CN218231298U - Coiling mechanism of balling line - Google Patents

Abstract

The utility model provides a coiling mechanism of balling line belongs to cable rolling equipment technical field. The winding device of the spheroidizing line comprises a basic assembly and a material receiving assembly. The basic assembly comprises a working part and a fixing part, when the winding device is used, the anti-skidding rotating wheel is rotated, the material receiving plate is made to upwards contact with the outer circle wall surface of the winding column, then the winding column is disassembled, then the anti-skidding rotating wheel is rotated reversely, the material receiving plate drives the winding column to move downwards, then the double-shaft motor is started, the material receiving plate is driven to rotate towards the front side, the winding column is separated from the material receiving plate and rolls towards the front side in the two rolling grooves, then the winding column can be moved out of the workbench to be intensively placed by workers, the winding device can receive the disassembled winding column, the winding column is prevented from freely falling onto the workbench after being disassembled, the winding column and the workbench are prevented from being damaged due to long-time use, and the service lives of the winding column and the workbench are prolonged.

Description

Coiling mechanism of balling line

Technical Field

The utility model relates to a cable rolling equipment field particularly, relates to a coiling mechanism of balling line.

Background

The spheroidized core-spun yarn is formed by wrapping alloy powder with a strip-shaped steel strip, and can be divided into the following parts according to the difference of the alloy powder: silicon calcium core-spun yarn, silicon manganese calcium line, silicon calcium barium line, barium aluminium line, calcium iron line, pure calcium line etc. core-spun yarn is accomplished the covering core by the corer earlier usually in production process, then is accomodate by coiling mechanism completion.

Through retrieval, chinese patent No. CN202122267936.9 discloses a coiling device of a mixed spheroidizing line, and the key points of the technical scheme are as follows: the winding post is characterized by comprising a workbench, a winding post is arranged on the top surface of the workbench, a first fixing groove is formed in one side of the first fixing post, a driving motor is fixedly sleeved on the inner circle wall surface of the first fixing groove, after a driving shaft of the driving motor stops rotating, a worker moves the first fixing post and the second fixing post to two sides to drive the first rotating post and the second rotating post out of the winding post, the winding post can automatically fall down, the winding post is convenient to disassemble for the worker, the worker can move the winding post out of the workbench to be placed in a concentrated mode, the winding post can be blocked through a positioning block, the rolling speed of the winding post is reduced, and the situation that when the winding post is disassembled, the winding post is rapidly rolled out due to overlarge winding force of the winding post, and the worker is injured is prevented.

But above-mentioned scheme still has the defect, dismantles the back to the rolling post that the rolling was accomplished, and the rolling post can lose and support free fall, and the rolling post tenesmus strength that the rolling was accomplished is too big, uses for a long time down, easily causes the rolling post or the workstation impaired, has reduced the life of rolling post and workstation.

SUMMERY OF THE UTILITY MODEL

In order to compensate above not enough, the utility model provides a coiling mechanism of balling line aims at improving the rolling post of accomplishing the rolling and dismantles the back, and the rolling post can lose and support free fall, and the rolling post tenesmus strength that the rolling was accomplished is too big, uses for a long time down, easily causes the impaired problem of rolling post or workstation.

The utility model discloses a realize like this:

the utility model provides a coiling mechanism of balling line, include basic subassembly and connect the material subassembly.

A base assembly including a working portion and a fixing portion, the fixing portion being disposed on the working portion;

connect the material subassembly, connect the material subassembly to include lift portion and rotating part, the lift portion sets up work portion is last, the rotating part sets up lift portion is last.

The utility model discloses an in the embodiment, the work portion includes workstation, fixed column, coiling post, rotation post and driving motor, the top of workstation is close to left and right sides department and all installs the fixed column, two be equipped with one between the fixed column the coiling post, the left and right sides of coiling post all is equipped with the rotation post, the left and right sides of coiling post all seted up with the fluting of rotating post looks adaptation, and two the inner of rotating the post is all inserted and is established adjacently the inside of fluting, it is left the outer end of rotating the post is rotated through the pivot and is installed adjacently on the fixed column, right side the left side of fixed column is close to top department and installs driving motor, just driving motor's output and right side are connected between the rotation post.

The utility model discloses an in one embodiment, the work portion still includes the electric jar, on the workstation with two first sliding tray has all been seted up to the corresponding department of fixed column, and two the bottom of fixed column all extends to adjacent the inside of first sliding tray, and with slidable mounting between the first sliding tray, the top of workstation is close to left and right sides department and all installs the electric jar, and two the power end of electric jar is all installed adjacently on the fixed column.

