CN115069819A

CN115069819A - Coiled material placing frame for rough drawing of screw coiled material

Info

Publication number: CN115069819A
Application number: CN202210990887.8A
Authority: CN
Inventors: 赵山; 马逢源; 陈翌
Original assignee: Changzhou Wujin Dazhong Standard Parts Co Ltd
Current assignee: Changzhou Wujin Dazhong Standard Parts Co Ltd
Priority date: 2022-08-18
Filing date: 2022-08-18
Publication date: 2022-09-20
Anticipated expiration: 2042-08-18
Also published as: CN115069819B

Abstract

The invention relates to a coiled material placing frame for roughly drawing a screw coiled material, which relates to the technical field of screw production.A base plate is of a T-shaped structure, a planar thrust ball bearing is embedded in a groove body on the upper surface of the base plate, a rotating chassis is fixed on the upper ring surface of the planar thrust ball bearing, a plurality of supporting columns are arranged on the rotating chassis at equal angles, and the plurality of supporting columns form a cylindrical structure; the number of the supporting seats is two, and the supporting seats are arranged on the front side and the rear side of the bottom plate; the driving motor is fixed on the supporting seat at the front side, the output end of the driving motor is fixed with the front end of the rotating shaft, and the rotating shaft penetrates through the bottom plate and is fixed on the supporting seat at the rear side by using a bearing; the driving motor is electrically connected with the electric cabinet, and the electric cabinet is fixed on the supporting seat at the front side. It can be followed fork truck's shovel and gone up the horizontal coil of wire and transported the arrangement frame to utilize its self tilting mechanism to realize turning to of coil of wire, reduce manpower and time.

Description

Coiled material placing frame for rough drawing of screw coiled material

Technical Field

The invention relates to the technical field of screw production, in particular to a coiled material placing frame for roughly drawing a screw coiled material.

Background

In the screw production process, at first need carry out the screw raw materials, the screw wire rod carries out thick pulling promptly, and at the pan feeding mouth position department of thick pulling device, there is a mount that is used for carrying out the blowing to the wire rod, present mount rigidity, and vertical placing is in thick pulling device pan feeding mouth department, when the wire rod is carried to mount the position along the wire rod book axial fork by fork truck, need artifical 90 degrees backs of overturning with the wire rod book, reuse hoisting machine to construct its cover on mount, this process is wasted time and energy.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings of the prior art and provides a coil placing frame for roughly drawing a screw coil, which can transfer a transverse coil to the placing frame from a forklift shovel and realize the steering of the coil by using a self-turning mechanism so as to reduce labor and time.

In order to achieve the purpose, the invention adopts the following technical scheme: comprises a bottom plate, a rotary chassis, a support column and a plane thrust ball bearing; the bottom plate is of a T-shaped structure, a plane thrust ball bearing is embedded in a groove body on the upper surface of the bottom plate, the rotating chassis is fixed on the upper ring surface of the plane thrust ball bearing, a plurality of support columns are arranged on the rotating chassis at equal angles, and the plurality of support columns form a cylindrical structure; it also includes:

the number of the supporting seats is two, and the supporting seats are arranged on the front side and the rear side of the bottom plate;

the driving motor is fixed on the supporting seat at the front side, the output end of the driving motor is fixed with the front end of the rotating shaft, and the rotating shaft penetrates through the bottom plate and then is fixed on the supporting seat at the rear side by using a bearing; the driving motor is electrically connected with the electric cabinet, and the electric cabinet is fixed on the supporting seat at the front side.

Adopt above-mentioned design, utilize driving motor to drive bottom plate anticlockwise rotation to the drive constitutes a section of thick bamboo columnar structure by a plurality of support columns and becomes the level form by the vertical form, and after transferring the coil of wire on the fork truck shovel to the aforesaid constitutes a section of thick bamboo columnar structure by a plurality of support columns on, reuse driving motor drives the bottom plate clockwise rotation, makes the coil of wire rotatory to the vertical form by the level form, avoids the loaded down with trivial details that manual cooperation hoist and mount operation brought.

