CN219567152U - Novel winding mechanism for spinning device - Google Patents

Abstract

A novel winding mechanism for a spinning device comprises a workbench plate, wherein a material disc rotating assembly and a yarn feeding assembly are arranged above the workbench plate; the material tray rotating assembly comprises a fixed block used for fixing the material tray and a driving motor in driving connection with the fixed block, and the driving motor can drive the fixed block to rotate relative to the working table plate; the yarn feeding assembly comprises yarn nozzles and yarn clamps which are arranged at intervals, a yarn passes through the yarn nozzles and is clamped on the yarn clamps, a translation cylinder is further connected below the yarn nozzles and the yarn clamps, and the yarn nozzles and the yarn clamps translate relative to the working table plate under the driving of the translation cylinder; the workbench plate also comprises a material tray feeding assembly which comprises a material tray track, a material tray frame and a material pushing block; the feeding assembly of the material tray is arranged, so that automatic feeding of the material tray is realized, the material tray is not required to be replaced by manual real-time observation, waste of human resources is effectively avoided, and the production efficiency is also obviously improved.

Description

Novel winding mechanism for spinning device

Technical Field

The utility model relates to the field of spinning devices, in particular to a novel winding mechanism for a spinning device.

Background

The principle of spinning is that a textile machine twists a number of animal and vegetable fibers together to spin threads or yarns, which can be used to weave a cloth. The earliest spinning machines were very simple in construction and were used in the beginning of the 14 th century. After the 18 th century, better spinning machines have been invented, which make the textile industry the first industry. All spinning machines do only two things: firstly, a large amount of short fibers are polymerized into loose cotton threads, then the cotton threads are slightly drawn out and twisted into fine cotton threads, and the cotton threads are lengthened after twisting;

with the continuous development of the industrial level, the existing textile enterprises start to replace the manual work with various automatic equipment in the spinning process, and the replacement covers all the spinning steps, wherein an automatic winding mechanism is adopted to wind the processed and formed yarn onto a material tray, so that the yarn is convenient to process by other subsequent mechanisms;

however, the winding mechanism in the existing spinning device has the same problem: that is, the tray can not realize automatic feeding, when one tray is fully wound with yarn to remove the next mechanism, a new tray needs to be manually replaced, so that workers need to stand beside the device for observation at any time, labor cost is consumed, and production efficiency is affected.

Disclosure of Invention

In order to overcome the defect that a winding mechanism of a spinning device cannot automatically replace a material tray in the prior art, the utility model provides a novel winding mechanism for the spinning device.

The technical scheme for solving the technical problems is as follows: a novel winding mechanism for a spinning device, comprising:

a material disc rotating assembly and a yarn feeding assembly are arranged above the working table plate;

the material tray rotating assembly comprises a fixed block used for fixing the material tray and a driving motor in driving connection with the fixed block, and the driving motor can drive the fixed block to rotate relative to the working table plate;

the yarn feeding assembly comprises yarn nozzles and yarn clamps which are arranged at intervals, a yarn passes through the yarn nozzles and is clamped on the yarn clamps, a translation cylinder is further connected below the yarn nozzles and the yarn clamps, and the yarn nozzles and the yarn clamps translate relative to the working table plate under the driving of the translation cylinder, so that the yarn is far away from or near to the material tray rotating assembly;

the working table plate also comprises:

the material tray feeding assembly is arranged on the other side of the material tray rotating assembly and comprises a material tray track, a material tray frame and a material pushing block;

one end of the tray rail is communicated with the tray rotating assembly, the upper surface of the tray rail is higher than the upper surface of the fixed block, and the tray can move towards the fixed block along the tray rail and finally fall onto the fixed block;

the tray rack is arranged on the upper side of the tray rail, the bottom of the tray rack is also provided with a discharge hole, the discharge hole is positioned right above the tray rail, and the trays in the tray rack fall onto the tray rail through the discharge hole;

the pushing block is movably arranged on the upper side of the tray rail, a pushing linear module is further arranged below the tray rail, the pushing block is fixedly connected to a sliding block of the pushing linear module, and the pushing block can move along the upper tray rail under the driving of the pushing linear module, so that the pushing block is far away from or close to the tray rotating assembly.