The utility model discloses an in one embodiment, the work portion still includes the movable block, the top of workstation is close to front side department and is equipped with the movable block, just the movable block passes through the slip setting of electronic slide rail group on the workstation, the threading groove has been seted up on the movable block.

The utility model discloses an in one embodiment, the work portion still includes the locating piece, the top of workstation is close to left and right sides department and has all seted up the roll groove, and two the equal activity in inside in roll groove is provided with the locating piece.

The utility model discloses an in the embodiment, the fixed part includes movable plate, arc fixed plate and locating lever, the coiling post rear side is equipped with arc fixed plate, install arc fixed plate's rear side the movable plate, the top of workstation is close to rear side department and has seted up the second sliding tray, just the below of movable plate extends to the inside of second sliding tray, and with slidable mounting between the second sliding tray, all install the left and right sides of movable plate the locating lever, two the perforation has all been seted up on the rotation post, two the front end of locating lever all passes adjacently the perforation, and extend to the front side of rotation post.

The utility model discloses an in one embodiment, the fixed part still includes the gag lever post, two the front side of rotation post all is equipped with gag lever post, two spacing hole, two have all been seted up on the locating lever the bottom of gag lever post all passes adjacently spacing hole, and extend to the below of locating lever.

The utility model discloses an in one embodiment, lifting unit is including connecing flitch, casing, threaded sleeve, threaded rod and spacing collar, the below of coiling post is equipped with connect the flitch, it sets up about two to connect the below of flitch the casing, the recess has been seted up to the top of workstation, and two the below of casing is all installed the inside of recess, two the top of casing all is equipped with threaded sleeve, two the trompil has all been seted up, two to threaded sleeve's bottom all passes adjacently the trompil to extend to the inside of casing, two the equal threaded connection in threaded sleeve's inside has the threaded rod, and two the bottom of threaded rod is all rotated and is installed on the inner wall of casing, two all install near below department on the threaded sleeve the spacing collar, just the spacing collar slides and sets up on the inner wall of casing.

The utility model discloses an in an embodiment, lift portion still includes worm wheel, worm and anti-skidding runner, two be close to below department on the threaded rod and all install the worm wheel, two the rear side of worm wheel all meshes there is the worm, and two the outer end of worm all rotates to be installed on the inner wall of casing, two the inner of worm all with rotate the installation between the casing, and extend to it is same to install the inboard of casing anti-skidding runner.

The utility model discloses an in an embodiment, the rotating part includes mount pad, connecting rod, backup pad and biax motor, two threaded sleeve's top is all installed the mount pad, two the inside of mount pad is all rotated through the bull stick and is installed the connecting rod, and two the top of connecting rod all with connect to be connected between the flitch, two the inboard of mount pad is close to below department and installs same the backup pad, install the top of backup pad biax motor, just two outputs of biax motor all with adjacent rotate the installation between the mount pad, and extend to the inside of mount pad with be connected between the bull stick.

The utility model has the advantages that: the utility model discloses a balling line coiling mechanism who obtains through above-mentioned design, when using, place the rolling post between two fixed columns, then start two electric jar synchronous workings, drive the fixed column and move to the inboard, make two rotation posts insert to the fluting on the rolling post inside, with this completion to the installation of rolling post, then pass balling line terminal through the through wires hole on the movable block, wind on the rolling post, start driving motor, make it through the cooperation of rotation post and fluting, drive the rolling post rotation and roll, when rolling, start electronic slide rail group and drive the movable block and carry out the reciprocating movement from side to side, arrange the line to the balling line, prevent piling up, after the rolling is accomplished, the staff drives the arc fixed plate through the removal and moves, move the arc fixed plate to the excircle wall of rolling post, extrude the balling line of rolling completion, prevent the spheroidization line from scattering, at the same time, the positioning rod passes through the through hole, then the limiting rod is placed into the limiting hole, so as to fix the positioning rod, prevent the arc-shaped fixing plate from shaking when the spheroidization line is fixed, then the line end is fixed, after the fixation is finished, the limiting rod is removed, then the moving plate is moved to the rear side, the anti-skid runner is rotated, so that the two threaded rods are rotated, thereby driving the two threaded sleeves to move upwards, making the material receiving plate contact with the excircle wall surface of the coiling column upwards, then the two electric cylinders are started to work synchronously, so that the fixed columns at the two sides drive the rotating column to move outwards, the coiling column is disassembled, then the anti-skid runner is rotated reversely, so that the material receiving plate drives the coiling column to move downwards, then the double-shaft motor is started, the material receiving plate is driven to rotate towards the front side, the rotating column is separated from the material receiving plate, and rolls towards the front side in the two rolling grooves, the locating piece can block the rolling post this moment, slows down the roll speed of rolling post, then the staff can move the rolling post out of the workstation and concentrate and place, and this coiling mechanism can connect the material to the rolling post after dismantling, avoids the rolling post to dismantle on the back free fall to the workstation to it is impaired to avoid causing rolling post and workstation under the long-time use, has promoted the life of rolling post and workstation with this.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic perspective view of a winding device of a spheroidizing line according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a working portion according to an embodiment of the present invention;

