CN216302780U - High-precision slitting machine winding mechanism for amorphous alloy strips - Google Patents

Abstract

The utility model discloses a winding mechanism of a high-precision slitting machine for amorphous alloy strips, which comprises a winding roller, wherein both ends of the winding roller are rotatably connected with mounting plates, a first motor is fixedly arranged on the side wall of one of the mounting plates, a driving shaft of the first motor rotatably penetrates through the mounting plate and is coaxially and fixedly connected with the winding roller, the two sides of the outer side wall of the wind-up roll are fixedly sleeved with fixed plates, the wind-up roll is externally sleeved with two limit rings in a sliding manner, be equipped with in the wind-up roll and be used for carrying out the adjustment mechanism who adjusts two spacing rings, two all run through on the spacing ring and be equipped with the through-hole, two the through-hole runs through and is equipped with same compression roller, two all be equipped with in the fixed plate and be used for carrying out the buffer gear who cushions to the compression roller, two the equal fixedly connected with connecting plate in rear end of fixed plate, two be equipped with guiding mechanism between the connecting plate. The utility model has the advantages of orderly and compact winding of the amorphous alloy strip and good winding effect.

Description

High-precision slitting machine winding mechanism for amorphous alloy strips

Technical Field

The utility model relates to the technical field of auxiliary winding equipment of a slitting machine, in particular to a high-precision slitting machine winding mechanism for an amorphous alloy strip.

Background

The amorphous alloy is solidified by super-quenching, atoms are not arranged in order to crystallize when the alloy is solidified, the obtained solid alloy is a long-range disordered structure, molecules forming the alloy are not in a spatially regular periodicity, and crystal grains and crystal boundaries of the crystalline alloy do not exist.

The existing slitting machine is easy to have poor winding uniformity and low winding compactness in the process of winding an amorphous alloy strip, and the strip is easy to be stripped.

Therefore, the winding mechanism of the high-precision slitting machine for the amorphous alloy strip is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that winding equipment in the prior art has poor winding uniformity and winding tightness on amorphous alloy strips, and provides a winding mechanism of a high-precision slitting machine for amorphous alloy strips.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an amorphous alloy is high accuracy branch strip machine winding mechanism for strip, includes the wind-up roll, the both ends of wind-up roll are all rotated and are connected with the mounting panel, one of them the lateral wall fixed mounting of mounting panel has first motor, the drive shaft of first motor rotate run through the mounting panel and with the coaxial fixed connection of wind-up roll, the equal fixed cover in lateral wall both sides of wind-up roll is equipped with the fixed plate, the wind-up roll outer slip cover is equipped with two spacing rings, be equipped with in the wind-up roll and be used for carrying out the adjustment mechanism who adjusts two spacing rings all run through on the spacing ring and be equipped with the through-hole, two the through-hole runs through and is equipped with same compression roller, two all be equipped with the buffer gear who is used for buffering the compression roller in the fixed plate two the equal fixedly connected with connecting plate in rear end of fixed plate is equipped with guiding mechanism between the connecting plate.

Preferably, adjustment mechanism is including setting up the recess on the wind-up roll, the recess internal rotation is connected with the two-way threaded rod, fixedly connected with second motor in the recess, the drive shaft and the coaxial fixed connection of two-way threaded rod of second motor, two-way threaded rod external thread cover is equipped with two thread blocks, two thread block respectively with two spacing ring fixed connection.

Preferably, threaded holes matched with the bidirectional threaded rods are formed in the two thread blocks in a penetrating mode, and the thread turning directions in the two threaded holes are opposite.

Preferably, buffer gear is including setting up the dashpot on the fixed plate lateral wall, fixedly connected with gag lever post in the dashpot, the gag lever post overcoat is equipped with first spring and stopper, stopper and gag lever post and dashpot inside wall sliding connection, the both ends of first spring respectively with stopper and dashpot inside wall fixed connection, the stopper is kept away from the one end of dashpot bottom and is rotated with the compression roller and be connected.

Preferably, the guiding mechanism includes returning the type deflector, return the both ends of type deflector respectively with two connecting plate fixed connection, return type deflector sliding connection has the butt, two the equal fixedly connected with slide bar of lateral wall that the butt carried on the back mutually, two the slide bar is kept away from the one end of butt and is all slided and run through back type deflector and connecting plate setting, two the slide bar all overlaps outward and is equipped with the second spring, the both ends of second spring respectively with returning type deflector inside wall and butt fixed connection.

