Disclosure of Invention
The invention aims to provide a winding device for textile machinery, aiming at various defects in the prior art, and solving the problems that the existing winding device is easy to cause line crossing in the winding process, even the compactness is not enough when winding, and less yarns can be wound by the same winding drum.
In order to solve the technical problems, the invention adopts the following technical scheme:
a thread reeling device for textile machinery, comprising a bobbin, characterized in that: comprises a winding frame, the winding frame is provided with a lifting mechanism and a limiting plate, a fixed block is arranged below the lifting mechanism, a rotating mechanism is arranged at the bottom of the fixed block, the rotating mechanism is provided with a rotating plate, the rotating plate is rotatably connected with the limiting plate, the end part of the rotating plate is provided with a wire pressing mechanism, the wire pressing mechanism moves up and down along a coil cylinder, a rotating motor is arranged at the bottom of the coil cylinder, the winding frame is provided with a wire guide hole and a wire device, a connecting roller is arranged below the wire guide hole, the connecting roller is connected with the winding frame, the wire device comprises a motor box, a telescopic rod and a wire guide plate, the motor box is connected with the telescopic rod, the telescopic rod is connected with the wire guide plate, both sides of the wire guide plate are provided with limiting blocks, the limiting blocks and the wire guide plate are of an integrally formed structure, the connecting groove is connected with the wire guide plate, and the groove plate is connected with the winding rack. The winding drum is used for coiling, and elevating system drives fixed block and slewing mechanism and carries out the up-and-down motion, and the limiting plate setting is fixed the rotating plate at the intermediate position of rotating plate, and elevating system moves, and the opposite side reverse motion of rotating plate drives the motion of crimping mechanism, makes the yarn carry out the compaction, increases the quantity of yarn in the winding drum. The rotating mechanism drives the coil drum to rotate, so that the coil drum automatically winds. The yarn winding frame is provided with the yarn guide hole, so that the yarn penetrates through the yarn guide hole and then enters the connecting roller, then penetrates through the yarn guide device and then is wound, the yarn can be tensioned by the yarn guide hole and the connecting hole, and the yarn is prevented from loosening, so that the wound yarn is knotted. The wire guiding device is used for controlling the position of the yarn in the coil cylinder to slowly slide up and down, and controlling the coil cylinder to slowly wind from bottom to top so as to promote uniform winding. The position of winder has been increased to the stopper, makes the winder slide from top to bottom along the spread groove, and motor case control telescopic link carries out the motion from top to bottom, drives the winder and slides. The yarn winding position of the yarn on the coil drum is automatically adjusted, and uniform winding is facilitated. The problem of current coiling device appear the line alternately easily at the in-process of spiral, closely knit degree is not enough when even coiling, and the yarn that the same bobbin can be rolled up is less is solved.
Further, elevating system includes cylinder, lift post and lifter plate, and the cylinder is connected with the lift post, and the lift post drives the lifter plate and carries out the oscilaltion, and the cylinder is connected with the limiting plate. The cylinder provides the power of device, drives the lift post and carries out the up-and-down motion, and the lifter plate plays the effect of connecting slewing mechanism.
Further, slewing mechanism includes connecting rod, first axis of rotation and connecting block, and the connecting rod is equipped with the recess, and the tip of connecting rod is equipped with the fixed part, and the fixed part is connected with first axis of rotation, and the intermediate position of first axis of rotation is equipped with the connecting block, and the connecting block is connected with the rotor plate. The rotating mechanism is connected with the connecting block through the connecting rod in a rotating mode to fix the rotating plate, the lifting mechanism drives the connecting rod to move up and down, the rotating plate rotates, the fixing portion is used for fixing the first rotating shaft, and the groove is convenient for fixing the connecting rod and the connecting block.