Preferably, the three outer end surfaces of the bottom plate are fixed with positioning ends, each positioning end is provided with a positioning hole in a penetrating manner, the inner side surfaces of the front supporting seat and the rear supporting seat are fixed with telescopic locking rods, and the movable ends of the telescopic locking rods are movably inserted into the positioning holes; the telescopic locking rod is matched with the positioning hole, so that the rotating bottom plate is positioned, and the stability of the bottom plate during loading and unloading of the wire coil is improved.

Preferably, the telescopic locking lever comprises:

one end of the loop bar is fixed on the inner side surface of the supporting seat;

the magnetic ring is fixed on the end part of the inner wall of the sleeve rod, the inserted rod is movably inserted into one end of the sleeve rod, an electromagnet ring matched with the magnetic ring in a magnetic mode is fixed, and the electromagnet ring is electrically connected with the electric cabinet; the change of the positive pole and the negative pole of the electromagnet ring is realized by utilizing the positive and negative directions of the current of the electromagnet ring, so that the attraction or the repulsion between the electromagnet ring and the magnet ring is realized, the retraction and the ejection of the inserted rod are realized by matching with a first spring, and the purposes of locking and unlocking are realized.

Preferably, the bottom of the rotary chassis is fixed on a plurality of sliding blocks in the annular guide rail pair, the guide rail part of the annular guide rail pair is fixed in the groove body of the bottom plate and is positioned at the periphery of the plane thrust ball bearing, and the arrangement of the annular guide rail pair improves the stability of the rotary chassis during rotary discharging.

Preferably, a plurality of reinforcing ribs are integrally formed on the outer wall of the rotating shaft, and the reinforcing ribs are movably inserted into the bottom plate to improve the engagement force between the rotating shaft and the bottom plate.

Preferably, the plurality of supporting inner rings are sequentially arranged in the cylindrical structure formed by the plurality of supporting columns from top to bottom, the outer annular surface of each supporting inner ring is arranged in a butting mode with the corresponding supporting column, the plurality of supporting inner rings support the inner wall of the cylindrical structure formed by the plurality of supporting columns and resist the force formed between the inner wall of the cylindrical structure and the wire coils transferred outside the cylindrical structure, and the supporting columns are prevented from being pressed and deformed.

Preferably, a circular groove and a plurality of rod grooves which are located on the periphery of the circular groove and communicated with the circular groove are formed in the rotating chassis, an adjusting motor is fixed in the circular groove, the output end of the adjusting motor is connected with a driving bevel gear, a plurality of driven bevel gears are meshed with the driving bevel gear, a screw rod is sleeved in each driven bevel gear, one end of each screw rod is rotatably fixed in the circular groove through a screw rod seat, the other end of each screw rod is rotatably connected in the rod groove through a bearing, a guide rail pair is fixed on the bottom wall in the rod groove, a sliding block in the guide rail pair is fixed to the bottom of each support column, the support columns are in threaded connection with the screw rods, and the adjusting motor is electrically connected with a mobile power supply located on one side of the adjusting motor.

By adopting the design scheme, the adjusting motor is utilized to drive the driving bevel gear to rotate, the driving bevel gear drives the driven bevel gears meshed with the driving bevel gear to rotate, so that the screw rod is driven to rotate, the supporting columns in threaded connection with the screw rod realize displacement between the supporting columns and the circle center of the rotating chassis under the limiting action of the guide rail pair, the positions of the supporting columns are changed, the change of the outer diameter of the cylindrical structure formed by the supporting columns is realized, and the sleeving of wire coils with different inner diameters is met.

