CN1743702A

CN1743702A - Thread spool driving structure for spring machine

Info

Publication number: CN1743702A
Application number: CN 200410073710
Authority: CN
Inventors: 吴国城
Original assignee: Individual
Current assignee: Individual
Priority date: 2004-09-02
Filing date: 2004-09-02
Publication date: 2006-03-08
Anticipated expiration: 2024-09-02
Also published as: CN100353088C

Abstract

A bobbin driving mechanism for spring coiling machine, which contains base and cutter head, wherein the cutter head having a hole and fixed plurality of cutter holders reciprocate moving on cutter head, a wire feeder set in hole and connected with plurality of driving device connected with power device, which drives said wire feeder moving in two-dimension plane or three-dimension space to make metal wire contact cutters for machining spring in different shape and type.

Description

Thread spool driving structure for spring machine

Technical field

The present invention relates to a kind of thread spool driving structure for spring machine, relate in particular to a kind of drive mechanism that can significantly simplify the coiling machine base of tool, save to adjust set of knives spent man-hour, increase the simplification and the convenience of operation.

Background technique

Spring has been widely used in shock-absorbing or damping, become various electrical equipment and machinery indispensable part, too numerous to enumerate as shock absorbing apparatus, toy, electrical equipment, switch or the medical apparatus etc. of vapour, locomotive.Demand to complex-shapedization of spring also increases day by day, but not general known spring production machine can be made.Therefore, how to answer the tight demand in market and develop new generation product and become the important topic that those skilled in the art study.

Known coiling machine drive mechanism, as shown in Figure 1, described coiling machine mainly comprises a support 10a and a cutterhead 20a, is set with a wire-sending device 11a on the support 10a, the front end of wire-sending device 11a has one and goes out bobbin 12a, goes out the exportable metal wire rod to be processed of bobbin 12a.Centre at cutterhead 20a offers an axis hole 21a, going out bobbin 12a is arranged among the axis hole 21a, the plate face of cutterhead 20a is provided with many group base of tool 22a, present embodiment is eight groups, each base of tool 22a includes drive link 221a, track cam 222a, set of knives 223a, utilize the cooperation interlock of each drive link 221a and track cam 222a, the moving of machining path that can make set of knives 223a produce straight line or arc, make set of knives 223a to the metal wire rod that goes out bobbin 12a reel, various multi-form processing such as brake forming or cut-out.

Yet there is following defective in known coiling machine drive mechanism:

First, because spring shape and pattern that coiling machine is produced are various, when multi-form spring is produced in conversion, then need the base of tool 22a on the cutterhead 20a is significantly changed adjustment, expend considerable changeing and the school bus time, be difficult for improving prouctiveness and economic benefit.

The second, the material of the metal wire rod of use, heat treatment, line footpath size have change slightly, will make the product differentiation after the processing bigger.Can handle and adjust the non-general technology person of correction, only can just can finish, so regular meeting make the spring quality can't reach requirement by practicing engineer's technical ability.

The 3rd, the set of knives 223a of each base of tool 22a is when producing camber line machining path mobile, must set up complicated or adjustable dirivig member, except significantly increasing material and manufacture cost, also existing in assembling and maintenance process increases and the adjustment difficulty man-hour, makes whole cost to reduce.

The 4th, every profession and trade increases day by day to the demand of complex-shapedization of spring, and the base of tool 22a that is fixedly installed on cutterhead 20a has not caught up with the requirement of use, and has the technical bottleneck that can't make the spring of complicated shape.

The inventor is just at the defective that exists in the prior art, through concentrating on studies and cooperating actual utilization, in line with excelsior spirit, proposed reasonable in design and effectively improves the present invention of described defective.

Content of the present invention

Main purpose of the present invention is a kind of thread spool driving structure for spring machine can be provided, utilize the setting of diaxon or three-axle gear, make described wire-sending device produce two dimensional surface motion or three-dimensional space motion to set of knives respectively, thereby significantly simplify the drive mechanism of the base of tool, save and adjust set of knives spent man-hour, increase operation and the simplification and the convenience of keeping in repair.

