CN117735336B - Winding device is adjusted to weaving yarn - Google Patents

Abstract

The invention discloses a textile yarn regulating and winding device, and relates to the technical field of textile equipment. According to the textile yarn regulating and winding device, the winding mechanism is arranged, so that the winding mechanism can be driven to integrally rotate by using the power mechanism, and a plurality of winding units jointly form a winding whole, so that the purpose of winding the textile yarn on the surface of the winding mechanism is realized; secondly, be split type design between winding mechanism and power unit, the manual adjustment mechanism, can dismantle after the winding of weaving yarn is accomplished to be convenient for transport and subsequent use to the weaving yarn. Through setting up a plurality of winding units in winding mechanism, can utilize the position of adjusting unit synchronous adjustment a plurality of winding units on plectane one and plectane two to can realize that the purpose that spinning yarn adjusted coiling device can nimble adjust self winding radius, and then reach the work that is applicable to different radius specification spinning yarn winding, improve the practicality.

Description

Winding device is adjusted to weaving yarn

Technical Field

The invention relates to the technical field of textile equipment, in particular to a textile yarn regulating and winding device.

Background

Yarns are yarns used in textile manufacture and are typically made of fibrous materials such as cotton, wool, silk, hemp, chemical fibers, and the like. Textile yarns can be divided into different specifications and varieties according to different textile processes and purposes, such as roving, spun yarn, elastic yarn, colored yarn and the like. In the yarn production process, the formed yarn is required to be wound by a winding roller so as to facilitate the transportation and utilization of the follow-up yarn.

The size of the outer diameter of the yarn winding roller directly affects the tension and winding density when the yarn is wound, so that the appropriate outer diameter of the yarn winding roller needs to be determined according to the yarn diameter specification, so that the outer diameter of the yarn winding drum and the yarn diameter specification are matched to ensure uniformity and stability of yarn winding.

Referring to a yarn winding mechanism for automatic winder of chinese patent publication No. CN114212613a, through the pendulous device that sets up, can drive the yarn and swing improvement yarn winding degree of consistency, can adjust the height according to the thickness self-adaptation of yarn on the coiling barrel through the coiling device that sets up, the inside tensioning subassembly that is provided with of coiling device guarantees that the loose even condition of unreeling can not take place for the line body.

Referring to a yarn winding device with a Chinese patent publication number of CN205739740U, the rotation of a winding roller is controlled through a rotating motor, and the first photoelectric sensor and the first photoelectric stop block are matched, the second photoelectric sensor and the second photoelectric stop block are matched for limiting, so that the winding roller is controlled to reciprocate left and right, the yarn is ensured to be uniformly arranged on the winding roller, the tension is uniform, and the product quality is improved. Through setting up buffer, play certain protection cushioning effect to equipment, increase equipment's life, and simple structure, convenient operation is fit for using widely.

The above patents were analyzed comprehensively to obtain the following drawbacks:

The winding diameter of the existing yarn winding device is a fixed value, so that the yarn winding device can only be suitable for winding yarns with single specification, cannot be suitable for yarn winding and winding works with different thicknesses, limits the application range of the yarn winding device, and for example, the yarn winding mechanism for the automatic winder with the reference to China patent publication No. CN114212613A cannot be adjusted in the outer diameter of the winding device and cannot be suitable for yarn winding with different outer diameter sizes, so that the application range of the device is narrowed.

In addition, the existing yarn winding equipment is inconvenient to take out the yarn winding drum after winding, brings inconvenience to storage and transportation of the yarn, and increases risks of the yarn in the transportation and storage processes. For example, referring to a yarn winding device with a chinese patent publication No. CN205739740U, the spindle is connected with the support through the nut, and the winding roller can be disassembled only after disassembling the bolt by using tools such as a wrench when disassembling the winding roller, so that the disassembling and installing processes are very complicated.

Accordingly, the present invention proposes a textile yarn regulating winding device to solve the above-mentioned problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a spinning yarn regulating and winding device, which solves the problems that the winding diameter of the existing yarn winding equipment is a fixed value, the yarn winding device is only suitable for winding yarns with single specification, the yarn winding and winding operation cannot be adapted to yarns with different thicknesses, the application range of the yarn winding equipment is limited, the yarn winding equipment is inconvenient to independently take out the wound yarn winding barrels, inconvenience is brought to storage and transportation of the yarns, and the risks of the yarns in the transportation and storage processes are increased.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the winding device for adjusting the textile yarns comprises a first side plate and a second side plate which are oppositely arranged left and right, wherein a winding mechanism for winding the textile yarns is arranged between the opposite side walls of the first side plate and the second side plate, a power mechanism for installing and driving the winding mechanism to rotate is arranged on the side wall of the first side plate close to the second side plate, and a manual adjusting mechanism for adjusting the winding radius of the winding mechanism is arranged on the side wall of the second side plate;

The winding mechanism comprises a first rotating disc unit and a second rotating disc unit which are oppositely arranged left and right, a plurality of winding units for winding the textile yarns and an adjusting unit for synchronously adjusting the positions of the winding units on the first rotating disc unit and the second rotating disc unit are uniformly arranged on the opposite side walls of the first rotating disc unit and the second rotating disc unit, and the adjusting power mechanism and the manual adjusting mechanism are matched together and used for switching the winding mechanism from a state of integrally winding the textile yarns to a state of independently winding the textile yarns by each winding unit.

