CN113415652A

CN113415652A - Winding machine for tin-phosphorus bronze strip and production process using winding machine

Info

Publication number: CN113415652A
Application number: CN202110965304.1A
Authority: CN
Inventors: 王小龙; 朱文斌; 陈军; 王耀; 张磊
Original assignee: Xin River Metal Wuxi Co ltd; Jiangsu Branch Co Ltd Of Mechanical Science Research Institute
Current assignee: Xinguhe Metal Wuxi Co ltd
Priority date: 2021-08-23
Filing date: 2021-08-23
Publication date: 2021-09-21
Anticipated expiration: 2041-08-23
Also published as: CN113415652B

Abstract

The invention relates to a winding machine of a tin phosphorus bronze band and a production process using the winding machine, the winding machine of the tin phosphorus bronze band comprises: a driving part is fixed at the end part of an output shaft of the driving motor; the outer supporting parts are arranged around the driving part, and a plurality of outer supporting parts are distributed in an annular shape; the outer sleeve is provided with meshes in the circumferential direction and sleeved on an annular body formed by the plurality of supporting parts; the baffle part comprises a first baffle fixed on one side of the outer support parts and a second baffle arranged on the other side of the outer support parts; each clamping part is positioned in one outer supporting part. This kind of rolling machine of tin phosphorus bronze band through driving motor's work, drives the drive division and rotates the rolling effect in order to realize tin phosphorus bronze band, realizes pressing from both sides tight and the outer sleeve that the different thickness of adaptation required to the outer sleeve through the portion of strutting outward, through the setting of clamping part, when the drive division struts the portion of strutting outward, triggers clamping part in step to realize the fixed effect of clamping part to the second separation blade.

Description

Winding machine for tin-phosphorus bronze strip and production process using winding machine

Technical Field

The invention relates to a winding machine, in particular to a winding machine of a tin-phosphorus bronze band and a production process using the winding machine.

Background

The winder of tin phosphorus bronze band among the prior art can only play simple rolling effect generally, also promptly, and the workman is accomodate it wholly after rolling into a roll with the tin phosphorus bronze band that processes.

The winding machine is simple in overall structure, single in function, large in size and large in operation or disassembly pressure, and people can disassemble and assemble the winding machine when operating the winding machine.

Therefore, it is necessary to provide a winding machine with various structural functions and simple operation.

Disclosure of Invention

The invention aims to provide a winding machine for a tin-phosphorus bronze belt, which aims to solve the problems.

In order to achieve the above object, an embodiment of the present invention provides a winding machine for a tin phosphorus bronze strip, including:

the end part of an output shaft of the driving motor is fixed with a driving part;

the outer supporting parts are arranged around the driving part and are distributed annularly;

the outer sleeve is provided with meshes in the circumferential direction and sleeved on an annular body formed by the plurality of supporting parts;

the baffle part comprises first baffles fixed on one sides of the outer supporting parts and second baffles arranged on the other sides of the outer supporting parts;

a plurality of clamping parts, each clamping part is positioned in one of the outer supporting parts, wherein

When the driving part works, the outer supporting parts are suitable for tightly supporting the outer sleeve in the circumferential direction and promoting the clamping part to shrink in the circumferential direction so as to clamp and clamp the second blocking piece.

Preferably, the driving part comprises a driving cylinder, a driving cover fixed on a piston rod of the driving cylinder, and a movable adjusting block arranged around the circumferential direction of the driving cover;

the end part of the driving cover is provided with a guide slope surface;

the outer supporting part comprises an outer supporting sheet and a plurality of positioning adjusting blocks positioned on the inner wall of the outer supporting sheet; and

one end of the outer supporting sheet is fixed on the first blocking sheet, and the movable adjusting block is in sliding fit with the positioning adjusting block; wherein

When the driving cylinder retracts, the movable adjusting block and the positioning adjusting block slide relatively to expand the annular body to tightly support the outer sleeve.