In order to realize described purpose, the invention provides a kind of thread spool driving structure for spring machine, comprising:

One wire-sending device has one and goes out bobbin;

One first shaft drive, the one end is connected with described wire-sending device, and is connected with power plant, drives this wire-sending device and moves along first axle direction is parallel;

One second shaft drive, the one end fixedly installs with described first shaft drive and is connected, and being connected with power plant, the movement direction of described second shaft drive is vertical mutually with the movement direction of first shaft drive, and drives the motion of wire-sending device generation two dimensional surface;

One three-axle gear, the one end fixedly installs with described second shaft drive and is connected, and be connected with power plant, the other end then fixedly installs and is connected on the support, the plane that the movement direction of described three-axle gear is constituted perpendicular to described two shaft drives, and drive wire-sending device generation three-dimensional space motion, thereby realize described purpose.

The invention has the advantages that: utilize the setting of each axial transmission device of the present invention, make described wire-sending device produce two dimensional surface motion or three-dimensional space motion to the cutter of the base of tool, except can significantly simplifying the drive mechanism of the base of tool; Save to adjust cutter spent man-hour; Also can increase the simplification and the convenience of operation.In addition, because cutter of the present invention is the linear type to-and-fro motion, and mobile wire-sending device is mobile to the contact of cutter do, and the location point of described each cutter is easy to quantize, and when changing cutter or verification adjustment, the general operation personnel can finish easily.In addition, the amount of movement of described each axial transmission device can cooperatively interact with computer program, and accurately calculate each axial data automatically, is beneficial to spacing and the position adjusted between cutter and wire rod outlet, and then significantly simplifies production routine.In addition, utilize out the conversion of bobbin present position to move, can do more efficient arrangement, effectively improved the defective that the known tool seat is inconvenient to use set of knives, and the technical bottleneck that can't make the spring of complicated shape.

Brief description of drawings

Fig. 1 is known coiling machine drive mechanism schematic representation;

Fig. 2 is the three-dimensional exploded view of the embodiment of the invention 1;

Fig. 3 is the three-dimensional exploded view of the embodiment of the invention 2;

Fig. 4 is the assembled sectional view of the embodiment of the invention 2;

Fig. 5 is the combination schematic representation of the embodiment of the invention 2;

The plan view that Fig. 6 is connected with coiling machine for the present invention;

The side view that Fig. 7 is connected with coiling machine for the present invention;

Fig. 8 is a wire-sending device mobile status schematic representation of the present invention;

Fig. 9 A and Fig. 9 B are respectively the bending figure that the present invention is applied in wire rod;

Figure 10 A and Figure 10 B are respectively the Bending Processing figure that the present invention is applied in wire rod;

Figure 11 A and Figure 11 B are respectively the coiling working drawing that the present invention is applied in wire rod.In the accompanying drawing, the list of parts of each label representative is as follows:

10a-support 11a-wire-sending device

12a-goes out bobbin 20a-cutterhead

The 21a-axis hole 22a-base of tool

221a-drive link 222a-track cam

223a-set of knives 10-wire-sending device

11-line sending case 12-fixed platform

13,213,311-axle bed 14,214,312-axis hole

15-loop line motor 16-line sending motor

17-line wheels 18-goes out bobbin

19-changes core motor 20-first shaft drive

21Y-axle bed body 211-level board

212-vertical frame 215,313, the 412-slide rail

216,314,413-slider seat 217,315,414-fixed base

22,32,42-servomotor 23-Y spindle guide screw rod

24,34,44-nut seat 30-second shaft drive

31-X axle bed body 33-X spindle guide screw rod

40 three-axle gear 41-Z axle bed bodies

411-through hole 43-Z spindle guide screw rod

5-coiling machine 51-support

52-cutterhead 53-perforate

The 54-base of

tool

55,55 ', 55 " set of knives

Embodiment

In order to make those skilled in the art further understand feature of the present invention and technology contents, see also followingly about detailed description of the present invention and accompanying drawing, accompanying drawing only provides reference and explanation, is not to be used for limiting the present invention.