Further, the wire pressing mechanism comprises a connecting disc, a fixing plate and a pressing plate, the connecting disc is connected with the fixing plate, the fixing plate is connected with the pressing plate, the pressing plate is connected with the coil cylinder, the fixing plate is rotatably connected with the rotating plate, through holes are formed in the connecting disc, the fixing plate and the pressing plate and connected with the coil cylinder, the pressing plate moves up and down along the coil cylinder, and the connecting disc, the fixing plate and the pressing plate are all of an integrally formed structure. The fixed plate is connected through the rotation with the rotor plate for the rotor plate can drive the fixed plate at the pivoted in-process and carry out the up-and-down motion, and the clamp plate carries out the compaction to the yarn, is favorable to increasing the quantity of yarn in the bobbin, prevents the relatively poor spiral of yarn simultaneously, influences the use.
Further, the rotor plate includes the constant head tank, is equipped with the second axis of rotation between the constant head tank, and the second axis of rotation rotates with the fixed plate to be connected, and the constant head tank setting is between connection pad and clamp plate. The constant head tank be provided with do benefit to the rotation connection with the rotor plate, fix the rotor plate through the second axis of rotation, the rotor plate rotates around the second axis of rotation.
Furthermore, both sides of the connecting roller are provided with limit rings, and the limit rings and the connecting roller are of an integrally formed structure. The spacing collar prevents that the yarn from running away from the connecting roller, increases the operating stability of device.
Further, the rotating motor comprises a motor main body, a third rotating shaft and a positioning piece, the positioning piece is connected with the coil cylinder, and the piece drives the coil cylinder to rotate. The locating plate drives the coil cylinder to rotate, the motor main body provides rotating force through the third rotating shaft, the coil cylinder continues to rotate, and the winding is carried out, automatic winding is carried out, and the use is convenient.
Furthermore, the bottom of the winding frame is provided with a backing plate. The backing plate increases the device stability of the spool stand, prevents the spool stand from slipping, and increases the contact with the ground.
Due to the adoption of the technical scheme, the invention has the following beneficial effects:
the winding drum is used for winding, the lifting mechanism drives the fixed block and the rotating mechanism to move up and down, the limiting plate is arranged in the middle of the rotating plate and used for fixing the rotating plate, and when the lifting mechanism operates, the other side of the rotating plate moves in the reverse direction to drive the wire pressing mechanism to move, so that yarns are compacted, and the number of the yarns in the winding drum is increased. The rotating mechanism drives the coil drum to rotate, so that the coil drum automatically winds. The yarn winding frame is provided with the yarn guide hole, so that the yarn penetrates through the yarn guide hole and then enters the connecting roller, then penetrates through the yarn guide device and then is wound, the yarn can be tensioned by the yarn guide hole and the connecting hole, and the yarn is prevented from loosening, so that the wound yarn is knotted. The wire guiding device is used for controlling the position of the yarn in the coil cylinder to slowly slide up and down, and controlling the coil cylinder to slowly wind from bottom to top so as to promote uniform winding. The position of winder has been increased to the stopper, makes the winder slide from top to bottom along the spread groove, and motor case control telescopic link carries out the motion from top to bottom, drives the winder and slides. The yarn winding position of the yarn on the coil drum is automatically adjusted, and uniform winding is facilitated. The problem of current coiling device appear the line alternately easily at the in-process of spiral, closely knit degree is not enough when even coiling, and the yarn that the same bobbin can be rolled up is less is solved.
The cylinder of the invention provides power for the device to drive the lifting column to move up and down, and the lifting plate plays a role in connecting the rotating mechanism. The rotating mechanism is connected with the connecting block through the connecting rod in a rotating mode to fix the rotating plate, the lifting mechanism drives the connecting rod to move up and down, the rotating plate rotates, the fixing portion is used for fixing the first rotating shaft, and the groove is convenient for fixing the connecting rod and the connecting block. The fixed plate is connected through the rotation with the rotor plate for the rotor plate can drive the fixed plate at the pivoted in-process and carry out the up-and-down motion, and the clamp plate carries out the compaction to the yarn, is favorable to increasing the quantity of yarn in the bobbin, prevents the relatively poor spiral of yarn simultaneously, influences the use. The both sides of connecting the roller all are equipped with the spacing collar, and the spacing collar is integrated into one piece structure with the connecting roller. The spacing collar prevents that the yarn from running away from the connecting roller, increases the operating stability of device. The locating plate drives the coil cylinder to rotate, the motor main body provides rotating force through the third rotating shaft, the coil cylinder continues to rotate, and the winding is carried out, automatic winding is carried out, and the use is convenient. The backing plate increases the device stability of the spool stand, prevents the spool stand from slipping, and increases the contact with the ground.
