EP2199209A1 - Device for filling pharmaceutical products into packaging containers - Google Patents

Abstract

The device has a reservoir (2) for pharmaceutical products. A feeding unit is provided with a guide channel (8) for guiding the pharmaceutical products from the reservoir in a packaging container (10) according to gravity. An alternating current high voltage ionizer element (20) is arranged in the area of the guide channel.

Description

The present invention relates to a device for filling pharmaceutical products into packaging containers.

Such a device is for example off US 5,737,902 known. The device described therein comprises a reservoir for pharmaceutical products and a supply device with at least one guide channel for conducting the pharmaceutical products by means of their gravity from the reservoir into the packaging container. The reservoir is usually moved up and down to dispense the pharmaceutical products individually in the guide channel, in which the pharmaceutical products are stacked on each other and gradually discharged down into a filling trough. The filling trough, in turn, directs the initially vertically oriented tablets in the direction of a horizontal position and passes the tablets into the packaging containers, for example cups of a blister package.

The guide channel can in the upper area instead of the gradual lowering of the tablets by means of laterally movable stacking floors, as in US 5,737,902 also have elaborate designs for separating and conveying the tablets. For this purpose, certain geometries of the guide channel have been proposed, for example a spiral shape, see EP 1 391 386 A2 , as well as a zigzag shape with three-dimensional component, see EP 1 698 554 A1 ,

In all of these devices, plastic parts are preferably used to make the device inexpensive and lightweight. This can lead to the generation of unwanted electrostatic charge in some areas, which hinders the function of the filling device.

For example, by the up and down movement of the reservoir at the rubbing surfaces of the reservoir and the delivery tube electrostatic charge is generated, whereby an electrostatic field of significant strength can arise, which blocks the pharmaceutical products in the delivery tube.

Likewise, in the lower region of each filling channel during the deflection of the tablets in the inner region of the slideways, the generation of an electrostatic charge by sliding friction is possible. These accumulated electrical charges can result in products that can not be stored in the yards.

It is therefore the object of the present invention to provide a device for filling pharmaceutical products in packaging containers, in which malfunctioning due to the generation of electrostatic fields is prevented by an integral construction in a simple way.

This object is solved by the features of claim 1.

According to the invention, the device for filling pharmaceutical products into packaging containers has a storage container for the pharmaceutical products and a supply device with at least one guide channel for conducting the pharmaceutical products by means of their gravity from the storage container into the packaging containers. In this case, at least one high-voltage ionizer element supplied with alternating voltage is arranged in the region of the at least one guide channel.

With this construction, it is possible in a simple manner to eliminate electrostatic charges already immediately after their formation and thus to ensure the reliable operation of the system, without having to rely on additional external aids.

The degradation of the electrostatic charge is particularly high when the at least one high-voltage ionizer element at least partially surrounds the at least one guide channel.

A particularly simple construction, which is also applicable to a plurality of guide channels, is present when the at least one high-voltage ionizer element is designed as a plate or strip.

In a preferred embodiment, the plate or strip extends horizontally so that it can be easily integrated into the device.

An inexpensive and lightweight construction is obtained when the feeder is at least partially made of plastic.

The degradation of the electrostatic charge is additionally reinforced by the fact that at least one grounding element is arranged in the region of the at least one guide channel.

To simplify the construction, the grounding element is preferably also designed as a horizontally oriented plate or bar.

Preferably, each guide channel has an upper segment, which is formed by a delivery tube. In this case, a high-voltage ionizer element may already be arranged in the region of the at least one delivery tube to provide for the removal of electrostatic charges generated by the up and down movement of the reservoir during insertion of the tablets into the guide channel.

In such a case, it is advantageous if the high-voltage ionizer element is arranged in an upper region of the delivery tube and the grounding element is arranged below the high-voltage ionizer element.

In a further advantageous embodiment, each guide channel has a lower segment, which is formed by a filling channel.

It is advantageous in this case to arrange a high-voltage ionizer element in the region of the filling channel, in particular in a lower section of the filling channel with a horizontal component. This ensures that the electrostatic charges generated during the deflection of the tablets within the filling channel are eliminated before the final delivery of the tablets into the packaging containers and thus the filling can take place unhindered.

In such a case, it is advantageous that the grounding element is arranged above the high-voltage ionizer element, because this results in a two-sided electric charge destruction, because even the table top over which the packaging container are pulled, acts as a grounded element.

Particularly preferred is an arrangement of at least one Hochspannungslonisatorelements both in the upper segment and in the lower segment of the guide channel.

