Device for the metered filling of containers with a filling material
阅读说明:本技术 用于给容器计量地填充填料的装置 (Device for the metered filling of containers with a filling material ) 是由 E·斯特恩贝格-吕塞尔 P·高斯 M·罗勒 于 2018-03-07 设计创作,主要内容包括:本发明涉及用于给容器(40)计量地填充填料(22)的装置(10)。该装置(10)具有用于接纳容器(40)的接纳单元(42)和填充单元,借助该填充单元能将预定量的填料(22)从材料储存器(20)中取出并且运送到容器(40)中。填充单元具有至少一个计量室(32)。计量室(32)可移动地支撑,从而计量室(32)交替地存在于第一位置(36)和第二位置(38)。计量室(32)在其第一位置(36)中与材料储存器(20)连通,从而填料(22)能从材料储存器(20)被注入计量室(32)中。计量室(32)在其第二位置(38)中布置在容器(40)上方,从而处于计量室(32)中的填料(22)能被排空到容器(40)中。按照本发明,材料储存器构成为单独的容器(20)并且能借助紧固单元(26)可脱开地紧固在装置(10)上。(The invention relates to a device (10) for the metered filling of containers (40) with a filling material (22). The device (10) has a receiving unit (42) for receiving the container (40) and a filling unit, by means of which a predetermined amount of the filling material (22) can be removed from the material reservoir (20) and transferred into the container (40). The filling unit has at least one metering chamber (32). The metering chamber (32) is movably supported such that the metering chamber (32) alternately exists in a first position (36) and a second position (38). The metering chamber (32) communicates in its first position (36) with the material reservoir (20) so that the filling material (22) can be injected from the material reservoir (20) into the metering chamber (32). The metering chamber (32) is arranged in its second position (38) above the container (40), so that the filling material (22) located in the metering chamber (32) can be emptied into the container (40). According to the invention, the material reservoir is designed as a separate container (20) and can be releasably fastened to the device (10) by means of a fastening unit (26).)
1. Device (10, 12) for the metered filling of containers (40) with a filling material (22), comprising a receiving unit (42) for receiving the containers (40) and comprising a filling unit, by means of which a predetermined amount of the filling material (22) can be removed from a material reservoir (20, 20.2) and transferred into the containers (40);
wherein the filling unit has at least one metering chamber (32, 64, 66);
wherein the at least one metering chamber (32, 64, 66) is movably supported such that the metering chamber (32, 64, 66) alternately exists in a first position (36, 68) and a second position (38, 70);
wherein the metering chamber (32, 64, 66) communicates with a material reservoir (20, 20.2) in a first position (36, 68) such that a filling material (22) can be injected from the material reservoir (20, 20.2) into the metering chamber (32, 64, 66);
wherein the metering chamber (32, 64, 66) is arranged above the container (40) in a second position (38, 70) such that the filling material (22) located in the metering chamber (32, 64, 66) can be emptied into the container (40);
characterized in that the material store is designed as a separate container (20, 20.2), and that a fastening unit (26, 26.2) is provided for releasably fastening the material store (20, 20.2).
2. Device according to claim 1, characterized in that the metering chamber (32, 64, 66) is movable in a forward direction and in a reverse direction.
3. Device according to claim 2, characterized in that the metering chamber (32) is supported in a longitudinally movable manner.
4. Device according to one of the preceding claims, characterized in that a first metering chamber (64) and a second metering chamber (66) are present, the two metering chambers (64, 66) being alternately present in a first position (68) and a second position (70), the two metering chambers (64, 66) being present in their second position (70) above the container (40) at the same position.
5. Device according to claim 4, characterized in that the two metering chambers (64, 66) can be moved from their first position (68) into their second position (70) by a rotary movement.
6. Device according to one of the preceding claims, characterized in that a funnel element (46) is arranged between the at least one metering chamber (32, 64, 66) and the upper edge of the container (40).
7. Device according to one of the preceding claims, characterized in that the fastening unit for the material reservoir (20, 20.2) has a screw lock (24, 26, 24.2, 26.2) or a detent lock.
8. Device according to one of the preceding claims, characterized in that the container is designed as a drinking straw (40).
9. Device according to one of the preceding claims, characterized in that a counting unit (50) is present, said counting unit (50) displaying the number of position changes of said at least one metering chamber (32, 64, 66).
10. Device according to one of the preceding claims, characterized in that a printer unit (52) is present.
Technical Field
The invention relates to a device for the metered filling of containers with a free-flowing or flowable filling material. Such devices are used in particular when manufacturing nutritional supplements or medicines. In these cases, the filling material containing the active ingredient is filled into a suitable container, so that the filling material and thereby also the active ingredient can be swallowed, for example in the form of a capsule.
