The invention concerns a device for opening and emptying filled two-piece capsules. For example, in the field of pharmacy and food supplements, so-called two-piece capsules are used in which an active ingredient preparation is contained and which are designed to be swallowed by the user. Such two-piece capsules are comprised, for example, of hard gelatine or of HPMC (hydroxypropyl methylcellulose) or the like, wherein the capsule material after having been swallowed will dissolve and release the active ingredient preparation. The two-piece capsules are formed of a capsule bottom part and a capsule top part, wherein first the capsule bottom part is filled and then subsequently a capsule top part is pushed onto the filled capsule bottom part. The plug connection is sufficiently strong so that the two parts will not accidentally detach from each other.
When filling two-piece capsules, specifications with regard to metering precision are stringent. However, these specifications are not always fulfilled. Due to the metering system, the quality of the metered material, and also other conditions, high reject rates may be produced. Particular in case of high-quality or high-priced filling material, there is the need in such a case to recover the filling material, if possible, without contaminations.
The invention has the object to provide a device for opening and emptying filled two-piece capsules with which a recovery, that is economic and gentle to the material, of the filling material from the filled and closed two-piece capsules is possible.
The object is solved by a device that comprises a separator block for separating capsule bottom part and capsule top part as well as a guide pusher for pushing an individual two-piece capsule into the separator block in a pushing direction. The separator block has a first clamping path for the capsule bottom part and a second clamping path for the capsule top part, wherein the clamping paths are designed such that they each have an advancing direction in which the capsule bottom part or the capsule top part can be moved by means of the guide pusher and, during this movement, are clamped perpendicularly thereto. The two clamping paths are slanted relative to each other such that their respective advancing directions relative to the pushing direction of the guide pusher diverge at an opening angle.
With the aforementioned clamping action, the capsule bottom part and capsule top part are forced into paths that are diverging relative to each other while they follow the advancing action of the guide pusher. As a result of the aforementioned clamping action, the diverging paths cause the capsule bottom part and the capsule top part, starting with their closed plug position, to move away from each other and to finally be completely separated. The precious filling material can be removed and can be supplied to a further filling process or another after-processing step. Opening of the two-piece capsule is realized with only minimal loading of the capsule material so that capsule damage and contamination of the filling material caused thereby are reliably avoided. High cycle rates are possible. A compact configuration results that enables installation of the device according to the invention in existing GMP (good manufacturing practice) rooms, for example, also in those rooms in which the filling and closing machine is located.
According to an advantageous further embodiment, the clamping paths each have a pair of at least approximately parallel clamping edges facing each other wherein the pair of parallel clamping edges of the first clamping path are positioned at the opening angle relative to the pair of parallel clamping edges of the second clamping path. In particular, the pairs of clamping edges are formed on pairs of clamping plates. The arrangement is constructively simple with respect to its configuration and is reliable with respect to its clamping guiding action. The capsule parts which are secured by clamping action between the clamping edges can be moved with minimal force expenditure and without excessive loading of the capsule material in the respective advancing direction. At the same time, the clamping edges prevent sliding of the capsule part secured therein perpendicular to the advancing direction, respectively, so that the two-piece capsule is reliably opened along the advancing path of the guide pusher.
In an advantageous embodiment, the separator block has upstream thereof a sorting device for oriented alignment and supply of an individual two-piece capsule to the separator block wherein the first clamping path is matched to the diameter of the capsule bottom part and the second clamping path to the diameter of the capsule top part.
The sorting device ensures that the two-piece capsules that are initially supplied unoriented are oriented such that, independent of their supply orientation, the capsule bottom part is always supplied to the correlated first clamping path and the capsule top part always to the correlated second clamping path. The individual adjustment to the capsule top and capsule bottom parts that differ with regard to their diameter enables a precisely predetermined clamping action on the capsule bottom part and the capsule top part without one of them being overloaded or subjected to a clamping action that is too low. The adjustment of the separator block to the diameter differences of the two-part capsule parts enables a safe and destruction-free opening of the capsule.
In connection with the sorting device and the configuration of the clamping paths with clamping edges, a proper longitudinal guiding action and clamping action transversely thereto are achieved in that the spacing between the clamping edges of the first clamping path is smaller by a first clamping measure than the diameter of the capsule bottom part and in that the spacing between the clamping edges of the second clamping path is smaller by a second clamping measure than the diameter of the capsule top part.
The sorting device has advantageously a sorting block with an ejector passage for receiving two-piece capsules that are supplied unoriented as well as a sorting pusher for oriented turning within the ejector passage and for removing the turned and oriented two-piece capsules from the ejector passage. In this connection, the effect is utilized that the closed capsules have their maximum diameter and also their maximum stiffness in the area of the spherical top part. In this area, the two-piece capsule is secured in the ejector passage with minimal clamping action wherein the site of the clamping action determines an eccentric pivot axis. The laterally supplied sorting pusher that hits the two-piece capsule centrally causes first a turning movement of the two-piece capsule in such a way that its thinner capsule bottom part in the ejecting direction of the sorting pusher is pointing forwardly. This applies likewise to two-piece capsules with capsule top part positioned at the top or at the bottom. After completed turning, the two-piece capsule independent of its initial position is ejected, with the thinner capsule bottom part leading, and supplied to the separator block in correct position so that an unequivocal assignment of capsule bottom part and capsule top part to the respective clamping path is ensured. In particular, the clamping paths and the sorting block can be designed as so-called format parts so that, with otherwise identical configuration of the device according to the invention, all conventional and differently designed two-piece capsule sizes can be processed.