The structure of the tray rail is further that the tray rail is composed of two parallel rail strips, the two rail strips are provided with rail grooves for the tray to slide, and an anti-abrasion gap is reserved between the two rail strips.

The structure of the tray rail is further provided with an anti-abrasion pad, and the anti-abrasion pad is attached and fixed to the bottom of the rail groove and the groove wall.

When the tray moves on the tray rail under the action of the pushing block, only the edge of the lower side of the tray is in contact with and rubs against the tray rail due to the existence of the anti-abrasion gap, and the edge of the tray which rubs against the tray rail is not worn due to the arrangement of the anti-abrasion pad.

The structure of charging tray frame is further, the charging tray frame includes two backup pads of interval distribution from top to bottom, the discharge gate offer in the backup pad that is located the below, two the backup pad between still press from both sides and be equipped with a plurality of spinal branch daggers to the backup pad downside that is located the top still fixedly connected with a plurality of guide posts, the guide post falls down the setting downwards, thereby extends to discharge gate department.

When the trays are stored in the tray frame, the trays are stacked between the support columns layer by layer, and the trays positioned at the lowest layer enter the tray rail through the discharge hole; the guide post is inserted into the hole in the center of the material tray to prevent the material tray from deflecting in the process of storage and falling.

The feeding device comprises a feeding disc rotating assembly, a feeding disc feeding assembly, a feeding disc lifting assembly, a lifting cylinder and a lifting rod, wherein the feeding disc rotating assembly is communicated with the feeding disc feeding assembly; when the piston rod of the lifting cylinder is in an extending state, the height of the upper surface of the lifting block is consistent with the cover degree of the upper surface of the tray rail; when the piston rod of the lifting cylinder is in a contracted state, the height of the upper surface of the lifting block is lower than that of the upper surface of the fixing block.

When the tray is pushed to the tray rotating assembly along the tray track by the pushing block, the tray is pushed into the tray lifting assembly first and pushed to the upper side of the lifting block, and when the tray is positioned on the upper side of the lifting block, the piston of the lifting cylinder is switched from an extending state to a contracting state, so that the tray is driven to descend, and when the lifting block is lower than the fixed block, the tray is left on the fixed block due to the blocking of the fixed block.

The structure of the material disc rotating assembly is further characterized in that the material disc rotating assembly further comprises a rotating shaft penetrating through the bedplate, the driving motor is arranged on the lower side of the bedplate and is in transmission connection with the rotating shaft through a synchronous belt, the fixed block is fixedly connected to the top of the rotating shaft, and a plurality of limiting protrusions are further arranged on the top of the fixed block in a protruding mode.

In the use process of the tray rotating assembly, the limiting protrusions at the top of the fixed block can be matched in the holes of the tray, so that the tray can rotate along with the driving motor in the process of driving the fixed block to rotate.

The structure of the material disc rotating assembly is further improved, the material disc rotating assembly further comprises a clamping cylinder arranged above the fixed block in an erected mode, a piston rod of the clamping cylinder is fixedly connected with a clamping block, the clamping block is suspended above the fixed block, and the clamping block can be driven by the clamping cylinder to be far away from or close to the fixed block.

After the material disc is fixed on the fixed block, the clamping cylinder can drive the clamping block to press downwards, so that the clamping block and the fixed block form a fit to clamp the material disc between the clamping block and the fixed block, and the material disc is prevented from jumping up and down in the process that the material disc is driven by the material disc rotating assembly to rotate.

The yarn feeding mechanism further comprises a connecting plate, the yarn nozzle and the yarn clamp are both arranged on the connecting plate in an erected mode, and a piston rod of the translation cylinder is connected with the connecting plate; the yarn clamp is fixedly connected to a sliding block of the yarn clamping linear module and can be driven by the yarn clamping linear module to approach or separate from the yarn nozzle; and a plurality of wire guide wheels are further arranged on one side of the connecting plate, which is positioned on the yarn nozzle.

