CN204686233U - Multi-thread numerical control electrospark wire-electrode cutting machine - Google Patents

Abstract

The utility model discloses a kind of multi-thread numerical control electrospark wire-electrode cutting machine, it belongs to numerical control electrospark wire-electrode cutting machine apparatus field.The multi-thread numerical control electrospark wire-electrode cutting machine of the utility model mainly contains cutter sweep, cross saddle device, lathe bed and DCPS digitally controlled power source composition, wherein cutter sweep comprises wire storage cylinder, wire electrode, coil holder, the first single line guide wheel, the first multi-thread guide wheel, the second multi-thread guide wheel, the 3rd multi-thread guide wheel, the 4th multi-thread guide wheel and the second single line guide wheel, each guide wheel is all arranged on the same side of coil holder, and four groups of multi-thread guide wheels are that quadrangle is arranged.The utility model once can only cut a section for existing numerical control electrospark wire-electrode cutting machine, the problem that slice efficiency is low, the utility model achieves the cutting power that use multi-thread numerical control electrospark wire-electrode cutting machine once can cut 50, overcome the problem that general NC WEDM once can only cut a section, drastically increase slice efficiency.

Description

Multi-thread numerical control electrospark wire-electrode cutting machine

Technical field

The utility model relates to a kind of multi-thread numerical control electrospark wire-electrode cutting machine, and it belongs to CNC WEDM process equipment field.

Background technology

During the section of column ndfeb magnet, existing numerical control electrospark wire-electrode cutting machine once can only cut a section, and slice efficiency is low.Ndfeb magnet factory, in order to improve the output of neodymium-iron-boron iron plate, needs a large amount of use numerical control electrospark wire-electrode cutting machines, and cause equipment investment large, operating personnel use many, brings workshop floor space to increase simultaneously.

Summary of the invention

A section once can only be cut, the problem that slice efficiency is low for existing numerical control electrospark wire-electrode cutting machine.The utility model achieves the cutting power that use numerical control electrospark wire-electrode cutting machine once can cut 50, overcomes the problem that WEDM once can only cut a section, drastically increases slice efficiency.To achieve these goals, the utility model takes following technical scheme: multi-thread numerical control electrospark wire-electrode cutting machine of the present utility model forms primarily of cutter sweep, cross saddle device, lathe bed and DCPS digitally controlled power source.Wherein cutter sweep comprises wire storage cylinder, wire electrode, coil holder, the first single line guide wheel, the first multi-thread guide wheel, the second multi-thread guide wheel, the 3rd multi-thread guide wheel, the 4th multi-thread guide wheel and the second single line guide wheel, each guide wheel is all arranged on the same side of coil holder, and the first multi-thread guide wheel, the second multi-thread guide wheel, the 3rd multi-thread guide wheel and the 4th multi-thread guide wheel are that quadrangle is arranged.Reach the standard grade on arm at coil holder, be provided with the first single line guide wheel, the first multi-thread guide wheel and the second multi-thread guide wheel along brachium direction; Roll off the production line on arm at coil holder, be provided with the second single line guide wheel, the 4th multi-thread guide wheel and the 3rd multi-thread guide wheel along brachium direction, reach the standard grade arm and the guide wheel one_to_one corresponding rolled off the production line on arm of coil holder, and be positioned on the same side of coil holder; The wire electrode that wire storage cylinder is drawn is wrapped in the first single line guide wheel, the first multi-thread guide wheel, the second multi-thread guide wheel, the 3rd multi-thread guide wheel and the 4th multi-thread guide wheel successively, again to the first multi-thread guide wheel, the second multi-thread guide wheel, the 3rd multi-thread guide wheel and the 4th multi-thread guide wheel, the winding 15 that so moves in circles circle is to 50 circles.Often circle wire electrode between first multi-thread guide wheel and the 4th multi-thread guide wheel all be arranged in parallel, forms a multi-wire cutting face; Often circle wire electrode between second multi-thread guide wheel and the 3rd multi-thread guide wheel also be arranged in parallel, forms another multi-wire cutting face; Like this, on a multi-thread nc wire-cutting, form two multi-wire cutting faces, two workpiece can be cut simultaneously.

Accompanying drawing explanation

Fig. 1 is multi-thread numerical control electrospark wire-electrode cutting machine schematic diagram of the present utility model;

Fig. 2 is the cutter sweep structural representation of multi-thread numerical control electrospark wire-electrode cutting machine of the present utility model;

Fig. 3 is multi-thread guide wheel 16(or 15 in the cutter sweep of multi-thread numerical control electrospark wire-electrode cutting machine of the present utility model) and multi-thread guide wheel 17(or 18) between wrapping wire figure.

Detailed description of the invention

Further multi-thread numerical control electrospark wire-electrode cutting machine of the present utility model is described in detail below in conjunction with Fig. 1 ~ 3 and embodiment.

