DE102017207162A1 - Device for compressing a product - Google Patents

Abstract

The present invention relates to a device for compressing a product (26), comprising at least one rotor (18) with a plurality of openings (24) for receiving the product (26) to be compressed, with at least one lower punch (20) and one upper punch ( 22) movable to compress the product (26) relative to one another in the opening (24), with at least one filling shoe (14) for filling the opening (24) with product (26), the filling shoe (14) at least a riser (10) for supplying the product (26), comprising at least one dosing means (28) for dosing the product (26) to the filling shoe (14), wherein at least one means (30) for impulse reduction is provided which the pulse of the supplied product (26) reduced to the filling shoe (14).

Description

State of the art

The present invention relates to a device for compressing a product according to the preamble of the independent claim.

A generic device is known for example from the DE 102008049015B4 , A method for monitoring the quality of powdery molding material for a rotary press, in which the press material is fed from a reservoir via a preferably vertical feed channel of a filling device which continuously fills matrices of a rotor with a pressing material, characterized in that the feed channel a microwave resonator with a Evaluation unit is supplied, which measures the humidity and / or the density and / or the size of the granules of the molding material and at least one measured variable of the microwave resonator used to change a manipulated variable of the rotary press.

It is an object of the present invention to further improve the dosing process. This object is solved by the features of the independent claim.

Advantages of the invention

The device according to the features of the independent claim has the advantage that the dosing further stabilized. This is inventively achieved in that means are provided for pulse reduction, which reduces the pulse of the supplied product. Just by avoiding a pulse as it would be applied by a free-falling product on the product reservoir, a better dosage can be done, because on the one hand no uneven compression of the product takes place. In addition, mixing (backmixing) can be reduced, for example, during a product change between two different product types.

In an expedient development, at least one baffle is provided as a means for impulse reduction. This is preferably arranged inclined on the riser relative to the vertical, in particular obliquely arranged inclined in the direction of the filling shoe. In a particularly simple and effective way, the falling speed and thus the momentum of the falling product can thereby be reduced.

In an expedient development, at least one pipe inclined with respect to the vertical is provided as means for reducing the momentum, via which the product can be fed to the filling shoe. This standard feeds can be used, which only need to be slightly inclined.

In an expedient development, at least one sensor is provided for determining a fill level of the supplied product in the filling shoe. The sensor can be particularly preferably part of a control that controls a dosing so that the supplied product reaches a specific level targeted. As a result, the level of the product can be kept at a very low level, which leads to a reduction in the residence time in the riser. By controlling the level, the static pressure in the filling shoe can also be kept constant.

In an expedient development, the means for impulse reduction between the dosing and the sensor is arranged. This can ensure that the product is braked shortly before reaching the desired filling level, which is defined by the geometric arrangement of the sensor, in order to achieve the above-mentioned effects.

In an expedient development, the sensor is arranged on the riser, in particular on its inside in a recess. This ensures reliable determination of the fill level without preventing product flow.

In an expedient development, a dosing agent is provided as a means for reducing impulses, which preferably feeds a product continuously. This also allows a reduction of the pulse can be achieved. Alternatively, a clocked or uniform addition of smaller amounts of product could be realized. Particular preference may be given to using corresponding metering methods such as rotary valves, screws or vibrating troughs.

Further expedient developments emerge from further dependent claims and from the description.

list of figures

• 1 eine Tablettenpresse mit einer beispielhaften Anordnung des Sensors sowie
• 2 einen Schnitt durch einen Füllschuh einer Tablettenpresse.

Hereinafter, an embodiment of the invention will be described in detail with reference to the accompanying drawings. In the drawing shows the

• 1 a tablet press with an exemplary arrangement of the sensor as well
• 2 a section through a filling shoe of a tablet press.

In the embodiment according to 1 includes a tablet press 16 at least one rotor 18 , The rotor 18 is exemplified disk-shaped and configured for example as holes openings 24 Mistake. The rotor 18 revolves around its center. The openings 24 are on a radius of the rotor 18 arranged and executed continuously in the axial direction. Above the rotor 18 is a riser 10 arranged, which in a filling shoe 14 expires. The filling shoe 14 serves to supply a product to be compressed 26 to the openings 24 , At the riser 10 there is a sensor 11 , Using a lower punch 20 and an upper punch 22 becomes the powdered product 26 compressed and for example as a tablet or compressed product 27 via a product transfer 46 from the rotor 18 removed and discharged. The upper stamp 22 and the lower stamp 20 can in the axial direction in the openings 24 to be moved.

In the illustration according to 2 is a section through the filling shoe 14 shown. In the filling shoe 14 enters the product to be compressed 26 via a dosing agent 28 , From the dosing agent 28 enters the product to be compressed 26 to a means 30 for impulse reduction in the filling shoe 14 , The middle 30 for pulse reduction serves to reduce the momentum of the falling product 26 decelerate or reduce before the product 26 already in the filling shoe 14 located product 26 is supplied. This will be the product already there 26 not so much compressed, what for the subsequent dosage due to the uniform refilling of the filling shoe 14 is beneficial.

In the embodiment, the means 30 formed for impulse reduction, for example, as a fall plate, which on the side walls of the filling shoe 14 especially between sensor 11 and dosing agent 28 is arranged. It juts slightly downwards. In the exemplary embodiment, two, in particular arranged on opposite sides, sheets are provided by way of example, which are the case of the product 26 slowing down a bit. Also by a continuous refilling of the product 26 can be the pulse of the supplied product 26 be further reduced. Alternatively, a clocked, even addition of smaller amounts of product could also be used 26 will be realized. For example, appropriate metering methods such as rotary valves, screws or vibrating troughs could be used in principle. Particularly preferably, the pulse reduction can be achieved by baffles or an inclination of the product feed. A corresponding alternative means 30 is provided inclined to the vertical filling pipe or an inclined vibrating trough.