Detailed Description
As shown in fig. 1 to 4, a yarn winding device for textile machinery according to the present invention includes a bobbin 1, and the bobbin 1 is used for winding yarn. Including the spool 2, spool 2 is equipped with elevating system 3 and limiting plate 4, elevating system 3's below is equipped with fixed block 5, the bottom of fixed block 5 is equipped with slewing mechanism 6, slewing mechanism 6 is equipped with rotor plate 7, rotor plate 7 rotates with limiting plate 4 to be connected, the tip of rotor plate 7 is equipped with line ball mechanism 8, coil section of thick bamboo 1 along the line of line ball mechanism 8 carries out the up-and-down motion, elevating system 3 drives fixed block 5 and slewing mechanism 6 and carries out the up-and-down motion, limiting plate 4 sets up the intermediate position at rotor plate 7, fix rotor plate 7, elevating system 3 moves, the opposite side reverse motion of rotor plate 7, drive line ball mechanism 8 motion, make the yarn carry out the compaction, increase the quantity of yarn in the coil section of thick bamboo. The bottom of the coil cylinder 1 is provided with a rotating motor 9, the winding frame 2 is provided with a wire guide hole 10 and a wire guide device 11, a connecting roller 12 is arranged below the wire guide hole 10, the connecting roller 12 is connected with the winding frame 2, and the rotating mechanism 6 drives the coil cylinder 1 to rotate so that the coil cylinder 1 automatically winds wires. The winding frame 2 is provided with a thread guiding hole 10, so that the yarn penetrates through the thread guiding hole 10, then enters the connecting roller 12, then passes through the thread guiding device 11, and is wound, the thread guiding hole 10 and the connecting hole 17 can strain the yarn, and the yarn is prevented from being loosened, so that the wound yarn is prevented from knotting. Wire device 11 includes motor case 13, telescopic link 14 and wiring board 15, motor case 13 and telescopic link 14 are connected, telescopic link 14 is connected with wiring board 15, wiring board 15's both sides all are equipped with stopper 16, stopper 16 and wiring board 15 are the integrated into one piece structure, wiring board 15 is equipped with connecting hole 17, connecting hole 17 and 1 subtend setting of bobbin, stopper 16 is equipped with frid 18, frid 18 is equipped with spread groove 19, spread groove 19 is connected with stopper 16, spread groove 19 is connected with wiring board 15, frid 18 is connected with spool 2. The thread guiding device 11 is used for controlling the position of the yarn in the coil cylinder 1 to slowly slide up and down, and controlling the coil cylinder to slowly wind from bottom to top so as to promote uniform winding. The position of the winding plate is increased by the limiting block 16, so that the winding plate slides up and down along the connecting groove 19, and the motor box controls the telescopic rod 14 to move up and down to drive the winding plate to slide. The yarn winding position of the yarn on the coil drum is automatically adjusted, and uniform winding is facilitated. The problem of current coiling device appear the line alternately easily at the in-process of spiral, closely knit degree is not enough when even coiling, and the yarn that same bobbin 1 can be rolled up is less is solved.