Preferably, a groove body is arranged on the outer side surface of the support column, a movable plate is movably inserted in the groove body, guide grooves are formed in two side edges of the movable plate, guide edges are movably inserted in the guide grooves, and the guide edges are fixed on the inner wall of the groove body of the support column; the movable plate is connected with the inner wall of the groove body of the supporting column through a second spring, the movable plate is matched with the supporting column, the overall length of the supporting column is effectively increased, the movable plate extends out of the supporting column under the elastic action of the second spring, and when a cylindrical structure formed by a plurality of supporting columns is in a horizontal state, a forklift transfers a wire coil on a forklift shovel to the movable plate, so that the situation that the forklift shovel touches structures such as a bottom plate and a supporting seat due to the length limitation of the supporting columns is avoided; and then, the driving motor is utilized to drive the bottom plate to rotate clockwise, the movable plate slides towards the supporting columns under the action of gravity of the coil in the rotating process, and finally the coil is guided to move to a cylindrical structure formed by a plurality of supporting columns.

Preferably, the lateral surface integrated into one piece of fly leaf has a plurality of beads, plays limiting displacement to the coil of wire, increases the frictional force between coil of wire and the fly leaf for coil of wire and fly leaf realize synchronous slip.

Preferably, roller grooves are formed in two side edges of the movable plate, the roller grooves are communicated with the guide grooves, rollers are screwed in the guide edges by using rotating shafts, and the rollers on the same side are arranged in the roller grooves on the side in a rolling manner, so that the sliding performance between the movable plate and the support column is improved.

Preferably, the two side walls of one end, connected with the second spring, of the movable plate are fixedly embedded in the two side walls, and the top end of the supporting column is fixedly embedded in the first magnet magnetically attracted with the second magnet, so that the movable plate is prevented from being separated from the supporting column.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a coil arranging frame for roughly drawing a screw coil, which can transfer a transverse coil to the arranging frame from a forklift shovel, realize the steering of the coil by using a self-turning mechanism and reduce labor and time.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a left side view of fig. 1.

Fig. 4 is a sectional view taken along line a-a in fig. 3.

Fig. 5 is a schematic structural view of a rotating chassis according to the present invention.

Fig. 6 is a sectional view taken along line B-B in fig. 5.

Fig. 7 is an axial cross-sectional view of the telescoping lock lever of the present invention.

Fig. 8 is a schematic view of the connection between the support column and the movable plate in the present invention.

Fig. 9 is a top view of fig. 8.

Fig. 10 is a left side view of fig. 8.

Fig. 11 is a sectional view taken along line C-C in fig. 8.

Fig. 12 is a diagram showing the state of the present invention in transferring a coil.

Description of reference numerals:

the device comprises a bottom plate 1, a rotary chassis 2, support columns 3, a positioning end 4, positioning holes 4-1, a driving motor 5, a support seat 6, an electric cabinet 7, a planar thrust ball bearing 8, a rotating shaft 9, a reinforcing rib plate 9-1, a support inner ring 10, an annular guide rail pair 11, a telescopic locking rod 12, a screw rod 13, a screw rod seat 14, a driven bevel gear 15, a guide rail pair 16, a driving bevel gear 17, an adjusting motor 18, a sleeve rod 19, an inserted rod 20, a first spring 21, a magnetic ring 22, an electromagnet ring 23, a movable plate 24, a guide groove 24-1, a roller groove 24-2, a second spring 25, a guide edge 26, a convex rib 27, a roller 28, a first magnet 29 and a second magnet 30.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and the preferred embodiments in the description are only examples, and all other embodiments obtained by those skilled in the art without making creative efforts fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1 to 4 and fig. 7 to 12, the following technical solutions are adopted in the present embodiment: comprises a bottom plate 1, a rotary chassis 2, a support column 3 and a plane thrust ball bearing 8; the bottom plate 1 is of a T-shaped structure formed by three plate bodies, positioning ends 4 with arc-shaped outer end faces are integrally formed on the three outer end faces of the bottom plate 1, each positioning end 4 is provided with a positioning hole 4-1 in a penetrating mode, a planar thrust ball bearing 8 is embedded in a groove body on the upper surface of the bottom plate 1, the rotary chassis 2 is fixed on the upper ring face of the planar thrust ball bearing 8, the bottom of the rotary chassis 2 is fixed on a plurality of sliding blocks in the annular guide rail pair 11, a guide rail part of the annular guide rail pair 11 is fixed in the groove body of the bottom plate 1 and located on the periphery of the planar thrust ball bearing 8, and the annular guide rail pair 11 is arranged to improve the stability of the rotary chassis 2 during rotary discharging; the plurality of support columns 3 are arranged on the rotating chassis 2 at equal angles, the plurality of support columns 3 form a cylindrical structure, a plurality of support inner rings 10 are sequentially arranged in the structure from top to bottom, the support inner rings 10 are made of metal materials and have certain deformation capacity, the outer diameter of the outer ring of each support inner ring is slightly larger than the inner diameter of the cylindrical structure, so that the outer ring surface of each support inner ring 10 is abutted against the support columns 3, the plurality of support inner rings 10 support the inner wall of the cylindrical structure formed by the plurality of support columns 3 and form force opposition with wire coils transferred outside the cylindrical structure, and the support columns 3 are prevented from being deformed by pressure; a groove body is arranged on the outer side surface of the support column 3, a movable plate 24 is movably inserted in the groove body, a plurality of convex edges 27 are integrally formed on the outer side surface of the movable plate 24, the limiting effect on the wire coil is achieved, the friction force between the wire coil and the movable plate 24 is increased, and the wire coil and the movable plate 24 can synchronously slide; two side edges of the movable plate 24 are respectively provided with a guide groove 24-1, a guide edge 26 is movably inserted in the guide grooves 24-1, and the guide edges 26 are fixed on the inner wall of the groove body of the support column 3; roller grooves 24-2 are formed in two side edges of the movable plate 24, the roller grooves 24-2 are communicated with the guide grooves 24-1, rollers 28 are screwed in the guide edges 26 through rotating shafts, and the rollers 28 on the same side are arranged in the roller grooves 24-2 on the same side in a rolling manner, so that the sliding performance between the movable plate 24 and the support column 3 is improved; the movable plate 24 is connected with the inner wall of the groove body of the support column 3 through a second spring 25, a second magnet 30 is fixedly embedded in two side walls of one end, connected with the second spring 25, of the movable plate 24, and a first magnet 29 magnetically attracted with the second magnet 30 is fixedly embedded in the top end of the support column 3, so that the movable plate 24 is prevented from being separated from the support column 3; the movable plate 24 is matched with the supporting columns 3 to increase the overall length of the supporting columns 3, the movable plate 24 extends out of the supporting columns 3 under the elastic force action of the second springs 25, and when a cylindrical structure formed by the plurality of supporting columns 3 is in a horizontal state, a forklift transfers a wire coil on a forklift shovel to the movable plate 24; then, the driving motor 5 is utilized to drive the bottom plate 1 to rotate clockwise, in the rotating process, the movable plate 24 slides towards the supporting columns 3 under the action of the gravity of the coil, and finally the coil is guided to move to a cylindrical structure formed by a plurality of supporting columns 3; the coiled material placing frame further comprises:

the number of the supporting seats 6 is two, and the supporting seats 6 are arranged on the front side and the rear side of the bottom plate 1; the medial surface of two front and back supporting seats 6 all is fixed with flexible check lock lever 12, flexible check lock lever 12 contains:

one end of the loop bar 19 is fixed on the inner side surface of the supporting seat 6;