In the yarn feeding process, the yarn processed by other mechanisms of the spinning device firstly enters the yarn nozzle through the guide of the wire guide wheel and is output from the front end of the yarn nozzle, the yarn clamp is driven by the linear yarn clamping module to be close to the yarn nozzle and clamps the yarn output from the front end of the yarn nozzle, and then the yarn clamp is driven by the linear yarn clamping module to retract along with the yarn clamp, so that the yarn can be pulled by the yarn clamp and straightened between the yarn nozzle and the yarn clamp.

The material plate is further provided with a material plate ejection assembly, the material plate ejection assembly comprises an ejection cylinder and an ejection plate, the ejection plate is fixedly connected to a piston rod of the ejection cylinder, and the ejection cylinder is arranged on one side of the material plate rotation assembly; when the ejection cylinder is in a contracted state, the upper surface of the ejection plate is higher than the upper surface of the fixed block; when the ejection cylinder is in an extending state, the upper surface of the ejection plate is lower than the upper surface of the fixed block.

After the yarn is fully wound on the material disc, the piston rod of the ejection cylinder extends out to drive the ejection plate to rise, the material disc is ejected from the fixed block, and a follow-up mechanism of the spinning device is convenient to take the material disc.

The winding process of the utility model comprises the following steps: firstly, the trays in the lowest layer in the stacking tray frame fall onto a tray track, then the pushing linear module drives the pushing block to move, so that the trays are pushed to move onto the lifting block along the tray track, then the lifting cylinder piston rod is contracted, the trays fall along with the lifting block until being fixed onto the fixed block, and then the piston rod of the clamping cylinder is extended out to enable the clamping block to descend, and form a fit with the fixed block to clamp the trays;

the yarn is input into the yarn feeding assembly from other mechanisms of the spinning device at the same time in the process, and is pulled to be straightened between the yarn nozzle and the yarn clamp, then the piston rod of the translation cylinder stretches out to drive the yarn nozzle and the yarn clamp to approach towards the fixed block, and the yarn between the yarn nozzle and the yarn clamp is straightened to be close to the yarn clamp and finally contacts the material tray;

finally, as the driving motor is started, the rotating shaft rotates to drive the fixed fast-upper material tray to rotate along with the fixed fast-upper material tray, yarns contacted with the fixed fast-upper material tray are pulled to the material tray by the rotation of the material tray, the ends of the yarns are loosened by the yarn nozzle at the moment, the yarns are gradually wound on the material tray along with the rotation of the material tray, after the material tray is wound and wound with the full yarns, the yarns are cut off, the piston rod of the ejection cylinder stretches out along with the yarn, and the ejection plate is driven to jack the material tray, so that the material taking of a subsequent mechanism is facilitated.

The utility model has the beneficial effects that:

1. the automatic feeding device has the advantages that the feeding assembly of the material tray is arranged, so that automatic feeding of the material tray is realized, the material tray is not required to be replaced by manual real-time observation, the waste of human resources is effectively avoided, and the production efficiency is also obviously improved;

2. the anti-abrasion gap and the anti-abrasion gasket are arranged on the tray rail, so that the tray is prevented from being abraded in the feeding process through the tray rail;

3. a material tray lifting assembly is further arranged between the material tray feeding assembly and the material tray rotating assembly, and the material tray can be stably dropped onto the fixed block under the assistance of the material tray lifting assembly, so that the material tray feeding process is stable;

4. the feeding device is further provided with a feeding disc ejection mechanism, when yarns are wound on the feeding disc, the feeding disc is ejected out of the fixed block by the feeding disc ejection mechanism, and feeding of the follow-up mechanism becomes more convenient and rapid.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the tray feeding assembly of the present utility model.

Fig. 3 is an exploded view of the tray loading assembly of the present utility model.

Fig. 4 is a schematic view of the structure of the tray rotation assembly of the present utility model.

Fig. 5 is a schematic structural view of the tray lifting assembly of the present utility model.