Preferably, the movable adjusting block is provided with a movable inclined slope surface, and an inclined groove strip with an inverted T-shaped cross section is arranged on the movable inclined slope surface;

the positioning adjusting block is provided with a positioning inclined slope surface, and an inclined notch with a T-shaped cross section is formed in the positioning inclined slope surface; and

the slanted slot bar is slidably disposed within the slanted slot.

Preferably, the clamping part comprises a fan-shaped ring sheet, a clamping tongue piece and a plurality of spring bodies, wherein the fan-shaped ring sheet is in a fan-shaped ring shape; and

the edge of the clamping sheet is provided with a guide clamping surface matched with the guide slope surface, the hollow inside of the fan ring sheet and the inner ring of the fan ring sheet are provided with an opening, the spring bodies are uniformly distributed on the bottom wall inside the fan ring sheet, and the clamping sheet stretches into the opening, and

a column head is coaxially fixed at the end part of the second baffle plate, and a groove annular opening is formed in the side wall of the column head;

the outer wall of the driving cover is abutted to the clamping sheet, wherein

When the second blocking piece extends into the annular inner ring, the driving cylinder drives the driving cover to retract so that the clamping tongue piece is clamped in the groove annular opening.

Preferably, the outer wall of the driving cylinder is provided with a clamping head;

the side wall of the driving cover is provided with a long groove, the length direction of the long groove is the same as the telescopic direction of the driving cylinder, and the chuck is clamped in the long groove.

Preferably, the first blocking sheet is provided with a plurality of guide parts, and each guide part is matched with one outer supporting sheet, wherein

The outer supporting sheet is suitable for being guided to be spread or recovered through the guide part.

Preferably, the side wall of the first baffle plate is provided with a plurality of guide grooves, and the center lines of the guide grooves point to the central axis of the first baffle plate; and

the guide part comprises a guide column body clamped in the guide groove, a guide head is arranged at the waist part of the guide column body, and the guide head is provided with a laminating slope surface suitable for being laminated with the inner wall of the outer supporting sheet.

Preferably, an end face of the second baffle has an inlet port, and the inlet port is communicated with the inner ring space of the annular body.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

this kind of rolling machine of tin phosphorus bronze band through driving motor's work, drives the drive division and rotates the rolling effect in order to realize tin phosphorus bronze band, realizes pressing from both sides tight and the outer sleeve that the different thickness of adaptation required to the outer sleeve through the portion of strutting outward, through the setting of clamping part, when the drive division struts the portion of strutting outward, triggers clamping part in step to realize the fixed effect of clamping part to the second separation blade.

The invention also provides a production process using the winding machine, which comprises the step of S1, sleeving the outer sleeve outside the outer supporting parts; s2, driving the driving motor to drive the driving part to rotate so as to wind the tin-phosphor bronze strip on the outer sleeve and form a single-layer full cover on the outer wall of the outer sleeve; s3, inserting the second baffles into the outer supporting parts; s4, driving the driving part to drive the outer supporting parts to be outwards expanded so as to tightly support the outer sleeve and clamp the second blocking piece; and S5, continuously driving the driving motor until the multilayer is fully rolled.

Further, the production process of the winding machine further comprises S6, and cooling gas is introduced into the inlet.

The production process using the winding machine has the beneficial effects that the winding process is rapid, and the winding effect is good.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 shows a preferred perspective view of the winder of the present invention;

FIG. 2 shows a preferred structural schematic of the winder of the present invention;

FIG. 3 shows a preferred perspective view of the drive housing of the present invention;

FIG. 4 illustrates a preferred perspective view of the movable adjustment block of the present invention;

FIG. 5 shows a preferred perspective view of the positioning adjustment block of the present invention;

FIG. 6 shows a preferred enlarged partial view of the gripping portion of the present invention;

FIG. 7 shows a preferred cross-sectional view of the gripping portion of the present invention;

FIG. 8 shows a preferred perspective view of a second baffle of the present invention;

fig. 9 shows a preferred perspective view of the first flap of the present invention.

