend along the same straight line, and a working space for clamping a workpiece is formed between the upper support pillar beam (302) and the lower support pillar (401); and

heating unit (50) are including setting up go up fore-post crossbeam (302) with heating device (501) between fore-post (401) down, heating device (501) set up with liftable on stand (20), just be provided with the heating chamber in heating device (501), the upper and lower both ends in heating chamber all are formed with the opening.

2. The vertical roll induction heating aging dedicated apparatus according to claim 1, wherein the upper clamping mechanism (30) further comprises:

an upper top post cross member (302) slidably connected to the upright post (20);

the first driving assembly is arranged on the upright column (20), and the upper top column cross beam (302) is connected with the first driving assembly; the first drive assembly includes:

a first driving device;

and the first lead screw (305) is in transmission connection with the first driving device, a first nut seat is arranged on the upper prop beam (302), and the first nut seat is assembled on the first lead screw (305) through a ball nut pair.

3. The special equipment for induction heating aging of the vertical roller as claimed in claim 2, wherein the upper clamping mechanism (30) further comprises an auxiliary clamping assembly, and the auxiliary clamping assembly is connected with the upper top column beam (302); the supplementary centre gripping subassembly includes:

and the ram (307) is connected with the upper top column cross beam (302), and the ram (307) and the upper top column cross beam (302) generate relative motion through a linear guide rail pair.

4. The vertical roll induction heating aging dedicated apparatus according to claim 1, wherein the heating unit (50) further comprises:

an inductor beam (502) slidably connected to the upright (20);

a base (503) connected to the sensor beam (502), the heating device (501) being mounted on the base (503);

the second driving assembly is arranged on the upright post (20), and the inductor beam (502) is connected with the second driving assembly; the second drive assembly includes:

a second driving device;

and the second lead screw (506) is in transmission connection with the second driving device, a second nut seat is arranged on the sensor beam (502), and the second nut seat is assembled on the second lead screw (506) through a ball nut pair.

5. The special vertical roller induction heating aging equipment as claimed in claim 4, wherein the upper end surface of the base (503) is provided with a heat insulation pad, and the heat insulation pad is made of ceramic fiber.

6. The special vertical equipment for induction heating aging of the roller as claimed in claim 4, wherein the inductor beam (502) is connected with a positioning ring (507), and the positioning ring (507) is arranged around the heating device (501).

7. The vertical roll induction heating aging specific apparatus according to claim 6, characterized by further comprising an alignment unit (60) for moving the work into alignment with the lower support pillar (401); the alignment unit (60) comprises a first alignment mechanism and a second alignment mechanism, the first alignment mechanism comprising:

the supporting seat (601), wherein a first aligning groove (6011) matched with the workpiece is arranged on the supporting seat (601);

the turnover mechanism is connected with the supporting seat (601) and used for controlling the supporting seat (601) to be turned over to a vertical position;

and the moving mechanism is connected with the turnover mechanism and used for controlling the turnover mechanism and the supporting seat (601) to move towards or back to the lower ejection column (401).

8. The special vertical roller induction heating aging equipment as claimed in claim 7, wherein the turnover mechanism comprises:

the turnover body (602) is connected with the moving mechanism, and the supporting seat (601) is rotatably connected with the turnover body (602);

a slide block (603) slidably connected to the flip body (602);

and the first end of the connecting rod (604) is rotatably connected with the sliding block (603), and the second end of the connecting rod is rotatably connected with the supporting seat (601).

9. The vertical roll induction heating aging special equipment as claimed in claim 7, wherein the second alignment mechanism comprises an alignment body (606), and the alignment body (606) is slidably arranged on the base (10); and a second alignment groove (607) corresponding to the first alignment groove (6011) is arranged on the alignment body (606).

10. The vertical roll induction heating aging special apparatus according to claim 9, wherein heat-resistant steel bars are provided on the groove walls of the first and second alignment grooves (6011, 607).

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