fig. 3 is a diagram illustrating a relationship between a fixing portion and a working portion according to an embodiment of the present invention;

fig. 4 is a relational diagram between the receiving assembly and the workbench according to the embodiment of the present invention;

fig. 5 is a schematic perspective view of a receiving assembly according to an embodiment of the present invention;

fig. 6 is an enlarged view of a portion a in fig. 2 according to an embodiment of the present invention.

In the figure: 100-a base component; 110-a working part; 111-a work bench; 112-fixed columns; 113-a winding column; 114-rotating column; 115-a drive motor; 116-an electric cylinder; 117-moving mass; 118-rolling grooves; 119-a positioning block; 120-a fixed part; 121-moving plate; 122-arc fixing plate; 123-positioning rod; 124-a limiting rod; 200-a receiving component; 210-a lifting section; 211-receiving plate; 212-a housing; 213-threaded bushing; 214-a threaded rod; 215-a stop collar; 216-a worm gear; 217-worm; 218-anti-skid wheels; 220-a rotating part; 221-a mounting seat; 222-a connecting rod; 223-a support plate; 224-two-shaft motor.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-6, the present invention provides a technical solution: a winding device of a balling line comprises a base component 100 and a material receiving component 200.

Connect material subassembly 200 to set up on basic subassembly 100 for when dismantling the rolling post 113 of rolling completion, connect the material to rolling post 113, avoid dismantling rolling post 113 after, rolling post 113 free fall to workstation 111 on, thereby under long-time the use, cause rolling post 113 and workstation 111 impaired, with this life who has promoted rolling post 113 and workstation 111.

