CN211998081U - Full-automatic winding machine of nanocrystalline alloy strip - Google Patents

Full-automatic winding machine of nanocrystalline alloy strip Download PDF

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Publication number
CN211998081U
CN211998081U CN202020668281.9U CN202020668281U CN211998081U CN 211998081 U CN211998081 U CN 211998081U CN 202020668281 U CN202020668281 U CN 202020668281U CN 211998081 U CN211998081 U CN 211998081U
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roller
pressure roller
guide
nanocrystalline alloy
alloy strip
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CN202020668281.9U
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黄国平
陈建余
林金革
卓余锋
王升
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Nanjing Menghe Electronics Technology Co ltd
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Nanjing Menghe Electronics Technology Co ltd
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Abstract

A full-automatic winding machine for nanocrystalline alloy strips comprises a base, a stand column, a horizontal cross beam, a winding assembly and a pressing assembly; wherein, compress tightly the subassembly and include bottom suspension seat, go up backup pad, bottom suspension seat, stand two, stand three, go up the pinch roll, upper junction plate, go up pinch roll mobile device and pinch roll mobile device down, the pinch roll is located under the last pinch roll down to can pass the nanocrystalline alloy strip between the upper end edge of pinch roll down and the lower extreme edge of last pinch roll. Full-automatic coiler of nanocrystalline alloy strip, last pinch roller mobile device and the lower pinch roller mobile device that sets up through the longitudinal symmetry can provide the certain packing force of nanocrystalline alloy strip to keep nanocrystalline alloy strip to pass through smoothly between last pinch roller and the lower pinch roller, thereby can play the direction of nanocrystalline alloy strip and can keep leveling of nanocrystalline alloy strip simultaneously, improved the winding quality of nanocrystalline alloy strip.

Description

Full-automatic winding machine of nanocrystalline alloy strip
Technical Field
The utility model belongs to the technical field of nanocrystalline alloy strip preparation, specifically, relate to a full-automatic coiler of nanocrystalline alloy strip.
Background
The nanocrystalline alloy strip is widely applied to the industrial field as a blank, besides the familiar magnetic material, the nanocrystalline alloy strip also comprises an amorphous brazing material, an amorphous catalytic material, a magnetosensitive and sensor material and the like, and because the strip has longer length and thin thickness, the strip generally winds the finished strip into a disc shape in the production process, so that the strip is convenient to take and use, and the occupied space of the strip during storage is reduced.
However, the existing winding device for the nanocrystalline alloy strip mostly has the following problems:
1. Most of the nanocrystalline alloy strips are directly wound by the winding roller without limiting the nanocrystalline alloy strips, so that the edges of the wound nanocrystalline alloy strips are not tidy enough, and the attractiveness is affected;
2. The nanocrystalline alloy strip needs to be conveyed before being wound, and the nanocrystalline alloy strip has a certain droop type under the action of gravity, so that the nanocrystalline alloy strip can have a wrinkle phenomenon in the winding process, and the nanocrystalline alloy strip is not leveled.
Therefore, it is needed to improve the original winding device for the nanocrystalline alloy strip to solve the above problems.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: the utility model aims at providing a full-automatic coiler of nanocrystalline alloy strip has solved prior art, when carrying out thinner nanocrystalline alloy strip and carrying out the rolling, appears the fold easily and does not carry on spacingly to nanocrystalline alloy strip, causes the uneven problem in nanocrystalline alloy strip edge after the rolling.
The technical scheme is as follows: the utility model provides a full-automatic coiler of nanocrystalline alloy strip, including base, stand, horizontal beam, winding subassembly and compressing tightly the subassembly, the lower tip of stand is fixed to be set up on the base, and stand and base constitute L type structure, the one end of horizontal beam and the upper end fixed connection of stand, and horizontal beam is located the base directly over, the winding subassembly is fixed to be set up on the base, the compressing tightly subassembly sets up between horizontal beam and base, the winding subassembly is located one side of compressing tightly the subassembly; wherein, the compressing component comprises a lower supporting seat, an upper supporting plate, a lower supporting plate, a second upright post, a third upright post, an upper compressing roller, a lower compressing roller, an upper connecting plate, an upper compressing roller moving device and a lower compressing roller moving device, the lower supporting seat is fixedly arranged on the upper end surface of the base, the upper connecting plate is fixedly arranged on the lower end surface of the horizontal beam, the upper connecting plate is positioned right above the lower supporting seat, the second upright post and the third upright post are arranged between the lower supporting seat and the upper connecting plate along the vertical direction, the upper supporting plate and the lower supporting plate are both fixedly arranged on the second upright post and the third upright post, the upper supporting plate is positioned right above the lower supporting plate, the upper compressing roller moving device is fixedly arranged on the lower end surface of the upper supporting plate, the lower compressing roller moving device is fixedly arranged on the upper end surface of the lower supporting plate, the upper compressing roller is arranged on the upper compressing roller moving, the lower compression roller is arranged on the lower compression roller moving device, the lower compression roller is positioned right below the upper compression roller, and a nanocrystalline alloy strip can pass through the space between the upper end edge of the lower compression roller and the lower end edge of the upper compression roller.