Fig. 2 is the three-dimensional exploded view of the embodiment of the invention 1.The invention provides a kind of thread spool driving structure for spring machine, as shown in Figure 2, mainly comprise a wire-sending device 10, one first shaft drive 20 and one second shaft drive 30, for convenience of explanation, be filled with the rectangular coordinate system of coiling machine in the accompanying drawings, wherein:

Wire-sending device 10 comprises a line sending case 11, and the arranged outside of line sending case 11 has a fixed platform 12, extends to be provided with an axle bed 13 above fixed platform 12, and the central authorities of axle bed 13 offer an axis hole 14; Be connected with a loop line motor 15 and a line sending motor 16 at the rear of line sending case 11, line sending motor 16 is used for metal wire rod output forward via the rotation of line sending wheels 17, and loop line motor 15 is used for driving metal wire rod generation rotation motion; In addition, be provided with one in the place ahead of line sending case 11 and go out a bobbin 18 and a commentaries on classics core motor 19, go out bobbin 18 and have a center hole, center hole is used to accept the metal wire rod of output, change core motor 19 and be used for driving out the rotation motion that bobbin 18 produces 360 degree, so that metal wire rod is carried out the processing in each orientation.

The movement direction of first shaft drive 20 is for being parallel to any of X, the Y of coiling machine or Z axle, present embodiment is the Y-axis transmission device that is parallel to the moving direction of coiling machine y-axis shift, comprises a Y-axis pedestal 21, a servomotor 22, a Y-axis driving screw 23, a nut seat 24.Wherein, Y-axis pedestal 21 is made of a level board 211 and a vertical frame 212, and is L-shaped, extends in a side centre of level board 211 to be provided with an axle bed 213, offers an axis hole 214 at the center of axle bed 213.In addition, the dual-side of vertical frame 212 is respectively arranged with the slide rail 215 that is parallel to each other, and is connected with a plurality of slider seats 216 above slide rail 215, and slider seat 216 fixedly installs with the fixed platform 12 of wire-sending device 10 and is connected; Be provided with a fixed base 217 in the extension of the top of vertical frame 212, servomotor 22 is provided with and is connected on the fixed base 217, servomotor 22 has an axle center, and combine with 23 butt joints of Y-axis driving screw by assembly such as shaft joint, Y-axis driving screw 23 is parallel to the movement direction setting of slide rail 215, and by the stepped nut seat 24 that is threaded, an end of nut seat 24 is arranged in the axis hole 14 of line sending case 11 thereon, and the other end is fixedly connected on the axle bed 13 of line sending case 11 with fixing-assemblys such as bolts.

The movement direction of second shaft drive 30 can be parallel to any of X, the Y of coiling machine or Z axle, present embodiment is the X-axis transmission device that is parallel to coiling machine X-axis movement direction, its movement direction is vertical mutually with the movement direction of described Y-axis transmission device, and second shaft drive 30 can utilize fixing-assemblys such as bolt to be fixedly connected on the coiling machine, and match with first shaft drive 20, drive wire-sending device 10 and produce the two dimensional surfaces motion; Described X-axis transmission device includes an X-axis pedestal 31, a servomotor 32, an X-axis driving screw 33, a nut seat 34.Wherein, X-axis pedestal 31 can utilize fixing-assemblys such as bolt to fixedly connected with coiling machine, be provided with an axle bed 311 in its rear central authorities extension, offer an axis hole 312 at the center of axle bed 311, on end face, be respectively equipped with the slide rail 313 that is parallel to each other perpendicular to the X-axis pedestal 31 of axis hole 312, be connected with a plurality of slider seats 314 above slide rail 313, slider seat 314 is provided with the level board 211 of Y-axis pedestal 21 and is connected; In addition, end face extension at axle bed 311 adjacent edges is provided with a fixed base 315, servomotor 32 is provided with and is connected on the fixed base 315, servomotor 32 has an axle center, and combine with 33 butt joints of X-axis driving screw by assembly such as shaft joint, X-axis driving screw 33 is parallel to the movement direction setting of slide rail 313, and thereon by the stepped nut seat 34 that is threaded, one end of nut seat 34 is arranged in the axis hole 214 of Y-axis pedestal 21, and the other end then is fixedly connected on the axle bed 213 of Y-axis pedestal 21 with fixing-assemblys such as bolts.

