CN2894892Y - Computerized multi-station spring shaping machine wire-feeding transmission mechanism - Google Patents

Abstract

The utility model relates to a spring manufacturing device, aiming at providing a device in which a servo electric motor can directly transfer a wire feed axis through an axial flexible coupling axes, which is a wire feed drive device on computer multiple work-position spring molder used in the computer multiple work-position spring molder to increase the wire feed precision of the machine. The wire feed drive device of computer multiple work-position spring molder is composed of the servo electric motor 1, a coupling axis section 2, a steel piece 3, a coupling axis piece 4, a gear with outer screw thread 5, a gear with internal screw thread 6, a gear with a rotating button7, a upper wire feed axis gear 8, a lower wire feed axis gear 9, a wire feed axis 10, a ball bearing 11, a wire feed wheel 12, and a upper wire feed axis 16. The utility model is characterized in that the coupling axis section 2 is fixed tightly on the axis of the servo electric motor; the coupling axis section 4 is fixed tightly on the steel piece 3; the lower wire feed axis is fixed tightly on the coupling axis section 4; the upper wire feed axis gear is fixed tightly on the upper wire feed axis 16 and meshed with the lower wire feed axis gear 9 fixed tightly on the lower wire feed axis 10; and the wire feed wheel 12 is fixed tightly on the upper wire feed axis 16 and the lower wire feed axis 10 separately.

Description

Computer multistation spring forming machine wire feed transmission mechanism

Technical field

The utility model relates to a kind of spring manufacturing installation.

Background skill rice

The spring forming process is sent wire wheel to clamp steel wire with a pair of (or how two) and is moved forward or backward, and mobile accuracy is very big to the influence of spring yield rate, so the requirement of steel wire mobile accuracy is high.

Present computer multistation spring forming machine wire feed transmission mechanism all be by one-level (or multistage) gears engaged with the rotary driving of servomotor to the line sending wheel shaft, so have error owing to be subjected to the corner of corner comparison servomotor of the influence line sending wheel shaft of gear-driven accuracy, thereby make steel wire mobile accuracy tolerance greater than ± 5 microns.

Summary of the invention

It is a kind of by the mechanism of servomotor by the direct transmission wire feeding axis of axial elasticity shaft coupling that the purpose of this utility model is to provide, and is applied to improve on the computer multistation spring forming machine computer multistation spring forming machine wire feed transmission mechanism of the wire feed precision of machine.

Computer multistation spring forming machine wire feed transmission mechanism, comprise servomotor 1, shaft coupling 2, steel disc 3, shaft coupling 4, be with externally threaded gear 5, be with externally threaded gear 6, be with knob gear 7, upper wire feeding hose shaft gear 8, lower wire feeding hose shaft gear 9, wire feeding axis 10, ball bearing 11, wire feed rolls 12, upper wire feeding hose axle 16, it is characterized in that: shaft coupling 2 is fastened on the servo motor shaft, shaft coupling 4 is fastened on the steel disc 3, and lower wire feeding hose axle 10 is fastened on the shaft coupling 4; Upper wire feeding hose shaft gear 8 is fastened on the upper wire feeding hose axle 16, and meshes with the lower wire feeding hose shaft gear 9 that is fastened on the lower wire feeding hose axle 10; Wire feed rolls 12 is fastened on respectively on upper wire feeding hose axle 16 and the lower wire feeding hose axle 10.

The beneficial effects of the utility model are:

Utility model computer multistation spring forming machine wire feed transmission mechanism does not have the meshed transmission gear error because the corner of servomotor 1 directly drives to lower wire feeding hose axle 10 by shaft coupling 2, steel disc 3, shaft coupling 4 between servomotor 1 and the lower wire feeding hose axle 10; Thereby make the wire feed accuracy tolerance reach ± 2 microns; Improve yield rate greatly.

Description of drawings

Fig. 1 is the schematic diagram of the utility model computer multistation spring forming machine wire feed transmission mechanism.

Fig. 2 is the front view of the utility model computer multistation spring forming machine wire feed transmission mechanism shaft coupling.

Fig. 3 is the left view of the utility model computer multistation spring forming machine wire feed transmission mechanism shaft coupling.

Fig. 4 is the operation chart of the utility model computer multistation spring forming machine wire feed transmission mechanism shaft coupling.