Fig. 6 is a schematic structural view of the yarn feeding assembly of the present utility model.

Fig. 7 is a schematic structural view of the tray ejection assembly of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It will be understood that, although the terms upper, middle, lower, top, end, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another for ease of understanding and are not used to define any directional or sequential limitation.

Example 1

The novel winding mechanism for the spinning device comprises a workbench plate 1, wherein a material disc rotating assembly 2 and a yarn feeding assembly 3 are arranged above the workbench; the material tray rotating assembly 2 comprises a fixed block 4 for fixing a material tray and a driving motor 5 in driving connection with the fixed block 4, wherein the driving motor 5 can drive the fixed block 4 to rotate relative to the workbench plate 1; the yarn feeding assembly 3 comprises a yarn nozzle 6 and a yarn clamp 7 which are arranged at intervals, a yarn passes through the yarn nozzle 6 and is clamped on the yarn clamp 7, a translation cylinder 8 is also connected below the yarn nozzle 6 and the yarn clamp 7, and the yarn nozzle 6 and the yarn clamp 7 translate relative to the workbench plate 1 under the drive of the translation cylinder 8 so as to be far away from or close to the material disc rotating assembly 2; the workbench plate 1 further comprises a material tray feeding assembly 9, wherein the material tray feeding assembly 9 is arranged on the other side of the material tray rotating assembly 2 and comprises a material tray track 10, a material tray frame 11 and a material pushing block 12; one end of the tray rail 10 is communicated with the tray rotating assembly 2, and the upper surface of the tray rail 10 is higher than the upper surface of the fixed block 4, so that the tray can move towards the fixed block 4 along the tray rail 10 and finally fall onto the fixed block 4; the tray rack 11 is arranged on the upper side of the tray rail 10, a discharge hole 13 is further formed in the bottom of the tray rack 11, the discharge hole 13 is located right above the tray rail 10, and trays in the tray rack 11 fall onto the tray rail 10 through the discharge hole 13; the pushing block 12 is movably arranged on the upper side of the tray rail 10, a pushing linear module 14 is further arranged below the tray rail 10, the pushing block 12 is fixedly connected to a sliding block of the pushing linear module 14, and the pushing block 12 can move along the upper tray rail under the driving of the pushing linear module 14, so that the pushing block 12 is far away from or near to the tray rotating assembly 2.

In this embodiment, the tray rail 10 is composed of two parallel rail strips 15, two rail strips 15 are provided with rail grooves 16 for sliding the tray, and an anti-wear gap 17 is left between the two rail strips 15.

In this embodiment, the track strip 15 is further provided with an anti-wear pad 18, and the anti-wear pad 18 is attached and fixed on the bottom and the wall of the track groove 16.

In this embodiment, when the tray moves on the tray rail 10 under the action of the pushing block 12, only the edge of the lower side of the tray is in contact with and rubs against the tray rail 10 due to the anti-wear gap 17, and the edge of the tray that rubs against the tray rail 10 is not worn due to the anti-wear pad 18.

In this embodiment, the tray rack 11 includes two support plates 19 that are vertically spaced apart, the discharge port 13 is formed on the support plate 19 located below, a plurality of support columns 20 are further sandwiched between the two support plates 19, and a plurality of guide columns 21 are further fixedly connected to the lower side of the support plate 19 located above, and the guide columns 21 are vertically arranged so as to extend to the discharge port 13.

In this embodiment, when the trays are stored in the tray rack 11, the trays are stacked layer by layer between the support columns 20, and the trays at the lowest layer enter the tray rail 10 through the discharge hole 13; the guide post is inserted into the hole in the center of the material tray to prevent the material tray from deflecting in the process of storage and falling.

In this embodiment, a tray lifting assembly 22 is further disposed between the tray rotating assembly 2 and the tray feeding assembly 9, the tray lifting assembly 22 includes a lifting block 23, and a lifting cylinder 24 located below the lifting block 23, and a piston rod of the lifting cylinder 24 is connected to the lifting block 23; when the piston rod of the lifting cylinder 24 is in an extending state, the height of the upper surface of the lifting block 23 is consistent with the coverage of the upper surface of the tray rail 10; when the piston rod of the lifting cylinder 24 is in a contracted state, the height of the upper surface of the lifting block 23 is lower than that of the upper surface of the fixed block 4.

