CN116274383B - Manufacturing equipment and manufacturing method of stainless steel band - Google Patents

Abstract

The utility model relates to a manufacturing equipment and a manufacturing method of a stainless steel band, which relate to the technical field of stainless steel band processing and aim at solving the problem of lower applicability of the stainless steel band manufacturing equipment, and the manufacturing equipment comprises a machine tool, wherein a driven roller is connected to the machine tool, a mounting table is connected to one side of the machine tool, a mounting column is rotationally connected to the mounting table, a plurality of driving rollers are rotationally connected to the side wall of the mounting column, a plurality of driving rollers are arranged in parallel with the driven roller in the horizontal direction, and the diameters of a plurality of driving rollers are different; one side of the machine tool far away from the mounting table is rotationally connected with a mounting seat, and a driving assembly for driving the driving roller to rotate is arranged on the mounting seat. The application has the effect of improving the applicability of the stainless steel band manufacturing equipment.

Description

Manufacturing equipment and manufacturing method of stainless steel band

Technical Field

The application relates to the technical field of stainless steel strip processing, in particular to manufacturing equipment and a manufacturing method of a stainless steel strip.

Background

Stainless steel strip is an ultrathin extension, and is a narrow and long steel plate which is produced by rolling and meets the requirements of various industrial departments for industrial production of various metal or mechanical products.

In the related art, the equipment for rolling the stainless steel strip comprises a stand, wherein at least two rollers are connected to the stand, a gap exists between the two rollers, the distance of the gap is the thickness required by the rolling of the stainless steel strip, a driving motor is fixedly connected to the stand, and a driving shaft of the driving motor is fixedly connected with one of the rollers in a coaxial manner; before rolling the stainless steel strip, starting a driving motor to enable one roller to start rotating, then sending the stainless steel blank to be rolled between two rollers, driving the rotating roller to drive the stainless steel blank to feed forward from between the two rollers, and simultaneously driving the other roller to rotate, so that the rolling forming of the stainless steel blank can be realized, and the stainless steel strip with a certain thickness is obtained.

With respect to the related art, the rollers of the stainless steel strip manufacturing equipment are spaced at a fixed distance, so that only stainless steel strips with fixed thickness can be produced, and stainless steel strips with different thicknesses are difficult to roll according to requirements, so that the applicability of the stainless steel strip manufacturing equipment is low.

Disclosure of Invention

In order to improve applicability of stainless steel strip manufacturing equipment, the application provides stainless steel strip manufacturing equipment and a manufacturing method.

The manufacturing equipment and the manufacturing method of the stainless steel belt adopt the following technical scheme:

the stainless steel strip manufacturing equipment comprises a machine tool, wherein a driven roller is rotationally connected to the machine tool, one side of the machine tool is connected with a mounting table, a mounting column is rotationally connected to the mounting table, a plurality of driving rollers are rotationally connected to the side wall of the mounting column, the driving rollers can be arranged in parallel with the driven roller in the horizontal direction, and the diameters of the driving rollers are different; one side of the machine tool far away from the mounting table is rotationally connected with a mounting seat, and a driving assembly for driving the driving roller to rotate is arranged on the mounting seat.

Through adopting above-mentioned technical scheme, before carrying out stainless steel strip rolling, select suitable initiative roller according to the thickness of stainless steel strip, start the mount pad and drive subassembly and rotate to horizontal position, start the erection column again and rotate and drive initiative roller and rotate, make initiative roller rotate to the position parallel with driven roll, initiative roller keeps away from erection column one end and is connected with drive subassembly simultaneously, start drive subassembly and drive initiative roller rotation, stainless steel billet can pass between initiative roller and the driven roll under the rotation drive of roll shell, realize the roll forming of stainless steel strip. When stainless steel strips with different thicknesses are required to be rolled, the current driving roller is separated from the driving component, the driving component is driven by the rotating mounting seat to give way to the driving roller, the current driving roller is rotated to pass through the position of the driving component by rotating the mounting column, the driving component is rotated to the horizontal position, the next driving roller is rotated to be connected with the driving component, and rolling of the stainless steel strips with different thicknesses can be started. The mounting columns connected in a rotating way enable the stainless steel band manufacturing equipment to be provided with a plurality of driving rollers at the same time, and different driving rollers can be selected to be connected with the driving assembly according to the thickness of the required stainless steel band, so that the applicability of the stainless steel band manufacturing equipment is improved.