Reference numeral:

Servomotor 1 shaft coupling 2

Steel disc 3 shaft couplings 4

Be with externally threaded gear 5 to be with externally threaded gear 6

Band knob gear 7 upper wire feeding hose shaft gears 8

Lower wire feeding hose shaft gear 9 wire feeding axis 10

Ball bearing 11 wire feed rolls 12

Spring steel wire 13 connecting screws 14

Connecting screw 15 upper wire feeding hose axles 16

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described.

The utility model wire feed transmission mechanism (see figure 1) comprises servomotor 1, shaft coupling 2, steel disc 3, shaft coupling 4, is with externally threaded gear 5, is with externally threaded gear 6, is with knob gear 7, upper wire feeding hose shaft gear 8, lower wire feeding hose shaft gear 9, lower wire feeding hose axle 10, ball bearing 11, wire feed rolls 12, spring steel wire 13, connecting screw 14, connecting screw 15, upper wire feeding hose axle 16.

Shaft coupling 2 is fastened on the servo motor shaft, and shaft coupling 4 is fastened on the steel disc 3, and lower wire feeding hose axle 10 is fastened on the shaft coupling 4; Upper wire feeding hose shaft gear 8 is fastened on the upper wire feeding hose axle 16, and meshes with the lower wire feeding hose shaft gear 9 that is fastened on the lower wire feeding hose axle 10; Wire feed rolls 12 is fastened on respectively on upper wire feeding hose axle 16 and the lower wire feeding hose axle 10.Be with externally threaded gear 5 and be with externally threaded gear 6 and 7 engagements of band knob gear.The axial fine setting displacement space of lower wire feeding hose axle 10 is protected by steel disc 3 bendings and is repaid.

Referring to Fig. 2 and Fig. 3, connect to form a shaft coupling by shaft coupling 2, steel disc 3, shaft coupling 4 usefulness connecting screws 14, connecting screw 15; Referring to Fig. 4, the design shape of steel disc 3 can the very big radially moment of torsion of transmission, but steel disc 3 can be crooked when being subjected to axial force, does not therefore influence the axial displacement fine setting of regulating shaft 10.

The utility model computer multistation spring forming machine wire feed transmission mechanism (see figure 1), the rotation of computer control servomotor 1 directly drives to lower wire feeding hose axle 10 and upper wire feeding hose axle 16 by shaft coupling 2, steel disc 3, shaft coupling 4, lower wire feeding hose shaft gear 9, upper wire feeding hose shaft gear 8; Wire feed rolls 12 is clamped spring steel wire 13 and is moved forward and backward, spring steel wire 13 amount of movements require to be consistent with the amount of movement and the direction of computer programming setting, because the anglec of rotation of wire feeding axis 10 equates fully with the anglec of rotation of servomotor 1, so this mechanism wire feed precision is high, improve the yield rate of production precision spring greatly.

The spring steel wire of different-diameter need be changed wire feed rolls 12, for fastening spring steel wire 13, so wire feed rolls 12 requires axially fine setting, when needs wire feed rolls 12 is axially finely tuned, rotating band knob gear 7 makes to be with externally threaded gear 5 and to be with externally threaded gear 6 to rotate synchronously and move axially, therefore the ball bearing 11 that is contained on the lower wire feeding hose axle 10 is also moved axially, and realization wire feed rolls 12 is axially finely tuned.

Claims (3)

1, computer multistation spring forming machine wire feed transmission mechanism, comprise servomotor (1), shaft coupling (2), steel disc (3), shaft coupling (4), be with externally threaded gear (5), be with externally threaded gear (6), be with knob gear (7), upper wire feeding hose shaft gear (8), lower wire feeding hose shaft gear (9), wire feeding axis (10), ball bearing (11), wire feed rolls (12), upper wire feeding hose axle (16), it is characterized in that: shaft coupling (2) is fastened on the servo motor shaft, shaft coupling (4) is fastened on the steel disc (3), and lower wire feeding hose axle (10) is fastened on the shaft coupling (4); Upper wire feeding hose shaft gear (8) is fastened on the upper wire feeding hose axle (16), and meshes with the lower wire feeding hose shaft gear (9) that is fastened on the lower wire feeding hose axle (10); Wire feed rolls (12) is fastened on respectively on upper wire feeding hose axle (16) and the lower wire feeding hose axle (10).

2, computer multistation spring forming machine wire feed transmission mechanism as claimed in claim 1 is characterized in that: be with externally threaded gear (5) and be with externally threaded gear (6) and band knob gear (7) engagement.

3, computer multistation spring forming machine wire feed transmission mechanism as claimed in claim 1, it is characterized in that: the axial fine setting displacement space of lower wire feeding hose axle (10) is protected by the bending of steel disc (3) and is repaid.

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