one end of the insert rod 20 is movably inserted into the sleeve rod 19, the other end of the insert rod 20 is movably inserted into the positioning hole 4-1, the insert rod 20 is connected with the sleeve rod 19 through a first spring 21, a magnetic ring 22 is fixed at the end part of the inner wall of the sleeve rod 19, the insert rod 20 is movably inserted into one end of the sleeve rod 19, an electromagnet ring 23 matched with the magnetic ring 22 for magnetic attraction is fixed, and the electromagnet ring 23 is electrically connected with the electric cabinet 7; the positive and negative directions of the current of the electromagnet ring 23 are utilized to realize the conversion of the positive and negative poles of the electromagnet ring 23, so that the attraction or repulsion between the electromagnet ring 23 and the magnetic ring 22 is realized, and the retraction and the ejection of the inserted rod 20 are realized by matching with the first spring 21, so that the purposes of locking and unlocking are achieved;

the driving motor 5 is a forward and reverse rotating motor, and is fixed on the supporting seat 6 at the front side, the output end of the driving motor 5 is fixed with the front end of the rotating shaft 9, the rotating shaft 9 is fixed on the supporting seat 6 at the rear side by using a bearing after penetrating through the bottom plate 1, a plurality of reinforcing rib plates 9-1 are integrally formed on the outer wall of the rotating shaft 9, and the reinforcing rib plates 9-1 are movably inserted in the bottom plate 1 to improve the biting force between the rotating shaft 9 and the bottom plate 1; the driving motor 5 is electrically connected with an electric cabinet 7, and the electric cabinet 7 is fixed on a supporting seat 6 at the front side;

example two:

referring to fig. 5 and 6, in this embodiment, a rotating chassis 2 is further improved on the basis of the first embodiment, that is, a circular groove is concentrically formed in the rotating chassis 2, a plurality of rod grooves corresponding to the supporting pillars 3 are formed around the circular groove in an equiangular through manner, an adjusting motor 18 is fixed in the circular groove, the adjusting motor 18 is a forward and reverse rotating motor, an output end of the adjusting motor 18 is connected with a driving bevel gear 17, the driving bevel gear 17 is engaged with a plurality of driven bevel gears 15, each driven bevel gear 15 is sleeved with a screw rod 13, one end of the screw rod 13 is rotatably fixed in the circular groove by a screw rod seat 14, the other end of the screw rod 13 is rotatably connected in the rod groove by a bearing, a guide rail pair 16 is fixed on the bottom wall of the rod groove, a slider in the guide rail pair 16 is fixed to the bottom of the supporting pillars 3, the supporting pillars 3 are threadedly connected to the screw rod 13, the adjustment motor 18 is electrically connected to a portable power source located on one side thereof.

When the wire coil winding device is used, a wire coil is moved to one side of a coil placing frame by using a forklift, an adjusting motor 18 is started according to the inner diameter of the wire coil to drive a driving bevel gear 17 to rotate, so that a plurality of driven bevel gears 15 meshed with the driving bevel gears are driven to rotate, a screw rod 13 is driven to rotate, a supporting column 3 in threaded connection with the screw rod 13 is displaced from the center of a circle of a rotating chassis 2 under the limiting action of a guide rail pair 16, the positions of the supporting columns 3 are changed, the change of the outer diameter of a cylindrical structure formed by the supporting columns 3 is realized, and the outer diameter of the cylindrical structure is close to the inner diameter of the wire coil; then, a driving motor 5 is started to work, the bottom plate 1 is driven to rotate 90 degrees anticlockwise, so that a cylindrical structure formed by a plurality of supporting columns 3 is driven to be changed into a horizontal structure from a vertical structure, then current of a current magnet ring 23 is connected, the bottom plate is electrified to be magnetized, the cylindrical structure and the adjacent ring surface of a magnet ring 22 are in a repulsive state, at the moment, an inserted rod 20 is popped out under the elastic action of a first spring 21 and is inserted into a positioning hole 4-1 to position the position of the bottom plate 1 at the moment, a movable plate 24 extends out of the supporting columns 3 under the elastic action of a second spring 25, at the moment, a forklift shovel is slowly close to a coiled material placing frame, the movable plate 24 is placed in a coiled material inner ring, then the forklift shovel is slowly descended, the coiled material is placed on the movable plate 24 to withdraw from the forklift shovel, and at the moment, the coiled material is successfully transferred to the movable plate 24; then, the current direction of the electromagnet ring 23 is changed to enable the electromagnet ring 23 and the adjacent ring surface of the magnet ring 22 to be in a mutually attracting state, at the moment, the inserted rod 20 retracts into the sleeve rod 19 under the magnetic attraction effect of the magnet ring 22 and the electromagnet ring 23 so as to be separated from the positioning hole 4-1, then, the driving motor 5 is started for the second time to work so as to drive the bottom plate 1 to rotate clockwise, the coil rotates to be vertical from the horizontal state, in the rotating process, the movable plate 24 overcomes the elastic force of the second spring 25 under the gravity effect of the coil, and slides to the supporting columns 3 under the effect that the guide grooves 24-1 are matched with the guide edges 26 and the roller grooves 24-2 are matched with the rollers 28, and finally, the coil is guided to move to a cylindrical structure formed by the plurality of supporting columns 3, so that the paying-off rough drawing process of putting in the coil can be started.