In the figure:

100. a drive motor;

200. the device comprises a driving part 210, a driving cylinder 211, a clamping head 220, a driving cover 221, a guide slope surface 222, a long strip groove 230, a movable adjusting block 231, a movable inclined slope surface 232 and inclined groove strips;

300. the outer supporting part 310, the outer supporting sheet 320, the positioning adjusting block 321, the positioning inclined slope 322 and the inclined notch;

400. an outer sleeve, 410, mesh;

500. the guide device comprises a baffle part 510, a first baffle plate 511, a guide groove 512, a guide column body 513, a guide head 514, a joint slope surface 520, a second baffle plate 521, a column head 522, a groove ring opening 523 and an access opening;

600. the clamping part 610, the fan ring pieces 611, the guide fastening surface 620, the clamping pieces 630, the clamping tongue pieces 640 and the spring body.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example one

As shown in fig. 1 to 9, an embodiment of the present invention provides a winding machine for a tin-phosphorus bronze strip, including: the driving motor 100, a driving part 200 is fixed at the end of the output shaft of the driving motor 100; the outer supporting parts 300 are arranged around the driving part 200, and the outer supporting parts 300 are annularly distributed; the outer sleeve 400 is provided with meshes 410 in the circumferential direction, and the outer sleeve 400 is sleeved on an annular body formed by a plurality of the outer supporting parts 300; the baffle part 500 comprises a first baffle 510 fixed on one side of the plurality of the outer supporting parts 300 and a second baffle 520 arranged on the other side of the plurality of the outer supporting parts 300; a plurality of clamping parts 600, wherein each clamping part 600 is positioned in one outer supporting part 300. Wherein the driving motor 100 is a power source of the whole winder device and can output a rotating force outwards; the driving part 200 can rotate coaxially with the output shaft under the driving of the driving motor 100; the outer supporting part 300 is suitable for being propped open by the driving part 200, and after being propped open, the inner cavity of the outer supporting part 300 can be communicated with the outer sleeve 400; the outer sleeve 400 is adapted to rotate synchronously with the driving part 200, and the tin-phosphor bronze strip is wound on the outer wall of the outer sleeve 400; the baffle part 500 is suitable for clamping and positioning the outer sleeve 400 from two sides, so that the outer sleeve 400 can ensure that the tin-phosphor bronze strip coil is wound regularly in the process of winding the tin-phosphor bronze strip coil; the clamping part 600 is adapted to clamp and fix the blocking piece part 500 to one end of the driving part 200, preventing the blocking piece part 500 from slipping off. The whole operation of the winding machine has the effect that when the driving motor 100 is started, the driving motor 100 can drive the driving part 200 to work, and the driving part 200 can drive the outer supporting parts 300 to tightly support the outer sleeve 400 along the circumferential direction and promote the clamping part 600 to circumferentially contract so as to clamp and clamp the second baffle 520. With respect to the above components, detailed description is given below.

Driving motor

The driving motor 100 is a power source of the whole device, the driving motor 100 is fixed on a support frame, the driving motor 100 is suspended at a position with a certain height away from the ground through the support frame, and after the driving motor 100 is started, the driving motor 100 can continuously and stably output a rotating force outwards.

Driving part

The driving part 200 is fixedly connected to an output shaft of the driving motor 100, and after the driving motor 100 is started, the driving part 200 can rotate coaxially with the output shaft under the driving of the driving motor 100. The driving part 200 specifically comprises a driving cylinder 210 and a driving cover 220 fixed on a piston rod of the driving cylinder 210, wherein the driving cylinder 210 is arranged at one end close to the driving motor 100, and the piston rod thereof extends in a direction away from the driving motor 100; the drive cover 220 is cylindrical, and the drive cover 220 is sleeved and fixed on the piston rod of the drive cylinder 210, a certain gap is formed between the inner wall of the drive cover 220 and the shell of the drive cylinder 210, so that the drive cover 220 is ensured not to be rubbed and collided with the shell of the drive cylinder 210 when moving along the telescopic direction of the piston rod.