Preferably, the driving assembly comprises a driving machine and a driving sleeve, wherein the driving sleeve is fixedly connected to a driving shaft of the driving machine and is coaxially arranged with the driving shaft of the driving machine, and the driving machine is connected to the mounting seat; the inner wall of the driving sleeve is rectangular, and one end, away from the mounting column, of the driving roller is fixedly connected with a matching shaft; the side wall of the driving sleeve is provided with an inserting port, the matching shaft penetrates through the inserting port and is inserted into the driving sleeve, and the driving sleeve is provided with a square columnar shaft matched with the inner wall of the driving sleeve; and a limiting assembly used for limiting the matched shaft is arranged on the driving sleeve.

By adopting the technical scheme, the mounting seat is started to drive the driver to rotate to the horizontal position, the mounting column is started to rotate to drive the driving roller to rotate, the matched shaft is rotated to be inserted into the driving sleeve, the limiting assembly limits the position of the matched shaft in the driving sleeve, the driver can be started to drive the driving sleeve to rotate, and the square structure of the inner wall of the driving sleeve and the square columnar matched shaft act on the electric driving roller to rotate, so that the connection transmission of the driving roller and the driving assembly can be realized.

Preferably, the limiting assembly comprises a limiting rod, a mounting frame and a spring, wherein the mounting frame is arranged on the outer wall of the driving sleeve, the spring is connected to the mounting frame, the limiting rod is connected to one end of the spring, and one end, far away from the spring, of the limiting rod penetrates through the side wall of the driving sleeve; the limiting hole for inserting the limiting rod is formed in the matching shaft, a magnetic piece magnetically attracted with the limiting rod is connected in the limiting hole, and an arc-shaped wall is arranged on one side wall of the limiting rod.

Through adopting above-mentioned technical scheme, after the cooperation axle passes in the interface inserts the drive sleeve, the gag lever post aligns with the spacing hole, and the magnetic part produces magnetic attraction to the gag lever post, and the gag lever post removes extension spring to insert in the spacing hole and inhale mutually with magnetic part magnetism, can realize the fixed of cooperation axle in the drive sleeve. The mounting bracket provides mounting locations for the springs and stop bars.

Preferably, the through hole is formed in the matching shaft, the through hole is a kidney-shaped hole, a laser emitter capable of emitting laser in the horizontal direction is arranged on the driving sleeve, and the laser emitter and the kidney-shaped hole are arranged at the same height.

By adopting the technical scheme, before the driving machine drives the plug-in port of the driving sleeve to rotate to a horizontal position, the matching shaft can be rotated to a position close to the driving sleeve, and the axial direction of the through hole is aligned with the horizontal direction by rotating the matching shaft; the laser transmitter is started to emit linear laser, then the driving machine is started to drive the driving sleeve to rotate, the laser transmitter is driven to rotate, and the laser transmitter rotates until the emitted laser passes through the through hole, so that the matching shaft can be further rotated and inserted into the driving sleeve.

Preferably, the maximum number of the active rolls is four.

If the number of the driving rollers exceeds four, when one of the driving rollers works, the situation that one driving roller is positioned above the stainless steel belt can occur, and interference is easily caused to other equipment in the stainless steel belt rolling process; by adopting the technical scheme, the four driving rollers are arranged, and when one driving roller works, the other three driving rollers can be always positioned at one side of the machine tool, so that the interference of other driving rollers to other equipment is reduced.

Preferably, the driving roller comprises a connecting shaft and a roller sleeve, and the roller sleeve is sleeved on the connecting shaft and is fixed with the connecting shaft in position along the circumferential direction of the connecting shaft; the connecting shafts are rotatably connected to the mounting posts, and the matching shafts are connected to the corresponding connecting shafts.

By adopting the technical scheme, when the diameters of the four rollers of the stainless steel belt manufacturing equipment do not meet the processing requirement, one roller sleeve can be detached from the connecting shaft, the roller sleeves with other wall thicknesses are replaced, the wall thicknesses of the roller sleeves are different, so that the diameters of the driving rollers combined by the roller sleeves and the connecting shaft are different, and the applicability of the stainless steel belt manufacturing equipment is further improved.

Preferably, the inner wall of the roller sleeve is provided with a plurality of limiting strips, the limiting strips are arranged along the roller sleeve, the side wall of the connecting shaft is provided with a plurality of limiting grooves, and a plurality of limiting strips are inserted into the corresponding limiting grooves.