Preferably, the first rotating disc unit comprises a circular plate I, a cross guide hole formed in the center of the outer wall of the circular plate I and a positioning through groove formed in the side wall of the circular plate I, a plurality of lifting sliding grooves I are uniformly formed in the side wall of the circular plate I, lifting components I for installing the winding unit are arranged in the lifting sliding grooves I in a sliding mode, supporting rods used for being connected with the adjusting unit are rotatably arranged on the side wall of the lifting components I, and limiting rods matched with the positioning through groove in structure are detachably arranged at fixed positions of the side wall of the side plate I.

Preferably, the second turntable unit comprises a second circular plate and a second lifting chute which is uniformly arranged on the outer wall of the second circular plate and corresponds to the first lifting chute in a one-to-one mode, a second lifting assembly for installing the winding unit is arranged in the second lifting chute in a sliding mode, and a push rod with the same structure as the support rod is arranged on the side wall of the second lifting assembly in a rotating mode.

Preferably, the adjusting unit comprises a bidirectional screw rod, a bearing sleeve I and a bearing sleeve II which are symmetrically sleeved on two sides of the outer wall of the bidirectional screw rod, one end, close to the second turntable unit, of the bidirectional screw rod is fixedly connected with a gear II, and a power switching assembly is sleeved on the outer wall of the other end of the bidirectional screw rod through threads.

Preferably, the first lifting component comprises a sliding block arranged in the first lifting sliding groove, a rotating shaft arranged at the top of the sliding block and a first gear fixedly arranged at one end of the rotating shaft, wherein the rotating shaft is far away from the outer wall of the first gear, a limiting tooth slot is uniformly formed in the inner wall of the regulating slot, a limiting block is fixedly arranged on the inner wall of the regulating slot, a sleeve is sleeved on the outer wall of the rotating shaft in a sliding manner, a first magnet ring is fixedly sleeved on the outer wall of the sleeve, and the first lifting component and the second lifting component are identical in other structures except for the first gear structure.

Preferably, the power switching assembly comprises a cross guide rod which is slidably connected in the cross guide hole, two ends of the cross guide rod are fixedly connected with a thread bush and a power adaptor respectively, and the thread bush is arranged on the outer wall of the bidirectional screw rod through the thread bush.

Preferably, the winding unit comprises a winding drum, a gear III and a magnet ring II which are fixedly connected to two ends of the winding drum, a plurality of square through grooves communicated with the inside of the winding drum are uniformly formed in the outer wall of the winding drum, a height adjusting plate unit for changing the winding radius of the winding drum is slidably arranged in the square through grooves, a transmission assembly for adjusting the position of the height adjusting plate unit is arranged on one side of the inner wall of the winding drum, and a power assembly for conveying power to the transmission assembly is arranged on the other side of the inner wall of the winding drum.

Preferably, the height adjusting plate unit comprises a rectangular square block which is in sliding connection with the inside of the square through groove and a lifting sleeve which is fixedly connected with the side wall of the rectangular square block, the transmission assembly comprises a first supporting arm fixedly connected with the inner wall of the winding drum, a plurality of mounting plates which are uniformly and fixedly arranged at one end of the supporting arm, and a unidirectional screw rod which is rotationally connected with the inside of the mounting plates, one end of the unidirectional screw rod is fixedly provided with a bevel gear, the power assembly comprises a second supporting arm fixedly connected with the side wall of the winding drum and a bevel gear which is fixedly connected with one end of the supporting arm and is meshed with the bevel gear, a worm wheel is fixedly sleeved on the outer wall of the second supporting arm, a worm is connected with the outer wall of the worm wheel in a meshed manner, and a knob is fixedly arranged at the top end of the worm.

Preferably, the power mechanism comprises a servo motor fixedly connected to one side wall of the side plate, a power connecting sleeve fixedly connected to one end of an output shaft of the servo motor, and a gear ring arranged on one side of the servo motor, wherein a supporting frame is fixedly arranged on the outer wall of the gear ring, and the supporting frame is fixedly sleeved on the output shaft of the servo motor.

Preferably, the manual adjustment mechanism comprises a transmission shaft rotationally connected to the inside of the side plate II, one end of the transmission shaft is fixedly connected with a hand wheel, the other end of the transmission shaft is fixedly provided with a half-tooth cylinder I, and the top of the half-tooth cylinder I is detachably provided with a half-tooth cylinder II through a bolt.