Fig. 3 to Fig. 5 is respectively the three-dimensional exploded view of the embodiment of the invention 2, assembled sectional view and combination schematic representation, it further includes a three-axle gear 40, it is arranged on the below of second shaft drive 30, the movement direction of three-axle gear 40 can be parallel to the X of coiling machine, any of Y or Z axle, present embodiment is the Z shaft drive that is parallel to coiling machine Z axle movement direction, its movement direction is vertical mutually with the plane that described Y-axis transmission device and X-axis transmission device are constituted, three-axle gear 40 can utilize fixing-assemblys such as bolt to be fixedly connected on the coiling machine, and match with first shaft drive 20 and second shaft drive 30, drive wire-sending device 10 and produce three-dimensional space motions; The Z shaft drive includes a Z axle bed body 41, a servomotor 42, a Z spindle guide screw rod 43, a nut seat 44.Wherein, on Z axle bed body 41, offer a plurality of through holes 411, utilizing fixing-assemblys such as bolt to pass through hole 411 is fixedly connected on the Z shaft drive on the coiling machine, end face at Z axle bed body 41 is respectively arranged with the slide rail 412 that is parallel to each other, be connected with a plurality of slider seats 413 above slide rail 412, slider seat 413 is provided with X-axis pedestal 31 and is connected; In addition, extend at the end face of the adjacent edge of slide rail 412 and to be provided with a fixed base 414, servomotor 42 is provided with and is connected on the fixed base 414, servomotor 42 has an axle center, and combine with 43 butt joints of Z spindle guide screw rod by assembly such as shaft joint, Z spindle guide screw rod 43 is parallel to the movement direction setting of slide rail 412, and thereon by the stepped nut seat 44 that has been threaded, one end of nut seat 44 is arranged in the axis hole 312 of X-axis pedestal 31, and the other end is fixedly connected on the axle bed 311 of X-axis pedestal 31 with fixing-assemblys such as bolts.

Fig. 6, Fig. 7 are respectively forward view and the side direction view that the present invention is connected coiling machine, utilize the combination of described assembly, described drive mechanism can be fixedly installed on the support 51 that is connected coiling machine 5, it is rectangular-shaped that support 51 is a length, be provided with in its plane in front, then form the Z axle of coiling machine 5 perpendicular to the XY plane, support 51 be parallel to spring be provided with one with support 51 orthogonal cutterheads 52, cutterhead 52 is parallel to the Z axle setting of the XY machine 5 of coiling machine 5.Centre at cutterhead 52 offers a round hole 53, wire-sending device 10 go out the moving of any direction that bobbin 18 can carry out top to bottom, left and right, front and rear in perforate 53 inside, or the same moved further that combines of described all directions, and on cutterhead 52, be set with many group base of tools 54, the front end of each base of tool 54 is connected with the set of knives 55 of various difference in functionalitys, each set of knives 55 can move back and forth by the corresponding base of tool 54, or utilize the driving of motor and produce rotation motion, and the cutter of set of knives 55 is to move back and forth the inside that debouches perforate 53.

Fig. 8 is a wire-sending device mobile status schematic representation of the present invention, start coiling machine 5 entrys into service, utilize the motion of crank and connecting rod, make the set of knives 55 that is fixed on cutterhead 52 do linear moving along the fixed-direction of the base of tool 54, to the perforate 53 of cutterhead 52, utilize each

axial transmission device

20,30,40 to drive wire-sending device 10 again and produce displacement, use the metal wire rod of bobbin 18 and can do two dimension or three-dimensional mobile contact set of knives 55, so, can make the spring finished product of the processed various different complicated shapes of metal wire rod.

Fig. 9 to Figure 11 is respectively the various multi-form working drawing that the present invention is applied in wire rod, when the man-hour that adds that need carry out difformity and pattern to metal wire rod, can utilize the driving of each the

axial transmission device

20,30,40 that is connected wire-sending device 10, make the bobbin 18 that of wire-sending device 10 produce an amount of change in displacement, change the metal wire rod present position, the shape or the structure that cooperate each set of knives can reach two or more shaping operation.Shown in Fig. 9 A and Fig. 9 B, when going out bobbin 18 and move up, can make the metal wire rod that is positioned at bobbin 18 centers change the present position, utilize the conversion of set of knives 55 gyratory directions, can carry out the bending of direction up or down to metal wire rod.Shown in Figure 10 A and Figure 10 B, utilize out bobbin 18 to produce upwards and moving forward, cooperate set of knives 55 ' the concave arc shape edge of a knife, can carry out the Bending Processing of predetermined angle easily to metal wire rod.Shown in Figure 11 A and Figure 11 B, when going out bobbin 18 and move down, collocation set of knives 55 " the inclination edge of a knife, can change helical spring outside dimension.Utilize the embodiment of described various different processing, increased the utilization ratio of each base of tool and set of knives, make prepared spring have more elasticity and effective utilization.