Further, the full-automatic coiler of foretell nanocrystalline alloy strip, go up the compression roller mobile device and all include that stand four, stand five, a set of spring, compression roller backup pad, the articulated seat of compression roller one and the articulated seat of compression roller two down, stand four sets up with stand five relatively, the one end and the compression roller backup pad fixed connection of a set of spring, the articulated seat of compression roller one and the articulated seat of compression roller two are all fixed to be set up in the compression roller backup pad to the articulated seat of compression roller one and the articulated seat bisymmetry setting of compression roller.
Further, the full-automatic coiler of nanocrystalline alloy strip, last pinch roller mobile device's stand four and stand five are fixed to be set up on the lower terminal surface of last backup pad, lower pinch roller mobile device's stand four and stand five are fixed to be set up on the up end of lower backup pad, go up the pinch roller setting and articulate between seat one and the pinch roller of last pinch roller mobile device's pinch roller, the pinch roller setting is between the pinch roller of lower pinch roller mobile device articulates seat one and the pinch roller articulates seat two, go up a set of spring setting of pinch roller mobile device between last pinch roller mobile device's pinch roller backup pad and last backup pad, a set of spring setting of pinch roller mobile device is between the pinch roller backup pad and the lower supporting plate of lower pinch roller mobile device.
Further, according to the full-automatic winding machine for the nanocrystalline alloy strip, the cylindrical cavities are formed in the middle positions of the fourth stand column and the fifth stand column along the vertical direction, the first guide column is arranged in the cylindrical cavities, the cylindrical cavities and the guide columns are coaxially arranged, the guide sliding sleeves are arranged at the two end portions, close to the fourth stand column and the fifth stand column, of the pressing roller supporting plate, and the guide sliding sleeves are sleeved on the first guide columns.
Furthermore, according to the full-automatic winding machine for the nanocrystalline alloy strip, limiting plates are arranged at the end parts of the fourth upright column and the fifth upright column.
Further, the full-automatic coiler of foretell nanocrystalline alloy strip, the winding subassembly includes winding support frame, winding motor, gear one, gear area, gear two, pivot one and winding roller, the winding support frame is fixed to be set up on the base, winding motor, gear one, gear two and pivot one all set up on the winding support frame, winding motor and gear one are connected, gear one is connected through gear area and gear two, gear two is connected with pivot one through key and keyway, the winding roller cover is established in pivot one.
Further, according to the full-automatic winding machine for the nanocrystalline alloy strip, the horizontal beam is provided with the first guide roller support frame, the first guide roller support frame is positioned on one side, away from the winding assembly, of the pressing assembly, and the first guide roller assembly is arranged on the first guide roller support frame.
Further, the full-automatic coiler of foretell nanocrystalline alloy strip, be equipped with guide roll supporting seat one and guide roll supporting seat two on the base, guide roll supporting seat one and guide roll supporting seat two are located between compressing tightly subassembly and guide roll support frame one, guide roll supporting seat one is located between guide roll supporting seat two and guide roll support frame one, be equipped with guide roll subassembly two on the guide roll supporting seat one, be equipped with guide roll subassembly three on the guide roll supporting seat two.
Further, foretell full-automatic coiler of nanocrystalline alloy strip, guide roller subassembly one, guide roller subassembly two and guide roller subassembly three all include guide roller hinge seat one, guide roller hinge seat two, guide roller body and pivot two, guide roller hinge seat one and guide roller hinge seat two symmetry settings, the both ends of pivot two are respectively through bearing setting on guide roller hinge seat one and guide roller hinge seat two, guide roller body cover is established in pivot two.