After adopting above-mentioned structure, this embodiment's beneficial effect is as follows:

1. the angle change of the supporting column is realized by using the driving motor, so that the coil on the forklift shovel is conveniently transferred to the supporting column, the introduction of manpower and a hoisting mechanism is avoided, the operation is convenient, and the time and the labor are saved;

2. the telescopic structure is realized between the supporting columns and the movable plates, so that the contact of a forklift shovel to the whole coiled material placing frame is effectively avoided, and the damage caused by touch is avoided;

3. the movable plate is matched with a second spring, so that a certain buffer effect is achieved on the wire coil from a horizontal state to a vertical state, and impact damage to structures such as the bottom plate caused by displacement change of the wire coil is reduced;

4. the change of a plurality of support column positions is realized by adopting the structure that the adjusting motor is matched with the driving bevel gear, the driven bevel gear, the guide rail pair and the like, so that the requirement on the sleeving of wire coils with different inner diameters is met, and the shaking existing when the wire coil with the overlarge inner diameter is matched with the cylindrical structure with the undersize outer diameter for unreeling is avoided.

It will be appreciated by those skilled in the art that modifications and equivalents may be made to the embodiments described above, and that various modifications, equivalents, improvements and the like may be made without departing from the spirit and scope of the invention.

Claims

1. A coiled material placing frame for roughly drawing a screw coiled material comprises a bottom plate (1), a rotating chassis (2), a supporting column (3) and a plane thrust ball bearing (8); the bottom plate (1) is of a T-shaped structure, a plane thrust ball bearing (8) is embedded in a groove body on the upper surface of the bottom plate, the rotating chassis (2) is fixed on the upper ring surface of the plane thrust ball bearing (8), a plurality of supporting columns (3) are arranged on the rotating chassis (2) at equal angles, and the plurality of supporting columns (3) form a cylindrical structure; the method is characterized in that: it also includes:

the number of the supporting seats (6) is two, and the supporting seats (6) are arranged on the front side and the rear side of the bottom plate (1);

the driving motor (5) is fixed on the supporting seat (6) at the front side, the output end of the driving motor (5) is fixed with the front end of the rotating shaft (9), and the rotating shaft (9) penetrates through the bottom plate (1) and is fixed on the supporting seat (6) at the rear side by a bearing; the driving motor (5) is electrically connected with the electric cabinet (7), and the electric cabinet (7) is fixed on the supporting seat (6) at the front side.

2. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: the positioning device is characterized in that positioning ends (4) are fixed on three outer end faces of the bottom plate (1), positioning holes (4-1) are formed in each positioning end (4) in a penetrating mode, telescopic locking rods (12) are fixed on inner side faces of the front supporting seat and the rear supporting seat (6), and movable ends of the telescopic locking rods (12) are movably inserted into the positioning holes (4-1).