In this embodiment, when the tray is pushed by the pushing block along the tray rail 10 toward the tray rotating assembly 2, the tray is pushed into the tray lifting assembly 22 first and pushed to the upper side of the lifting block 23, and when the tray is located on the upper side of the lifting block 23, the piston of the lifting cylinder 24 is switched from the extended state to the contracted state, so that the tray is driven to descend, and when the lifting block 23 is lower than the fixed block 4, the tray is retained on the fixed block 4 due to the blocking of the fixed block 4.

In this embodiment, the material tray rotating assembly 2 further includes a rotating shaft 25 penetrating through the platen, the driving motor 5 is disposed on the lower side of the platen, and is in transmission connection with the rotating shaft 25 through a synchronous belt, the fixing block 4 is fixedly connected to the top of the rotating shaft 25, and a plurality of limiting protrusions 26 are further protruding from the top of the fixing block 4.

In this embodiment, in the use process of the tray rotating assembly 2, the limiting protrusion 26 at the top of the fixed block 4 can be matched in the hole of the tray, so that the tray can rotate along with the rotation process of the fixed block 4 driven by the driving motor 5.

In this embodiment, the tray rotating assembly 2 further includes a clamping cylinder 27 that is set up above the fixed block 4, a piston rod of the clamping cylinder 27 is fixedly connected with a clamping block 28, and the clamping block 28 is suspended above the fixed block 4 and can be driven by the clamping cylinder 27 to be far away from or near the fixed block 4.

In this embodiment, the use process of the tray rotating assembly 2 is further refined, and after the tray is fixed on the fixing block 4, the clamping cylinder 27 can drive the clamping block 28 to press down, so that the clamping block 28 and the fixing block 4 form a fit to clamp the tray between the clamping block and the fixing block, and the tray is prevented from jumping up and down in the process that the tray is driven by the tray rotating assembly 2 to rotate.

In this embodiment, the yarn feeding mechanism includes a connection plate 29, the yarn nozzle 6 and the yarn clamp 7 are both arranged on the connection plate 29, and a piston rod of the translation cylinder 8 is connected with the connection plate 29; the connecting plate 29 is fixedly provided with a linear yarn clamping module 30, and the yarn clamp 7 is fixedly connected to a sliding block of the linear yarn clamping module 30 and can be driven by the linear yarn clamping module 30 to approach or separate from the yarn nozzle 6; a plurality of wire guide wheels 31 are further arranged on one side of the connecting plate 29, which is positioned on the yarn nozzle 6.

In the yarn feeding process in this embodiment, the yarn processed by the other mechanisms of the spinning device is guided by the guide wheel 31 to enter the yarn nozzle 6 and is output from the front end of the yarn nozzle 6, the yarn clamp 7 is driven by the yarn clamping linear module 30 to approach the yarn nozzle 6, the yarn clamp 7 output from the front end of the yarn nozzle 6 is clamped, and then the yarn is pulled by the yarn clamp 7 and straightened between the yarn nozzle 6 and the yarn clamp 7 along with the back of the yarn clamp 7 driven by the yarn clamping linear module 30.

In this embodiment, the table plate 1 is further provided with a tray ejection assembly 32, the tray ejection assembly 32 includes an ejection cylinder 33 and an ejection plate 34, the ejection plate 34 is fixedly connected to a piston rod of the ejection cylinder 33, and the ejection cylinder 33 is disposed at one side of the tray rotation assembly 2; when the ejection cylinder 33 is in a contracted state, the upper surface of the ejection plate 34 is higher than the upper surface of the fixed block 4; when the ejector cylinder 33 is in the extended state, the upper surface of the ejector plate 34 is lower than the upper surface of the fixed block 4.