Referring to fig. 1-3, the base assembly 100 includes a working portion 110 and a fixing portion 120, the fixing portion 120 is disposed on the working portion 110, the working portion 110 includes a working platform 111, fixing posts 112, winding posts 113, rotating posts 114 and a driving motor 115, the fixing posts 112 are disposed above the working platform 111 near left and right sides, a winding post 113 is disposed between the two fixing posts 112, the rotating posts 114 are disposed on left and right sides of the winding post 113, slots adapted to the rotating posts 114 are disposed on left and right sides of the winding post 113, inner ends of the two rotating posts 114 are inserted into the adjacent slots, an outer end of the rotating post 114 on left side is rotatably disposed on the adjacent fixing post 112 through a rotating shaft, the driving motor 115 is disposed near left side above the fixing post 112 on right side, an output end of the driving motor 115 is connected to the rotating post 114 on right side, the rotating post 114 is in a square rod shape, the slot is a square slot, so that when the driving motor 115 is started, the rotating column 114 can drive the winding column 113 to rotate and wind, the working part 110 further comprises an electric cylinder 116, the workbench 111 is provided with first sliding grooves corresponding to the two fixing columns 112, the bottom ends of the two fixing columns 112 extend into the adjacent first sliding grooves and are slidably mounted with the first sliding grooves, the electric cylinders 116 are mounted above the workbench 111 near the left and right sides, the power ends of the two electric cylinders 116 are mounted on the adjacent fixing columns 112, the electric cylinder 116 mainly functions to drive the two fixing columns 112 to move, so that the slidably-arranged fixing columns 112 slide outwards in the first sliding grooves to drive the rotating columns 114 thereon to be separated from the slot, thereby realizing the dismounting of the winding column 113, and the working part 110 further comprises a moving block 117, a moving block 117 is arranged above the workbench 111 near the front side, the moving block 117 is arranged on the workbench 111 through an electric sliding rail set in a sliding manner, a threading groove is formed in the moving block 117, the electric sliding rail set is arranged to drive the moving block 117 to reciprocate left and right, so that the wire can be wound left and right in the winding process, when the winding is prevented, the wire is stacked on one piece, the winding is not uniform, the working part 110 further comprises a positioning block 119, rolling grooves 118 are formed above the workbench 111 near the left and right sides, positioning blocks 119 are movably arranged inside the two rolling grooves 118, the rolling grooves 118 are mainly used for facilitating the blanking guide of the winding columns 113, the positioning block 119 can block the winding columns 113 to slow down the rolling speed of the winding columns 113, and prevent the worker from being injured due to the fact that the rolling speed of the winding columns 113 is too high when the worker dismantles the winding columns 113, the fixing part 120 comprises a moving plate 121, an arc fixing plate 122 and positioning rods 123, the arc fixing plate 122 is arranged on the rear side of the winding column 113, the moving plate 121 is mounted on the rear side of the arc fixing plate 122, a second sliding groove is formed in the position, close to the rear side, above the workbench 111, a second sliding groove is formed in the position, below the moving plate 121, extends into the second sliding groove and is slidably mounted with the second sliding groove, the positioning rods 123 are mounted on the left side and the right side of the moving plate 121, through holes are formed in the two rotating columns 114, the front ends of the two positioning rods 123 penetrate through the adjacent through holes and extend to the front side of the rotating column 114, the arc fixing plate 122 can extrude the rolled spheroidizing wires, the arc fixing plate 122 is moved to the outer circle wall surface of the winding column 113 to prevent the spheroidizing wires from being scattered, the fixing part 120 further comprises limiting rods 124, and limiting rods 124 are arranged on the front sides of the two rotating columns 114, the two positioning rods 123 are respectively provided with a limiting hole, the bottom ends of the two limiting rods 124 respectively penetrate through the adjacent limiting holes and extend to the lower part of the positioning rods 123, and the limiting rods 124 are arranged to limit the positions of the positioning rods 123, so that the positions of the arc-shaped fixing plates 122 can be fixed, and the arc-shaped fixing plates 122 can stably limit the lines on the winding columns 113;

referring to fig. 1, 4-6, the receiving assembly 200 includes a lifting portion 210 and a rotating portion 220, the lifting portion 210 is disposed on the working portion 110, the rotating portion 220 is disposed on the lifting portion 210, the lifting portion 210 includes a receiving plate 211, a housing 212, a threaded sleeve 213, a threaded rod 214 and a stop collar 215, a receiving plate 211 is disposed below the winding post 113, two housings 212 are disposed on the left and right sides below the receiving plate 211, a groove is disposed above the working table 111, the lower portions of the two housings 212 are both mounted in the groove, the threaded sleeves 213 are disposed above the two housings 212, openings are disposed above the two housings 212, the bottom ends of the two threaded sleeves 213 penetrate through the adjacent openings and extend into the housing 212, the threaded rods 214 are threadedly connected inside the two threaded sleeves 213, and the bottom ends of the two threaded rods 214 are rotatably mounted on the inner wall of the housing 212, the two threaded sleeves 213 are provided with limiting rings 215 near the lower parts, the limiting rings 215 are arranged on the inner wall of the shell 212 in a sliding manner, the limiting rings 215 are arranged to limit the positions of the threaded sleeves 213 and prevent the threaded sleeves 213 from being separated from the shell 212 through an opening above the shell 212 in the moving process, the lifting part 210 further comprises worm wheels 216, worm screws 217 and anti-skidding rotary wheels 218, the two threaded rods 214 are provided with the worm wheels 216 near the lower parts, the rear sides of the two worm wheels 216 are respectively engaged with the worm screws 217, the outer ends of the two worm screws 217 are respectively rotatably arranged on the inner wall of the shell 212, the inner ends of the two worm screws 217 are respectively rotatably arranged with the shell 212 and extend to the inner side of the shell 212 to be provided with the same anti-skidding rotary wheel 218, the anti-skidding rotary wheels 218 are arranged to increase friction force, so that people can better rotate the anti-skidding rotary wheels 218, and the self-locking function between the worm screws 217 and the worm wheels 216 is realized, can guarantee to connect the stability behind flitch 211 position removal, rotating part 220 includes mount pad 221, connecting rod 222, backup pad 223 and biaxial motor 224, mount pad 221 is all installed on the top of two thread bush 213, the inside of two mount pads 221 all rotates through the bull stick and installs connecting rod 222, and the top of two connecting rods 222 all with connect between the flitch 211 to be connected, the inboard of two mount pads 221 is close to below department and installs same backup pad 223, biaxial motor 224 is installed to the top of backup pad 223, and rotate the installation between two output of biaxial motor 224 and the adjacent mount pad 221, and be connected between the inside that extends to mount pad 221 and the bull stick, it rotates to drive two bull sticks through biaxial motor 224, thereby can drive connecting rod 222 and rotate, two connecting rod 222 drive connect the flitch 211 to rotate, in order to realize carrying out the unloading to the rolling post 113 after the dismantlement.

