Sorting device for tablets

Abstract

A sorting device for tablets for separating out multiple tablets has a plurality of stations including a feed station, a sorting station and an ejection station, and a tablet transporter which moves to the individual stations in a direction of rotation. The tablet transporter includes a row of tablet receivers for single tablets and a doublet receiver for multiple tablets which have been separated out. The doublet receiver is laterally next to the tablet receivers. An individual tablet receiver is laterally separated from the doublet receiver via a side wall. In the sorting station is a sorting tine which can be moved to and fro over a travel range in a lateral direction extending transversely to the direction of rotation such that the sorting tine passes over the region of a tablet receiver, the adjacent doublet receiver and the side wall located between them.

Claims

1. A sorting device for tablets for separating out multiple tablets, the sorting device comprising: a plurality of stations including a feed station, a sorting station and an ejection station; a tablet transporter configured to move to individual ones of said plurality of stations in a direction of rotation; said tablet transporter including a row of tablet receivers for single tablets and a doublet receiver for multiple tablets which have been separated out; said doublet receiver being positioned laterally adjacent to said row of tablet receivers; each of said tablet receivers of said row of tablet receivers having a side wall laterally separating said tablet receiver from said doublet receiver; an individual one of said tablet receivers, a corresponding one of said side walls, and said doublet receiver conjointly defining a sorting region; and, a sorting tine configured to be moveable to and fro over a travel path in a lateral direction extending transversely to the direction of rotation in such a manner that said sorting tine passes over said sorting region.

2. The sorting device of claim 1, wherein said doublet receiver is a first doublet receiver; each of said tablet receivers has a first side and a second side; said first doublet receiver is disposed on said first side of each of said tablet receivers; the sorting device further comprising: a second doublet receiver disposed on said second side of each of said tablet receivers; and, said travel path of said sorting tine extends from said first doublet receiver to said second doublet receiver, wherein a corresponding one of said tablet receivers is located between said first doublet receiver and said second doublet receiver.

3. The sorting device of claim 1, wherein: the sorting device includes a plurality of rows of tablet receivers and a plurality of doublet receivers; said tablet receivers and said doublet receivers are arranged alternately next to one another in the lateral direction; the sorting device includes a plurality of sorting tines; and, each of said plurality of rows of tablet receivers are provided with one of said plurality of sorting tines.

4. The sorting device of claim 1, wherein the to and fro movement of said sorting tine is synchronized with a rotational movement of said tablet receivers such that each of said tablet receivers is passed over precisely once by said sorting tine at said sorting station.

5. The sorting device of claim 1, wherein said sorting tine is elastically resilient.

6. The sorting device of claim 1 further comprising: a plurality of pressure channels each opening into an associated one of said tablet receivers; and, a negative pressure source disposed in the region of said feed station and configured to subject said tablet receivers to an under pressure via corresponding ones of said pressure channels in order to draw in tablets.

7. The sorting device of claim 1 further comprising at least one compressed air nozzle disposed in a region of the feed station and directed at said row of tablet receivers.

8. The sorting device of claim 1 further comprising: a plurality of pressure channels each opening into an associated one of said tablet receivers; and, an overpressure source disposed in a region of said ejection station and configured to subject said tablet receivers to an overpressure via a corresponding one of said plurality of pressure channels in order to blow out the tablets.

9. The sorting device of claim 1, wherein said tablet transporter is a rotatable roller defining a periphery; and, said tablet receivers and said doublet receiver are disposed on said periphery of said rotatable roller.

10. The sorting device of claim 1, wherein said doublet receiver is a peripheral groove.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will now be described with reference to the drawings wherein:

(2) FIG. 1 is a schematic, partially cutaway side view of a sorting device configured according to the disclosure having tablet receivers, having a feed station, and having sorting tines in the region of a sorting station for separating out multiple tablets;

(3) FIG. 2 is an enlarged sectional view of a detail of the sorting device according to FIG. 1 having multiple tablets, sorting tines and doublet receivers;

(4) FIG. 3 shows the arrangement according to FIG. 2 with a multiple tablet in conjunction with a sorting tine moved in a lateral direction; and,

(5) FIG. 4 shows the arrangement according to FIGS. 2 and 3 with a further multiple tablet and with the sorting tines during a backwards movement.

DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION

(6) FIG. 1 is a schematic, partially cutaway side view of a sorting device 2 configured according to the disclosure. The sorting device 2 includes a plurality of stations, of which there are mentioned here at least a feed station 3, a sorting station 4, and an ejection station 5. In the feed station 3, tablets 1 are fed to the sorting device 2. A tablet transporter 7 of the sorting device 2 moves to the individual stations in a revolving manner in a direction of rotation 8 and thereby conveys the fed tablets 1 from the feed station 3 via the sorting station 4 to the ejection station 5. Any doublets or multiple tablets 1′ present (FIGS. 2, 3, 4) are separated out in the manner described in greater detail hereinbelow, so that only single tablets 1 are ejected at the ejection station 5 and fed to the downstream process, specifically counting and dosing.