Fig. 1

ist eine schematische Querschnittsansicht einer ersten Ausführungsform der erfindungsgemäßen Vorrichtung zum Abfüllen pharmazeutischer Produkte in Verpackungsbehälter;

Fig. 2

ist ein vergrößerter Abschnitt der Vorrichtung aus Fig. 1 in einem Übergangsbereich zwischen Vorratsbehälter und Führungskanal;

Fig. 3

ist eine schematische Querschnittsansicht des unteren Bereichs einer zweiten Ausführungsform der erfindungsgemäßen Vorrichtung zum Abfüllen pharmazeutischer Produkte in Verpackungsbehälter; und

Fig. 4

ist eine schematische Querschnittsansicht des unteren Bereichs der Vorrichtung aus Fig. 3 entlang Linie C - C.

Further features and advantages of the present invention will become apparent from the following description with reference to the drawings.

Fig. 1

is a schematic cross-sectional view of a first embodiment of the inventive device for filling pharmaceutical products in packaging containers;

Fig. 2

is an enlarged portion of the device Fig. 1 in a transition region between the reservoir and guide channel;

Fig. 3

is a schematic cross-sectional view of the lower portion of a second embodiment of the inventive device for filling pharmaceutical products in packaging containers; and

Fig. 4

is a schematic cross-sectional view of the lower portion of the device Fig. 3 along line C - C.

Fig. 1 shows a first embodiment of the device according to the invention for filling pharmaceutical products, such as tablets, dragees, capsules, etc. in packaging containers.

The device comprises a reservoir 2, in which the pharmaceutical products are stored before filling. In the illustrated embodiment, the reservoir 2 has one or more trough-shaped recesses which are filled with the pharmaceutical products 4. In the bottom region of the wells, in each case an opening 6 is arranged, which leads to a feed device with a guide channel 8, which is intended to guide the pharmaceutical products 4 into the packaging containers 10. The packaging containers 10 are usually clocked by means of a transport device (not shown) passed over a table top 12 at the filling station in the direction of arrow A. Likewise, a movement of the packaging container 10 from the drawing level is possible. Usually, the packaging container 10 as wells of a Formed blister, which is sealed after filling with the pharmaceutical products 4 with a cover sheet and then punched out of the individual blister packs. But there are also many other applications conceivable that lie outside the pharmaceutical sector.

Each guide channel 8 has an upper segment 14 and a lower segment 16 in the illustrated example case. The guide channel 8 may also be designed in one piece in specific embodiments and comprise only one segment.

The upper segment 14 is formed in this example as a delivery tube, which projects with its upper portion in an opening 6 of the reservoir 2. The reservoir 2 is in accordance with arrow B in Fig. 2 movable up and down. For better illustration, the left part of the reservoir 2 is in Fig. 2 shown in the raised position, while the right adjoining part of the reservoir 2 is shown in the lowered position. It can be seen here that due to the up and down movement of the storage container 2, the delivery tubes 14 protrude differently far into the storage container 2 and thus a supply of individual pharmaceutical products 4 into the delivery tube 14 is made possible. It is advantageous if a multiplicity of delivery tubes 14 are present in a type of matrix arrangement and are connected to the storage container 2 in order to simultaneously transport a plurality of pharmaceutical products 4 to the packaging containers 10 and to be able to fill them with them.

Because the pharmaceutical products 4 are to be stacked in the conveyor tube, slides 17 are provided, which can be pushed into the delivery channel and pulled out again. As a result, an intermediate buffering is ensured at different height levels and thus ensures that of each delivery tube 14 at predetermined times always a single product 4 is discharged down.

For weight reduction and cost-effective production, both the reservoir 2 and the delivery tube 14 are formed from plastic. In the up and down movement of the reservoir 2 thus electrostatic charges 18 can be generated in the region of the opening 6, which can hinder the introduction of the pharmaceutical products 4 in the delivery tube 14. To exclude this, the device according to the invention has a high-voltage ionizer element 20 in the region of the delivery tube 14, preferably in its upper region. This preferably extends directly below the storage container 2 over its entire width and may preferably be formed as an electrically conductive plate, for example made of metal or metallized plastic, preferably made of stainless steel, which has corresponding openings for the delivery tube 14. Particularly preferred is a direct attachment of the plate at the bottom of the reservoir 2. The high-voltage ionizer 20 is preferably connected to an AC voltage source 22, by means of a flexible conduit which does not hinder the movement of the reservoir 2. The AC voltage source 22 preferably supplies the high-voltage ionizer element 20 with alternating voltage of a frequency of 50 Hz to 60 Hz and a height of 4 kV to 8 kV. The high voltage terminal also includes corresponding high voltage resistors for current limiting and safety warranty.