Advantageous effects

The invention provides a textile yarn regulating and winding device. Compared with the prior art, the method has the following beneficial effects:

1. A winding mechanism for winding textile yarns is arranged between opposite side walls of a first side plate and a second side plate, a power mechanism for installing and driving the winding mechanism to rotate is arranged on the side wall of the first side plate close to the second side plate, a manual adjusting mechanism for adjusting the winding radius of the power mechanism to provide power is arranged on the side wall of the second side plate, the problem that the winding diameter of the existing yarn winding device is a fixed value, only yarns with single specification can be wound, the winding device cannot be suitable for yarn winding and winding works with different thicknesses is solved, the application range of the yarn winding device is limited, the yarn winding device cannot take out the wound yarn winding tube independently, inconvenience is brought to storage and transportation of the yarns, and the risk of the yarns in transportation and storage processes is increased.

2. The winding device for regulating the textile yarns is provided with a winding mechanism, and the winding mechanism can be driven to integrally rotate by utilizing a power mechanism, and a plurality of winding units jointly form a winding whole, so that the purpose of winding the textile yarns on the surface of the winding mechanism is realized; secondly, be split type design between winding mechanism and power unit, the manual adjustment mechanism, can dismantle after the winding of weaving yarn is accomplished to be convenient for transport and subsequent use to the weaving yarn.

3. The utility model provides a weaving yarn adjusts coiling mechanism, through setting up a plurality of coiling units in the coiling mechanism, can utilize the position of a plurality of coiling units on plectane and plectane two to adjust simultaneously, bear the weight of cover one and bear when cover two keep away from each other promptly, can make the interval increase between a plurality of coiling units, even make the coiling radius increase of coiling mechanism, otherwise bear when cover one and bear the weight of cover two and be close to each other, the interval between the coiling units reduces, the coiling radius of coiling mechanism reduces, thereby can realize that weaving yarn adjusts coiling device can nimble adjust self coiling radius's purpose, and then reach the work that is applicable to different radius specification weaving yarn and wind, the practicality is improved, be favorable to the popularization and use of this invention.

4. The utility model provides a weaving yarn adjusts coiling mechanism, through setting up adjusting unit, coiling unit and manual adjustment mechanism and power unit, when needing to use great winding radius, utilize manual adjustment mechanism to realize the power switching module and power unit's connection, the power of power unit output can drive the whole rotation of winding mechanism to can utilize the great winding radius of winding mechanism to carry out the work of rolling weaving yarn; secondly, the separation of the power switching component and the power mechanism is realized through the manual adjusting mechanism, and when the first gears are meshed and connected with the gear ring, the winding unit is in a working state of independently winding the textile yarns, and the winding radius of the winding unit is smaller, so that the winding unit can be suitable for winding the textile yarns with smaller radius specifications; furthermore, be split type design between coiling unit and lifting unit one, the lifting unit two, accomplish the rolling textile yarn work back at the coiling unit, can dismantle the coiling unit from lifting unit one, lifting unit two and separate, accomodate or transport every coiling unit alone to avoided accomodating, the circumstances of transportation to winding mechanism is whole, reduced transportation degree of difficulty and cost of transportation.

5. The winding unit is arranged, the worm can be used for driving the worm wheel to drive the helical gear disc to rotate, so that a plurality of bevel gears can be driven, the lifting sleeve can ascend or descend along the square through groove under the driving of the unidirectional screw, the winding radius of the winding drum is changed, and the winding work of the textile yarns which are suitable for different radius specifications is realized; secondly, can realize the auto-lock between the worm gear, after accomplishing rectangular square piece position adjustment, can avoid its condition that changes self position under the exogenic action.

6. The utility model provides a coiling mechanism is adjusted to weaving yarn, the winding unit is through setting up the gear three to gear three and adjustment tank, sleeve cooperation use, realize the locking to the position of gear three jointly, and can realize the quick locking to gear three and dismantle the work fast, be convenient for the change to the winding unit, reach the purpose that can the quick replacement next winding unit after the winding unit rolling is accomplished.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view showing a winding mechanism in a disassembled state;

FIG. 3 is a schematic view showing a disassembled state of the winding unit according to the present invention;

FIG. 4 is a schematic view showing a gear I and ring gear separated state structure according to the present invention;

FIG. 5 is a schematic side view showing the state that the winding unit of the present invention winds yarns independently;

FIG. 6 is an exploded perspective view of the winding mechanism of the present invention;

FIG. 7 is a schematic view of a lifting assembly according to the present invention;

FIG. 8 is a schematic diagram of a power switching assembly according to the present invention;

FIG. 9 is a schematic view showing an exploded state of the winding unit according to the present invention;

FIG. 10 is an enlarged schematic view of the portion B of FIG. 9 according to the present invention;

FIG. 11 is a first schematic view of a power mechanism according to the present invention;

FIG. 12 is an enlarged schematic view of the portion C of FIG. 11 in accordance with the present invention;

FIG. 13 is a second schematic view of the power mechanism of the present invention;

FIG. 14 is a schematic view showing the structure of the manual adjustment mechanism of the present invention in an exploded state;

fig. 15 is an enlarged schematic view of the portion a in fig. 4 according to the present invention.