Background
Two general schemes for dosage forms of active ingredients are known, depending on the dosage form. On the one hand, the active ingredient may already be correctly pre-metered, for example in the form of tablets, filled hard capsules or injection ampoules. In this case, each unit of the dosage form already contains the correct predetermined active ingredient dose. On the other hand, there are dosage forms from a reservoir (container) in non-metered form, for example in the form of an ointment, powder, granules or pellets. In this case, the respectively desired amount of product and thus also the active ingredient is taken out individually. Such individualized extraction can be carried out directly by the patient or the consumer if the respective active ingredient has a large therapeutic window. However, if the active principle has only a very narrow therapeutic window-i.e. the limit between the dose which has not yet been acted upon and the dose which has caused the undesired side effects is very small-the individual removal of the active principle should no longer be carried out uncontrolled by the patient himself.
Dosage forms with a pre-metered active ingredient are especially industrially produced if the corresponding metering is to be provided in large quantities. This is the case, for example, in antibiotics. While other therapeutic agents require individualized patient metering, e.g. relating to the respective body weight. In this case, industrial production is generally costly and is therefore economically disadvantageous. It is therefore common to perform individualized metering in a pharmacy or hospital pharmacy. For example, a series of oncology and psychiatric drugs must be individually metered. It is also often necessary in geriatrics and pediatrics to individually meter relatively common drugs, such as antibiotics. This is necessary in order to take into account differences in terms of weight and physical state and also in part to take into account metabolic characteristics in the case of very young children.
When metering active ingredients for individualized administration to a patient, the active ingredients are usually weighed out, for example, in a hospital pharmacy. Alternatively, a specific volume of active ingredient may be measured, which corresponds to the required dose of active ingredient. Individual doses are often filled in hard gelatin capsules for ease of administration to patients. Such capsules, which are composed of a capsule lower part and a capsule upper part, are widely popular forms of administration of active ingredients in the form of powder or pellets. They can be manufactured and filled industrially in very large pieces, but are also used in pharmacy for the manufacture of individualized single doses.
Nowadays, drinking straws are also used for administering active ingredients and/or nutritional supplements. Such a straw is known, for example, from EP 1843683B 1. The active ingredient is present here in particular in the form of granules, pellets, microtablets or powders and preferably has a size in the range from about 250 μm to about 4 mm. The average size is between about 250 microns and 710 microns. The active ingredient is in this case already in the suction tube and is sucked from the suction tube into the mouth of the patient with a liquid and is subsequently swallowed. This makes it easier for the patient to take his active ingredient, since it can usually be swallowed much more easily. This may be advantageous especially in patients with dysphagia (e.g. in pediatrics and/or geriatrics). By receiving the active ingredient as an in situ suspension with liquid, the taste of the active ingredient can be masked by the liquid, for example. The patient can design the taste according to his own wishes through different beverages. When pellets are used, the pellets are typically functionally coated. Taste masking can also be achieved in this way. In addition, specific release characteristics may be obtained. Drinking straws are generally manufactured industrially and therefore contain precisely predetermined doses of active ingredient.
Disclosure of Invention
Starting from this previously known prior art, the present invention is based on the object of specifying an improved device for the metered filling of containers with a filling agent containing an active ingredient, which device makes it possible in particular to fill the containers individually directly at the administration site. In particular, it should be possible to fill containers in small quantities quickly and reliably at low cost.
The device according to the invention for the metered filling of containers with a filling material is characterized by the features of independent claim 1. Suitable further developments of the invention are the subject matter of the other claims following this claim.
The device according to the invention for the metered filling of containers with a filling material has a receiving unit for receiving the container to be filled and has a filling unit. By means of the filling unit, a predetermined amount of the filling material can be removed from the material reservoir and transported into the container. For this purpose, the filling unit has at least one metering chamber, which is movably supported. Thereby, the at least one metering chamber may be alternately present in the first position and the second position. The metering chamber is in its first position in communication with the material reservoir, so that the filling material can be injected from the material reservoir into the metering chamber. The metering chamber is arranged in its second position above the container to be filled, so that the filling material present in the metering chamber can be emptied into the container. According to the invention, the material reservoir is present as a separate container which can be releasably fastened to the device by means of the fastening unit.
By using a separate container as a material reservoir, the device can be used directly at the Point of administration of the active ingredient (Point of Care). The patient can be prescribed by a doctor to obtain a specific number of containers to be filled and a specific amount of active principle. The patient receives the container and the active ingredient from the pharmacy or hospital pharmacy, wherein the active ingredient is stored in a suitable container. Simultaneously, the required dosage of the active ingredients is informed to the patient. A correspondingly trained patient or care-giver (for example a trained parent in the case of a child) can correspondingly fill the container directly before administration and then also administer the drug.
