DEVICE FOR CAPACITIVELY MEASURING THE POWDER FILL LEVEL IN A FILLING APPARATUS OF A ROTARY PRESS

Abstract

A device for capacitively measuring a powder fill level in a filling apparatus for a rotary press where the fill apparatus comprises a filling pipe. The device comprises a first measuring electrode positioned on the filling pipe and a reference electrode. A first electrical capacitor is configured to be formed by the reference electrode and the first measuring electrode, wherein an electrical field is configured to be formed between the first measuring electrode and the reference electrode. The first measuring electrode is covered by an electrically conductive protective shielding on a side facing away from the filling pipe and the electrically conductive protective shielding is at a ground potential.

Claims

1. A device for capacitively measuring a powder fill level in a filling apparatus for a rotary press, wherein the fill apparatus comprises a filling pipe, the device comprising: a first measuring electrode positioned on the filling pipe; and a reference electrode configured to form a first electrical capacitor with the first measuring electrode, wherein an electrical field is configured to be formed between the first measuring electrode and the reference electrode, wherein the first measuring electrode is covered by an electrically conductive protective shielding on a side facing away from the filling pipe, and wherein the electrically conductive protective shielding is at a ground potential.

2. The device according to claim 1, wherein the first measuring electrode is positioned in an electrically non-conductive holding portion.

3. The device according to claim 2, wherein the electrically non-conductive holding portion is arranged on the filling pipe.

4. The device according to claim 3, wherein the electrically non-conductive holding portion is positioned in a recess defined on the filling pipe.

5. The device according to claim 1, wherein the filling apparatus comprises an electrically conductive filling pipe portion that is at a ground potential.

6. The device according to claim 1, wherein the reference electrode is at a ground potential.

7. The device according to claim 1, wherein the first measuring electrode is at a ground potential.

8. The device according to claim 1, wherein the reference electrode is positioned on the filling pipe.

9. The device according to claim 1, wherein the reference electrode is formed by the filling pipe.

10. The device according to claim 1, further comprising: a second measuring electrode positioned on the filling pipe, wherein the second measuring electrode and the reference electrode form a second electrical capacitor, wherein an electrical field is configured to be formed between the second measuring electrode and the reference electrode, and wherein a measuring region of the second measuring electrode is covered by powder material located in the filling pipe during operation of the rotary press.

11. The device according to claim 10, further comprising: a third measuring electrode located on the filling pipe, wherein the third measuring electrode and the reference electrode form a third electrical capacitor, wherein an electrical field is configured to be formed between the third measuring electrode and the reference electrode, and wherein a measuring region of the third measuring electrode is located above a fill level of the powder material in the filling pipe at all times during operation of the rotary press.

12. The device according to claim 10, wherein the second measuring electrode is covered by the electrically conductive protective shielding on a side facing away from the filling pipe.

13. The device according to claim 12, wherein the second measuring electrode is positioned in the electrically non-conductive holding portion.

14. The device according to claim 12, wherein the electrically conductive protective shielding is an active protective shielding configured to be energized to a same potential as one of the first measuring electrode and the second measuring electrode during a fill level measurement.

15. The device according to claim 1, further comprising a control and evaluation apparatus configured to control the first measuring electrode and the reference electrode during operation of the rotary press and further configured to determine the fill level of the powder material in the filling pipe based on measurement data of the first measuring electrode and the reference electrode.

16. The device according to claim 1, wherein at least one of the first measuring electrode and the reference electrode is positioned on substantially non-flexible PCBs.

17. A rotary press comprising: a rotor configured to be rotated by a rotary drive, wherein the rotor comprises, an upper punch guide, a lower punch guide, and a die plate defining a plurality of cavities and positioned between the upper punch guide and the lower punch guide; a plurality of upper punches configured to be guided by the upper punch guide; a plurality of lower punches configured to be guided by the lower punches, wherein the plurality of upper and lower punches interact with the plurality of cavities of the die plate; at least one upper pressing apparatus and at least one lower pressing apparatus; a filling apparatus configured to dispense powder material to be pressed into the plurality of cavities of the die plate, wherein the filling apparatus comprises a filling pipe, and wherein the at least one upper pressing apparatus and the at least one lower pressing apparatus are configured to interact with the plurality of upper punches and the plurality of lower punches to press the powder material in the cavities of the die plate; an ejection apparatus configured to eject pellets generated in the cavities; and a device for capacitively measuring a fill level of the powder material in the filling apparatus, the device comprising, a first measuring electrode positioned on the filling pipe and configured to form a first electrical capacitor with a reference electrode, wherein an electrical field is configured to be formed between the first measuring electrode and the reference electrode, wherein the first measuring electrode is covered by an electrically conductive protective shielding on a side facing away from the filling pipe, and wherein the protective shielding is at a ground potential.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0028] An exemplary embodiment of the invention is explained below in greater detail with reference to figures. Schematically:

[0029] FIG. 1 illustrates a sectional view of an embodiment of a rotary press including a flattened representation of the rotor;

[0030] FIG. 2 illustrates a side view of an embodiment a device for capacitively measuring the powder fill level in the filling apparatus of a rotary press in a side view;

[0031] FIG. 3 illustrates a sectional view along the line A-A of the embodiment of FIG. 2;

[0032] FIG. 4 illustrates a sectional view along the line B-B of the embodiment of FIG. 3; and

[0033] FIG. 5 illustrates the embodiment of FIG. 2 with the protective shielding removed.

[0034] The same reference numbers refer to the same objects in the figures unless indicated otherwise.