As shown in Figures 1 to 3, the multi-thread numerical control electrospark wire-electrode cutting machine of the present embodiment is primarily of compositions such as cutter sweep 1, cross saddle device 2, lathe bed 3 and DCPS digitally controlled power sources 4.Cutter sweep 1 wherein comprises wire storage cylinder 11, wire electrode 12, the multi-thread guide wheel 16 of coil holder 13, first single line guide wheel the 14, first multi-thread guide wheel 15, second, the 3rd multi-thread guide wheel 17, the 4th multi-thread guide wheel 18 and the second single line guide wheel 19 and forms, each guide wheel is all arranged on the same side of coil holder 13, and the multi-thread guide wheel 16 of the first multi-thread wire carrier 15, second, the 3rd multi-thread guide wheel 17 and the 4th multi-thread guide wheel 18 are arranged in quadrangle.Reach the standard grade on arm at coil holder 13, be provided with the first single line guide wheel 14, first multi-thread guide wheel 15 and the second multi-thread guide wheel 16 along brachium direction; Roll off the production line on arm at coil holder 6, be provided with the second single line guide wheel 19, the 4th multi-thread guide wheel 18 and the 3rd multi-thread guide wheel 17 along brachium direction, reach the standard grade arm and the guide wheel one_to_one corresponding rolled off the production line on arm of coil holder 13, and be positioned on the same side of coil holder 13; The wire electrode 12 that wire storage cylinder 11 is drawn is wrapped in the first single line guide wheel 14, first multi-thread guide wheel 15 and the second multi-thread guide wheel 16, the 3rd multi-thread guide wheel 17 and the 4th multi-thread guide wheel 18 successively, again to the multi-thread guide wheel 16 of the first multi-thread guide wheel 15, second, 3rd multi-thread guide wheel 17 and the 4th multi-thread guide wheel 18, the winding 15 that so moves in circles circle is to 50 circles, be wrapped in the second single line guide wheel 19 again, finally get back on wire storage cylinder 11, form closed-loop path, wrapping wire is by rectangular loop coiling.Often circle wire electrode 12 between first multi-thread guide wheel 15 and the 4th multi-thread guide wheel 18 all be arranged in parallel, forms a multi-wire cutting face; Often circle wire electrode 12 between second multi-thread guide wheel 16 and the 3rd multi-thread guide wheel 17 also be arranged in parallel, forms another multi-wire cutting face; Like this, on a multi-thread nc wire-cutting, form two multi-wire cutting faces.During work, motor drives wire storage cylinder 11 to rotate, wire storage cylinder 11 makes the wire electrode 12 on the multi-thread guide wheel 16 of first single line guide wheel the 14, first multi-thread guide wheel 15, second, the 3rd multi-thread guide wheel 17, the 4th multi-thread guide wheel 18 and the second single line guide wheel 19 move back and forth by rotating, workpiece along the multi-wire cutting face direction feeding formed perpendicular to wire electrode 12, just can be cut out multiple section by cross saddle device 2.

Claims (6)

1. multi-thread numerical control electrospark wire-electrode cutting machine, primarily of cutter sweep (1), cross saddle device (2), lathe bed (3) and DCPS digitally controlled power source (4) composition, wherein cutter sweep (1) comprises wire storage cylinder (11), wire electrode (12), coil holder (13), first single line guide wheel (14), first multi-thread guide wheel (15), second multi-thread guide wheel (16), 3rd multi-thread guide wheel (17), 4th multi-thread guide wheel (18) and the second single line guide wheel (19), it is characterized in that: reach the standard grade on arm at coil holder (13), the first single line guide wheel (14) is provided with along brachium direction, first multi-thread guide wheel (15) and the second multi-thread guide wheel (16), roll off the production line on arm at coil holder (13), the second single line guide wheel (19), the 4th multi-thread guide wheel (18) and the 3rd multi-thread guide wheel (17) is provided with along brachium direction, each guide wheel is all arranged on the same side of coil holder (13), and the first multi-thread guide wheel (15), the second multi-thread guide wheel (16), the 3rd multi-thread guide wheel (17) and the 4th multi-thread guide wheel (18) are arranged in quadrangle, the upper wire electrode (12) of drawing of wire storage cylinder (11) is wrapped in the first single line guide wheel (14), the first multi-thread guide wheel (15), the second multi-thread guide wheel (16), the 3rd multi-thread guide wheel (17) and the 4th multi-thread guide wheel (18) successively, again to the first multi-thread guide wheel (15), the second multi-thread guide wheel (16), the 3rd multi-thread guide wheel (17) and the 4th multi-thread guide wheel (18), the winding 15 that so moves in circles circle is to 50 circles, be wrapped in the second single line guide wheel (19) again, finally get back on wire storage cylinder (11), form closed-loop path, wrapping wire is by rectangular loop coiling.

2. multi-thread numerical control electrospark wire-electrode cutting machine according to claim 1, is characterized in that: the first multi-thread guide wheel (15), the second multi-thread guide wheel (16), the 3rd multi-thread guide wheel (17) and the 4th multi-thread guide wheel (18) are arranged in quadrangle.

3. multi-thread numerical control electrospark wire-electrode cutting machine according to claim 1, is characterized in that: the often circle wire electrode (12) between the second multi-thread guide wheel (16) and the 3rd multi-thread guide wheel (17) all be arranged in parallel, forms a multi-wire cutting face.

4. multi-thread numerical control electrospark wire-electrode cutting machine according to claim 1, is characterized in that: the often circle wire electrode (12) between the first multi-thread guide wheel (15) and the 4th multi-thread guide wheel (18) all be arranged in parallel, forms a multi-wire cutting face.

5. multi-thread numerical control electrospark wire-electrode cutting machine according to claim 1, is characterized in that: on a multi-thread nc wire-cutting, forms two multi-wire cutting faces.

6. multi-thread numerical control electrospark wire-electrode cutting machine according to claim 1, it is characterized in that: on the first multi-thread guide wheel (15), the second multi-thread guide wheel (16), the 3rd multi-thread guide wheel (17) and the 4th each multi-thread guide wheel of multi-thread guide wheel (18), be radially distributed with equal number and equidistant multiple wire casings along guide wheel, the quantity of wire casing is 15 ~ 50.