In this embodiment, after the yarn is fully wound on the tray, the piston rod of the ejection cylinder 33 extends to drive the ejection plate 34 to rise, so as to jack the tray from the fixed block 4, and facilitate the subsequent mechanism of the spinning device to take out the tray.

The winding process of this embodiment: firstly, the trays in the lowest layer in the trays stacked in the tray rack 11 fall onto the tray rail 10, then the pushing linear module 14 drives the pushing block 12 to move, so that the trays are pushed to move onto the lifting block 23 along the tray rail 10, then the piston rods of the lifting cylinders 24 are contracted, the trays fall along with the lifting block 23 until being fixed onto the fixed block 4, and then the piston rods of the clamping cylinders 27 extend out to enable the clamping blocks 28 to fall along with the lifting block 23, and form a fit with the fixed block 4 to clamp the trays;

while the yarn is input into the yarn feeding component 3 from other mechanisms of the spinning device, and is pulled to be straightened between the yarn nozzle 6 and the yarn clamp 7, then the piston rod of the translation cylinder 8 stretches out to drive the yarn nozzle 6 and the yarn clamp 7 to approach the fixed block 4, and the yarn between the yarn nozzle 6 and the yarn clamp is straightened to be similar to the yarn between the yarn nozzle 6 and the yarn clamp and finally contacts the material disc;

finally, as the driving motor 5 is started, the rotating shaft 25 rotates to drive the fixed fast-feeding tray to rotate along with the fixed fast-feeding tray, the yarn contacted with the fixed fast-feeding tray is pulled to the tray by the rotation of the tray, the yarn nozzle 6 at the moment loosens the end part of the yarn, the yarn is gradually wound on the tray along with the rotation of the tray, after the yarn is wound on the tray and fully wound, the yarn is cut off, the piston rod of the ejection cylinder 33 also stretches out along with the yarn, and the ejection plate 34 is driven to jack the tray, so that the material of a subsequent mechanism is conveniently taken.

The advantages of this embodiment are: be provided with charging tray feed mechanism, realize the full-automatic material loading of charging tray, replaced the mode of manual work change charging tray completely, effectively saved the human cost and improved production efficiency.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (9)

1. A novel winding mechanism for a spinning device, comprising:

a material disc rotating assembly (2) and a yarn feeding assembly (3) are arranged above the working table plate (1);

the material disc rotating assembly (2) comprises a fixed block (4) for fixing the material disc and a driving motor (5) in transmission connection with the fixed block (4), wherein the driving motor (5) can drive the fixed block (4) to rotate relative to the working table plate (1);

yarn feeding components (3) comprise yarn nozzles (6) and yarn clamps (7) which are arranged at intervals, a silk thread passes through the yarn nozzles (6) and is clamped on the yarn clamps (7), a translation cylinder (8) is further connected below the yarn nozzles (6) and the yarn clamps (7), and the yarn nozzles (6) and the yarn clamps (7) translate relative to the workbench plate (1) under the driving of the translation cylinder (8), so that the yarn feeding components are far away from or close to the feeding plate rotating components (2);

the utility model is characterized in that the working table plate (1) further comprises:

the material tray feeding assembly (9) is arranged on the other side of the material tray rotation assembly (2) and comprises a material tray track (10), a material tray frame (11) and a pushing block (12);

one end of the tray rail (10) is communicated with the tray rotating assembly (2), the upper surface of the tray rail (10) is higher than the upper surface of the fixed block (4), and the tray can move towards the fixed block (4) along the tray rail (10) and finally fall onto the fixed block (4);

the tray rack (11) is arranged on the upper side of the tray rail (10), a discharge hole (13) is formed in the bottom of the tray rack (11), the discharge hole (13) is positioned right above the tray rail (10), and a tray in the tray rack (11) falls onto the tray rail (10) through the discharge hole (13);

the pushing block (12) is movably arranged on the upper side of the tray rail (10), a pushing linear module (14) is further arranged below the tray rail (10), the pushing block (12) is fixedly connected to a sliding block of the pushing linear module (14), and the pushing block (12) can move along the upper tray rail under the driving of the pushing linear module (14), so that the pushing block (12) is far away from or close to the tray rotating assembly (2).

