NL192633C - Dosing device for granular material. - Google Patents

Description

1 192633

Dosing device for granular material

The invention relates to a dosing device for granular material, such as of a medicine, comprising a storage chamber unit, which comprises a storage chamber with at least one bottom outlet and an upwardly extending dispensing channel, which has an open bottom side, of a storage chamber unit underneath. the storage chamber and the dispensing channel rotatably arranged about a vertical centerline dosing rotor, which equidistant from the centerline has a number of recesses open upwards, which lie in one plane with their top side, and of means for rotating the dosing rotor between discrete rotational positions in such a way that the recesses opposite the at least one bottom outlet of the storage chamber, 10 resp. will lie opposite the open underside of the dispensing channel and a dose can be introduced from the recess opposite the dispensing channel by reversing the dosing device via this dispensing channel.

Such a dosing device is known from the German Offenlegungsschrift 2,052,051. This dosing device comprises a dosing rotor, the bottom edge of which protrudes below the storage chamber unit and which can be rotated directly by hand at the bottom edge. The dosing rotor is further provided with two recesses opening upwards. The recesses can alternate opposite the storage chamber, which is completely open from below. the delivery channel extending through the chamber. To this end, the metering rotor is provided with a stop which can be moved to and fro in a slot in the outer wall of the housing of the storage chamber unit. The metering rotor is arranged relatively loosely in the housing, so that granular material can get between cooperating sliding surfaces of the two relatively rotatable parts, resulting in a jamming. Also, with this metering device, it is difficult to dispense small amounts of granular material with accuracy sufficient to dispense drug due to this manner of applying the metering rotor.

The present invention aims to provide an improved dosing device of the type indicated above.

This object is achieved according to the invention in that the dosing rotor is biased by spring means against a scraper unit arranged under the storage chamber, forming a part of the storage chamber unit, which scrapers operate in a plane perpendicular to the axis of rotation, which are arranged such that upon rotation of the metering rotor relative to the granular storage chamber will be compressed in the recesses and leveled flush with the top surface of the metering rotor.

The construction according to the invention prevents the substance from coming into contact with the cooperating sliding surfaces between the dosing rotor and the storage chamber unit, the scrapers enabling the recesses in the dosing rotor to be filled in an accurate and reproducible manner. Thus, high metering accuracy can be obtained by rotating the metering rotor.

According to an advantageous embodiment, the dosing device is characterized in that a separate operating rotor is rotatable clockwise and anti-clockwise around the rotation axis of the dosing rotor below the storage chamber unit, that a ratchet mechanism acting on the operating rotor is arranged between the operating rotor and the dosing rotor. arm and a sawtooth rim mounted on the metering rotor cooperating therewith, the spring means comprising a coil spring which rests against the operating rotor and that a disk is mounted between the coil spring and the metering rotor on the storage chamber unit. In the case of alternating clockwise and counterclockwise rotation of the operating rotor, the dosing rotor is adjusted in one direction of rotation due to the interaction of the resilient arm with the sawtooth rim. The disk attached to the storage chamber with a keyed connection 45 can hereby ensure that one of the recesses is always placed directly under the dispensing channel.

In order to better understand the invention, a description is given below of an exemplary embodiment, with reference to the drawing, in which: Figure 1 is an axial cross-section of an embodiment of the dosing device, and

Figure 2 is a cross-section on the line II-II in Figure 1.

A dosing device is preferably made of plastic material and can be considered to comprise four separate units, namely: an operating rotor 1 at the bottom of the dosing device; a spring-loaded metering rotor 2; a scraping unit 3; and 192633 2 a storage chamber unit including a storage chamber 4 and a delivery channel 5 for the dose to be delivered.

A further separate part is shown in the drawing, which is preferred but not essential, and is in the form of a plastic or metal cap 6, which can be held by a circumferential crib (not shown) on the upper part of the operating rotor 1. This rib allows the hood to be held detachably. A plug can close the top of the delivery channel 5.