In general, the positioning of the roller sleeve and the connecting shaft in the circumferential direction of the connecting shaft is realized through a plurality of bolts; through adopting above-mentioned technical scheme, when roller cover is on the connecting axle, drive spacing insert spacing inslot, can be when the connecting axle rotates, drive the roller cover through spacing and the cooperation of spacing inslot wall and rotate, improved the convenience of roller cover installation on the connecting axle.

Preferably, the length of the limit bar is smaller than the length of the roller sleeve.

Through adopting above-mentioned technical scheme, when installing the roll cover, make the roll cover be greater than the part of spacing length first cover on the connecting axle, operating personnel can exert thrust to the roll cover this moment, rotate the roll cover simultaneously, when spacing and spacing groove position alignment back, spacing inserts in the spacing groove under thrust action, has reduced when installing the roll cover to each spacing and the condition that corresponds spacing groove alignment, has improved the convenience of operation.

A manufacturing method applied to stainless steel strip manufacturing equipment, which is characterized in that:

starting the mounting seat to drive the driving machine to rotate to a horizontal position, so that the driving shaft and the driving sleeve of the driving machine rotate to the horizontal position, and starting the driving machine to drive the driving sleeve to rotate, so that the plug-in port of the driving sleeve rotates to face the horizontal position;

selecting a corresponding driving roller according to the thickness of the stainless steel strip to be rolled, starting a mounting column to rotate to drive the driving roller to rotate to the position above a driven roller along the horizontal direction, enabling the matching shaft to rotate close to a driving sleeve and be inserted into the driving sleeve; the magnetic piece generates magnetic attraction to the limiting rod, and the limiting rod moves the extension spring and is inserted into the limiting hole to magnetically attract the magnetic piece;

the driving machine is started to drive the driving roller to circumferentially rotate, then the stainless steel blank which is processed instead is placed between the driving roller and the driven roller, and the stainless steel blank can pass through the space between the driving roller and the driven roller under the driving of the rotation of the driving roller, so that the rolling forming of the stainless steel strip is realized.

By adopting the technical proposal, the utility model has the advantages that,

in summary, the present application includes at least one of the following beneficial technical effects:

the mounting columns connected in a rotating way enable the stainless steel band manufacturing equipment to be provided with a plurality of driving rollers at the same time, and different driving rollers can be selected to be connected with the driving assembly according to the thickness of the required stainless steel band, so that the applicability of the stainless steel band manufacturing equipment is improved.

Drawings

Fig. 1 is a schematic structural view of a stainless steel strip manufacturing apparatus according to an embodiment of the present application.

Fig. 2 is an enlarged schematic view of the portion a in fig. 1.

FIG. 3 is a schematic cross-sectional view illustrating the relationship between the arcuate wall and the stop lever in an embodiment of the present application.

Fig. 4 is a schematic structural diagram for embodying the positional relationship between the laser transmitter and the driving sleeve in the embodiment of the present application.

Reference numerals illustrate: 1. a machine tool; 11. a mounting table; 111. a mounting column; 12. a mounting base; 13. a driven roller; 2. a driving roller; 21. a connecting shaft; 211. a limit groove; 22. rolling a roller sleeve; 221. a limit bar; 3. a drive assembly; 31. a driving machine; 32. a drive sleeve; 321. an interface; 322. a laser emitter; 4. a limit component; 41. a limit rod; 411. an arc-shaped wall; 42. a mounting frame; 43. a spring; 5. a mating shaft; 51. a limiting hole; 52. a through hole; 511. a magnetic member.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses stainless steel strip manufacturing equipment. Referring to fig. 1, the stainless steel strip manufacturing apparatus includes a machine tool 1, a driven roller 13 is rotatably connected to the machine tool 1, the driven roller 13 is disposed along a horizontal direction, one side of the machine tool 1 is fixedly connected with a mounting table 11, a mounting column 111 is rotatably connected to a top wall of the mounting table 11, the mounting column 111 can be driven to rotate by a motor and a belt structure, four driving rollers 2 are rotatably connected to a side wall of the mounting column 111, diameters of the four driving rollers 2 are different, the four driving rollers 2 are disposed along the horizontal direction, and an included angle between two adjacent driving rollers 2 is 90 degrees; one end of the driving roller 2, which is far away from the mounting column 111, is connected with a matching shaft 5, and the matching shaft 5 is a square columnar shaft

