Stiff metal ring and process for making it

Abstract

A stiff ring useful for such purposes as electric motor housings. The ring is a single piece, usually having a ratio of diameter to wall thickness less than about 40:1. The ring consists of a single piece of steel cut from a continuous strip having a tongue at one end and a recess at the other. These have interfering tapered locking segments to prevent separation, and are interlinked with one another. The process for making the ring comprises forming the strip in a U-shape around a cylindrical mandrel by interaction with a first half cylindrical die part, and then while holding the bent strip with the mandrel and first die part pressing the free ends so that they symmetrically pass along the inside surface of a second semi-cylindrical die part with the interlocking ends of the strip shaped and riding the die in such a manner that the tongue and recess inter-engage one another with a minimum of physical interference. Then the interlocking joint is coined by bringing the die parts against the ring while it is still supported on the mandrel. The tongue has extensions ahead of its locking section to permit single stroke non-destructive engagement of the interlocking ends. The tongue and recess ends can be angulated to further aid this engagement.

Description

SPECIFICATION

This invention relates to stiff metal rings and to means for making them.

Stiff metal rings made of steel find many uses. One of their classical uses is as a housing for an electric motor. There are many techniques for making these rings, and there are many structures of rings which take a strip and wrap it into a circular pattern and somehow hold it in the shape. Fingers on the ends which interdigitate are known, as are tabs which are folded onto one another. Generally speaking, known techniques require the use of relatively complicated mechanisms and result in higher than necessary costs, especially when the wall thickness of the ring is fairly heavy, such as on the order of 3/32 inch or greater.

It is an object of this invention to provide a ring and a process for making it, which can readily be constructed, which is physically interlocked, which has cylindrical accuracy and is inexpensive to manufacture, and which can have a fairly low outer diameter to wall thickness ratio such as 40:1 or less.

A stiff ring according to this invention consists of a cylindrically formed single piece of steel which has been cut from a continuous strip. The strip has dimensions of width, thickness and axial length and axially parallel side edges. It also has a pair of ends which extend between the side edges, one of said ends having a projecting tongue and the other of said ends having a mating recess. The tongue and the recess have locking segments which diverge in such a way as to physically interlock the ends of the strip when the ring is assembled.

According to one feature of the invention, one of the ends has pilot segments which permit nondestructive entry of the tongue into the recess.

A process for manufacturing this ring comprises starting with strip material, cut off with a die having the geometry of the two ends, and being bent so as to angulate the end, then forming the strip into a U-shape around a mandrel and while backing the bight of the U with a half cylindrical die part, pressing the two ends of the strip along the semi-cylindrical contour of a second die part in such a manner that the tongue enters the groove and the die parts can then be brought together against the ring, pressing it against the mandrel to coin the ring to a cylindrical shape with the tongue and recess strongly interlocked.

The above and other features of this invention will be fully understood from the following detailed description and the accompanying drawings, in which:

FIG. 1 is a plan view of a strip used to make a ring according to the invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is an end view of tooling for manufacturing the ring shown in two operating positions;

FIG. 4 is a cross-section taken at line 4--4 of FIG. 3;

FIGS. 5-10 are progressive end views showing the completion of the ring after the positions of FIG. 3; and

FIGS. 11-16 are progressive views showing the interlocking and coining of the tongue and the groove in positions respectively corresponding to FIGS. 5-10.

FIG. 1 shows a plan view of a piece 20 of steel such as mild steel which has been cut from a roll, preferably flattened, and then cut at both of its ends. It preferably is also bent near both of its ends in a matter yet to be described.

Piece 20 has dimensions of width 21, thickness 22, and axial length 23, said length extending along axis 24. The piece also has a pair of side edges 25, 26 which extend axially and parallel to one another, a first end 27, and a second end 28. It will be seen that the ends are complementary, so that when the piece was cut from the coil no material was wasted. The ends are made from identical, sequential die cuts.

First end 27 has an axially recessing recess 30 therein. This leaves a pair of fingers 31, 32 on each side thereof. The recess is intended to be a re-entrant structure, and it has a pair of locking segments 33, 34 which diverge from one another as they extend toward the second end. Clearance segments 35, 36 are provided for a purpose yet to be described. Conveniently, radii 37, 38 are provided at the outer edges of the recess.

At the second end, a tongue 40 is provided. It is laterally spaced from the side edges. It includes a pair of locking segments 41, 42 which diverge from one another as they extend away from the first end. The tongue also includes a pair of pilot segments 43, 44 which converge toward one another as they extend away from the first end. Radii 45, 46 are provided at the inner ends at the inner end of the tongue to match radii 37 and 38. The tongue and the recess are cut by the same die in successive blows as the strip is led between a single die. This die is quite conventional and requires no detailed description here.

The assembly of the interlocking joint can be facilitated by providing a first inward bend 47 and a second outward bend 48 adjacent to the recess and to the tongue end respectively. This can be done in a later step. These bends are best shown in FIG. 2. The bends are optional, but they do aid non-destructive interdigitation of the interlocking joint.