Furthermore, in the fully-automatic winding machine for the nanocrystalline alloy strip, the outer circumference of the guide roller body is provided with a groove. The grooves enable the nanocrystalline alloy strip to be limited in the grooves, and deviation is avoided.
Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: full-automatic coiler of nanocrystalline alloy strip, structural design is reasonable, convenient to use, last pinch roller mobile device and lower pinch roller mobile device through the longitudinal symmetry setting, can provide the certain packing force of nanocrystalline alloy strip to keep nanocrystalline alloy strip smoothly through last pinch roller and between the pinch roller down, thereby can play the direction of nanocrystalline alloy strip and can keep leveling of nanocrystalline alloy strip simultaneously, improved the winding quality of nanocrystalline alloy strip.
Drawings
Fig. 1 is a schematic structural diagram of a full-automatic winding machine for nanocrystalline alloy strip according to the present invention;
fig. 2 is a schematic structural view of the compressing assembly of the present invention;
fig. 3 is a schematic structural view of the upper pinch roller moving device or the lower pinch roller moving device according to the present invention;
fig. 4 is a schematic structural diagram of the guide roller assembly one, the guide roller assembly two or the guide roller assembly three according to the present invention.
In the figure: the device comprises a base 1, a first guide roller support seat 11, a second guide roller support seat 12, a second guide roller assembly 13, a third guide roller assembly 14, an upright column 2, a horizontal cross beam 3, a first guide roller support frame 31, a first guide roller assembly 32, a first guide roller hinge seat 321, a second guide roller hinge seat 322, a guide roller body 323, a second rotating shaft 324, a groove 325, a winding assembly 4, a winding support frame 41, a winding motor 42, a first gear 43, a gear belt 44, a second gear 45, a first rotating shaft 46, a winding roller 47, a pressing assembly 5, a lower support seat 51, an upper support plate 52, a lower support plate 53, a second upright column 54, a third upright column 55, an upper pressing roller 56, a lower pressing roller 57, an upper connecting plate 58, an upper pressing roller moving device 59, a lower pressing roller moving device 510, a fourth upright column 511, a fifth upright column 512, a spring 513, a pressing roller support plate 514, a first pressing roller hinge seat 515, a second, The first guide column 518, the sliding guide sleeve 519 and the limiting plate 520.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.
In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.
Example one
The full-automatic winding machine for the nanocrystalline alloy strip shown in fig. 1 comprises a base 1, an upright column 2, a horizontal cross beam 3, a winding assembly 4 and a pressing assembly 5, wherein the lower end part of the upright column 2 is fixedly arranged on the base 1, the upright column 2 and the base 1 form an L-shaped structure, one end of the horizontal cross beam 3 is fixedly connected with the upper end part of the upright column 2, the horizontal cross beam 3 is positioned right above the base 1, the winding assembly 4 is fixedly arranged on the base 1, the pressing assembly 5 is arranged between the horizontal cross beam 3 and the base 1, and the winding assembly 4 is positioned on one side of the pressing assembly 5.
Wherein, the pressing assembly 5 shown in fig. 2 comprises a lower supporting seat 51, an upper supporting plate 52, a lower supporting plate 53, a second upright 54, a third upright 55, an upper pressing roller 56, a lower pressing roller 57, an upper connecting plate 58, an upper pressing roller moving device 59 and a lower pressing roller moving device 510, the lower supporting seat 51 is fixedly arranged on the upper end surface of the base 1, the upper connecting plate 58 is fixedly arranged on the lower end surface of the horizontal beam 3, the upper connecting plate 58 is positioned right above the lower supporting seat 51, the second upright 54 and the third upright 55 are vertically arranged between the lower supporting seat 51 and the upper connecting plate 58, the upper supporting plate 52 and the lower supporting plate 53 are fixedly arranged on the second upright 54 and the third upright 55, the upper supporting plate 52 is positioned right above the lower supporting plate 53, the upper pressing roller moving device 59 is fixedly arranged on the lower end surface of the upper supporting plate 52, the lower pressing roller moving device 510 is fixedly arranged on the upper end surface of the lower supporting plate 53, the upper pinch roller 56 is disposed on the upper pinch roller moving device 59, the lower pinch roller 57 is disposed on the lower pinch roller moving device 510, the lower pinch roller 57 is located right below the upper pinch roller 56, and the nanocrystalline alloy strip can pass between the upper end edge of the lower pinch roller 57 and the lower end edge of the upper pinch roller 56.