Under the storage chamber 4, the scraper unit 3 is mounted on the inner wall of the storage chamber unit so that it cannot rotate relative to it. The scraping unit extends the lower part of the dispensing channel, which is otherwise integrally formed with the storage chamber unit. Figure 2 shows that the scraping unit 3 has five radially extending arms, each of which carries a resilient scraper 8 which slides over the top surface of the metering rotor 2, which in turn is provided with six circumferentially spaced slightly frusto-conical recesses 7 placed directly below the level of the scrapers 8. The metering rotor 2 is mounted in the scraping unit, which for this purpose has an outer circumferential jacket, which interacts with the cylindrical outer surface 15 of the metering rotor 2 and a short inner ring, which interacts with the top surface of the metering unit within the ring of recesses 7 to jam. prevent supply. The metering rotor 2 is loaded by a spring 9 to press it against the scraping unit. Between the metering rotor, which has a toothed ring 13, and the spring is placed a cup-shaped disc 14, which is coupled via a key to the storage chamber unit. The operating rotor 1, against which the other end of the spring 9 rests, carries a resilient arm 12, which can be brought into interaction with the toothed ring 13. The disc 14 is further such that it limits the angular movement of the operating rotor 1, that one of the recesses 7 always stops in the correct place, directly under the dispensing channel 5 as shown in figure 1. Furthermore, the disc 14 reduces the friction between the spring and the dosing unit.

in the operating rotor 1 there is provided a space, as shown, which is closed by a porous object and in space 10 a desiccant, such as silica gel, can be placed to protect the contents of the device from atmospheric moisture. The supply of moisture is also reduced by providing the hood 6.

Granular pharmaceutically active substance can be stored in the storage chamber 4 and the actual dosing is carried out with the dosing device in the upright position as shown in figure 1 by first rotating the operating unit clockwise and then counterclockwise. The ratchet mechanism formed by the toothed ring 13 and the resilient arm 12 rotates the metering rotor 2 stepwise so that first one and then a next recess appears directly below the dispensing channel. All recesses pass through the storage chamber successively and can be filled with granular material. A predetermined amount of granular pharmaceutically active material can be dosed by properly selecting the size of the recess 7. The effect of the scrapers 8 on the scraper unit 3 is primarily to press and compress the granular material in the recesses and, secondly, accurately wiping the granular material off the top of the recess. This means that if a recess 7 comes directly under the dispensing channel 5, it is completely and accurately filled.

All that is then necessary is to invert the dosing device after which the granular material flows downwards into the delivery channel 5. By choosing the size of the recesses for whatever substance to be dispensed, the size of a dose can be choose, for example, which can vary within both limits, for example 1 to 5 mg or 5 to 200 mg. The number of recesses in the dosing rotor can vary depending on several factors, such as the amount of active agent to be administered at each dose, the physical properties of the active agents, and so on. In a preferred embodiment, the metering rotor has six recesses, and these recesses are preferably cylindrical or preferably frusto-conical as shown, and should preferably retain a dose of active.

The size of the storage chamber can be chosen in accordance with the requirements expected for a particular active substance. For example, in the metering device, the chamber may contain about one dose of active substance. The dosing device has a filling opening for introducing or re-introducing active substance into the upper part of the storage chamber. The opening is preferably sealed with a plastic plug 11.

Claims (2)

3 192633 1. A granular material metering device, such as a medicament, comprising: - a storage chamber unit, which comprises a storage chamber with at least one bottom outlet and an upwardly extending dispensing channel, which has an open bottom side, - of a storage chamber unit underneath the storage chamber and the dispensing channel rotatably arranged about a vertical centerline dosing rotor, which equidistant from the centerline has a number of recesses open upwards, which lie in one plane with their top side, and - means for rotating the dosing rotor between discrete rotational positions in such a way that the 10 recesses opposite the at least one bottom outlet of the storage chamber, resp. will lie opposite the open underside of the dispensing channel and, by reversing the metering device, a metering can be introduced via this dispensing channel from the recess located opposite the dispensing channel, characterized in that the metering rotor (2) is pretensioned by spring means (9) scraper unit (3) arranged against a part of the storage chamber unit below the storage chamber (4), which has scrapers (8) acting in a plane perpendicular to the axis of rotation, which are arranged such that upon rotation of the dosing rotor (2) granular material relative to the storage chamber (4) will be compressed into the recesses and leveled flush with the top surface of the metering rotor (2). Metering device according to claim 1, characterized in that a separate operating rotor (1) is rotatable clockwise around the axis of rotation of the metering rotor (2) below the storage chamber unit, which is arranged between the operating rotor (1) and the metering rotor (2) a ratchet mechanism is operative comprising a resilient arm (12) mounted on the actuating rotor (1) and a sawtooth rim (13) co-operating therewith on the metering rotor (2), the spring means comprising a coil spring (9), which against the operating rotor (1) and that a disk (14) fixed by a keyed connection to the storage chamber unit is arranged between the coil spring (9) and the dosing rotor (2). Hereby 1 sheet drawing