Outer sleeve

The outer sleeve 400 is fitted over the outside of the driving part 200 and does not directly contact the driving part 200. A plurality of meshes 410 are opened to outer sleeve 400 outer wall, mesh 410 evenly distributed in outer sleeve 400 lateral wall, and every mesh 410 all runs through outer sleeve 400 lateral wall. The outer wall of the outer sleeve 400 is suitable for winding the tin-phosphorus bronze band, and specifically, when the driving motor 100 is started, the outer sleeve 400 rotates synchronously with the output shaft of the driving motor 100; synchronously, after the end of the tin phosphor bronze band is positioned on the outer wall of the outer sleeve 400, the tin phosphor bronze band can be wound on the outer wall of the outer sleeve 400 during rotation thereof.

Stop piece part

The blocking parts 500 are disposed at two ends of the outer sleeve 400 and fixed, and specifically, the blocking parts 500 include a first blocking piece 510 attached to one end of the outer sleeve 400 close to the driving motor 100, and a second blocking piece 520 attached to one end of the outer sleeve 400 far away from the driving motor 100. The first blocking piece 510 and the second blocking piece 520 have the same shape and size, and are sleeved on the outer wall of the driving part 200 but are not in contact with the driving part 200. The first blocking piece 510 and the second blocking piece 520 clamp the outer sleeve 400 from two ends and are positioned, so that the outer sleeve 400 cannot move axially in the process of winding the tin-phosphorus bronze band, and the winding quality of the tin-phosphorus bronze band is guaranteed.

It should be noted that, after the rolling machine in the prior art has the above listed components, the rolling machine has the basic function of rolling the tin-phosphor bronze strip, but the rolling machine cannot cool the surface of the tin-phosphor bronze strip in the rolling process, the tin-phosphor bronze strip can generate more heat in the production and rolling processes, and the generated heat cannot be dissipated in time; meanwhile, when the second blocking piece 520 is positioned, a positioning device is usually placed outside the second blocking piece 520, but the increase of the positioning device can increase the overall weight of the winding machine, so that the operation efficiency of the driving motor 100 is low, and the positioning device can generate a moment to the driving part 200, so that the risk of bending the driving part 200 is increased.

In order to solve the above problem, the following scheme may be adopted. An outer supporting portion 300 is arranged between the driving portion 200 and the outer sleeve 400, the outer supporting portion 300 is sleeved on the driving portion 200, a gap is formed between the inner wall of the outer supporting portion 300 and the outer wall of the driving portion 200, and the outer wall of the outer supporting portion 300 is attached to the inner wall of the outer sleeve 400. The outer supporting part 300 specifically comprises an outer supporting sheet 310 and a plurality of positioning adjusting blocks 320 positioned on the inner wall of the outer supporting sheet 310, wherein the outer supporting sheet 310 is provided with three identical pieces, one end of the outer supporting sheet 310 is fixed on the first blocking sheet 510, the three pieces of outer supporting sheet 310 are arranged in a surrounding manner to form an outer wall, namely an annular body, of the outer supporting part 300, when each outer supporting sheet 310 is radially and outwards propped, three gaps are formed between the outer supporting sheets 310, a winding machine can blow cooling gas outwards through the gaps, and the cooling gas can diffuse towards the inner ring surface of the tin-phosphor bronze belt through a plurality of meshes 410.

In order to enable the driving part 200 to push the outer supporting part 300 to slide outwards when working, two ends of the center of the inner wall of each outer supporting piece 310 are correspondingly provided with a positioning adjusting block 320, each positioning adjusting block 320 is provided with a positioning inclined slope 321, and the positioning inclined slope 321 is provided with an inclined notch 322 with a T-shaped cross section; meanwhile, the movable adjusting block 230 is arranged around the circumference of the driving cover 220, the movable adjusting block 230 is provided with a movable inclined slope surface 231, and an inclined groove strip 232 with an inverted T-shaped cross section is arranged on the movable inclined slope surface 231. The slanted groove strip 232 is slidably disposed within the slanted notch 322. The positioning adjusting block 320 and the movable adjusting block 230 have a specific function that, when the driving cylinder 210 retracts, the movable adjusting block 230 and the positioning adjusting block 320 slide relatively to expand the annular body to tightly support the outer sleeve 400, and meanwhile, the winder can blow cooling gas outwards through gaps formed by the expansion of the outer supporting sheets 310, and the cooling gas can diffuse towards the inner ring surface of the tin-phosphor bronze strip through the meshes 410.

