US1772851A

US1772851A - Method of winding armatures

Info

Publication number: US1772851A
Application number: US319641A
Authority: US
Inventors: Vincent G Apple
Original assignee: Individual
Current assignee: Individual
Priority date: 1928-11-15
Filing date: 1928-11-15
Publication date: 1930-08-12
Anticipated expiration: 1947-08-12

Description

Aug. 12, 1930. v VGAPPLE- 2 1,772,851

METHOD OF WINDING ARMATURES Filed Nov. 15, 1928 2 SheecsSheet 1 Fig -1- fi Fig-5 Fi .5? 22/ @22 .9 Fig. 1 F1575- 2 .15.10.

/N VE N TOR Aug. 12, 1930. v. G. APPLE 1,772,851

METHOD OF WINDING ARMQTURES Filed Nov. 15, 1928 2 Sheets-Sheet 2 //V V5 N TOFP.

Patented Aug. 12, 1930 EUNETE STATEfi FATENT GFFEQE. I

VINCENT G. APPLE, OF DAYTON, OHIO METHOD OF WINDING ARMATUBES Application filed November 15, 1928.

This invention is shown, tho not claimed in my co-pending application Serial Number 235,280, and relates to single turn bar wound armatures and is particularly adaptable to endwise entry of the winding.

One of the objects of my invention is to provide an integral winding unit comprising a loop having its open ends adapted to compose commutator segments.

Another object of my invention is to provide an armature having a maximum of its core and winding material effectively employed, by producing core apertures of the most efiective contour and forming commercially procurable material without waste into conductors that will conform to the contour of the core apertures selected and be readily assembled therein.

Further objects will be apparent to those skilled in the art upon consideration of the description and drawings wherein- Fig. 1 is a plan view of a loop bent from round wire representing a turn of the winding.

Fi 2 is an end view of Fig. 1.

Fig. 3 represents a die by means of which the round cross section of the loop is changed to different cross sections at parts of its length. r

Fig. 4 shows the loop after it has been pressed in the die Fig 3.

Fig. 5 is a cross section taken. on line 55 Fig. 4. p i

Fig. 6 is a cross section taken on line 66 Fig. 4.

Fig. 7 is a cross section taken'on line 7-? Fig. 4.

Fig. 8 shows how a leg of the outer layer may be paired with a leg of the inner layer of the winding to form a composite wedge shaped section. V

Fig. 9 is a cross section taken at line 99 Fig. 8. v

Fig. 10 is a cross section taken on line 10-10 Fig. 8.

Fig. 11 shows a type of core aperture to which loops Fig. 4 are particularly applicable.

Fig. 12 shows a core with its apertures completely filled with loopsFig. 4.

Serial No. 319,641.

the terminal of the inner layer has been displaced radially inward.

Fig. 15 shows how the terminals are circumferentially displaced, the outer layer in one direction and the inner'layer in the other direction.

Fig. 16 shows an armature after the outer layer of terminals has been displaced radially inward and the terminals brought together to compose a commutator.

Similar numerals refer to similar parts thruout the several viewsr Fig. 1 is a. plan view and Fig. 2m end view illustrating steps in the method of making a loop, wherein a predetermined length of round wire has been cut off and bent to loop formation as at 20, having extending therefrom a leg 21 which will later become part of the inner layer of the winding and which may therefore be called an inner conductor leg and a leg 22 which will later become a part of the outer layer of the'winding and which may therefore be called an outer conductor leg. The

ends

23 and 24 are bent slightly out of alignment with the remaining portions of the legs, the amount and direction of the bends being such that those ends will be equally distant from the armature anis and will extend parallel therewith.

After the loop has been formed as in Figs. 2

1 and 2, it is placed in a die as in Fig. 8. The die here shown is for illustrative purposes only and consists of an upper portion 25 and a lower portion 26 between which the loop is pressed'to change the cross sectional contour of parts of its length, and to bring the loop to the form shown in Fig. 4, wherein the cross from, so that when a leg 21 of one loop is paired with a leg 22 of another loop they will arrange themselves substantially as shown in Fig. 8 wherein

legs

21 and 22, relatively to their final positions in the core are radially one above the other as in Fig. 9, and the

flattened ends

27 and 28 are circuniferentially adjacent as in Fig. 10.

This arrangement of pairs of the contour shown is particularly adaptable to endwise entry into core apertures of the type shown at 31, Fig. 11 and an entire winding composed of loops so constructed may be assei'nbled with their ends slightly entered into the apertures of a core and simultaneously pushed into space, as more clearly described in my Patent No. 1,555,931.

The core apertures may be lined with insulators as at 32, and a partitioning rib as at 33 may be placed between the two legs of a pair, or the insulation may be applied to the legs of the loop before entry into a core.

After the entire winding has been assembled and pushed into place in a core 34, as shown in Fig. 12, provision must be made to rearrange the pairs of terminal ends 2728 into other pairs, and to do this the entire set of inner layer terminals 27 is radially displaced in a manner similar to the several terminals shown in the end View of Fig. 13. The displacing of these terminals may be accomplished singly with a plunger as at 35, or, a tool may be constructed having a plurality of plungers to displace all terminals of the layer simultaneously.

A part section Fig. lat shows the pair of terminals of an aperture after the inner layer terminal has been radially displaced, and while I here show the inner layer of terminals as having been displaced radially inward leaving the outer layer in normal position, it is obvious that as an alternative the outer layer may be displaced radially outward leaving the inner layer in normal position, or, both layers may be displaced, the one inwardly and the other outwardly, the object being to separate the circumferentially adjacent flattened ends into cylindrical layers in order that the ends of one layer will not interfere with the ends of the other layer when circumferential displacement of the ends of one layer relative to the ends of the Wother laver igfitalzin place.

