DESCRIPTION OF EMBODIMENTS

[0012] The device in FIGS. 1 and 2 comprises a cylindrical core pin 1 and an annular matrix 2 , which has an inner diameter that is larger than the diameter of the core pin 1 so that a cylindrical space is defined between the core pin and the matrix. A lower punch 3 having the form of a hollow cylinder is dimensioned to fit into the annular space between the core pin and the matrix and the upper wall of the lower punch 3 constitutes the bottom wall of a molding cavity 4 . A work piece 5 of powder metal is disposed in this cavity in FIG. 1 .

[0013] A pressing punch 6 having a cylindrical body with a diameter corresponding to the inner diameter of the matrix 2 is slidable within the inner cylindrical space defined by the matrix. The lower end surface 7 of the pressing punch has a central recess into which the upper end portion 8 of the core pin 1 is fitted.

[0014] According to the invention the core pin 1 is slidable within the lower punch 3 and is biased to a first position by a spring 9 disposed between the lower end surface of the core pin and an opening in the foundation. In the first position of the core pin its upper end surface is flush with the upper surface of the matrix 2 in order to facilitate removal of superfluous powder filled into the molding cavity. In FIG. 1 , the core pin is disposed in its first position.

[0015] In FIG. 1 the pressing punch 6 is placed in a first position from which the step of compacting the work piece 5 takes place by pressing the punch 6 downwardly with a pressing force P. In the first position of the pressing punch, the surface of the central recess in its lower end surface 7 abuts the surface of the upper end portion 8 of the core pin and the side wall of the upper end portion 8 abuts the vertical wall of the recess in the lower end surface 7 of the pressing punch. The core pin is thus forced to follow downward movement of the pressing punch from its first position.

[0016] During the pressing step the pressing punch and the core pin will thus move together. Thereby, the friction forces created between the moving wall of the core pin and the particles in the powder material 5 disposed in the molding cavity 4 will have an opposite direction relative to the frictional forces created between the particles in the powder material and the stationary matrix wall. The friction forces created during the pressing step will thus balance each other and the powder material will be more evenly compacted throughout the height thereof.

[0017] In FIG. 2 the inventive device is shown in the end of the pressing step. The powder material in the molding cavity being compacted to an annular ring 10 . The lower punch 3 is by some suitable means arranged to act as a knock-out punch after the pressure P on the pressing punch 6 has been released, so as to eject the finished ring 10 from the molding cavity. For example, hydraulic pistons disposed in the foundation under the lower punch 3 can be arranged push the lower punch 3 upwardly when actuated. Before the ring 10 is ejected the upper pressing punch 6 is moved upwards to a position above the position shown in FIG. 1 in order to facilitate removal of the ring 10 from the molding cavity 4 .

[0018] It is not unusual that the device is used also for compacting powder material in the form of preshaped tubular articles or green bodies. The devices should therefore preferably be designed to facilitate insertion of such preformed articles into the molding cavity.

[0019] The described embodiment can of course be modified in several respects while remaining within the scope of the invention. For example, the pressing punch and the core pin can form an integral piece. However, such a structure makes the use of the device for preparatory or green compacts complicated and is therefore not preferred. Moreover, the pressing punch can have a totally flat lower end surface instead of the recess disclosed in the described embodiment. However, this is not preferred since the guiding of the core pin will then be decreased. Furthermore, the matrix can be arranged to move together with the pressing punch during the pressing step instead of the core pin, which in such an embodiment is stationary. The scope of invention should therefore be limited only of the wording of the enclosed patent claims.

[0020] While the present invention has been described by reference to the above-mentioned embodiments, certain modifications and variations will be evident to those of ordinary skill in the art. Therefore the present invention is to be limited only by the scope and spirit of the appended claims.