It is also possible to provide each individual delivery tube 14 with a localized high voltage ionizer element 20 or to provide a different geometric arrangement of the high voltage ionizer elements 20. There are various geometric shapes conceivable here.

For even better destruction of the electrostatic charge, a grounding element 24 is arranged below the high-voltage ionizer element 20, which is connected to earth 26 via a flexible line and is preferably also formed as a metallically conductive plate with openings for the delivery tube 14. Also, the grounding element can be present in a variety of geometric configurations.

The delivery tube 14 may also define a helical guide channel or a zigzag conveying channel with three-dimensional component in addition to the illustrated straight configuration.

In Fig. 3 and 4 A second alternative embodiment of the present invention is shown. Here, a Hochspannungslonisatorelement 20 and a grounding element 24 are arranged in the lower segment 16 of each filling channel 8. This application is particularly advantageous when the lower segment 16 is designed as a filling channel which has a curvature in its lower region for effecting a rotation of the pharmaceutical products 4. In particular, if the Füllrinnen 16, which are preferably all integrated into a filling shoe made of plastic, occurs here due to the sliding friction of the pharmaceutical products 4 on the inside of the filling grooves 16 in the curvature region an electrostatic charge, which in turn can hinder the filling of the packaging container 10 with the pharmaceutical products 4. Here, an embodiment of the high-voltage ionizer 20 and the grounding element 24 is preferred as a bar, which may be provided for the Füllrinnen 16 recesses in the bar. It can also be provided several strips. There are many possibilities with regard to the geometry of the arrangement. In this embodiment, however, it is advantageous if the high-voltage ionizer element 20 is arranged in a lower region of the filling channels 16 and the grounding element 24 is arranged above the high-voltage ionizer element 20. In this way, a two-sided charge removal is ensured starting from the high-voltage ionizer element up and down.

Of course, both alternatively mentioned embodiments can also be used together in one device. In this way, it is possible to eliminate electrostatic charges effectively and close to the place of production at all critical points of the filling device.

Claims (15)

Apparatus for filling pharmaceutical products (4) into packaging containers (10), with a reservoir (2) for the pharmaceutical products (4) and a delivery device with at least one guide channel (8) for directing the pharmaceutical products by means of their gravity from the reservoir (2 ) in the packaging container (10),
characterized in that
in the region of the at least one guide channel (8) at least one supplied with AC voltage high-voltage ionizer element (20) is arranged. Apparatus according to claim 1, characterized in that the at least one high-voltage ionizer element (20) at least partially surrounds the at least one guide channel (8). Apparatus according to claim 1 or 2, characterized in that the at least one high-voltage ionizer element (20) is designed as a plate or bar. Apparatus according to claim 3, characterized in that the plate or bar extends horizontally. Device according to one of the preceding claims, characterized in that the supply device is at least partially formed from plastic. Device according to one of the preceding claims, characterized in that in the region of the at least one guide channel (8) at least one grounding element (24) is arranged. Apparatus according to claim 6, characterized in that the at least one grounding element (24) is designed as a plate or strip. Apparatus according to claim 7, characterized in that the plate or strip extends horizontally. Device according to one of the preceding claims, characterized in that each guide channel (8) has an upper segment (14), which is formed by a delivery tube, and that the at least one Hochspannungslonisatorelement (20) in the region of the at least one delivery tube (14) is. Apparatus according to claim 9, characterized in that the at least one grounding element (24) below the high-voltage ionizer element (20) is arranged. Device according to one of the preceding claims, characterized in that each guide channel (8) has a lower segment (16) which is formed by a filling channel, and that the at least one Hochspannungslonisatorelement (20) in the region of the at least one Füllrinne (16) is. Apparatus according to claim 11, characterized in that the at least one filling channel (16) has in its lower region a portion with a horizontal component for correctly filling the packaging container (10) with the pharmaceutical products (4), and that the at least one Hochspannungslonisatorelement (20 ) is disposed in the region of the horizontal component section. Apparatus according to claim 11 or 12, characterized in that the at least one grounding element (24) is arranged above the high-voltage ionizer element (20). Device according to one of the preceding claims, characterized in that each guide channel (8) has an upper segment (14) and a lower segment (16), and that both in the region of the upper segment (14) and in the region of the lower segment (14). 16) at least one Hochspannungslonisatorelement (20) is arranged. Apparatus according to claim 14, characterized in that both in the region of the upper segment (14) and in the region of the lower segment (16) at least one grounding element (24) is arranged.

Images