Referring to fig. 1 and 2, a mounting seat 12 is rotatably connected to one side of the machine tool 1 away from a mounting table 11, the mounting seat 12 axially rotates along a driven roller 13, and the mounting seat 12 can be driven to rotate by a motor; the mounting seat 12 is provided with a driving assembly 3, the driving assembly 3 comprises a driving machine 31 and a driving sleeve 32, the driving machine 31 is a motor, the driving machine 31 is connected to the mounting seat 12, the driving sleeve 32 is fixedly connected to a driving shaft of the driving machine 31 and is coaxially arranged with the driving shaft of the driving machine 31, the inner wall of the driving sleeve 32 is rectangular, and the inner wall of the driving sleeve 32 is matched with the matching shaft 5; the side wall of the driving sleeve 32 is provided with an inserting port 321, and the matching shaft 5 can pass through the inserting port 321 to be inserted into the driving sleeve 32.

Referring to fig. 2 and 3, a limit component 4 is arranged on the driving sleeve 32, the limit component 4 comprises a limit rod 41, a mounting frame 42 and a spring 43, the mounting frame 42 is fixedly connected to the outer wall of the driving sleeve 32, one end of the spring 43 is fixedly connected to the mounting frame 42, the limit rod 41 is connected to the other end of the spring 43, and one end, far away from the spring 43, of the limit rod 41 penetrates through the side wall of the driving sleeve 32; the matching shaft 5 is provided with a limiting hole 51, a magnetic piece 511 is connected in the limiting hole 51, and the side wall of one side of the limiting rod 41 is provided with an arc-shaped wall 411.

Referring to fig. 3, the driving roll 2 includes a connection shaft 21 and a roll sleeve 22, the roll sleeve 22 is sleeved on the connection shaft 21, a plurality of limit bars 221 are arranged on the inner wall of the roll sleeve 22, the length of the limit bars 221 is smaller than that of the roll sleeve 22, a plurality of limit grooves 211 are formed on the side wall of the connection shaft 21, and the limit bars 221 are inserted into the corresponding limit grooves 211; one end of the connecting shaft 21 is rotatably connected with the side wall of the mounting column 111, and the matching shaft 5 is connected with one end of the connecting shaft 21.

Before stainless steel strip rolling, a proper roller sleeve 22 is selected according to the thickness of the stainless steel strip and is mounted on the connecting shaft 21, the mounting seat 12 is started to drive the driver 31 to rotate to a horizontal position, the driving shaft of the driver 31 and the driving sleeve 32 are enabled to rotate to the horizontal position, the driver 31 is started to drive the driving sleeve 32 to rotate, and the inserting port 321 of the driving sleeve 32 is enabled to rotate to face the horizontal position. And then the mounting column 111 is started to rotate to drive the connecting shaft 21 to rotate so as to enable the roller sleeve 22 to rotate to a position parallel to the driven roller 13, meanwhile, the connecting shaft 21 drives the matching shaft 5 to pass through the inserting port 321 and to be inserted into the driving sleeve 32, the magnetic piece 511 generates magnetic attraction to the limiting rod 41, the limiting rod 41 moves the tension spring 43 and is inserted into the limiting hole 51 to magnetically attract the magnetic piece 511, the matching shaft 5 can be fixed in the driving sleeve 32, the driving machine 31 is started to drive the driving sleeve 32 to rotate, the driving sleeve 32 drives the connecting shaft 21 to circumferentially rotate, the connecting shaft 21 drives the roller sleeve 22 to rotate through the matching of the limiting strips 221 and the limiting grooves 211, and the stainless steel blank can pass through between the driving roller 2 and the driven roller 13 under the rotation drive of the roller sleeve 22, so that the rolling forming of the stainless steel strip is realized.

Referring to fig. 2 and 4, a through hole 52 is formed in the mating shaft 5, and the through hole 52 is a kidney-shaped hole; the driving sleeve 32 is provided with a laser emitter 322, the laser emitter 322 can emit laser along the horizontal direction, and the laser emitter 322 is arranged at the same height as the through hole 52.