The upper pressure roller moving device 59 and the lower pressure roller moving device 510 shown in fig. 3 each include a fourth column 511, a fifth column 512, a set of springs 513, a pressure roller support plate 514, a first pressure roller hinge seat 515 and a second pressure roller hinge seat 516, the fourth column 511 and the fifth column 512 are arranged oppositely, one end of the set of springs 513 is fixedly connected with the pressure roller support plate 514, the first pressure roller hinge seat 515 and the second pressure roller hinge seat 516 are both fixedly arranged on the pressure roller support plate 514, and the first pressure roller hinge seat 515 and the second pressure roller hinge seat 516 are symmetrically arranged. The intermediate position of four 511 and five 512 on the stand all is equipped with cylindrical cavity 517 along vertical direction, be equipped with guide post 518 in the cylindrical cavity 517, cylindrical cavity 517 and the coaxial setting of guide post 518, the both ends that the compressing roller backup pad 514 is close to four 511 on the stand and five 512 on the stand all are equipped with guide sliding sleeve 519, guide sliding sleeve 519 cover is established on guide post 518. Limiting plates 520 are arranged at the end parts of the four upright columns 511 and the five upright columns 512.
The concrete connection relationship is that the upright post four 511 and the upright post five 512 of the upper pressure roller moving device 59 are fixedly arranged on the lower end surface of the upper supporting plate 52, the column four 511 and the column five 512 of the lower pinch roller moving device 510 are fixedly provided on the upper end surface of the lower support plate 53, the upper pressure roller 56 is arranged between the first pressure roller hinge seat 515 and the second pressure roller hinge seat 516 of the upper pressure roller moving device 59, the lower pinch roller 57 is disposed between the first pinch roller hinge base 515 and the second pinch roller hinge base 516 of the lower pinch roller moving device 510, a set of springs 513 of the upper pinch roller moving means 59 is provided between the pinch roller support plate 514 of the upper pinch roller moving means 59 and the upper support plate 52, a set of springs 513 of the lower pinch roller moving means 510 is disposed between the pinch roller support plate 514 of the lower pinch roller moving means 510 and the lower support plate 53.
Example two
The winding assembly 4 shown in fig. 1 comprises a winding support frame 41, a winding motor 42, a first gear 43, a gear belt 44, a second gear 45, a first rotating shaft 46 and a winding roller 47, wherein the winding support frame 41 is fixedly arranged on the base 1, the winding motor 42, the first gear 43, the second gear 45 and the first rotating shaft 46 are all arranged on the winding support frame 41, the winding motor 42 is connected with the first gear 43, the first gear 43 is connected with the second gear 45 through the gear belt 44, the second gear 45 is connected with the first rotating shaft 46 through a key and a key slot, and the winding roller 47 is sleeved on the first rotating shaft 46.
EXAMPLE III
The horizontal beam 3 shown in fig. 1 is provided with a first guide roller support frame 31, the first guide roller support frame 31 is positioned on the side of the pressing assembly 5 far away from the winding assembly 4, and the first guide roller support frame 31 is provided with a first guide roller assembly 32. In addition, a first guide roller supporting seat 11 and a second guide roller supporting seat 12 are arranged on the base 1, the first guide roller supporting seat 11 and the second guide roller supporting seat 12 are located between the pressing component 5 and the first guide roller supporting frame 31, the first guide roller supporting seat 11 is located between the second guide roller supporting seat 12 and the first guide roller supporting frame 31, a second guide roller component 13 is arranged on the first guide roller supporting seat 11, and a third guide roller component 14 is arranged on the second guide roller supporting seat 12.
In the structure, each of the first guide roller assembly 32, the second guide roller assembly 13 and the third guide roller assembly 14 comprises a first guide roller hinge seat 321, a second guide roller hinge seat 322, a guide roller body 323 and a second rotating shaft 324, the first guide roller hinge seat 321 and the second guide roller hinge seat 322 are symmetrically arranged, two ends of the second rotating shaft 324 are respectively arranged on the first guide roller hinge seat 321 and the second guide roller hinge seat 322 through bearings, and the guide roller body 323 is sleeved on the second rotating shaft 324. The guide roller body 323 is provided with a groove 325 on an outer circumference thereof.