The metering chamber can in particular be movable back and forth in a forward direction and in a reverse direction. Such back and forth movements can usually be performed with only one hand, while a temporary stop and grip is usually not needed. This makes the operation of the device according to the invention easier for the filler.
In a first embodiment, the device can have only one metering chamber as described above. In this case, it is necessary to perform a forward movement and a reverse movement in order to close the filling channel. Preferably, the metering chamber can in this case be supported in a longitudinally movable manner. Such a support can be realized in a structurally simple manner and at the same time enables a simple and comfortable handling.
In a second embodiment, the device can have a first metering chamber and a second metering chamber. The two metering chambers may then alternately be present in the first and second positions, respectively. One of the two metering chambers is in its first position and is filled with the filling material to be filled, while the second of the two metering chambers is in its second position and the filling material present in this metering chamber is emptied into the container. The two metering chambers must be present above the container in the same position in their second position in order to be able to achieve an accurate and reproducible filling of the container. While the first positions of the two metering chambers may be different, as long as the two metering chambers can be filled with the same filling material in the same amount in their respective first positions.
In a structurally particularly simple embodiment, the two metering chambers can each be moved from their first position into their second position by a rotary movement. If the rotational movement in this case comprises an angle of 180 degrees, the two metering chambers can be exactly repositioned by the rotational movement. In this case, the two metering chambers are present in their second position below the material reservoir at the same position.
In order to prevent a portion of the filling material from falling out of the container during the emptying of the metering chamber, a funnel element can be arranged between the at least one metering chamber and the upper edge of the container.
The fastening unit for the material reservoir can preferably have a screw lock or a detent lock. When using a screw lock, a container serving as a material reservoir can be securely locked with the screw cap and-after removal of the screw cap-also fastened with the same thread on the screw lock of the device. In this way, it is possible to continue to use existing standard containers which have already been used in the prior art for storing and transporting smaller quantities of filling material. Alternatively, a container comprising a snap-on lid can also be used as before, if the device is equipped with corresponding stop-locks.
In a particularly preferred embodiment, the container can be designed as a drinking straw. The straw should in this case already be sealed at its lower end by suitable means so that the filling does not fall out of the straw from below. After removal of the straw from the device, the straw can be closed by means of a separate lid. Thus, with the device according to the invention, an individualized filling of a small number of suction tubes can be achieved directly at the point of care at the bedside. This enables a new field of application of the straw when administering active principles to a patient.
Preferably, the device according to the invention can have a counting unit. By means of the counting unit, the number of changes in position of the at least one metering chamber can be counted and displayed. Typically, one container is filled with a plurality of doses of filler. The active ingredient is therefore usually present in the filling material in a relatively small concentration, so that different active ingredient doses can be achieved by filling the metering chamber with the filling material a predetermined number of times. The counting unit can prevent errors in the filling, which may occur, for example, as a result of a diversion.
In a particularly preferred embodiment, a printer unit may be present. Automatic recording of the filling can be achieved by the printer unit. This can be done ex post facto or in parallel with the filling.
The device according to the invention is not limited to any particular type of packing. In principle any arbitrary material can be considered as filler, as long as the material can be divided into a plurality of units which each have an active ingredient in substantially the same amount. This is particularly the case in solids which are present in the form of granules, pellets or microtablets. In principle, it is also possible to meter the liquid correspondingly, in particular when the liquid is present in the form of microcapsules. The invention is particularly advantageous in fillers with high-priced active ingredients, in order not to unnecessarily increase the processing expenditure. Even in active ingredients of low durability, individualized filling of the respective required dose can be advantageous.
Further advantages and features of the invention can be derived from the features which are further specified in the claims and the exemplary embodiments described below.
Brief description of the drawings
The invention will be further described and explained with the aid of embodiments shown in the drawings. Wherein:
fig. 1 shows a schematic longitudinal section through a first embodiment of the device according to the invention, wherein the individual metering chambers are located below the material reservoir in their first position;
fig. 2 shows a schematic longitudinal section through the device according to fig. 1, wherein the respective metering chamber is located above the container in its second position; and
fig. 3 shows a schematic longitudinal section through a second embodiment of the device according to the invention, the first metering chamber being located in its first position below the material reservoir and the second metering chamber being located in its second position above the container.
Detailed Description
A first embodiment of the
The
The
In its second position 38, the
In the present exemplary case, the removal of the filling
A second embodiment of the device 12 according to the invention is shown schematically in fig. 3. The device 12 likewise has a container 20.2 designed as a material reservoir, in which a filling
The metering plate 62 is below the cover plate 28.2. In the present example case, two metering chambers 64, 66 are formed in the metering plate 62. The two metering chambers 64, 66 can each receive a specific quantity of
In the present exemplary case, the removal of the filling
More than one filling of the
If other quantities of filler are to be filled, the
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