When the entire set of inner layer terminals has been radially displaced in a manner indicated in Figs. 18 and 14, all of the terminals are simultaneously moved, the outer layer circumferentially in one direction and the inner layer circumferentially in the other direction, an amount corresponding to the front pitch of the winding leaving the

terminal ends

27 and 28 extending parallel'to the core axis.

An armature with the winding so bent is shown in Fig. 15, several outer layer bars being broken away for clearness and while I show the layers as being bent equal amounts, they may be bent the one layer more than the other or, both layers may be bent different amounts in the same direction as long as the algebraic sum of the bends equals the front pitch desired.

In order to pair the terminal ends27 and 28 to form commutator segments the terminal s 28 of the outer layer are now adially displaced, by a method similar to that employed in Fig. 13 to displace the inner layer, and thus the

terminals

27 and 28 are again brought circumferentially adjacent in rearranged pairs as shown in Fig. 16, where both outer layer terminals 28 and inner layer terminals 27 are circumferentially adjacent in cylindrical formation of relatively small diameter. The terminals however, may be arranged in a circle of larger diameter by leaving more space between pairs, or by adding a metal pad to each pair.

l hen the steps of the method of making an armature have progressed to the stage shown in Fig. 16 some form ofbinding means must be applied to hold the parts of the commutator together, the terminals comprising pairs in electrical contact, and the whole securely held against centrifugal force, and since in my co-pending application Serial N umber 234,158 I describe a process suitable for binding these ends the same will not be herein repeated, as the methods therein disclosed may be applied equally well to the present invention. A notch as at 35, or, other projection which the binding means mayongage, may be cut in the terminal ends either separately or after they are assembled as shown. or suitable projections may be formed on the terminal ends in the die Fig. 3.

A single turn bar winding is usually arranged in two concentric layers so that the portions of the bars which project beyond the ends of the core may extend, the one layer helically right handed and the other layer helically left handed, and by such an arrangement a bar of one layer may join a widely separated bar of another layer thru their helically projecting ends without interference or contact with the helical ends of other bars of the winding. It is therefore obvious that the conductors of such a windlng need be arranged hitwo. concentric. layers onlyiat such portions of their length as are helically disposed, and that all other portions of the winding may be composed of circumferentially adjacent parts in a single cylindrical layer.

While I have shown and-described'a winding wherein the two layer configuration Fig. 9 extends not'only thruout the helically disposed parts but also thruout the portions contained in the core apertures, it is apparent that in the process of making the loop these aperture portions may be brought to po sitions radially equal to each as are the

parts

23 and 24 Fig. 1, after which the die Fig. 3 may flatten these aperture portions to the cross sectional contour of the terminal ends Fig. 7. Such a winding would comprise helical portions in two concentric layers and aperture and terminal end portions composed of parts circumferentially adjacent in a single cylindrical layer. As it is sometimes considered advantageous to have wide thin conductors circumferentially adjacent in a core aperture rather than thicker narrower conductors radially one above the other, the loops may be so made when the advantages to be gained ju'stify.

While I have shown and described my method of making an improved winding as consisting of a number of steps in a given sequence, it is obvious that the steps need not necessarily be taken in the exact sequence indicated, but may be reversed or rearranged, or steps described as separately taken may be combined if so desired, and while I have shown round as a preferred form of wire for making loops comprising a winding, I do not wish to limit myself to the use of round wire, as wire of a modified form may be used, one feature of the invention consisting in providing a loop by using wire of uniform cross sectional contour thruout its length to form the conductors, and altering the cross sectional contour at parts of the length of the conductors, in such manner that those portions of the conductors which are necessarily arranged one radially above the other have cross sections adapted to that purpose while other portions which preferably occupy circumferentially adjacent positions are also suitably shaped, without altering the current carrying capacity at any point in the loop, yet maintaining such cross sectional contours at the altered portions that the composite contour of a pair of conductor legs thruout the length of a pair may substantially conform to the shape of a winding aperture so as to be endwise enterable therethru.

Having described my invention, I claim- 1. A method of making an armature which consists of providing an apertured core and a plurality of winding loops having their free ends flattened to substantially half the thickness and double the width of the original bars, endwise entering said loops thru the core apertures until the bars extend thru and beyond the core in two concentric layers, the flattened ends being circumferentially adjacent thus forming a cylindrical ring, radially displacing extending ends of said bars until the flattened ends of the bars of the inner layer form a cylindrical ring of lesser diameter than the flattened ends of bars of the outer layer, circumferentially displacing the flattened ends of bars of one layer relative to the flattened ends of bars of the other layer, then radially displacing extending ends of said bars to again bring all said flattened ends circumferentially adjacent in a single cylin drical ring.

2. A method of making an armature which consists of providing an apertured core and a plurality of winding loops having their free ends flattened to substantially half the thickness and double the width of the original bars, endwise entering the loops into the apertures, radially displacing the flattened ends of loops of the outer layer relative to the flattened ends of loops of the inner layer, circumferentially i displacing the ends of one layer relative to the ends of the other layer, bringing the ends back into a single cylindrical layer and bind ing them together to compose acommutator.

3. The method of winding the apertured core of a two layer bar armature, with a plurality of loops of wire of uniform cross section throughout its length, which consists of flattening the open ends of the loops until the width is substantially double and the thickness substantially half that of the original wire, arranging the loops in cylindrical formation with the major part of the bars in w hand.

VINCENT G. APPLE.