In the figure: 1. a first side plate; 2. a second side plate; 3. a winding mechanism; 31. a circular plate I; 32. a cross-shaped guide hole; 33. positioning through grooves; 34. lifting a first chute; 35. a lifting assembly I; 351. a slide block; 352. a rotating shaft; 353. a first gear; 354. an adjustment tank; 355. a limiting block; 356. a sleeve; 357. a first magnet ring; 36. a support rod; 37. a circular plate II; 38. lifting sliding grooves II; 39. lifting assembly II; 310. a bidirectional screw; 311. the bearing sleeve I; 312. a bearing sleeve II; 313. a second gear; 314. a power switching assembly; 3141. a cross guide bar; 3142. a thread sleeve; 3143. a power adaptor; 315. a winding unit; 3151. a winding drum; 3152. a third gear; 3153. a second magnet ring; 3154. square through groove; 3155. rectangular square blocks; 3156. a lifting sleeve; 3157. a first supporting arm; 3158. a mounting plate; 3159. a unidirectional screw; 31510. bevel gears; 31511. a second supporting arm; 31512. a bevel gear disk; 31513. a worm wheel; 31514. a worm; 31515. a knob; 4. a power mechanism; 41. a servo motor; 42. a power connecting sleeve; 43. a gear ring; 44. a support frame; 5. a manual adjustment mechanism; 51. a transmission shaft; 52. a hand wheel; 53. a half-tooth cylinder I; 54. and a second half tooth cylinder.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 15, the present invention provides two technical solutions: a textile yarn regulating and winding device, comprising the following embodiments in detail:

Embodiment one: the spinning yarn adjusting and winding device comprises a side plate I1 and a side plate II 2 which are oppositely arranged left and right, a winding mechanism 3 for winding the spinning yarn is arranged between opposite side walls of the side plate I1 and the side plate II 2, a power mechanism 4 for installing and driving the winding mechanism 3 to rotate is arranged on the side wall, close to the side plate II 2, of the side plate I1, and a manual adjusting mechanism 5 for adjusting the winding radius of the winding mechanism 3 is arranged on the side wall of the side plate II 2; the winding mechanism 3 comprises a first turntable unit and a second turntable unit which are oppositely arranged left and right, a plurality of winding units 315 for winding the textile yarns and an adjusting unit for synchronously adjusting the positions of the winding units 315 on the first turntable unit and the second turntable unit are uniformly arranged on the opposite side walls of the first turntable unit and the second turntable unit, and the adjusting power mechanism 4 and the manual adjusting mechanism 5 are matched together and are used for switching the winding mechanism 3 from a state of integrally winding the textile yarns to a state of independently winding the textile yarns by each winding unit 315. The first rotating disc unit comprises a first circular plate 31, a cross guide hole 32 formed in the center of the outer wall of the first circular plate 31 and a positioning through groove 33 formed in the side wall of the first circular plate 31, a plurality of first lifting sliding grooves 34 are uniformly formed in the side wall of the first circular plate 31, a first lifting assembly 35 for installing a winding unit 315 is slidably arranged in the first lifting sliding grooves 34, a supporting rod 36 for being connected with an adjusting unit is rotatably arranged on the side wall of the first lifting assembly 35, and a limiting rod matched with the positioning through groove 33 in structure is detachably arranged at the fixed position of the side wall of the first side plate 1. Before the positioning through groove 33 is formed, the calculation design is required to be performed with reference to the mounting positions of the plurality of winding units 315, and when the limit rod and the positioning through groove 33 are combined, each winding unit 315 is fixed at a specific angle. When the whole winding mechanism 3 is used for winding the textile yarns, the limiting rods are in an uninstalled state, the positioning through grooves 33 are not subjected to external force, so that the whole winding mechanism 3 can freely rotate, when each winding unit 315 is used for winding the textile yarns, the limiting rods are installed at fixed positions, the limiting rods are inserted into the positioning through grooves 33, the plurality of winding units 315 are bound at specific positions, the angles between the adjacent winding units 315 are in preset values, and the fact that each winding unit 315 can not interfere with each other when simultaneously winding the textile yarns is ensured. The second turntable unit comprises a second circular plate 37 and a second lifting chute 38 which is uniformly arranged on the outer wall of the second circular plate 37 and corresponds to the first lifting chute 34 in position one by one, a second lifting assembly 39 for installing the winding unit 315 is arranged in the second lifting chute 38 in a sliding manner, and a push rod with the same structure as the support rod 36 is arranged on the side wall of the second lifting assembly 39 in a rotating manner. The adjusting unit comprises a bidirectional screw 310, a first bearing sleeve 311 and a second bearing sleeve 312 which are symmetrically sleeved on two sides of the outer wall of the bidirectional screw 310, one end of the bidirectional screw 310, which is close to the second turntable unit, is fixedly connected with a second gear 313, and a power switching assembly 314 is sleeved on the outer wall of the other end of the bidirectional screw 310 in a threaded manner. The supporting rod 36 on the side wall of the first lifting component 35 is rotationally connected with the outer wall of the bearing sleeve 311, and the pushing rod on the side wall of the second lifting component 39 is rotationally connected with the outer wall of the bearing sleeve 312. The first bearing sleeve 311 and the second bearing sleeve 312 are connected with the bidirectional screw 310 through threads, and the threads of the parts, which are in contact with the bidirectional screw 310, of the first bearing sleeve 311, the second bearing sleeve 312 are opposite in rotation direction. The side wall of the first circular plate 31 opposite to the second circular plate 37 is fixedly provided with a reinforcing bracket, the end part of the reinforcing bracket is fixedly provided with a lantern ring, and the lantern ring is rotationally sleeved outside the bidirectional screw 310 and is used for supporting the bidirectional screw 310. One end of the power switching assembly 314 slides through the cross guide hole 32 and extends to the outside. The screw thread cover 3142 is opposite with the screw thread direction that bears cover one 311 inner wall, lifting unit one 35 is including sliding the slider 351 that sets up in lifting chute one 34 inside, rotate the pivot 352 that sets up at slider 351 top and fixed gear one 353 that sets up in pivot 352 one end, the adjustment tank 354 has been seted up on the outer wall that gear one 353 was kept away from to the pivot 352, spacing tooth's socket has evenly been seted up on the adjustment tank 354 inner wall, and fixed stopper 355 that is provided with on the inner wall of adjustment tank 354, sliding sleeve is equipped with sleeve 356 on the pivot 352 outer wall, fixed cover is equipped with magnet ring one 357 on the outer wall of sleeve 356, lifting unit one 35 and lifting unit two 39 are except gear one 353 structure, other structures are the same. The first gears 353 are not engaged with the gear ring 43 when the winding mechanism 3 is integrally used for winding the spun yarn, and when each winding unit 315 independently winds the spun yarn, the first gears 353 are engaged with the gear ring 43, and the gear ring 43 is used for simultaneously driving the first gears 353 to rotate. The spacing tooth groove is used for gear three 3152 meshing connection, the external diameter size of gear three 3152 and the internal diameter looks adaptation of adjustment tank 354, spacing tooth groove and gear three 3152 meshing back, stopper 355 is used for blockking gear three 3152 and moves to adjustment tank 354 inside, guarantee the stability of gear three 3152 position, and sleeve 356 will overlap and establish in the outside of adjustment tank 354 and be located the top of gear three 3152, gear three 3152 can't follow adjustment tank 354 and break away from, and the assembly process of gear three 3152 and lifting unit two 39 of the other end of coiling unit 315 is the same with lifting unit one 35 assembly process, the details are omitted here. The support bar 36 is rotatably coupled to the side wall of the slider 351. The power switching assembly 314 comprises a cross guide bar 3141 slidably connected inside the cross guide hole 32, wherein two ends of the cross guide bar 3141 are fixedly connected with a thread bush 3142 and a power adaptor 3143 respectively, and the thread bush 3142 is arranged on the outer wall of the bidirectional screw 310 through the thread bush. The cross-sectional shape of the cross guide bar 3141 is adapted to the structure of the cross guide hole 32, so that the cross guide bar 3141 can only slide along the inside of the cross guide hole 32 and cannot rotate relatively. The power adapter 3143 is located far away from the side of the cross guide hole 32, when the power adapter 3143 integrally winds the textile yarns in the winding mechanism 3, the power adapter 3143 and the power adapter sleeve 42 are connected, the power of the servo motor 41 can be transmitted to the power switching assembly 314 through the power adapter sleeve 42 so as to be transmitted to the whole winding mechanism 3, when each winding unit 315 independently winds the textile yarns, the power adapter 3143 and the power adapter sleeve 42 are separated, and the gear ring 43 is simultaneously meshed and connected with the plurality of gears 353, so that the gear ring 43 only drives the gears 353 to independently rotate at the moment, and the winding mechanism 3 is wholly unpowered to realize the switching of winding modes. The cross-section shape of the power adapter 3143 is cross, a plurality of strip protruding blocks are fixedly arranged on the outer wall of the power adapter 3143, a plurality of limit protruding blocks matched with the strip protruding blocks in position are fixedly arranged on the inner wall of the power adapter sleeve 42, chamfering angles are arranged at the opposite ends of the strip protruding blocks and the limit protruding blocks, and the power adapter 3143 can smoothly enter the power adapter sleeve 42 and can relatively slide between the limit protruding blocks and the strip protruding blocks so as not to relatively rotate. The power mechanism 4 comprises a servo motor 41 fixedly connected to the side wall of the side plate 1, a power connecting sleeve 42 fixedly connected to one end of the output shaft of the servo motor 41, and a gear ring 43 arranged on one side of the servo motor 41, wherein a supporting frame 44 is fixedly arranged on the outer wall of the gear ring 43, and the supporting frame 44 is fixedly sleeved on the output shaft of the servo motor 41. A control box for controlling the rotating speed of the servo motor 41 is fixedly arranged on the outer wall of the side plate 1. The manual adjusting mechanism 5 comprises a transmission shaft 51 which is rotationally connected inside the side plate II 2, a hand wheel 52 is fixedly connected to one end of the transmission shaft 51, a half-tooth cylinder I53 is fixedly arranged at the other end of the transmission shaft 51, a half-tooth cylinder II 54 is detachably arranged at the top of the half-tooth cylinder I53 through a bolt, tooth grooves matched with the structure of the gear II 313 are uniformly formed in the inner wall of the half-tooth cylinder I53, and a limit stop used for preventing the gear II 313 from sliding towards the hand wheel 52 along the inner wall of the half-tooth cylinder I53 is fixedly arranged on the inner wall of the half-tooth cylinder II 54. The second gear 313 is slidably connected inside the first half-tooth cylinder 53, and teeth on the outer surface of the second gear 313 are matched with the limiting tooth grooves in the first half-tooth cylinder 53.