It is an object of this invention to form piece 20 as described into a cylindrical ring with its ends interlocked. It will be seen that a direct coplanar shove of the tongue into the recess would have to overcome considerable dimensional interference and cause considerable distortion and loss of locking engagement. Obviously this is not the best technique, but it is a technique which is widely used in the prior art and for this reason the prior art seldom is able to show relatively, heavy-walled rings having interfering tongue and recess construction assembled in a simple, single stroke forming operation. Instead, straight fingers are usually used, or crimped constructions, or compound joint forming operations.

In this invention, a cylindrical mandrel 50 is provided which is slideably mounted to a machine base 51. The machine is a press whose operation is completely conventional, and requires no detailed description here. The first step in the manufacture of this ring is shown in solid line in FIG. 3. In addition to the mandrel, the machine has a first die part 52 with a semi-cylindrical die face 53 facing downwardly toward piece 20. The die is somewhat rounded by radii 54, 55 near its edges, but this does not cause the die to depart substantially from a semi-cylindrical shape. A second die part 56 is disposed beneath the mandrel, and it also includes a semi-cylindrical die face 57 facing upward, which has a pair of guide faces 58, 59 at the edges of facilitate the initial movement of the pieces which will later be described.

Preferably but not necessarily, the second die part is recessed to provide a pair of side shoulders 60, 61 to act as guides for the side edge piece as it progresses down die face 57. This is optional, but it does assist in keeping the ends of the piece properly aligned.

The pressing operation is carried out in several steps. First is the insertion of the piece to the proper location beneath the raised and separated first die part and mandrel. Then with the mandrel held at the level shown, the first die part is brought down over it to bend the strip to a U-shape as shown in dashed line. It then has a bight 65 and a pair of arms 66, 67.

Next, with the first die part held firmly against the piece, and holding the piece against the mandrel as illustrated by dashed line, it and the mandrel are together brought down to press the ends of the piece along the die face of the second die part. This will cause the sequence of operation yet to be described.

The last portion of the process is a coining type movement wherein the die parts are strongly brought together against the piece to complete the ring, and the ring is strongly brought together against the mandrel so as to form the ring into a truly cylindrical part. The dies are retracted and the ring is axially ejected off of the mandrel. The process can be repeated indefinitely with successive pieces of metal.

Conventional presses can be used for this purpose, provided they are adapted for the movements described. In addition to the described movements, it is equally possible to hold the mandrel always stationary, first bringing the first die part against the mandrel and then bringing the second die part upwardly while the first die part is held in position. It is to be understood that the specific details of movement of the die parts and mandrels are not of importance so long as their relative interactions are as described.

Initial cylinder forming is shown in FIG. 3 wherein the flat strip (except for the possible use of bends 47 and 48) is fed between the mandrel and the first die part, and then is bent down to form the said U-shape. At this time the sequence shown in FIGS. 5-10 begins. In these Figs., the centers 70, 71 of the mandrel and lower die part surface are shown. They will approach each other until when the ring is completed they substantially coincide.

In FIG. 5, the ends of the strip have moved down along the die face 59 until they begin to approach each other. It will be seen that the tendency of the strip is to wrap around the mandrel, the points of tangency 73, 74 having moved around the mandrel, but of course not yet all the way. Because of this there will be a slight bend at or near the points of tangency, with the free parts somewhat more planar than those which have already been bent. It will now be seen that the pilot section on the tongue spaces the locking segments upwardly and radially inwardly from the die surface, and farther than the tip edges 75 of the fingers. The bends 47 and 48 help assure the the tongue locking segments are boosted up, and the mating recess segments lowered. This dimensionaal relationship will permit the interfering edges 76 at the intersections of the locking segments and pilot segments to pass with at least reduced dimensional interference. There usually will be some interference, and there will then be some displacement of metal, but it is surprising to see the degree of clearance and the relative freedom with which the interdigitation occurs as shown in FIG. 6. At about the position of FIG. 6, bend 48 begins to straighten out somewhat and the tongue begins to lay down closer to the plane of the fingers and of the recess. This movement which involves relatively small axial movements of the tongue and recess becomes more pronounced in FIGS. 7 and 8 as the structure begins to flatten out somewhat. By the time the arrangement of FIG. 9 has occurred, the ends interlocking. There may be limited upset or galling on interlocking surfaces, but locking joint and cylinder construction are simultaneously completed by the coining operation which takes place at the condition of FIG. 10, which brings the die parts together against the ring and the ring against the mandrel. There will be slight clearances 78 between the die parts at the time of closure to protect the tooling.

The relative positions of the tongue and recess in FIGS. 5-10 are respectively shown in FIG. 11 through 16. Any galling or upset in the interlocking joint is substantially ironed out in the coining operation of FIG. 10.