In order to guide the direction of the outer supporting pieces 310 when being expanded outwards, the first blocking piece 510 is provided with a plurality of guiding parts, each guiding part is matched with one outer supporting piece 310, wherein the outer expanding sheet 310 is suitable for being expanded or recovered by guiding of the guiding part, and is embodied as, the side wall of the first blocking piece 510 is provided with a plurality of guiding slots 511, the number of the guiding slots 511 is the same as that of the outer supporting pieces 310, and each guide slot 511 corresponds to one outer supporting piece 310, the central line of the guide slot 511 points to the central axis of the first blocking piece 510, the guiding part comprises a guiding column 512 clamped in the guiding groove 511, the guiding column 512 is suitable for extending into the inner wall of the outer supporting sheet 310 and is jointed and fixed with the inner wall, the waist part of the guiding column 512 is provided with a guiding head 513, the guiding head 513 has an engaging slope 514 adapted to engage the inner wall of the outer support piece 310. When the outer supporting piece 310 slides in the positioning adjustment block 320 through the movable adjustment block 230 and is unfolded, the outer supporting piece 310 can slide along the sliding direction of the guide cylinder 512 in the guide slot 511, so as to ensure that the straightness of the sliding direction is ensured when the outer supporting piece 310 is unfolded.

In order to guide the sliding direction of the piston rod of the driving cylinder 210 in the driving cover 220, the outer wall of the driving cylinder 210 is provided with a chuck 211, meanwhile, the side wall of the driving cover 220 is provided with a long groove 222, the length direction of the long groove 222 is the same as the extension direction of the driving cylinder 210, and the chuck 211 is clamped in the long groove 222. When the piston rod of the driving cylinder 210 slides, the chuck 211 slides along the opening direction of the long groove 222.

In addition, in order to fix the second stopper 520 on the outer supporting portion 300, the winding machine of this embodiment further includes a clamping portion 600 on an inner wall of the driving portion 200 on a side away from the driving motor 100. The specific structure of the clamping part 600 is specifically described below, wherein the clamping part 600 includes a fan-shaped ring segment 610, a clamping segment 620, a tongue segment 630 and a plurality of spring bodies 640, the fan-shaped ring segment 610 is in a fan-shaped ring shape, the tongue segment 630 is located at an inner ring of the clamping segment 620, and the inner ring of the ring segment 610 is hollow and has an opening; the edge of chucking piece 620 has a direction tight face 611, drive cover 220 is kept away from driving motor 100's one end can with chucking piece 620 offsets, and is a plurality of spring body 640 equipartition in the inside diapire of ring leaf piece 610 just chucking piece 620 stretches into uncovered, spring body 640 one end is fixed diapire in the ring leaf piece 610, the other end is fixed roof in chucking piece 620, chucking piece 620 can follow compressing tightly and resetting of spring body 640, follows promptly ring piece 610 radial sliding.

In order to facilitate the fixing of the second blocking piece 520 on the driving part 200 corresponding to the fastening part 600, a post 521 is coaxially fixed at the end of the second blocking piece 520, the side wall of the post 521 is provided with a groove ring opening 522, and the tongue piece 630 is suitable for being clamped in the groove ring opening 522. Specifically, before the second blocking piece 520 is installed, the outer wall of the driving cover 220 abuts against the clamping piece 620, and when the second blocking piece 520 extends into the annular inner body ring, the driving cylinder 210 drives the driving cover 220 to retract so that the clamping tongue piece 630 is ejected and clamped in the groove ring opening 522. In order to facilitate the outer wall of the driving cover 220 to abut against the clamping sheet 620 and push the clamping sheet 620 to contract, a guide slope 221 adapted to the guide clamping surface 611 is formed at the end of the driving cover 220. When the second baffle 520 needs to be taken out of the annular inner ring, the driving cylinder 210 drives the driving cover 220 to extend outwards so that the clamping sheets 620 are subjected to radial force component to contract, and therefore the clamping tongue pieces 630 are separated from the groove ring opening 522.