Embodiment two: the main difference between this embodiment and the first technical solution is that: the utility model provides a spinning yarn adjusts coiling mechanism, the coiling unit 315 includes winding drum 3151 and fixed connection at the gear III 3152, magnet ring II 3153 at winding drum 3151 both ends, evenly set up a plurality of square logical grooves 3154 that are linked together with winding drum 3151 inside on the outer wall of winding drum 3151, square logical groove 3154 inside slip is provided with the altitude mixture control board unit that is used for changing winding drum 3151 rolling radius, winding drum 3151 inner wall one side sets up the drive assembly that is used for adjusting altitude mixture control board unit position, and winding drum 3151's inner wall opposite side is provided with the power component that is used for carrying power to the drive assembly. The height adjusting plate unit comprises a strip square block 3155 and a lifting sleeve 3156, wherein the strip square block 3155 is slidably connected to the inside of the square through groove 3154, the lifting sleeve 3156 is fixedly connected to the side wall of the strip square block 3155, the transmission assembly comprises a first supporting arm 3157 fixedly connected to the inner wall of the winding drum 3151, a plurality of mounting plates 3158 uniformly and fixedly arranged at one end of the first supporting arm 3157, and a unidirectional screw 3159 rotatably connected to the inside of the mounting plates 3158, a bevel gear 31510 is fixedly arranged at one end of the unidirectional screw 3159, the power assembly comprises a second supporting arm 31511 fixedly connected to the side wall of the winding drum 3151, a bevel gear 31512 fixedly connected to one end of the second supporting arm 31511 and in meshed connection with the bevel gears 31510, a worm wheel 31513 is fixedly sleeved on the outer wall of the second supporting arm 31511, a worm 31514 is meshed and connected to the outer wall of the worm wheel 31513, a knob 31515 is fixedly arranged at the top end of the worm 31514, and the lifting sleeve 3156 is sleeved on the outer wall of the unidirectional screw 3159. The outer wall of the winding drum 3151 is provided with a groove, one end of the worm 31514 rotates to penetrate through the winding drum 3151 and extends into the groove, and the knob 31515 is fixedly arranged at the end of the worm 31514 and located in the groove and is used for conveniently rotating the worm 31514 through an inner hexagonal wrench so as to drive the worm 31514 to rotate. After the third gear 3152 is installed inside the adjustment groove 354, the first magnet ring 357 and the second magnet ring 3153 are connected by magnetic force.