Before the driver 31 drives the plug connector 321 of the driving sleeve 32 to rotate towards the horizontal position, the matching shaft 5 can be rotated to a position close to the driving sleeve 32, and the axial direction of the through hole 52 is flush with the horizontal direction by rotating the matching shaft 5; the laser transmitter 322 is started to emit linear laser, then the driver 31 is started to drive the driving sleeve 32 to rotate, the laser transmitter 322 is driven to rotate, and when the laser transmitter 322 rotates until the emitted laser passes through the through hole 52, the matching shaft 5 can be further rotated and inserted into the driving sleeve 32.

The implementation principle of the stainless steel band manufacturing equipment in the embodiment of the application is as follows:

selecting a proper roller sleeve 22 according to the thickness of the stainless steel belt, mounting the roller sleeve on the connecting shaft 21, starting the mounting seat 12 to drive the driving machine 31 to rotate to a horizontal position, starting the mounting column 111 to rotate to drive the connecting shaft 21 to rotate, rotating the matching shaft 5 to a position close to the driving sleeve 32, and rotating the matching shaft 5 to enable the axial direction of the kidney-shaped hole to be parallel to the horizontal direction; the laser transmitter 322 is started to emit linear laser, then the driving machine 31 is started to drive the driving sleeve 32 to rotate, the laser transmitter 322 is driven to rotate, and when the laser transmitter 322 rotates until the emitted laser passes through the through hole 52, the matching shaft 5 can be further rotated and inserted into the driving sleeve 32; the roller sleeve 22 and the driven roller 13 are positioned in parallel, meanwhile, the connecting shaft 21 drives the matching shaft 5 to penetrate through the inserting port 321 and to be inserted into the driving sleeve 32, the magnetic piece 511 generates magnetic attraction force on the limiting rod 41, the limiting rod 41 moves the extension spring 43 and is inserted into the limiting hole 51 to be magnetically attracted with the magnetic piece 511, the fixing of the matching shaft 5 in the driving sleeve 32 can be achieved, the driving machine 31 is started to drive the driving sleeve 32 to rotate, the driving sleeve 32 drives the connecting shaft 21 to circumferentially rotate, the connecting shaft 21 drives the roller sleeve 22 to rotate through the matching of the limiting strips 221 and the limiting grooves 211, and stainless steel materials can penetrate through between the driving roller 2 and the driven roller 13 under the rotation driving of the roller sleeve 22, so that the rolling forming of the stainless steel belt is achieved.

The embodiment of the application also discloses a manufacturing method applied to the stainless steel belt manufacturing equipment, which comprises the following steps:

starting the mounting seat 12 to drive the driver 31 to rotate to a horizontal position, so that the driving shaft of the driver 31 and the driving sleeve 32 rotate to the horizontal position, and starting the driver 31 to drive the driving sleeve 32 to rotate, so that the inserting port 321 of the driving sleeve 32 rotates to face the horizontal position;

selecting a corresponding driving roller 2 according to the thickness of the stainless steel strip to be rolled, starting the mounting column 111 to rotate to drive the driving roller 2 to rotate above the driven roller 13 along the horizontal direction, and enabling the matching shaft 5 to rotate close to the driving sleeve 32 and to be inserted into the driving sleeve 32; the magnetic piece 511 generates magnetic attraction to the limit rod 41, and the limit rod 41 moves the extension spring 43 and is inserted into the limit hole 51 to magnetically attract the magnetic piece 511;

the driver 31 is started to drive the driving roller 2 to rotate circumferentially, then the stainless steel blank which is processed instead is placed between the driving roller 2 and the driven roller 13, and the stainless steel blank can pass through the space between the driving roller 2 and the driven roller 13 under the driving of the rotation of the driving roller 2, so that the rolling forming of the stainless steel strip is realized.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (3)

1. A manufacturing method applied to stainless steel strip manufacturing equipment, which is characterized in that:

the automatic rolling machine comprises a machine tool (1), wherein a driven roller (13) is rotationally connected to the machine tool (1), one side of the machine tool (1) is connected with a mounting table (11), a mounting column (111) is rotationally connected to the mounting table (11), a plurality of driving rollers (2) are rotationally connected to the side wall of the mounting column (111), the driving rollers (2) can be arranged in parallel with the driven roller (13) in the horizontal direction, and the diameters of the driving rollers (2) are different; one side of the machine tool (1) far away from the mounting table (11) is rotationally connected with a mounting seat (12), and a driving assembly (3) for driving the driving roller (2) to rotate is arranged on the mounting seat (12);