At about the targeted level of the product 26 in the filling shoe 14 is the sensor 11 arranged, which serves the detection of the level height. An output signal from the sensor 11 is a regulation 32 fed. The regulation 32 serves to control the dosing agent 28 , The dosing agent 28 is regulated to the desired filling level. At the level of the desired filling level is approximately the sensor 11 arranged. The corresponding actual value of the sensor 11 sets the scheme 32 in conjunction with the known controlled system to a corresponding setpoint for the control of the dosing 28 around. Due to the control of the level can be kept constant and thus the static pressure on the product or the product 26 acts to be kept constant. As a result, the tableting can be stabilized.

As a sensor 11 For example, a capacitive level sensor is provided. Alternatively, the level of the product or 26 in the product shoe 14 also be performed via an ultrasonic sensor in conjunction with a transit time measurement. Alternatively, the sensor could 11 Also include two sensors that detect a lower level and an upper level. The regulation 32 could be the dosing agent 28 then control so that the level of the level is between these two sensors. Alternatively, other sensor principles for level detection are conceivable, for example optical or electromagnetic or X-ray based sensors. The sensor is preferred 11 on the inside of the filling shoe 14 or of the riser 10 arranged. For this purpose, a corresponding recess could be provided on the inside, in which the sensor 11 is arranged.

Towards the bottom, the filling shoe widened 14 so that the product 26 for example in two openings 24 in the rotor 18 can be brought. For this purpose, each is an impeller 15 provided, which by rotating movements the product 26 in the respective opening 24 of the rotor 18 metered. Schematically illustrated is a lower punch 20 or subsequently an upper punch 22 as described in more detail below for compression of the in the openings 24 metered product 26 , The riser 10 has, for example, a round or rectangular cross-section.

The rotor 18 has a certain thickness. The openings 24 For example, are formed as bores and extend over the entire thickness of the rotor 18 in the axial direction. The openings 24 can either directly the diameter of the tablet or the compressed product 27 have or be performed significantly larger with a step, then there matrices with a corresponding inner and outer diameter ( Inside diameter defines the tablet diameter). In the opening 24 becomes the product to be compressed 26 metered. Above the opening 24 there is the upper stamp 22 , Below the bottom of the opening 24 there is the lower stamp 20 , The top of the lower punch 20 flush with the bottom of the rotor 18 so no product 26 can escape downwards. The lower stamp 20 draws the product for volumetric dosing 26 in the opening 24 , Upper and lower stamp 20 . 22 are designed so that these from both sides in the opening 24 to compress the preliminary dosed product 26 ,

The lower stamp 20 pushes the product 26 further up or back to a defined dosage of the compressed product 27 for example a tablet. This is followed by the compression of the product 26 , The compression force is measured to correlate to the mass of the product 27 manufacture. The determined force is also an evaluation unit, not shown, for example, part of the scheme 32 could be communicated. Here are lower and / upper punch 20 . 22 proceed at a certain distance from each other.

In a further step, a gravimetric weighing of the compressed product takes place 27 after compression. For this purpose, a corresponding weighing device is provided. The determined gravimetric weight of the product 27 can also be communicated to the evaluation.

The device described is particularly suitable for the production of pharmaceutical products, in particular tablets. However, the use is not limited to this.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102008049015 B4 [0002]

Claims (10)

Apparatus for compressing a product (26) comprising at least one rotor (18) having a plurality of apertures (24) for receiving the product (26) to be compressed, having at least one lower punch (20) and one upper punch (22) associated with Compressing the product (26) relative to each other in the opening (24) are formed movable, with at least one filling shoe (14) for filling the opening (24) with product (26), wherein the filling shoe (14) at least one riser (10) for supplying the product (26), comprising at least one dosing means (28) for dosing the product (26) to the filling shoe (14), characterized in that at least one means (30) for reducing the momentum is provided, which supplies the pulse of the supplied Product (26) reduced to the filling shoe (14). Device according to one of the preceding claims, characterized in that at least one baffle is provided as a means (30) for reducing the impulse. Device according to one of the preceding claims, characterized in that the baffle plate on the riser (10) inclined relative to the vertical, in particular obliquely inclined in the direction of the filling shoe (14) is arranged. Device according to one of the preceding claims, characterized in that as means (30) for impulse reduction at least one inclined relative to the vertical pipe is provided, via which the product (26) to the filling shoe (14) can be fed. Device according to one of the preceding claims, characterized in that at least one sensor (11) is provided for determining a level of the supplied product (26) in the filling shoe (14). Device according to one of the preceding claims, characterized in that the means (30) for impulse reduction between the dosing means (28) and the sensor (11) is arranged. Device according to one of the preceding claims, characterized in that the dosing means (28) is controlled in dependence on an output signal of the sensor (11). Device according to one of the preceding claims, characterized in that at least one control (32) is provided, which regulates the dosing means (28) to a desired level of the product (26). Device according to one of the preceding claims, characterized in that the sensor (11) on the riser pipe (10), in particular on its inside, is arranged. Device according to one of the preceding claims, characterized in that as means (30) for pulse reduction, a dosing means (28) is provided, which in particular continuously or clocked the product (26).

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