Thread spool driving structure for spring machine of the present invention has the following advantages: utilize the setting of each axial transmission device of the present invention, make described wire-sending device produce two dimensional surface motion or three-dimensional space motion to the cutter of the base of tool, except can significantly simplifying the drive mechanism of the base of tool; Save to adjust cutter spent man-hour; Also can increase the simplification and the convenience of operation.In addition, because cutter of the present invention is the linear type to-and-fro motion, and mobile wire-sending device moves contact to the cutter work, and the location point of described each cutter is easy to quantize, and when changing cutter or verification adjustment, the general operation personnel can finish easily.In addition, the amount of movement of described each axial transmission device can cooperatively interact with computer program, and accurately calculate each axial data automatically, is beneficial to spacing and the position adjusted between cutter and wire rod outlet, and then significantly simplifies production routine.In addition, utilize out the conversion of bobbin present position to move, can do more efficient arrangement, effectively improve the puzzlement that the known tool seat is inconvenient to use set of knives, and the technical bottleneck that can't make the spring of complicated shape.

In sum, thread spool driving structure for spring machine of the present invention has practicability, novelty and creativeness, and in addition, structure of the present invention also never sees like product and public use, more do not publish before the application on any publication, meet the requirement of application for a patent for invention fully.

The above only is the preferred embodiments of the present invention, be not so promptly limit claim of the present invention, the equivalent structure transformation that every utilization specification of the present invention and accompanying drawing content are done, or directly or indirectly be used in other relevant technical field, all in like manner be included in the claim of the present invention.

Claims

1. a thread spool driving structure for spring machine is fixedly installed on the support of coiling machine, it is characterized in that, comprising:

One wire-sending device has one and goes out bobbin;

One first shaft drive, the one end is connected with described wire-sending device, and is connected with power plant, drives described wire-sending device and moves along first axle direction is parallel;

One second shaft drive, the one end is fixedlyed connected with described first shaft drive, and be connected with power plant, the other end is fixedly connected on the described support, the movement direction of described second shaft drive is vertical mutually with the movement direction of first shaft drive, and drives the motion of wire-sending device generation two dimensional surface.

2. thread spool driving structure for spring machine according to claim 1, it is characterized in that described coiling machine has support and cutterhead, described cutterhead is set in parallel on the XY plane of coiling machine, and is provided with a perforate in the central, and the bobbin that goes out of described wire-sending device moves in described perforate inside.

3. as thread spool driving structure for spring machine as described in the claim 2, it is characterized in that described first shaft drive is parallel mobile Y-axis transmission device with the Y-axis of coiling machine, second shaft drive then is parallel mobile X-axis transmission device with the X-axis of coiling machine.

4. as thread spool driving structure for spring machine as described in the claim 3, it is characterized in that described Y-axis transmission device includes:

One Y-axis pedestal is provided with slide rail and slider seat, and described slider seat is fixedlyed connected with described wire-sending device, is provided with a fixed base at the adjacent edge of described slide rail;

One servomotor is connected on the fixed base of described Y-axis pedestal;

One Y-axis driving screw is arranged in the fixed base of described Y-axis pedestal, and is parallel to the movement direction of slider seat, docks combination with described servomotor;

One nut seat is connected with described Y-axis driving screw by screw thread, and fixedlys connected with wire-sending device.

5. as thread spool driving structure for spring machine as described in the claim 3, it is characterized in that described X-axis transmission device includes:

One X-axis pedestal is fixedly installed on the support of coiling machine, is provided with slide rail and slider seat, and described slider seat is fixedlyed connected with described first shaft drive, is provided with a fixed base at the adjacent edge of described slide rail;

One servomotor is connected on the fixed base of described X-axis pedestal;

One X-axis driving screw is arranged in the fixed base of described X-axis pedestal, and is parallel to the movement direction of slider seat, combines with described servomotor butt joint;

One nut seat is connected with described X-axis driving screw by screw thread, and fixedlys connected with first shaft drive.