In order to facilitate the introduction of cooling gas into the winding machine, the end face of the second baffle 520 is provided with an inlet 523, the inlet 523 is communicated with the inner ring space of the annular body, and after the outer supporting pieces 310 are spread, the cooling gas can continuously blow cooling gas to the inner ring surface of the tin-phosphor bronze band through the gap formed between the outer supporting pieces 310.

The rolling machine of the tin phosphorus bronze band shown in this embodiment, through driving motor 100's work, drive division 200 and rotate the rolling effect in order to realize tin phosphorus bronze band, realize through outer supporting portion 300 that the outer sleeve 400 of the different thickness requirements of clamp and adaptation to outer sleeve 400, through the setting of clamping part 600, when drive division 200 struts outer supporting portion 300, trigger clamping part 600 in step to realize clamping part 600 to the fixed effect of second separation blade 520.

The driving part 200 is operated to open the outer supporting parts 300 in the circumferential direction, so that the outer sleeves 400 are tightly supported and fixed by the plurality of outer supporting parts 300; meanwhile, the driving cover 220 is separated from the clamping sheet 620, and the clamping sheet 620 extends out and is clamped in the groove ring opening 522 under the action of the spring body 640 to realize the positioning effect on the second blocking sheet 520. At this time, the three outer supporting pieces 310 in the outer supporting portion 300 form slits simultaneously, providing a good flow gap for the flow of the cool air.

Similarly, when the driving cap 220 is pushed forward by the driving cylinder 210, the driving cap 220 pushes the fastening piece 620 again, so that the second stopping piece 520 is separated from the fastening position, the three outer supporting pieces 310 are restored to be attached to close the gap, and the outer sleeve 400 is separated from the positioning, so that the outer sleeve 400 in the full state can be taken down.

Example two

The invention also provides a production process using the winding machine, which comprises the steps of S1, sleeving the outer sleeve 400 outside the outer supporting parts 300; s2, driving the driving motor 100 to drive the driving part 200 to rotate so as to wind the tin-phosphor bronze strip on the outer sleeve 400 and form a single-layer full cover on the outer wall of the outer sleeve 400; s3, inserting the second blocking sheet 520 into the outer supporting parts 300; s4, driving the driving part 200 to drive the plurality of the outer supporting parts 300 to expand outwards to support the outer sleeve 400 tightly and clamp the second baffle 520; and S5, continuously driving the driving motor until the multilayer is fully rolled.

In addition, the production process of the winding machine further includes S6, and a cooling gas is introduced into the inlet 523.

The production process using the winding machine has the characteristics of quick winding process and good winding effect.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It should be noted that: like reference numbers and letters refer to like items in the figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A rolling machine of tin-phosphor bronze area which is characterized by comprising:

the end part of an output shaft of the driving motor (100) is fixed with a driving part (200);

the outer supporting parts (300) are arranged around the driving part (200), and the outer supporting parts (300) are annularly distributed;

the outer sleeve (400) is provided with meshes (410) in the circumferential direction, and the outer sleeve (400) is sleeved on an annular body formed by the plurality of supporting parts (300);

the baffle part (500), the baffle part (500) includes the first baffle (510) fixed on one side of the outer supporting parts (300) and the second baffle (520) arranged on the other side of the outer supporting parts (300);

a plurality of gripping parts (600), each gripping part (600) being located within one of the outer support parts (300), wherein

When the driving part (200) works, the outer supporting parts (300) are suitable for circumferentially tightening the outer sleeve (400) and promoting the clamping part (600) to circumferentially contract so as to clamp and clamp the second blocking piece (520).

2. The winder of tin-phosphorus bronze band according to claim 1,

the driving part (200) comprises a driving cylinder (210), a driving cover (220) fixed on a piston rod of the driving cylinder (210), and a movable adjusting block (230) arranged around the circumference of the driving cover (220);

the end of the driving cover (220) is provided with a guide slope surface (221);

the outer supporting part (300) comprises an outer supporting sheet (310) and a plurality of positioning adjusting blocks (320) positioned on the inner wall of the outer supporting sheet (310); and

one end of the outer supporting sheet (310) is fixed on the first blocking sheet (510), and the movable adjusting block (230) is in sliding fit with the positioning adjusting block (320); wherein

When the driving cylinder (210) retracts, the movable adjusting block (230) and the positioning adjusting block (320) slide relatively to expand the annular body to tightly support the outer sleeve (400).