When in use, when a larger winding radius of textile yarns is needed, the whole of the winding mechanism 3 is used as a winding drum for winding yarns, at the moment, the hand wheel 52 is manually rotated to drive the transmission shaft 51 to rotate, the bidirectional screw 310 is connected with the gear two 313 and the half-tooth drum one 53 by the half-tooth drum two 54, the bidirectional screw 310 is rotated under the driving of the hand wheel 52, the thread bush 3142 and the bidirectional screw 310 are in threaded connection, the threads of the inner walls of the bearing bush one 311 and the thread bush 3142 are opposite in rotation direction, and because the cross guide rod 3141 and the cross guide hole 32 only can relatively slide and cannot relatively rotate, therefore, under the driving of the bidirectional screw 310, the power switching assembly 314 moves towards the direction of the power adapter sleeve 42 along the inner wall of the cross guide hole 32 until the power switching assembly 314 is completely inserted into the power adapter sleeve 42, because the strip convex blocks on the outer wall of the power switching component 314 and the end parts of the strip convex blocks in the power splicing sleeve 42 are subjected to chamfering treatment, the strip convex blocks can be in smooth contact when meeting, and after the power switching component 314 completely enters the power splicing sleeve 42, the two strip convex blocks can interact, when the servo motor 41 drives the power splicing sleeve 42 to rotate, the power splicing sleeve 42 simultaneously transmits power to the power switching component 314, at the moment, the gear 353 and the gear ring 43 are in a separated state, the whole winding mechanism 3 is driven by the servo motor 41 to complete rotation, after the adjustment is finished, one end of the textile yarn is wound on the outer wall of the whole winding drum formed by the winding units 315, then the servo motor 41 is started to drive the power switching component 314 to rotate through the power splicing sleeve 42, the winding mechanism 3 is rotated integrally to complete the winding work of the textile yarn, after winding is completed, the winding mechanism 3 is integrally disassembled, one end of the winding mechanism 3 is connected in the first half-tooth cylinder 53 through the second gear 313, locking of the second gear 313 is completed through the second half-tooth cylinder 54, the power adaptor 3143 at the other end of the winding mechanism 3 is slidably inserted in the power adaptor 42, when the winding mechanism 3 is disassembled, the second half-tooth cylinder 54 is firstly disassembled and then integrally pulled towards the transmission shaft 51, and as the inner cavity of the first half-tooth cylinder 53 is provided with a longer cavity, the second gear 313 can slide along the inner wall of the first half-tooth cylinder 53 until the power switching assembly 314 is completely separated from the cross guide hole 32, and then the winding mechanism 3 is integrally lifted upwards by using a crane, so that separation from the first side plate 1 and the second side plate 2 is completed. When the small-radius textile yarn winding work is required, the hand wheel 52 is manually rotated to drive the bidirectional screw 310 to rotate, and as the external wall of the bidirectional screw 310 is respectively provided with threads with opposite rotation directions, the first bearing sleeve 311 and the second bearing sleeve 312 can move in opposite directions or away from each other when the bidirectional screw 310 rotates, and when the winding unit 315 is used for independently winding the textile yarn, the first bearing sleeve 311 and the second bearing sleeve 312 are driven to move away from each other, the support rod 36 and the push rod push the first lifting assembly 35 and the second lifting assembly 39 to slide along the internal wall of the first lifting chute 34 in a direction away from the cross guide hole 32 until the meshing connection between the first gear 353 and the gear ring 43 is observed, and as the threads of the internal walls of the first bearing sleeve 3142 and the first bearing sleeve 311 rotate in opposite directions, the first bearing sleeve 311 moves in a direction away from the first circular plate 31, the power switching assembly 314 moves in a direction away from the first circular plate 31, until the power adapter 3143 is disengaged from the power adapter sleeve 42, then, inserting the limit rod into the positioning through groove 33, rotating the winding mechanism 3 until the limit rod reaches a set position on the side wall of the side plate I1, connecting the limit rod with the side plate I1 through bolts, positioning the plurality of winding units 315 so as not to influence the winding work of the textile yarns, locking the positions of the circular plate I31 and the circular plate II 37, winding one end of the textile yarns to be wound on the outer wall of the winding drum 3151 in advance, starting the servo motor 41 to drive the gear ring 43 to rotate, driving the winding unit 315 to rotate while the plurality of gears I353 are simultaneously connected with the gear ring 43 in a meshing manner, winding the textile yarns on the surface of the winding drum 3151 by utilizing a hexagonal wrench to twist the knob 31515 when the winding radius of the winding drum 3151 needs to be regulated, when the worm 31514 rotates, the worm wheel 31513 is driven to drive the support arm II 31511 to rotate, the helical gear disk 31512 is simultaneously meshed with the bevel gears 31510, the bevel gears 31510 drive the unidirectional screw 3159 to rotate, and due to the fact that the lifting sleeve 3156 is in threaded connection with the unidirectional screw 3159, when the unidirectional screw 3159 rotates, the strip square block 3155 slides upwards or downwards along a certain distance range of the inner wall of the square through groove 3154, when the strip square block 3155 slides upwards, the integral circular radius of the strip square block 3155 is increased, namely the rolling radius is increased, otherwise, when the strip square block 3155 slides inwards the square through groove 3154, the integral circular radius of the strip square block 3155 is reduced, namely the rolling radius is reduced, and at the moment, adjustment can be carried out according to specific use requirements. After the winding unit 315 is wound, since two ends of the winding unit 315 are respectively connected with the lifting assembly two 39 and the regulating groove 354 in the lifting assembly one 35 through the gear three 3152, at this time, the sleeve 356 is pushed to approach the direction of the gear one 353, so that the upper part of the gear three 3152 is not limited, the lifting assembly two 39 is similarly operated, then the winding unit 315 is lifted upwards to complete the separation, and the new winding unit 315 is replaced to perform the winding work of the textile yarns again.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a weaving yarn adjusts coiling mechanism, includes curb plate one (1) and curb plate two (2) of controlling relative setting, its characterized in that: a winding mechanism (3) for winding the textile yarns is arranged between the opposite side walls of the side plate I (1) and the side plate II (2), a power mechanism (4) for installing and driving the winding mechanism (3) to rotate is arranged on the side wall, close to the side plate II (2), of the side plate I (1), and a manual adjusting mechanism (5) for adjusting the winding radius of the winding mechanism (3) is arranged on the side wall of the side plate II (2);

The winding mechanism (3) comprises a first turntable unit and a second turntable unit which are oppositely arranged left and right, a plurality of winding units (315) for winding the textile yarns and an adjusting unit for synchronously adjusting the positions of the winding units (315) on the first turntable unit and the second turntable unit are uniformly arranged on opposite side walls of the first turntable unit and the second turntable unit, and the power mechanism (4) and the manual adjusting mechanism (5) are matched together and are used for switching the winding mechanism (3) from a state of integrally winding the textile yarns to a state of independently winding the textile yarns by each winding unit (315);

