Not applicable
Not applicable
The present invention is related to a rotary press.
In a rotary press, a rotor is rotatably mounted around an upright standing axis in a stand and driven. The rotor body, mostly made up of one piece, contains an upper and a lower punch accommodation for upper and lower punches, which are guided axis parallel in bores. The compression punches co-operate with bores of a die plate, which is either formed in one part with the rotor body or represents a separate part. From DE 10 2004 040 163, the entire contents of which is incorporated herein by reference, it has also become known to compose the die plate from individual segments.
During the rotation of the rotor, the compression punches are moved axially. A great part of the movements is effected by control cams. For this purpose, control cam elements are attached on cam holders in the stand, which co-operate with the upper side and/or the bottom side of the head of the compression punches. Only in the region of compression stations with upper and lower compression roller, the compression punches are not guided by control cams.
For reasons of wear or a change of the specification, it is necessary to dismount the control cam elements and to replace them by other ones. For this purpose, it is necessary in the state of the art to remove machine shell parts and the filling device from the press stand, and to dismount plural punches or the die bore with the compression punches. In addition, powder existing in the machine must be sucked off. The mounting expenditure is therefore considerable. In addition, the operation of the rotary press is interrupted during the mounting time, of course. Thus, the exchange of control cam elements leads to a considerable interruption of the production time.
The present invention is based on the objective to provide a rotary press in which control cam elements can be dismounted without having to remove the compression punches before.
In the present invention, at least one control cam element is provided, guiding the compression punch heads radially outside and/or radially inside in the running direction of the compression punches. According to the present invention, the control cam element is detachably fastened on the cam carrier and it can be moved radially away from the punch heads when it is detached, in fact so far that it can be taken out parallel to the rotor axis, by-passing the punch heads, towards the upside or towards the bottom side. It goes without saying that the control cam element can be moved radially away from the punch heads only from that side at which it bears against the compression punches.
However, when control cam portions striking oppositely on the punch heads are provided, these control cam portions are each one assigned to an own control cam part. Both control cam parts are detachably fastened on the cam carrier. Each one of both control cam parts has a control cam portion, which strikes against the heads of the compression punches on opposing sides. The arrangement of the control cam parts relative to the cam carrier is such that that after detaching them from the cam carrier, the control cam parts are movable radially apart from each other at first, and subsequently they can be moved parallel to the axis of the rotor.
In this case, the control cam element is divided into two parts in the invention, and the individual parts can be removed separately, without that the compression punches have to be taken out before for this purpose. Therefore, the compression punches can remain in the press. The change of the control cam elements can take place rapidly in the invention, through which smaller standstill times are required in a remodelling.
The present invention is particularly advantageous when rotary presses are used in which it is intended to let the rotor and the compression punches remain in the press even for cleaning purposes. This is possible when the rotor is surrounded by a sealing casing, which forms a relatively small compression space inside of the press casing. The casing is realised such that the upper and lower ends of the compression punches projecting out from the rotor, which co-operate with the control cams, are situated outside the compression space. The compression punches on their part are sealingly guided in the bores of the punch accommodations.
In one embodiment of the present invention, the control cam parts have radial flange portions, wherein the flange portion of the radially outer control cam part overlaps the flange portion of the radially inner control cam part. In a further embodiment it is provided that the flange portions are prestressed against each other when they are fastened on the cam carrier by means of screws.
Different ways of mounting the control cam parts on the cam carrier are conceivable. According to one embodiment of the present invention, one of them consists in that the radially inner control cam part is fastened on the cam carrier, and the radially outer control cam part is fastened on the radially inner control cam part. Alternatively it can be provided according to another embodiment of the present invention that the inner control cam part has a flange portion pointing radially towards the outside, which overlaps the outer control cam part.
Examples of the realisation of the present invention are explained in more detail in the following by means of drawings.
While this invention may be embodied in many different forms, there are described in detail herein a specific preferred embodiment of the invention. This description is an exemplification of the principles of the invention and is not intended to limit the invention to the particular embodiment illustrated.
A stand 10 of a rotary press after
In
In
In
The co-operation of the control cam parts 66, 68 can be recognised in
When the screws are removed, as is shown in
One recognises that the control cam element 64 can be removed completely without having to disassemble the compression punches 28. Anyway, disassembly of the compression punches is possible, of course, like when another specification is to be used for instance.
The control cam element 64 depicted in
In the embodiment after
Number | Date | Country | Kind |
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10 2007 057 790.9 | Nov 2007 | DE | national |