(7) A sorting device 2 and the associated sorting method are here shown in connection with tablets 1 in the form of coated microtablets, which are counted within the scope of a later 100% control and filled in a predetermined number into hard shell capsules. The invention can, however, be used with any other form of tablets 1 and also for other purposes, provided that the separating out of undesirable multiple tablets 1′ is required.

(8) In the embodiment shown, the tablet transporter 7 is a roller which, in operation, is driven in rotation about a horizontal axis of rotation 25. However, there may also come into consideration as the tablet transporter 7 a rotary plate, a conveyor belt or the like. In the peripheral surface of the roller there are formed at least one, here a plurality of rows of tablet receivers 9 for single tablets 1 which extend in the direction of rotation and are offset axially relative to one another. The tablet receivers 9 are in the form of individual pockets which are separate from one another and which are open radially outwards. A pressure channel 15 optionally opens into the radially inner base of each tablet receiver 9.

(9) At the feed station 3 there is a tablet feeder 22 in which the tablets 1 to be sorted, in the form of loose bulk material, lie on a sloping base and slide towards the outer peripheral surface of the tablet transporter 7. The sliding movement of the tablets 1 can be assisted by a vibrating movement of the tablet feeder 22. The base of the tablet feeder 22 can be in the form of a screen, through which undesirable constituents such as loose powder or tablet fragments can be screened out. The single tablets 1 finally land in the individual tablet receivers 9. Each individual tablet receiver 9 is so adapted in shape and size to the tablets 1 to be sorted that there is space in precisely one tablet receiver 9 for precisely one tablet 1.

(10) In the region of the feed station 3 there is arranged a negative pressure source 16. The tablet receivers 9 are connected in the feed station 3 via their pressure channel 15 to the negative pressure source 16, whereby their interior is subjected to negative pressure. The negative pressure has the effect of sucking the single tablets 1 into the tablet receivers 9 and initially holding them securely therein. In the region of the feed station 3 there is additionally at least one compressed air nozzle 18, which is directed at an associated row of tablet receivers 9. In the embodiment shown, this is a nozzle bar which is arranged axially parallel and covers all the rows of tablet receivers 9 and by means of which compressed air is directed at the tablet receivers 9 according to an arrow 19. If the above-described sucking in of the tablets 1 leads to larger tablet accumulations, these are blown away and land back in the tablet feeder, wherein during normal operation as desired, only a single tablet 1 remains in each tablet receiver 9.

(11) The single tablets 1 held in their tablet receivers 9 are transported in the direction of rotation 8 past the sorting station 4, which will be described hereinbelow, to the ejection station 5. In the region thereof there is an overpressure source 17. For the process of ejection, the tablet receivers 9 in the ejection station 5 are connected via their pressure channel 15 to the overpressure source 17, whereby their interior is subjected to overpressure. The overpressure has the effect that the single tablets 1 are blown out according to an arrow 20 and fall through an indicated channel for further processing (counting, dosing).

(12) FIG. 2 is an enlarged sectional representation of a detail of the sorting device according to FIG. 1 in the region of the sorting station 4, along the cutting line marked II-II in FIG. 1. In a lateral direction 13 extending axis-parallel to the axis of rotation 25 (FIG. 1), a plurality of rows of tablet receivers 9 are located next to one another. In addition, it will be apparent from studying FIGS. 1 and 2 together that at least one doublet receiver 10 is positioned in the tablet transporter 7 laterally next to the peripheral row of tablet receivers 9 in the lateral direction 13. In the embodiment shown, a plurality of rows of tablet receivers 9 and doublet receivers 10 are arranged alternately next to one another in the lateral direction 13. The individual tablet receivers 9 are separated laterally from the adjacent doublet receivers 10 on both sides by means of a side wall 11.

(13) The doublet receivers 10, like the tablet receivers 9, can be individual pockets, but here they are in the form of peripheral, radially outwardly open grooves and are positioned offset axially relative to the rows of tablet receivers 9. In the region of the feed station 3 there is, for each of the grooves, a stationary filling member 23 (FIG. 1). The filling members 23 close the grooves or the doublet receivers 10 from the feed station 3 until the start of the sorting station 4, so that the fed tablets 1 land only in the tablet receivers 9 but not, prematurely, in the doublet receivers 10.