Compared with the prior art, the utility model has the beneficial effects that:

through setting up adjustment mechanism and guiding mechanism, drive two-way threaded rod through the second motor and rotate, two screw block relative movement are driven to two screw block, and two screw block drive two spacing ring relative movement, until suitable position, can wind the book to the metallic glass strip of different width, and it is neat to wind the book, and at the in-process of winding up, the compression roller can scrape to the area material and compress tightly, makes the strip wind the book inseparable, and the effect of winding up is better.

The utility model has the advantages of orderly and compact winding of the amorphous alloy strip and good winding effect.

Drawings

FIG. 1 is a front perspective view of a winding mechanism of a high-precision slitting machine for amorphous alloy strips, which is provided by the utility model;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a perspective view of a top view of a winding mechanism of a high-precision slitting machine for amorphous alloy strips according to the present invention;

FIG. 4 is a perspective view of a side structure of a wind-up roll in a winding mechanism of a high-precision slitting machine for amorphous alloy strips, which is provided by the utility model;

fig. 5 is a structural perspective view of a limiting ring in a winding mechanism of a high-precision slitting machine for amorphous alloy strips, which is provided by the utility model.

In the figure: the device comprises a winding roller 1, a mounting plate 2, a first motor 3, a fixing plate 4, a limiting ring 5, an adjusting mechanism 6, a through hole 7, a pressing roller 8, a buffer mechanism 9, a connecting plate 10, a guide mechanism 11, a groove 12, a bidirectional threaded rod 13, a second motor 14, a threaded block 15, a buffer groove 16, a limiting rod 17, a first spring 18, a limiting block 19, a return type guide plate 20, a support plate 21, a sliding rod 22 and a second spring 23.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a winding mechanism of a high-precision slitting machine for amorphous alloy strips comprises a winding roller 1, wherein two ends of the winding roller 1 are rotatably connected with mounting plates 2, one of the mounting plates 2 is fixedly provided with a first motor 3 on the side wall, it should be noted that the first motor 3 can be a PLX type stepping motor and is electrically connected with an external power supply, for the prior art and not described in detail, a driving shaft of the first motor 3 is rotatably penetrated through the mounting plate 2 and is coaxially and fixedly connected with the winding roller 1, two sides of the outer side wall of the winding roller 1 are fixedly sleeved with fixing plates 4, two limit rings 5 are slidably sleeved outside the winding roller 1, an adjusting mechanism 6 for adjusting the two limit rings 5 is arranged in the winding roller 1, specifically, the adjusting mechanism 6 comprises a groove 12 arranged on the winding roller 1, and a bidirectional threaded rod 13 is rotatably connected in the groove 12, the second motor 14 is fixedly connected in the groove 12, and it should be noted that the second motor 14 may be a micro stepper motor with a model number of HT57, and is electrically connected to an external power source, which is not described in detail for the prior art.

In the utility model, a driving shaft of a second motor 14 is coaxially and fixedly connected with a bidirectional threaded rod 13, two threaded blocks 15 are sleeved on the external thread of the bidirectional threaded rod 13, it is worth mentioning that threaded holes matched with the bidirectional threaded rod 13 are respectively arranged on the two threaded blocks 15 in a penetrating manner, the thread directions in the two threaded holes are opposite, the two threaded blocks 15 are respectively and fixedly connected with two limiting rings 5, through holes 7 are respectively arranged on the two limiting rings 5 in a penetrating manner, the two through holes 7 are respectively arranged in a penetrating manner, the same compression roller 8 is arranged in a penetrating manner, a buffer mechanism 9 for buffering the compression roller 8 is respectively arranged in the two fixing plates 4, it is worth mentioning that the buffer mechanism 9 comprises a buffer groove 16 arranged on the side wall of the fixing plate 4, a limiting rod 17 is fixedly connected in the buffer groove 16, a first spring 18 and a limiting block 19 are sleeved outside the limiting rod 17, and the limiting block 19 is in sliding connection with the inner side wall of the limiting rod 17 and the buffer groove 16.