The nanocrystalline alloy strip can be smoothly guided into the pressing component 5 through the first guide roller component 32, the second guide roller component 13 and the third guide roller component 14, and the nanocrystalline alloy strip can be arranged between the upper pressing roller 56 and the lower pressing roller 57 due to the upper pressing roller moving device 59 and the lower pressing roller moving device 510 which are symmetrically arranged in the pressing component 5 up and down, so that the edge of the nanocrystalline alloy strip is kept flat and smoothly wound on the winding component 4.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. A full-automatic coiler of nanocrystalline alloy strip which characterized in that: the device comprises a base (1), an upright post (2), a horizontal cross beam (3), a winding assembly (4) and a pressing assembly (5), wherein the lower end part of the upright post (2) is fixedly arranged on the base (1), the upright post (2) and the base (1) form an L-shaped structure, one end of the horizontal cross beam (3) is fixedly connected with the upper end part of the upright post (2), the horizontal cross beam (3) is positioned right above the base (1), the winding assembly (4) is fixedly arranged on the base (1), the pressing assembly (5) is arranged between the horizontal cross beam (3) and the base (1), and the winding assembly (4) is positioned on one side of the pressing assembly (5);
wherein the pressing component (5) comprises a lower supporting seat (51), an upper supporting plate (52), a lower supporting plate (53), a second column (54), a third column (55), an upper pressing roller (56), a lower pressing roller (57), an upper connecting plate (58), an upper pressing roller moving device (59) and a lower pressing roller moving device (510), the lower supporting seat (51) is fixedly arranged on the upper end surface of the base (1), the upper connecting plate (58) is fixedly arranged on the lower end surface of the horizontal cross beam (3), the upper connecting plate (58) is positioned right above the lower supporting seat (51), the second column (54) and the third column (55) are arranged between the lower supporting seat (51) and the upper connecting plate (58) along the vertical direction, the upper supporting plate (52) and the lower supporting plate (53) are both fixedly arranged on the second column (54) and the third column (55), and the upper supporting plate (52) is positioned right above the lower supporting plate (53), the upper pressing roller moving device (59) is fixedly arranged on the lower end face of the upper supporting plate (52), the lower pressing roller moving device (510) is fixedly arranged on the upper end face of the lower supporting plate (53), the upper pressing roller (56) is arranged on the upper pressing roller moving device (59), the lower pressing roller (57) is arranged on the lower pressing roller moving device (510), the lower pressing roller (57) is located under the upper pressing roller (56), and a nanocrystalline alloy strip can pass through the space between the upper end edge of the lower pressing roller (57) and the lower end edge of the upper pressing roller (56).
2. The fully automatic coiler of nanocrystalline alloy strip according to claim 1, characterized in that: go up pressure roller mobile device (59) and lower pressure roller mobile device (510) and all include stand four (511), stand five (512), a set of spring (513), pressure roller backup pad (514), the articulated seat of pressure roller (515) and the articulated seat of pressure roller two (516), stand four (511) and five (512) relative settings of stand, the one end and the pressure roller backup pad (514) fixed connection of a set of spring (513), the articulated seat of pressure roller (515) and the articulated seat of pressure roller two (516) are all fixed the setting on pressure roller backup pad (514) to the articulated seat of pressure roller (515) and the articulated seat of pressure roller two (516) symmetry setting.
3. The fully automatic coiler of nanocrystalline alloy strip according to claim 2, characterized in that: four columns (511) and five columns (512) of the upper pressure roller moving device (59) are fixedly arranged on the lower end face of the upper supporting plate (52), four columns (511) and five columns (512) of the lower pressure roller moving device (510) are fixedly arranged on the upper end face of the lower supporting plate (53), the upper pressure roller (56) is arranged between a first pressure roller hinged seat (515) and a second pressure roller hinged seat (516) of the upper pressure roller moving device (59), the lower pressure roller (57) is arranged between the first pressure roller hinged seat (515) and the second pressure roller hinged seat (516) of the lower pressure roller moving device (510), a group of springs (513) of the upper pressure roller moving device (59) are arranged between a pressure roller supporting plate (514) and an upper support (52) of the upper pressure roller moving device (59), and a group of springs (513) of the lower pressure roller moving device (510) are arranged between the pressure roller supporting plate (514) and the lower pressure roller supporting plate (514) of the lower pressure roller moving device (510) and the lower pressure roller moving device (510) Between the supporting plates (53).