3. A winder of a tin-phosphor bronze strip according to claim 2, characterised in that,

the movable adjusting block (230) is provided with a movable inclined slope surface (231), and an inclined groove strip (232) with an inverted T-shaped cross section is arranged on the movable inclined slope surface (231);

the positioning adjusting block (320) is provided with a positioning inclined slope surface (321), and an inclined notch (322) with a T-shaped cross section is formed in the positioning inclined slope surface (321); and

the slanted groove strip (232) is slidably disposed within the slanted slot (322).

4. The winder of a tin-phosphorus bronze band as claimed in claim 3, characterized in that,

the clamping part (600) comprises a fan-shaped fan-ring sheet (610), a fan-shaped clamping sheet (620), a clamping tongue sheet (630) positioned at the inner ring of the clamping sheet (620) and a plurality of spring bodies (640); and

the edge of chucking piece (620) have one with the tight face of direction (611) of the domatic (221) adaptation of direction, the inside cavity and the inner circle of fan ring piece (610) have uncovered, a plurality of spring body (640) equipartition in the inside diapire of fan ring piece (610) just chucking piece (620) stretch into uncovered, and

a stud (521) is coaxially fixed at the end part of the second baffle plate (520), and a groove ring opening (522) is formed in the side wall of the stud (521);

the outer wall of the driving cover (220) is abutted against the clamping sheet (620), wherein

When the second baffle plate (520) extends into the annular inner body ring, the driving air cylinder (210) drives the driving cover (220) to retract so that the clamping tongue piece (630) is clamped in the groove ring opening (522).

5. The winder of tin-phosphorus bronze band according to claim 4,

the outer wall of the driving cylinder (210) is provided with a clamping head (211);

the side wall of the driving cover (220) is provided with a long groove (222), the length direction of the long groove (222) is the same as the extension direction of the driving cylinder (210), and the clamping head (211) is clamped in the long groove (222).

6. The winder of tin-phosphorus bronze band according to claim 5,

the first baffle plate (510) is provided with a plurality of guide parts, each guide part is matched with one outer supporting plate (310), wherein

The outer expanding sheet (310) is suitable for being expanded or recovered through the guide part.

7. A winder of a tin-phosphor bronze strip according to claim 6, characterised in that,

the side wall of the first blocking piece (510) is provided with a plurality of guide grooves (511), and the center line of each guide groove (511) points to the central axis of the first blocking piece (510); and

the guide part comprises a guide cylinder (512) clamped in the guide groove (511), the waist part of the guide cylinder (512) is provided with a guide head (513), and the guide head (513) is provided with a joint slope surface (514) suitable for being jointed with the inner wall of the outer supporting sheet (310).

8. The winder of tin-phosphorus bronze band according to claim 1,

the end face of the second baffle plate (520) is provided with an inlet (523), and the inlet (523) is communicated with the inner ring space of the annular body.

9. A production process using the winder according to claim 8, comprising,

s1, sleeving the outer sleeve (400) outside the outer support parts (300);

s2, driving the driving motor (100) to drive the driving part (200) to rotate so as to wind the tin-phosphor bronze strip on the outer sleeve (400) and form a single-layer full cover on the outer wall of the outer sleeve (400);

s3, inserting the second blocking sheet (520) into the outer supporting parts (300);

s4, driving the driving part (200) to drive the outer supporting parts (300) to expand outwards to stretch the outer sleeve (400) tightly and clamp the second blocking piece (520);

and S5, continuously driving the driving motor (100) until the multilayer is fully rolled.

10. A production process using a winder as claimed in claim 9,

the production process of the winding machine further comprises the following steps:

s6, introducing a cooling gas into the inlet (523).