In the utility model, two ends of a first spring 18 are respectively and fixedly connected with a limiting block 19 and the inner side wall of a buffer groove 16, one end of the limiting block 19, which is far away from the bottom in the buffer groove 16, is rotatably connected with a compression roller 8, the rear ends of two fixing plates 4 are respectively and fixedly connected with a connecting plate 10, a guide mechanism 11 is arranged between the two connecting plates 10, it is noted that the guide mechanism 11 comprises a return-shaped guide plate 20, two ends of the return-shaped guide plate 20 are respectively and fixedly connected with the two connecting plates 10, a resisting plate 21 is slidably connected in the return-shaped guide plate 20, two opposite side walls of the resisting plate 21 are respectively and fixedly connected with a slide bar 22, one ends of the two slide bars 22, which are far away from the resisting plate 21, are respectively and slidably arranged through the return-shaped guide plate 20 and the connecting plates 10, a second spring 23 is sleeved outside the two slide bars 22, and two ends of the second spring 23 are respectively and fixedly connected with the inner side wall of the return-shaped guide plate 20 and the resisting plate 21.

In the utility model, the second motor 14 drives the two-way threaded rod 13 to rotate, the two-way threaded rod 13 drives the two threaded blocks 15 to move relatively, and the two threaded blocks 15 drive the two limiting rings 5 to move relatively until the two limiting rings 5 reach a proper position, so that the positions of the two limiting rings 5 can be adjusted.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (5)

1. The high-precision slitting machine winding mechanism for the amorphous alloy strips comprises a winding roller (1) and is characterized in that two ends of the winding roller (1) are connected with a mounting plate (2) in a rotating mode, one of the mounting plate is fixedly provided with a first motor (3) on the side wall of the mounting plate (2), a driving shaft of the first motor (3) rotates to penetrate through the mounting plate (2) and is fixedly connected with the winding roller (1) in a coaxial mode, a fixing plate (4) is fixedly sleeved on two sides of the outer side wall of the winding roller (1), two limiting rings (5) are sleeved on the outer sliding sleeve of the winding roller (1), adjusting mechanisms (6) used for adjusting the two limiting rings (5) are arranged in the winding roller (1), two through holes (7) are arranged in the limiting rings (5) in a penetrating mode, and the through holes (7) are provided with the same compression roller (8), the two fixing plates (4) are internally provided with buffer mechanisms (9) for buffering the compression roller (8), the two fixing plates (4) are fixedly connected with connecting plates (10) at the rear ends, and guide mechanisms (11) are arranged between the connecting plates (10).

2. The winding mechanism of the high-precision slitting machine for the amorphous alloy strips as claimed in claim 1, wherein the adjusting mechanism (6) comprises a groove (12) arranged on the winding roller (1), a bidirectional threaded rod (13) is rotatably connected in the groove (12), a second motor (14) is fixedly connected in the groove (12), a driving shaft of the second motor (14) is coaxially and fixedly connected with the bidirectional threaded rod (13), the bidirectional threaded rod (13) is externally threaded and sleeved with two thread blocks (15), and the two thread blocks (15) are respectively fixedly connected with two limiting rings (5).

3. The winding mechanism of the high-precision slitting machine for the amorphous alloy strips as claimed in claim 2, wherein threaded holes matched with the bidirectional threaded rods (13) are formed in the two threaded blocks (15) in a penetrating manner, and the thread directions in the two threaded holes are opposite.

4. The winding mechanism of the high-precision slitting machine for the amorphous alloy strips as claimed in claim 1, wherein the buffering mechanism (9) comprises a buffering groove (16) formed in the side wall of the fixing plate (4), a limiting rod (17) is fixedly connected in the buffering groove (16), a first spring (18) and a limiting block (19) are sleeved outside the limiting rod (17), the limiting block (19) is slidably connected with the inner side walls of the limiting rod (17) and the buffering groove (16), two ends of the first spring (18) are fixedly connected with the inner side walls of the limiting block (19) and the buffering groove (16) respectively, and one end, far away from the inner bottom of the buffering groove (16), of the limiting block (19) is rotatably connected with the compression roller (8).

5. The winding mechanism of the high-precision slitting machine for the amorphous alloy strips as claimed in claim 1, wherein the guide mechanism (11) comprises a clip guide plate (20), two ends of the clip guide plate (20) are respectively and fixedly connected with the two connecting plates (10), a butt plate (21) is slidably connected in the clip guide plate (20), two side walls of the butt plate (21) opposite to each other are respectively and fixedly connected with a slide rod (22), one end, far away from the butt plate (21), of each slide rod (22) is slidably arranged to penetrate through the clip guide plate (20) and the connecting plate (10), a second spring (23) is sleeved outside each slide rod (22), and two ends of each second spring (23) are respectively and fixedly connected with the inner side wall of the clip guide plate (20) and the butt plate (21).

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