The first rotating disc unit comprises a first circular plate (31), a cross guide hole (32) formed in the center of the outer wall of the first circular plate (31) and a positioning through groove (33) formed in the side wall of the first circular plate (31), a plurality of first lifting sliding grooves (34) are uniformly formed in the side wall of the first circular plate (31), lifting components (35) for installing a winding unit (315) are slidably arranged in the first lifting sliding grooves (34), supporting rods (36) for being connected with the adjusting unit are rotatably arranged on the side wall of the first lifting components (35), and limiting rods matched with the positioning through groove (33) in structure are detachably arranged at fixed positions of the side wall of the first side plate (1);

The second turntable unit comprises a circular plate II (37) and lifting sliding grooves II (38) which are uniformly arranged on the outer wall of the circular plate II (37) and correspond to the lifting sliding grooves I (34) in position one by one, a lifting assembly II (39) for installing a winding unit (315) is arranged in the lifting sliding grooves II (38) in a sliding manner, and a push rod with the same structure as the support rod (36) is rotatably arranged on the side wall of the lifting assembly II (39);

The adjusting unit comprises a bidirectional screw rod (310), a first bearing sleeve (311) and a second bearing sleeve (312) which are symmetrically sleeved on two sides of the outer wall of the bidirectional screw rod (310), one end, close to the second turntable unit, of the bidirectional screw rod (310) is fixedly connected with a second gear (313), and a power switching assembly (314) is sleeved on the outer wall of the other end of the bidirectional screw rod (310) in a threaded manner;

The lifting assembly I (35) comprises a sliding block (351) which is arranged in the lifting sliding groove I (34) in a sliding mode, a rotating shaft (352) which is arranged at the top of the sliding block (351) in a rotating mode, and a first gear (353) which is fixedly arranged at one end of the rotating shaft (352), wherein an adjusting groove (354) is formed in the outer wall, far away from the first gear (353), of the rotating shaft (352), limiting tooth grooves are uniformly formed in the inner wall of the adjusting groove (354), limiting blocks (355) are fixedly arranged on the inner wall of the adjusting groove (354), a sleeve (356) is sleeved on the outer wall of the rotating shaft (352) in a sliding mode, a first magnet ring (357) is fixedly sleeved on the outer wall of the sleeve (356), and other structures except the first gear (353) are identical;

The power switching assembly (314) comprises a cross guide rod (3141) which is slidably connected inside the cross guide hole (32), a thread sleeve (3142) and a power adaptor (3143) are fixedly connected to two ends of the cross guide rod (3141) respectively, and the thread sleeve (3142) is sleeved on the outer wall of the bidirectional screw (310) through threads;

The winding unit (315) comprises a winding drum (3151) and a gear III (3152) and a magnet ring II (3153) which are fixedly connected to two ends of the winding drum (3151), a plurality of square through grooves (3154) communicated with the inside of the winding drum (3151) are uniformly formed in the outer wall of the winding drum (3151), a height adjusting plate unit for changing the winding radius of the winding drum (3151) is slidably arranged in the square through grooves (3154), a transmission assembly for adjusting the position of the height adjusting plate unit is arranged on one side of the inner wall of the winding drum (3151), and a power assembly for conveying power to the transmission assembly is arranged on the other side of the inner wall of the winding drum (3151);

The power mechanism (4) comprises a servo motor (41) fixedly connected to the side wall of the side plate I (1), a power connecting sleeve (42) fixedly connected to one end of an output shaft of the servo motor (41) and a gear ring (43) arranged on one side of the servo motor (41), a supporting frame (44) is fixedly arranged on the outer wall of the gear ring (43), and the supporting frame (44) is fixedly sleeved on the output shaft of the servo motor (41).

2. A textile yarn conditioning and winding device as claimed in claim 1, wherein: the height adjusting plate unit comprises a strip square block (3155) which is connected inside a square through groove (3154) in a sliding mode and a lifting sleeve (3156) which is fixedly connected to the side wall of the strip square block (3155), the transmission assembly comprises a first supporting arm (3157) which is fixedly connected to the inner wall of the winding drum (3151), a plurality of mounting plates (3158) which are uniformly and fixedly arranged at one end of the first supporting arm (3157) and a unidirectional screw (3159) which is rotationally connected to the inside of the mounting plates (3158), one end of the unidirectional screw (3159) is fixedly provided with a bevel gear (31510), the power assembly comprises a second supporting arm (31511) which is fixedly connected to the side wall of the winding drum (3151) and a bevel gear disc (31512) which is fixedly connected to one end of the second supporting arm (31511) and is in meshed connection with the bevel gear (31510), a worm wheel (31513) is fixedly sleeved on the outer wall of the second supporting arm (31511), a worm (31514) is connected to the outer wall in a meshed mode, the top end of the worm (31514) is fixedly provided with a lifting knob (314), and the lifting sleeve (3156) is sleeved on the outer wall of the worm gear (3159).

3. A textile yarn conditioning and winding device as claimed in claim 1, wherein: the manual adjusting mechanism (5) comprises a transmission shaft (51) which is rotatably connected to the inside of the side plate II (2), one end of the transmission shaft (51) is fixedly connected with a hand wheel (52), the other end of the transmission shaft (51) is fixedly provided with a half-tooth cylinder I (53), and the top of the half-tooth cylinder I (53) is detachably provided with a half-tooth cylinder II (54) through a bolt.