4. The fully automatic coiler of nanocrystalline alloy strip according to claim 2, characterized in that: the intermediate position of four (511) and five (512) on the stand all is equipped with cylindrical cavity (517) along vertical direction, be equipped with guide post (518) in cylindrical cavity (517), cylindrical cavity (517) and guide post (518) coaxial setting, the both ends that pinch roller backup pad (514) is close to four (511) on the stand and five (512) on the stand all are equipped with direction sliding sleeve (519), direction sliding sleeve (519) cover is established on guide post (518).
5. The fully automatic coiler of nanocrystalline alloy strip according to claim 3, characterized in that: limiting plates (520) are arranged at the end parts of the fourth upright column (511) and the fifth upright column (512).
6. The fully automatic coiler of nanocrystalline alloy strip according to claim 1, characterized in that: winding subassembly (4) are including winding support frame (41), winding motor (42), gear (43), gear area (44), gear two (45), pivot (46) and winding roller (47), winding support frame (41) is fixed to be set up on base (1), winding motor (42), gear one (43), gear two (45) and pivot one (46) all set up on winding support frame (41), winding motor (42) and gear one (43) are connected, gear one (43) are connected through gear area (44) and gear two (45), gear two (45) are connected with pivot one (46) through key and keyway, winding roller (47) cover is established on pivot one (46).
7. The fully automatic coiler of nanocrystalline alloy strip according to claim 1, characterized in that: the horizontal beam (3) is provided with a first guide roller support frame (31), the first guide roller support frame (31) is positioned on one side, away from the winding assembly (4), of the pressing assembly (5), and the first guide roller support frame (31) is provided with a first guide roller assembly (32).
8. The fully automatic coiler of nanocrystalline alloy strip according to claim 7, characterized in that: be equipped with guide roll supporting seat (11) and guide roll supporting seat two (12) on base (1), guide roll supporting seat one (11) and guide roll supporting seat two (12) are located and compress tightly between subassembly (5) and guide roll support frame (31), guide roll supporting seat one (11) are located between guide roll supporting seat two (12) and guide roll support frame (31), be equipped with guide roll subassembly two (13) on guide roll supporting seat one (11), be equipped with guide roll subassembly three (14) on guide roll supporting seat two (12).
9. The fully automatic coiler of nanocrystalline alloy strip according to claim 8, characterized in that: the guide roller assembly I (32), the guide roller assembly II (13) and the guide roller assembly III (14) comprise a guide roller hinging seat I (321), a guide roller hinging seat II (322), a guide roller body (323) and a rotating shaft II (324), the guide roller hinging seat I (321) and the guide roller hinging seat II (322) are symmetrically arranged, two ends of the rotating shaft II (324) are respectively arranged on the guide roller hinging seat I (321) and the guide roller hinging seat II (322) through bearings, and the guide roller body (323) is sleeved on the rotating shaft II (324).
10. The fully automatic coiler of nanocrystalline alloy strip according to claim 9, characterized in that: the outer circumference of the guide roller body (323) is provided with a groove (325).
CN202020668281.9U 2020-04-28 2020-04-28 Full-automatic winding machine of nanocrystalline alloy strip Active CN211998081U (en)

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Application Number Priority Date Filing Date Title
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112499344A (en) * 2020-11-26 2021-03-16 江门市新会区美力赛无纺布纤维制品有限公司 Non-woven fabric feeding device
CN112706515A (en) * 2020-12-23 2021-04-27 康峰(苏州)纸品有限公司 Paper tube off-line printing machine with pattern shaping structure and working method thereof
CN116986390A (en) * 2023-09-28 2023-11-03 圣达电气有限公司 Automatic continuous slitting device and method for copper foil processing

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112499344A (en) * 2020-11-26 2021-03-16 江门市新会区美力赛无纺布纤维制品有限公司 Non-woven fabric feeding device
CN112706515A (en) * 2020-12-23 2021-04-27 康峰(苏州)纸品有限公司 Paper tube off-line printing machine with pattern shaping structure and working method thereof
CN116986390A (en) * 2023-09-28 2023-11-03 圣达电气有限公司 Automatic continuous slitting device and method for copper foil processing
CN116986390B (en) * 2023-09-28 2023-12-26 圣达电气有限公司 Automatic continuous slitting device and method for copper foil processing

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