The lifting mechanism 3 comprises an air cylinder 20, a lifting column 21 and a lifting plate 22, wherein the air cylinder 20 is connected with the lifting column 21, the lifting column 21 drives the lifting plate 22 to lift up and down, and the air cylinder 20 is connected with the limiting plate 4. The cylinder 20 provides the power of the device to drive the lifting column 21 to move up and down, and the lifting plate 22 plays a role of connecting the rotating mechanism 6. The rotating mechanism 6 comprises a connecting rod 23, a first rotating shaft 24 and a connecting block 25, the connecting rod 23 is provided with a groove 26, the end portion of the connecting rod 23 is provided with a fixing portion 27, the fixing portion 27 is connected with the first rotating shaft 24, the connecting block 25 is arranged in the middle of the first rotating shaft 24, and the connecting block 25 is connected with the rotating plate 7. The rotating mechanism 6 is connected with the connecting block 25 through the connecting rod 23 in a rotating mode to fix the rotating plate 7, the lifting mechanism 3 drives the connecting rod 23 to move up and down, so that the rotating plate 7 rotates, the fixing portion 27 is used for fixing the first rotating shaft 24, and the groove 26 is used for facilitating fixing of the connecting rod 23 and the connecting block 25. The wire pressing mechanism comprises a connecting disc 28, a fixing plate 29 and a pressing plate 30, the connecting disc 28 is connected with the fixing plate 29, the fixing plate 29 is connected with the pressing plate 30, the pressing plate 30 is connected with the coil cylinder 1, the fixing plate 29 is rotatably connected with the rotating plate 7, through holes 31 are formed in the connecting disc 28, the fixing plate 29 and the pressing plate 30, the through holes 31 are connected with the coil cylinder 1, the pressing plate 30 moves up and down along the coil cylinder 1, and the connecting disc 28, the fixing plate 29 and the pressing plate 30 are all of an integrally formed structure. According to the invention, the fixed plate 29 is connected with the rotating plate 7 in a rotating manner, so that the rotating plate 7 can drive the fixed plate 29 to move up and down in the rotating process, and the pressing plate 30 compacts yarns, thereby being beneficial to increasing the number of yarns in the bobbin and preventing the yarns from being wound poorly to influence the use. The rotating plate 7 comprises positioning slots 32, a second rotating shaft 33 is arranged between the positioning slots 32, the second rotating shaft 33 is rotatably connected with the fixing plate 29, and the positioning slots 32 are arranged between the connecting disc 28 and the pressing plate 30. The positioning groove 32 is provided to facilitate the rotational connection with the rotation plate 7, and the rotation plate 7 is fixed by the second rotation shaft 33, and the rotation plate 7 rotates around the second rotation shaft 33. Both sides of the connecting roller 12 are provided with a limiting ring 34, and the limiting ring 34 and the connecting roller 12 are of an integrated structure. The stop collar 34 prevents the yarn from running off the connecting roll 12, increasing the running stability of the device. The rotating motor 9 comprises a motor main body 36, a third rotating shaft 37 and a positioning sheet 38, wherein the positioning sheet 38 is connected with the coil bobbin 1, and the sheet drives the coil bobbin 1 to rotate. The positioning plate 38 drives the coil bobbin 1 to rotate, and the motor body 36 provides a rotating force through the third rotating shaft 37, so that the coil bobbin 1 continues to rotate, and the coil winding is performed automatically, so that the coil winding machine is convenient to use. The bottom of the spool stand 2 is provided with a backing plate 35. The backing plate 35 increases the stability of the device of the spool stand 2, prevents the spool stand 2 from slipping, and increases the contact with the ground.
The specific implementation mode of the invention is as follows: after the yarn needing to be wound passes through the wire guide hole 10, the connecting roller 12 and the connecting hole 17 once, the yarn is connected with the coil cylinder 1, the rotating motor is started, the coil cylinder 1 rotates, the lifting mechanism is started, the connecting rod moves up and down to drive the rotating rod to rotate, the pressing plate device moves up and down in the coil cylinder 1 to compact the yarn downwards, the wire guide device 11 is started, the position of the wire guide plate 15 is adjusted to enable the connecting hole 17 to keep the same height with the bottom of the coil cylinder 1, after the yarn is wound for a certain time, after the yarn winding on the lower portion of the coil cylinder 1 is completed, the wire guide plate 15 rises, after the coil cylinder 1 completes the winding, the wire guide device 11 is closed, the pressing plate device moves upwards, the through hole is separated from the coil cylinder 1, the coil cylinder 1 is taken.
The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made based on the present invention to solve the same technical problems and achieve the same technical effects are within the scope of the present invention.