2. A novel winding mechanism for a spinning device according to claim 1, wherein: the tray rail (10) is composed of two parallel rail strips (15), rail grooves (16) for feeding trays to slide are formed in the two rail strips (15), and an anti-abrasion gap (17) is reserved between the two rail strips (15).

3. A novel winding mechanism for a spinning device according to claim 2, wherein: the rail strip (15) is also provided with an anti-abrasion pad (18), and the anti-abrasion pad (18) is adhered and fixed on the bottom and the wall of the rail groove (16).

4. A novel winding mechanism for a spinning device according to claim 1, wherein: the tray frame (11) comprises two supporting plates (19) which are vertically distributed at intervals, the discharge hole (13) is formed in the supporting plate (19) located below, a plurality of supporting columns (20) are further clamped between the two supporting plates (19), a plurality of guide columns (21) are fixedly connected to the lower side of the supporting plate (19) located above, and the guide columns (21) drop downwards to extend to the discharge hole (13).

5. A novel winding mechanism for a spinning device according to claim 1, wherein: a tray lifting assembly (22) is further arranged between the tray rotating assembly (2) and the tray feeding assembly (9), the tray lifting assembly (22) comprises a lifting block (23) and a lifting cylinder (24) positioned below the lifting block (23), and a piston rod of the lifting cylinder (24) is connected with the lifting block (23); when the piston rod of the lifting cylinder (24) is in an extending state, the height of the upper surface of the lifting block (23) is consistent with the coverage of the upper surface of the tray rail (10); when the piston rod of the lifting cylinder (24) is in a contracted state, the height of the upper surface of the lifting block (23) is lower than that of the upper surface of the fixed block (4).

6. A novel winding mechanism for a spinning device according to claim 1, wherein: the material disc rotating assembly (2) further comprises a rotating shaft (25) penetrating through the bedplate, the driving motor (5) is arranged on the lower side of the bedplate and is in transmission connection with the rotating shaft (25) through a synchronous belt, the fixed block (4) is fixedly connected to the top of the rotating shaft (25), and a plurality of limiting protrusions (26) are further arranged on the top of the fixed block (4) in a protruding mode.

7. A novel winding mechanism for a spinning device according to claim 6, wherein: the material disc rotating assembly (2) further comprises a clamping air cylinder (27) arranged above the fixed block (4), a piston rod of the clamping air cylinder (27) is fixedly connected with a clamping block (28), and the clamping block (28) is suspended above the fixed block (4) and can be driven by the clamping air cylinder (27) to be far away from or close to the fixed block (4).

8. A novel winding mechanism for a spinning device according to claim 1, wherein: the yarn feeding mechanism comprises a connecting plate (29), the yarn nozzle (6) and the yarn clamp (7) are both arranged on the connecting plate (29), and a piston rod of the translation cylinder (8) is connected with the connecting plate (29); the connecting plate (29) is fixedly provided with a thread clamping linear module (30), and the yarn clamp (7) is fixedly connected to a sliding block of the thread clamping linear module (30) and can be driven by the thread clamping linear module (30) to approach or separate from the yarn nozzle (6); a plurality of wire guide wheels (31) are further arranged on one side of the connecting plate (29) located at the yarn nozzle (6).

9. A novel winding mechanism for a spinning device according to claim 1, wherein: the workbench plate (1) is also provided with a tray ejection assembly (32), the tray ejection assembly (32) comprises an ejection cylinder (33) and an ejection plate (34), the ejection plate (34) is fixedly connected to a piston rod of the ejection cylinder (33), and the ejection cylinder (33) is arranged on one side of the tray rotation assembly (2); when the ejection cylinder (33) is in a contracted state, the upper surface of the ejection plate (34) is higher than the upper surface of the fixed block (4); when the ejection cylinder (33) is in an extended state, the upper surface of the ejection plate (34) is lower than the upper surface of the fixed block (4).