Specifically, the theory of operation of this coiling mechanism of balling line: when in use, the winding post 113 is placed between the two fixed posts 112, then the two electric cylinders 116 are started to work synchronously to drive the fixed posts 112 to move inwards, so that the two rotating posts 114 are inserted into the grooves on the winding post 113, thereby completing the installation of the winding post 113, then the wire end of the spheroidizing wire passes through the threading hole on the moving block 117 and is wound on the winding post 113, the driving motor 115 is started to drive the winding post 113 to rotate for winding through the cooperation of the rotating posts 114 and the grooves, simultaneously, the electric sliding rail set is started to drive the moving block 117 to move in a left-right reciprocating manner to prevent accumulation, after the winding is completed, a worker drives the arc fixing plate 122 to move through the arc fixing plate 121 to move to the outer circumferential wall surface of the winding post 113, the spheroidizing wire which is wound is extruded to prevent the wire from being scattered, meanwhile, the positioning rod 123 passes through the perforation, then the limiting rod 124 is placed into the limiting hole to fix the positioning rod 123, thereby preventing the arc fixing plate 122 from shaking when the spheroidizing wire is fixed, then the spheroidizing wire is fixed, after the spheroidizing post passes through the perforation, then the wire end, then the two rotating posts are moved to the rolling post 113, then the wire collecting post is moved to the rotating shaft 113, thereby driving the two rotating preventing plate 211 to move upwards, thereby driving the two rotating barrel 113 to rotate, the wire collecting plate 211, then the rotating plate 211 to move upwards, the rotating sleeve 213, thereby driving the two rotating preventing plate 211 to rotate, the two rotating plate 211, the rolling columns 113 can be stopped by the positioning blocks 119 at the moment, the rolling speed of the rolling columns 113 is reduced, then the rolling columns 113 can be moved out of the workbench 111 by workers to be intensively placed, the rolling device can receive the disassembled rolling columns 113, the situation that the rolling columns 113 fall onto the workbench 111 freely after being disassembled is avoided, and therefore the situation that the rolling columns 113 and the workbench 111 are damaged due to long-time use is avoided, and the service lives of the rolling columns 113 and the workbench 111 are prolonged.

It should be noted that the specific model specifications of the driving motor 115, the electric cylinder 116, the electric slide rail set, and the dual-shaft motor 224 need to be determined by type selection according to the actual specification of the device, and the specific type selection calculation method adopts the prior art, so detailed description is omitted.

The power supply and the principle of the driving motor 115, the electric cylinder 116, the electric slide rail set and the two-shaft motor 224 will be clear to those skilled in the art and will not be described in detail herein.

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

Claims (10)

1. A winding device of a spheroidizing line is characterized by comprising

A base component (100), the base component (100) comprising a working portion (110) and a fixing portion (120), the fixing portion (120) being disposed on the working portion (110);

connect material subassembly (200), connect material subassembly (200) including lift portion (210) and rotating part (220), lift portion (210) set up on work portion (110), rotating part (220) set up on lift portion (210).

2. The winding device of the spheroidizing line according to claim 1, wherein the working part (110) comprises a working table (111), fixing columns (112), winding columns (113), rotating columns (114) and a driving motor (115), the fixing columns (112) are installed above the working table (111) near the left and right sides, one winding column (113) is arranged between the two fixing columns (112), the rotating columns (114) are arranged on the left and right sides of the winding column (113), slots matched with the rotating columns (114) are formed in the left and right sides of the winding column (113), inner ends of the two rotating columns (114) are inserted into the adjacent slots, the outer end of the rotating column (114) on the left side is rotatably installed on the adjacent fixing column (112) through a rotating shaft, the driving motor (115) is installed on the left side of the fixing column (112) on the right side near the upper side, and the output end of the driving motor (115) is connected with the rotating column (114) on the right side.