6. as thread spool driving structure for spring machine as described in the claim 2, it is characterized in that described first shaft drive is parallel mobile X-axis transmission device with the X-axis of coiling machine, second shaft drive then is parallel mobile Y-axis transmission device with the Y-axis of coiling machine.

7. a thread spool driving structure for spring machine is fixedly installed on the support of coiling machine, it is characterized in that comprising:

One wire-sending device has one and goes out bobbin;

One second shaft drive, the one end is fixedly connected for described first shaft drive, and being connected with power plant, the movement direction of described second shaft drive is vertical mutually with the movement direction of first shaft drive, and drives the motion of wire-sending device generation two dimensional surface;

One three-axle gear, the one end is fixedly connected for described second shaft drive, and be connected with power plant, the other end is fixedly connected on the described support, the plane that the movement direction of described three-axle gear is constituted perpendicular to described first shaft drive and second shaft drive, and drive wire-sending device and produce three-dimensional space motion.

8. as thread spool driving structure for spring machine as described in the claim 7, it is characterized in that described coiling machine has support and cutterhead, described cutterhead is set in parallel on the XY plane of coiling machine, form the Z axle of coiling machine perpendicular to the XY plane, described cutterhead central authorities are provided with a perforate, and the bobbin that goes out of described wire-sending device is arranged in the described perforate and moves in described perforate.

9. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile Y-axis transmission device with the Y-axis of coiling machine, second shaft drive is parallel mobile X-axis transmission device with the X-axis of coiling machine, and three-axle gear is parallel mobile Z shaft drive with the Z axle of coiling machine.

10. as thread spool driving structure for spring machine as described in the claim 9, it is characterized in that described Y-axis transmission device includes:

One servomotor is connected on the fixed base of described Y-axis pedestal;

One Y-axis driving screw is arranged in the fixed base of described Y-axis pedestal, and is parallel to the movement direction of slider seat, combines with described servomotor butt joint;

One nut seat is connected with described Y-axis driving screw by screw thread, and follows closely admittedly with wire-sending device and to be connected.

11., it is characterized in that described X-axis transmission device includes as thread spool driving structure for spring machine as described in the claim 9:

One X-axis pedestal is provided with slide rail and slider seat, and described slider seat is fixedlyed connected with described first shaft drive, is provided with a fixed base at the adjacent edge of described slide rail;

One servomotor is connected on the fixed base of described X-axis pedestal;

12., it is characterized in that described Z shaft drive includes as thread spool driving structure for spring machine as described in the claim 9:

One Z axle bed body is fixedly installed on the support of coiling machine, is provided with slide rail and slider seat, and described slider seat is fixedlyed connected with described second shaft drive, is provided with a fixed base at the adjacent edge of described slide rail;

One servomotor is connected on the fixed base of described Z axle bed body;

One Z spindle guide screw rod is arranged in the fixed base of described Z axle bed body, and is parallel to the movement direction of slider seat, combines with described servomotor butt joint;

One nut seat is connected with described Z spindle guide screw rod by screw thread, and fixedlys connected with second shaft drive.

13. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile Y-axis transmission device with the Y-axis of coiling machine, second shaft drive is parallel mobile Z shaft drive with the Z axle of coiling machine, and three-axle gear is parallel mobile X-axis transmission device with the X-axis of coiling machine.

14. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile Z shaft drive with the Z axle of coiling machine, second shaft drive is parallel mobile Y-axis transmission device with the Y-axis of coiling machine, and three-axle gear is parallel mobile X-axis transmission device with the X-axis of coiling machine.

15. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile Z shaft drive with the Z axle of coiling machine, second shaft drive is parallel mobile X-axis transmission device with the X-axis of coiling machine, and three-axle gear is parallel mobile Y-axis transmission device with the Y-axis of coiling machine.

16. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile X-axis transmission device with the X-axis of coiling machine, second shaft drive is parallel mobile Y-axis transmission device with the Y-axis of coiling machine, and three-axle gear is parallel mobile Z shaft drive with the Z axle of coiling machine.

17. as thread spool driving structure for spring machine as described in the claim 8, it is characterized in that described first shaft drive is parallel mobile X-axis transmission device with the X-axis of coiling machine, second shaft drive is parallel mobile Z shaft drive with the Z axle of coiling machine, and three-axle gear is parallel mobile Y-axis transmission device with the Y-axis of coiling machine.