(14) From the sorting station 4 according to the cross-sectional representation according to FIG. 2, and from there continuing in the direction of rotation 8, the cross-section of the doublet receivers 10 in groove form is, however, free to receive multiple tablets 1′. Such multiple tablets 1′ are shown by way of example in FIG. 2, according to which single tablets 1, for example as a result of a coating process, adhere to one another in different configurations and may pass into the tablet receivers 9. Using the example of double tablets or doublets, three such possible configurations are shown here. However, triple tablets or the like can also occur. For the sake of simplicity, however, the term “doublet” is here used as a synonym for any desired form of a multiple tablet 1′, in which a plurality of single tablets 1 adhere to one another. In any case, such a multiple tablet 1′ protrudes radially outwards beyond the edge of the tablet receiver 9, since the tablet receiver is configured in terms of its shape and size to receive only a single tablet 1.

(15) For separating out such multiple tablets 1′ protruding from the tablet receiver 9, there is provided in the sorting station 4 at least one sorting tine 12, the function of which will be described hereinbelow. From studying FIGS. 1 and 2 together, it will also be apparent that, in the embodiment shown, a sorting tine 12 is provided for each peripheral row of tablet receivers 9, wherein the individual sorting tines 12 are held on a common carrier for joint movement comparable to a rake.

(16) The function of the sorting device will now become apparent having regard to FIG. 3. FIG. 3 shows the arrangement according to FIG. 2 under realistic conditions: a single multiple tablet 1′ is located in a single tablet receiver 9, while the remaining tablet receivers 9 contain normal single tablets 1. For separating out the undesired multiple tablet 1′, the at least one sorting tine 12, here the totality of the sorting tines 12, can be moved to and fro over a travel range 14 in the lateral direction 13 extending transversely to the direction of rotation 8, in such a manner that the sorting tine 12 passes over at least the region of a tablet receiver 9, the adjacent doublet receiver 10 and the side wall 11 located between them. In the embodiment shown, the lateral movement of the sorting tines 12 according to FIG. 3 first takes place to the left. This lateral movement according to an arrow 26 in the first, here the left, direction begins at a position approximately centrally above a doublet receiver 10 and ends, after passing over the tablet receiver 9, again approximately centrally over the opposite doublet receiver 10. The individual sorting tines 12 thereby come to rest in the starting position of the adjacent sorting tine 12.

(17) The normal single tablets 1 remain unaffected by the above-described movement of the sorting tines 12 and remain in their tablet receivers 9. However, the sorting tine 12 that passes over the tablet receiver 9 with the multiple tablet 1′ collides with the protruding portion of the multiple tablet 1′ and pushes the multiple tablet sideways towards the opposite side wall 11. As the sideways movement continues, the multiple tablet 1′ is turned or tipped over the edge of the side wall 11 out of its tablet receiver 9 according to an arrow 27 and lands in the adjacent doublet receiver 10. The sorting tines 12 are elastically resilient and are able to yield in particular in the vertical direction, that is, radially relative to the axis of rotation 25 (FIG. 1), so that, during the mentioned tipping movement, the multiple tablet 1′, the side wall 11 and the sorting tine 12 do not become jammed.

(18) It can be sufficient always to carry out the above-described separating out in only one movement direction of the sorting tines. However, it will become apparent from studying FIGS. 3 and 4 together that the movement of the sorting tines 12 in both directions, that is, on traveling to and fro, is preferably used for the separating out. FIG. 4 shows the arrangement according to FIG. 3 after completion of the above-described separating out and during the introduction of a further, different multiple tablet 1′. This time, the movement of the sorting tines 12 takes place in the opposite direction, that is, from left to right.

(19) Otherwise, however, the procedure is as before: The protruding multiple tablet 1′ is hit by the sorting tines 12 introduced sideways according to an arrow 28 and turned over the edge of the opposite side wall 11 into the opposite doublet receiver 10 according to an arrow 29.

(20) Alternating between FIGS. 3 and 4, a to and fro movement of the sorting tines 12 takes place. In the embodiment provided here, the to and fro movement of the sorting tines 12 is so synchronized with the rotating movement of the tablet receivers 9 (FIG. 1) that, as each tablet receiver 9 is brought to the sorting station 4, a movement cycle according to FIG. 3 or according to FIG. 4 is carried out. All the tablet receivers 9 immediately following one another are thus passed over precisely once by a sorting tine 12 at the location of the sorting station 4.

(21) Referring again to FIG. 1, it will be apparent that the doublets turned out of their tablet receivers 9 are able to slide downwards in the direction of rotation 8 through the doublet receivers 10 in groove form and fall out of a doublet outlet 6 in the lower region of the sorting device 2, spatially separate from the normal single tablets ejected at the ejection station 5, according to an arrow 21 and can be disposed of. At the ejection station 5, however, only single tablets 1 are located in the tablet receivers 9, so that the tablets 1 ejected here are free of adverse effects due to multiple tablets 1′.

(22) It is understood that the foregoing description is that of the preferred embodiments of the invention and that various changes and modifications may be made thereto without departing from the spirit and scope of the invention as defined in the appended claims.