the driving assembly (3) comprises a driving machine (31) and a driving sleeve (32), the driving sleeve (32) is fixedly connected to a driving shaft of the driving machine (31) and is coaxially arranged with the driving shaft of the driving machine (31), and the driving machine (31) is connected to the mounting seat (12); the inner wall of the driving sleeve (32) is rectangular, and one end, far away from the mounting column (111), of the driving roller (2) is fixedly connected with a matching shaft (5); an inserting port (321) is formed in the side wall of the driving sleeve (32), the matching shaft (5) penetrates through the inserting port (321) and is inserted into the driving sleeve (32), and the matching shaft (5) is a square columnar shaft matched with the inner wall of the driving sleeve (32); a limiting assembly (4) for limiting the matched shaft (5) is arranged on the driving sleeve (32);

the driving roller (2) comprises a connecting shaft (21) and a roller sleeve (22), wherein the roller sleeve (22) is sleeved on the connecting shaft (21) and is fixed with the connecting shaft (21) in position in the circumferential direction of the connecting shaft (21); the connecting shafts (21) are rotatably connected to the mounting columns (111), and the matching shafts (5) are connected to the corresponding connecting shafts (21);

the inner wall of the roller sleeve (22) is provided with a plurality of limit strips (221), the side wall of the connecting shaft (21) is provided with a plurality of limit grooves (211), and the limit strips (221) are inserted into the corresponding limit grooves (211);

the length of the limit strip (221) is smaller than that of the roller sleeve (22);

the limiting assembly (4) comprises a limiting rod (41), a mounting frame (42) and a spring (43), wherein the mounting frame (42) is arranged on the outer wall of the driving sleeve (32), the spring (43) is connected to the mounting frame (42), the limiting rod (41) is connected to one end of the spring (43), and one end, far away from the spring (43), of the limiting rod (41) penetrates through the side wall of the driving sleeve (32); a limit hole (51) for inserting the limit rod (41) is formed in the matching shaft (5), a magnetic piece (511) magnetically attracted with the limit rod (41) is connected in the limit hole (51), and an arc-shaped wall (411) is arranged on one side wall of the limit rod (41);

starting the mounting seat (12) to drive the driving machine (31) to rotate to a horizontal position, enabling the driving shaft of the driving machine (31) and the driving sleeve (32) to rotate to the horizontal position, starting the driving machine (31) to drive the driving sleeve (32) to rotate, and enabling the plug-in port (321) of the driving sleeve (32) to rotate to face the horizontal position;

selecting a corresponding driving roller (2) according to the thickness of a stainless steel belt to be rolled, starting a mounting column (111) to rotate to drive the driving roller (2) to rotate to the position above a driven roller (13) along the horizontal direction, and enabling a matching shaft (5) to rotate towards a position close to a driving sleeve (32) and to be inserted into the driving sleeve (32); the magnetic piece (511) generates magnetic attraction to the limiting rod (41), and the limiting rod (41) moves the extension spring (43) and is inserted into the limiting hole (51) to magnetically attract the magnetic piece (511);

starting a driving machine (31) to drive the driving roller (2) to rotate circumferentially, then placing a stainless steel blank to be processed between the driving roller (2) and the driven roller (13), and enabling the stainless steel blank to pass through the space between the driving roller (2) and the driven roller (13) under the rotation drive of the driving roller (2) so as to realize the rolling forming of the stainless steel strip;

when stainless steel strips with different thicknesses are required to be rolled, the current driving roller (2) is rotated to be separated from the driving assembly (3), the driving assembly (3) is driven by the rotating mounting seat (12) to give way to the driving roller (2), the current driving roller (2) is rotated to pass through the position of the driving assembly (3) by rotating the mounting column (111), the driving assembly (3) is rotated to the horizontal position, the next driving roller (2) is rotated to be connected with the driving assembly (3), and rolling of the stainless steel strips with different thicknesses can be started.

2. The manufacturing method of the stainless steel strip manufacturing equipment according to claim 1, wherein the matching shaft (5) is provided with a through hole (52), the through hole (52) is a kidney-shaped hole, the driving sleeve (32) is provided with a laser emitter (322) capable of emitting laser in the horizontal direction, and the laser emitter (322) is arranged at the same height as the through hole (52).

3. The method of manufacturing a stainless steel strip manufacturing apparatus according to claim 1, characterized in that the maximum number of several active rolls (2) is four.