3. The winding device of the spheroidizing line according to claim 2, wherein the working part (110) further comprises electric cylinders (116), first sliding grooves are formed in the working platform (111) corresponding to the two fixing columns (112), the bottom ends of the two fixing columns (112) extend to the inner parts of the adjacent first sliding grooves and are slidably mounted with the first sliding grooves, the electric cylinders (116) are mounted above the working platform (111) near the left and right sides, and the power ends of the two electric cylinders (116) are mounted on the adjacent fixing columns (112).

4. The winding device for the spheroidizing line according to claim 2, wherein the working part (110) further comprises a moving block (117), the moving block (117) is arranged above the workbench (111) near the front side, the moving block (117) is slidably arranged on the workbench (111) through an electric slide rail set, and a threading groove is formed in the moving block (117).

5. The winding device for the spheroidization line according to claim 2, wherein the working part (110) further comprises a positioning block (119), rolling grooves (118) are respectively formed above the worktable (111) near the left side and the right side, and the positioning block (119) is movably arranged inside each of the two rolling grooves (118).

6. The winding device for the spheroidizing line according to claim 2, wherein the fixing part (120) comprises a moving plate (121), an arc-shaped fixing plate (122) and positioning rods (123), the arc-shaped fixing plate (122) is arranged at the rear side of the winding column (113), the moving plate (121) is mounted at the rear side of the arc-shaped fixing plate (122), a second sliding groove is formed above the workbench (111) near the rear side, the lower part of the moving plate (121) extends to the inside of the second sliding groove and is slidably mounted with the second sliding groove, the positioning rods (123) are mounted at the left side and the right side of the moving plate (121), two of the rotating columns (114) are provided with through holes, and the front ends of the two positioning rods (123) pass through the adjacent through holes and extend to the front side of the rotating columns (114).

7. The winding device for the spheroidizing line according to claim 6, wherein the fixing part (120) further comprises a limiting rod (124), the limiting rod (124) is disposed at the front side of each of the two rotating columns (114), a limiting hole is formed in each of the two positioning rods (123), and the bottom end of each of the two limiting rods (124) passes through the adjacent limiting hole and extends to the lower side of the positioning rod (123).

8. The winding device of a spheroidizing line according to claim 2, wherein the lifting part (210) comprises a material receiving plate (211), a shell (212), a threaded sleeve (213), a threaded rod (214) and a limit ring (215), the material receiving plate (211) is arranged below the winding column (113), two shells (212) which are arranged left and right are arranged below the material receiving plate (211), a groove is formed above the workbench (111), the lower parts of the two shells (212) are arranged inside the groove, the threaded sleeve (213) is arranged above the two shells (212), holes are formed above the two shells (212), the bottom ends of the two threaded sleeves (213) penetrate through the adjacent holes and extend into the shells (212), the threaded rod (214) is in threaded connection with the inner parts of the two threaded sleeves (213), the bottom ends of the two threaded rods (214) are rotatably arranged on the inner wall of the shells (212), the position on the two threaded sleeves (213) close to the lower part is provided with the limit ring (215), and the limit ring (215) is arranged on the inner wall of the shell (212) in a sliding manner.

9. The winding device for the spheroidizing line according to claim 8, wherein the lifting part (210) further comprises a worm wheel (216), a worm (217) and an anti-slip wheel (218), the worm wheel (216) is installed on the two threaded rods (214) near the lower part, the worm (217) is engaged on the rear sides of the two worm wheels (216), the outer ends of the two worms (217) are rotatably installed on the inner wall of the shell (212), the inner ends of the two worms (217) are rotatably installed with the shell (212), and the same anti-slip wheel (218) is installed extending to the inner side of the shell (212).

10. The winding device of a spheroidizing line according to claim 8, wherein the rotating part (220) comprises a mounting seat (221), a connecting rod (222), a supporting plate (223) and a double-shaft motor (224), the mounting seat (221) is installed at the top end of each of the two threaded sleeves (213), the connecting rod (222) is installed inside each of the two mounting seats (221) through a rotating rod in a rotating manner, the top ends of the two connecting rods (222) are connected with the material receiving plate (211), the same supporting plate (223) is installed on the inner side of each of the two mounting seats (221) close to the lower part, the double-shaft motor (224) is installed above the supporting plate (223), and the two output ends of the double-shaft motor (224) are installed between the adjacent mounting seats (221) in a rotating manner and extend to the inside of the mounting seat (221) to be connected with the rotating rod.

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