DE252264C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVi 252264 CLASS 7c. GROUP

ARTHUR PITSCHEL in LONDON MILLWALL

Cross-section.

Patented in the German Empire on January 7, 1910.

The invention relates to a method for producing hollow soft metal rings with substantially rectangular cross-section. The manufacture of hollow soft metal rings from rectangular cross-section for sealing purposes, in particular for stuffing box packings round metal tube causes difficulties because it is not possible to press the material to stress so evenly,

ίο that the wall thicknesses on all parts of the Ring will be the same. You also have to use the finished rings with a round cross-section start, since straight metal pipe with an angular cross-section are no longer evenly spaced can be shaped into rings. Even when bending the straight tube into the ring shape but the wall thickness necessarily becomes unequal, because when the pipe is bent around a mandrel the fibers are stretched on the outer circumference and thereby the cross-section is reduced here is, while the inner part of the circumference resting against the mandrel is compressed, whereby the thickness of the jacket is increased at this point.

With the new method it is now possible by the fact that the hollow ring in front of the Pressing a special shape gives the unevenness of wall thickness, though not to be completely eliminated, but at least to be reduced and thereby the durability of rings with a rectangular cross-section. This is achieved in that the one piece of pipe of a round cross-section and filled with a resilient mass ring first machined on its outer surface in such a way that its cross-section is heart-shaped or triangular shape with rounded corners, the base line of which is in the inner cylindrical boundary surface of the ring, while the tip of the Cross-section points outwards, whereupon the ring designed in this way is placed in a die with rectangular Trough-shaped cross-section is introduced, on whose side surfaces it rests firmly and in which it is subjected to an axial pressing pressure, so that it has the desired assumes a rectangular cross-section.

An expedient embodiment of this method is shown in the accompanying drawing illustrated.

The procedure is roughly as follows: A straight pipe is fitted with a resilient mass c, such as, for. B. sand, wax or the like., Filled, wound into a spiral and then cut into ring or semi-ring-shaped pieces. The resulting filled round ring α (Fig. 1) is pushed onto a matching mandrel b of cylindrical shape. This mandrel can consist of an iron pipe clamped on one side or a solid iron roller, or you can also use an anvil with a correspondingly shaped horn. The ring is then brought into the shape shown in FIG. 2 with an approximately triangular, pointed-oval or heart-shaped cross-section by hammering or pressing, the base line d of the triangle

coincides with the inner cylindrical boundary surface of the ring. It is easy to achieve such a triangular shape by hammering or pressing with a suitable pressing tool, in which the two legs e and f of the triangle are approximately the same. While in the round ring the inner part lying on the mandrel is reinforced as a result of the compression that occurs when the ring is bent to form a ring, when the round ring is converted into the triangular shape, a thickening also occurs at points e and f.

The ring machined in this way is then placed in press dies of the type illustrated in FIG. 3. The die has an annular groove of rectangular cross-section which is delimited by the hollow cylinder g, the solid cylinder h and the base i. The male mold k is designed as a movable press ram. If desired, a similar movable ram can also be used as the bottom i. The triangular ring is placed in the die in such a way that the base d of the triangle rests on the mandrel h and the tip of the angle e, f rests on the inner surface of the ring g. With the help of the ram k , a compressive pressure is then exerted on the ring α in the axial direction, care being taken that the distance is maintained. the side walls g and h remain unchanged and only the height distance between the male part k and the bottom i of the female part is reduced. The material of the walls d, f and e , which has been displaced by the pressure, enters the free spaces I and m of the press chamber, and the desired ring of approximately rectangular cross-section is created.

If one proceeds when making the ring as in the exemplary embodiment shown in FIG a round ring with a circular cross-section, in which the diameter of the Cross-section corresponds to the inside width of the die groove, so that the outer diameter of the ring with a triangular cross-section (Fig. 2) is equal to the outer diameter of the original ring with a circular cross-section, you get a ring with rectangular cross-section, the height of which is less than the cross-section width, so one more or less flat ring.

If you want rings with a substantially square cross-section in the manner of the one shown in FIG As illustrated, one must start from a round ring whose cross-sectional diameter (Pipe diameter) is larger than the clear width of the press groove. In this case, when transferring the round Ring cross-section reduced to the triangular shape of the outer diameter of the ring, until it corresponds to the clear width of the press groove. The pre-machined ring now has a greater height than width. By compressing such a ring in In the axial direction one then comes to the ring with an essentially square Cross-section.

Claims (1)

Patent claim: Process for the production of hollow soft metal rings with an approximately rectangular cross-section, characterized in that a ring consisting of a pipe piece (a) with a round cross-section and filled with flexible material (c) is first reshaped in such a way that its pipe cross-section has a heart-shaped or triangular shape with two rounded corners whose base line lies in the inner cylindrical boundary surface of the ring, while the tip of the cross-section points outwards, whereupon the ring designed in this way is introduced into a die with a rectangular channel-shaped press groove, on the side surfaces of which the ring rests, and in which it is subjected to an axial pressure so that it assumes the desired rectangular cross-section. 1 sheet of drawings.