3. The coil mounting frame for rough drawing of the screw coil according to claim 2, characterized in that: the telescopic locking lever (12) comprises:

one end of the loop bar (19) is fixed on the inner side surface of the supporting seat (6);

the electromagnetic positioning device comprises an insertion rod (20), one end of the insertion rod (20) is movably inserted into a sleeve rod (19), the other end of the insertion rod is movably inserted into a positioning hole (4-1), the insertion rod (20) is connected with the sleeve rod (19) through a first spring (21), a magnetic ring (22) is fixed on the end portion of the inner wall of the sleeve rod (19), the insertion rod (20) is movably inserted into one end of the sleeve rod (19), an electromagnet ring (23) matched with the magnetic ring (22) and magnetically attracted is fixed, and the electromagnet ring (23) is electrically connected with an electric cabinet (7).

4. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: the bottom of the rotary chassis (2) is fixed on a plurality of sliding blocks in the annular guide rail pair (11), and the guide rail part of the annular guide rail pair (11) is fixed in the groove body of the bottom plate (1) and is positioned at the periphery of the plane thrust ball bearing (8).

5. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: a plurality of reinforcing rib plates (9-1) are integrally formed on the outer wall of the rotating shaft (9), and the reinforcing rib plates (9-1) are movably inserted in the bottom plate (1).

6. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: a plurality of supporting inner rings (10) are sequentially arranged in a cylindrical structure formed by a plurality of supporting columns (3) from top to bottom, and the outer annular surfaces of the supporting inner rings (10) are abutted to the supporting columns (3).

7. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: the rotary chassis is characterized in that a circular groove and a plurality of rod grooves which are located on the periphery of the circular groove and communicated with the circular groove are formed in the rotary chassis (2), an adjusting motor (18) is fixed in the circular groove, the output end of the adjusting motor (18) is connected with a driving bevel gear (17), a plurality of driven bevel gears (15) are meshed on the driving bevel gear (17), a screw rod (13) is sleeved in each driven bevel gear (15), one end of each screw rod (13) is rotationally fixed in the circular groove through a screw rod seat (14), the other end of each screw rod (13) is screwed in the rod groove through a bearing, a guide rail pair (16) is fixed on the bottom wall in the rod groove, a sliding block in the guide rail pair (16) is fixed to the bottom of a support column (3), the support column (3) is in threaded connection with the screw rod (13), and the adjusting motor (18) is electrically connected with a mobile power supply located on one side of the adjusting motor.

8. The coil mounting frame for rough drawing of the screw coil according to claim 1, characterized in that: a groove body is arranged on the outer side surface of the supporting column (3), a movable plate (24) is movably inserted into the groove body, a plurality of convex edges (27) are integrally formed on the outer side surface of the movable plate (24), guide grooves (24-1) are formed in two side edges of the movable plate (24), guide edges (26) are movably inserted into the guide grooves (24-1), and the guide edges (26) are fixed on the inner wall of the groove body of the supporting column (3); the movable plate (24) is connected with the inner wall of the groove body of the support column (3) by a second spring (25).

9. The coil mounting rack for rough drawing of the screw coil according to claim 8, wherein: the two side edges of the movable plate (24) are respectively provided with a roller groove (24-2), the roller grooves (24-2) are communicated with the guide groove (24-1), the guide edge (26) is rotatably connected with rollers (28) through a rotating shaft, and the rollers (28) on the same side are arranged in the roller grooves (24-2) on the side in a rolling manner.

10. The coil mounting rack for rough drawing of the screw coil according to claim 8, wherein: and a second magnet (30) is embedded and fixed in two side walls of one end of the movable plate (24) connected with the second spring (25), and a first magnet (29) magnetically attracted with the second magnet (30) is embedded and fixed at the top end of the supporting column (3).