DETAILED DESCRIPTION OF THE INVENTION

[0035] The rotary tablet press shown in FIG. 1 comprises a rotor that is rotationally driven by a rotary drive (not shown) with a die plate 10 which has a plurality of cavities 12. The cavities 12 can for example be formed by holes in the die plate 10. The rotor also comprises a plurality of upper punches 14 guided in an upper punch guide 13 and a plurality of lower punches 16 guided in a lower punch guide 15, which rotate synchronously with the die plate 10. In each case, a pair consisting of an upper punch 14 and a lower punch 16 is assigned to a cavity 12. The axial movement of the upper punches 14 and lower punches 16 during the rotation of the rotor is controlled by upper control cam elements 18 and lower control cam elements 20. The rotary tablet press moreover comprises a filling apparatus 22 which has a filling chamber 24. The filling apparatus 22 moreover comprises a funnel-shaped filling material reservoir 26 which is connected by a filling pipe 28 to the filling chamber 24. In this manner, the powdered filling material in the present example passes under the force of gravity via the filling pipe 28 into the filling chamber 24, and passes therefrom via a filling opening provided in the bottom side of the filling chamber 24 into the cavities 12 of the die plate 10, again under the force of gravity.

[0036] Moreover, the rotary tablet press comprises a pressing apparatus 30. The pressing apparatus 30 comprises a pre-pressing apparatus with an upper pre-pressing roller 32 and a lower pre-pressing roller 34, as well as a main pressing apparatus with an upper main pressing roller 36 and a lower main pressing roller 38. Furthermore, the rotary tablet press comprises an ejection apparatus 40, in the present case with a scraper 42 which supplies the tablets 44 produced in the rotary tablet press to a tablet discharge 46. An evaluation and control apparatus 48 controls operation of the rotary press and is connected, inter alia, to the rotary drive of the rotor by lines (not shown).

[0037] A device 50 for capacitively measuring the powder fill level in the filling pipe 28 is also arranged on the filling pipe 28. The device 50 is also connected to the evaluation and control apparatus 48. In FIGS. 2-5, the device 50 for capacitively measuring the powder fill level is shown in various views. As can in particular be seen in FIGS. 3 and 4, the filling pipe 28 comprises a recess 52 in which a holding portion 54 made of an electrically non-conductive material, for example a plastics material such as POM, is arranged. The holding portion 54 bears a first measuring electrode 56, which extends in the axial direction of the filling pipe 28, as well as second and third measuring electrodes 58, 60, which are arranged in parallel with the first measuring electrode 56 and each extend in parallel with and over approximately 10% of the length of the first measuring electrode 56. The second measuring electrode 58 is arranged in the region of the lower end of the first measuring electrode 56 and the third measuring electrode 60 is arranged in the region of the upper end of the first measuring electrode 56, as can be seen in particular in FIG. 5. The holding portion 54 and with it the measuring electrodes 56, 58 and 60 are moreover covered on the side thereof facing away from the filling pipe 22 by an electrically non-conductive protective shielding 62, which is at ground potential. The protective shielding 62 is not shown in FIG. 5 for illustrative reasons. The filling pipe 28 is also at ground potential in the example shown. The filling pipe 28 and the protective shielding 62 may, for example, consist of a metal. For example, the filling pipe 28 may consist of a stainless steel and the protective shielding 62 of aluminium.

[0038] The filling pipe 28 forms a reference electrode for the measuring electrodes 56, 58 and 60 in the exemplary embodiment shown in the figures. The measuring electrodes 56, 58 and 60 therefore form three electrical capacitors with the filling pipe 28 as the reference electrode, such that an electrical field can be formed between each of the measuring electrodes 56, 48 and 60 and the reference electrode 22. The second measuring electrode 58 may be covered completely by powder material located in the filling pipe 28 at all times during operation of the rotary press, while the third measuring electrode 60 may be located above the fill level of the powder material in the filling pipe 28. The first measuring electrode 56 forms, with its longitudinal extension, a measuring region for measuring the powder fill level in the filling pipe 28. During operation, controlled by the evaluation and control apparatus 48, an electrical field is formed between each of the measuring electrodes 56, 58 and 60 and the filling pipe 28, which serves as the reference electrode, and the capacitance of the respectively formed capacitors is measured, again by the evaluation and control apparatus 48. The evaluation and control apparatus 48 determines the powder fill level in the filling pipe 28 from the capacitance measurement. External sources of interference can be largely minimized by means of the protective shielding 62 at ground potential. By using the filling pipe 22 as the reference electrode, which is also at ground potential, a particularly accurate and reliable capacitance measurement is possible. By means of the second and third measuring electrode 58, 60, influences on the measurement result caused by changes to the powder material or properties of the filling pipe 22 can be eliminated.

LIST OF REFERENCE NUMBERS

[0039] 10 Die plate [0040] 12 Cavities [0041] 13 Upper punch guide [0042] 14 Upper punches [0043] 15 Lower punch guide [0044] 16 Lower punches [0045] 18 Upper control cam elements [0046] 20 Lower control cam elements [0047] 22 Filling apparatus [0048] 24 Filling chamber [0049] 26 Filling material reservoir [0050] 28 Filling pipe [0051] 30 Pressing apparatus [0052] 32 Upper pre-pressing roller [0053] 34 Lower pre-pressing roller [0054] 36 Upper main pressing roller [0055] 38 Lower main pressing roller [0056] 40 Ejection apparatus [0057] 42 Scraper [0058] 44 Tablets [0059] 46 Tablet discharge [0060] 48 Evaluation and control apparatus [0061] 50 Device [0062] 52 Recess [0063] 54 Holding portion [0064] 56 First measuring electrode [0065] 58 Second measuring electrode [0066] 60 Third measuring electrode [0067] 62 Protective shielding