The tongues and the material adjacent to the recesses at the respective ends of the piece, are stiff enough that during the forming operation, contact with the die is only at the tip of the tongues and at the end edges adjacent to the recesses.

Bends 47 and 48, (angles A and B) while not essential, further raise the tongue's wide locking section (Dimension B) above the cylindrical forming surface, and also cause the interlocking tips of the recess or notch end to lie closer to the cylindrical forming surface, thus faciliting the non-destructive passage of the wide portion of the tongue by the narrow portion of the notch preparatory to locking engagement with the concurrent final cylindrical forming to the tongue and recess ends.

This system is particularly useful for making rings wherein the ratio of outer diameter to wall thickness is about 40:1 or less. It is desirable for the total lateral thickness of the fingers at the recess end, at their thinnest portion, to be somewhat less than maximum lateral width of the recess, because it is desirable for the tongue and for the fingers to have substantial strength to protect against separation by spring-back forces or subsequent loads on the ring. The width of the tongue or tongues and its base will not generally exceed about 60% of the lateral width of the strip.

The following is a set of dimensions suitable for use with this invention, relative to the drawings.

Material: Mild carbon steel Width 21: 21/4 Thickness 22: 3/16 Length 23: 91/2 Angle A: 5.degree. Angle B: 5.degree. Dimension C: 9/16 Dimension D: 11/4 Dimension E: 1-1/16 Dimension F: 5/16 Dimension G: 1/4 Angle H: 15.degree.

Dimensions are in inches. Angles are in degrees.

More than one set of tongues and recesses can be provided, and in multiple or continuous sets of tongues and recesses where the two might otherwise be viewed interchangeably, it is a salient feature of this invention that the protruding fingers on one side (the "tongue" side)--but not both sides--of the joint will have pronounced non-locking lead sections to carry the locking segment of the tongue above the mating recess's locking segment during the cylindrical forming and interdigitation of the locking joint.

The invention provides both more accurate and stronger cylinders, and a more rapid and economical means for producing such cylinders.

This invention is not to be limited by the embodiments shown in the drawing and described in the description which are given by way of example and not of limitation, but only in accordance with the scope of the appended claims.

Claims

1. A stiff ring consisting of a single piece of steel, said piece being cut from a continuous strip and having dimensions of width, thickness, and axial length, and also having parallel side edges extending along the dimension of length, and a pair of axially spaced apart ends extending between the side edges, the first of said ends having an axially recessive recess spaced from both of said side edges, the second of said ends having an axially projecting tongue spaced from both of said side edges, said tongue having a pair of locking segments, one at each side thereof, said segments diverging from one another as they extend away from said first end, and a pair of pilot segments extending from the locking segments on the other side thereof from said second end, said pilot segments not diverging from one another as they extend away from said first end, said tongue and said recess being substantially congruent, whereby said recess is bounded by a pair of locking segments which converge toward one another as they extend away from said second end and a pair of clearance segments which do not converge toward one another as they extend away from said second end, said piece having been bent to form a U-shape having a pair of arms and half cylinder bight, and with the said bight restrained to a cylindrical mandrel by a half cylinderical die part, the said ends having been pressed along a concave half cylinder surface in a second die part, thereby to be deflected toward one another, with the pilot segments of the tongue holding the locking segments of the tongue above said concave half cylinder surface of second die part, and with the tip of the tongue galled by said die, and with part of its edge galled, so that mating recess end and its locking segment pass under the tongue locking section, and then the tongue and recess are pressed into surface continuity, to form an interlocking joint, with much of said galling having been smoothed out, and are thereby radially locked between die and mandrel in final forming of cylinder, the ring thereafer having been removed from said mandrel, said tongue being spaced laterally from the side edges, and in which said tongue was initially bent in a direction away from the inside of the rings.

2. A ring according to claim 1 in which the ring has an outer diameter, and in which the ratio of the outer diameter to the dimensions of thickness of the piece is not greater than about 40.

3. A ring according to claim 1 in which said locking segments are initially substantially flat, and in which said pilot segments and clearance segments are initially substantially flat, and are thereafter pressed into said surface continuity.

4. A ring according to claim 1 in which said recess is spaced from the side edges by a pair of fingers, and in which said fingers are initially bent in a direction toward the inside of the ring.

5. A ring according to claim 1 in which said recess is spaced from the side edges by a pair of fingers, and in which said fingers were initially bent in a direction toward the inside of the ring.

6. A ring according to claim 5 in which the ring has an outer diameter, and in which the ratio of the outer diameter to the dimensions of thickness of the piece is not greater than about 40.

7. A ring according to claim 1 in which a plurality of sets of tongues and recesses are provided.

8. A ring according to claim 7 in which said recess is spaced from the side edges by a pair of fingers, and in which said fingers are initially bent in a direction toward the inside of the ring.

9. A ring according to claim 7 in which the ring has an outer diameter, and in which the ratio of the outer diameter to the dimensions of thickness of the piece is not greater than about 40.