In a preferred further embodiment, the sorting device has a capsule supply for the sorting block that performs a lifting stroke. In this connection, the lifting movement of the guide pusher is coupled with the lifting movement of the capsule supply which advantageously can be achieved by a fixed attachment of the guide pusher at the capsule supply. Without additional control expenditure, it is ensured that the processes of capsule orientation and capsule opening will be performed synchronous to each other. This contributes to operational safety at high cycle rates.
For the opening angle between the clamping paths there is some freedom with respect to design. It has been found to be advantageous that the opening angle is within a range of including 10° to including 50° and preferably in a range of including 20° to including 40° and in particular at least approximately 30°.
In an expedient further embodiment of the invention, below the separator block a separating device for separating the opened capsule bottom parts and capsule top parts from the contents of the capsule is arranged. Preferably, the separating device is formed by a vibrating screen and a collecting container for the capsule contents that is arranged below the vibrating screen. The vibrating screen retains the opened two-piece capsules while the capsule contents fall through the mesh of the screen into the collecting container. For a sufficiently narrow mesh size, also fragments of accidentally destroyed capsule parts can be retained so that a high degree of purity of the recovered capsule contents is ensured. The vibrating screen ensures also due to its vibrating movement that the entire capsule contents is removed from the vibrated capsule top parts and capsule bottom parts and supplied through the screen to the collecting container.
One embodiment of the invention will be explained in the following with the aid of the drawing in more detail. It is shown in:
By means of the capsule supply 23 in the form of a vertically oriented passage. filled two-part capsules 1 are supplied from a storage container, not illustrated, to the sorting device 19. The vertical passage of the capsule supply 23 has for this purpose a cross-section that is slightly greater than the diameter of the two-piece capsules 1 so that the two-piece capsules 1 can fall in vertical alignment in a row atop each other through the passage into the sorting device 19. The two-piece capsules 1 are unoriented within the capsule supply 23 such that randomly either a capsule bottom part 2 or a capsule top part 3 will be positioned facing downwardly.
The sorting device 19 comprises a sorting block 20 with a horizontally arranged and upwardly open ejector passage 21 as well as a sorting pusher 22 that is horizontally moveable in oscillation in accordance with a double arrow 29 and that has a tip 30 that is facing the ejector passage 21.
The separator block 4 is provided for separation of capsule bottom part 2 and capsule top part 3, beginning with the pushed-on state, and comprises a first clamping path 7 for an individual clamping bottom part 2 as well as a second clamping path 8 for an individual capsule top part 3. The first camping path 7 has an advancing direction 9 while the second clamping path 8 has an advancing direction 10. Moreover, a guide pusher 5 which is acting on an individual two-piece capsule 1 is provided which, in the illustrated embodiment, is rigidly connected to the capsule supply 23 and is movable in oscillation together with it in accordance with a double arrow 28 up and down in the vertical direction. Due to the rigid or fixed connection of the guide pusher 5 with the capsule supply 23, the lifting movement of the guide pusher 5 is coupled with the lifting movement of the capsule supply 23 in accordance with double arrow 28. However, a rigid connection between the two components can be omitted wherein then both lifting movements are driven separately and are coordinated or synchronized by means of a suitable control unit.
During the downward phase, the guide pusher 5 moves in pushing direction 6 and forces an individual two-piece capsule 1 into the separator block 4. The two clamping paths 7, 8 are slanted relative to each other such that their advancing movements 9, 10 relative to the vertical pushing direction 6 of the guide pusher 5 diverge at an opening angle α. The opening angle α is expediently in a range of including 10° to including 50° and preferably in a range of including 20° to including 40°. In the illustrated embodiment, the opening angle α is at least approximately 30°.
Below the separator block 4, the separating device 24 for separating the opened bottom parts 2 and capsule top parts 3 from their capsule contents is arranged. In the illustrated embodiment, the separating device 24 is formed by a vibrating screen 25 as well as by a collecting container 26 for the capsule contents arranged underneath the vibrating screen 25. The vibrating screen 25 is oscillatingly movable in horizontal direction by means of a drive, not illustrated, in accordance with double arrow 27. In addition or alternatively, a vertical oscillating movement can be provided also.
The device according to the invention is operated with the following method steps.
Starting with the position of
At the beginning, the initially closed two-piece capsule 1 is forced into the separator block 4 in the way illustrated in
At the same time, the capsule supply 23 is also lowered again in accordance with the illustration of
The illustration according to
Number | Date | Country | Kind |
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20 2011 100 502 | May 2011 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/001905 | 5/4/2012 | WO | 00 | 10/28/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/152412 | 11/15/2012 | WO | A |
Number | Name | Date | Kind |
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8621825 | Schmied | Jan 2014 | B2 |
20080236106 | Trebbi | Oct 2008 | A1 |
Number | Date | Country |
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397 764 | Jun 1994 | AT |
20 2010 005594 | Sep 2010 | DE |
Number | Date | Country | |
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20140053504 A1 | Feb 2014 | US |