This application claims the benefit of Swiss patent application no. CH 00012/05 filed Jan. 6, 2005, which is hereby incorporated by reference.
The present invention relates to a device for processing bulk materials, for example by mixing, shredding, metering and/or screening, with a container and an implement therein driven about a horizontal axis by an external rotary drive.
Devices of this kind are previously disclosed in the widest variety of embodiments. A device executed as a continuous mixer having a horizontal container and an implement therein rotating about a horizontal axis is described, for example, in Swiss patent 692 274. Devices of basically similar construction, but with implements of different forms, are also previously disclosed for the purposes of shredding, metering and/or screening.
The previously disclosed devices of the aforementioned kind are conceived above all for industrial use and are accordingly relatively generously dimensioned, robustly executed and provided with a powerful driving means. An advantage associated with them is the possibility of continuous operation, in conjunction with which the material to be processed can also be delivered and/or discharged via closed pipe systems. Containers and implements are “permanently” installed in these and, as such, are not readily removable, at least by the user. Accordingly, the replacement of implements and, for example, the associated conversion of a mixer into a shredder or a metering machine, are also not readily possible. This is also not required, for the most part, in the context of industrial installations.
A simple and regular solution for the container and the implement of the driving means of the device, in particular for cleaning purposes, tends to be the rule in the case of so-called kitchen machines, on the other hand. Different and mutually interchangeable implements are even supplied with these frequently in the form of a kit. In the case of kitchen machines, the container usually stands vertically, is closed at the bottom, is open towards the top and is capable of being closed with a cover, if necessary. The implement also rotates inside the container about an essentially vertical axis. The vertical orientation of the axis permits a simple solution to the problem of sealing the container in relation to the drive by the formation of baffles and also under the effect of gravity. The vertical orientation also imposes the requirement for processing in charges or batches, rather than continuous processing, the consequence of which is that the material to be processed practically unavoidably comes into contact with the surrounding air. This does not present a problem, however, in the kitchen environment.
The present invention derives from the knowledge that applications exist for the processing of bulk materials, for example by mixing, shredding, metering and/or screening, for which neither the previously described industrial devices nor the kitchen machines are suitably executed. In this case, we are concerned in particular with laboratory applications, in which no large quantities are encountered, but in which, especially in the pharmaceutical sector for instance, the greatest possible demands are imposed on cleanliness, and/or the material for processing, for example due to its extreme toxicity, must not come into contact with the surrounding environment under any circumstances. The object of the invention is accordingly to make available a device that is suitable for such applications.
This object is achieved in accordance with the invention by the characterizing features indicated in the patent claims.
At its core, therefore, in a device of the aforementioned kind, the invention provides for the arrangement between the container and the rotary drive of a connection unit, to which the container is detachably fastened, in which a shaft of the implement is detachably retained and is detachably attached to the rotary drive, and in which a labyrinth seal is loosely accommodated for the purpose of sealing the container against the implement shaft.
The expression “detachably fastened” is used here to denote a fastening of a kind that is detachable with a few movements of the hand and without the need for special tools, as required by the regulations and without damage, and is then capable of being reassembled without major difficulties. The expression “loosely accommodated” should be understood to denote, with reference to the labyrinth seal, that this is not installed and secured in a complicated fashion in the connection unit, but is capable of being inserted into it and removed from it more or less with a single movement of the hand.
The benefits achieved through the invention can be appreciated above all from the fact that the implement and the container, and with them the labyrinth seal, are easily removable and, as such, are also capable of being cleaned easily and individually in each case. In contrast to the previously disclosed industrial devices, in which lip seals or the like are customarily used for the purpose of sealing, the labyrinth seal utilized in accordance with the invention permits the simple insertion and withdrawal of the shaft of the implement without the associated risk of damage to the seal. Because of the ease of dismantling of the implement, different, mutually interchangeable implements can also be used for different processing tasks. Thanks to the horizontal arrangement of the axis of the implement, the container can easily be filled from above and emptied towards the bottom. Thanks to the horizontal arrangement of the axis of the implement, operation other than in batches is also possible continuously as an option. The container and the entire system for the delivery and discharging of the material for processing can be of hermetically sealed execution, so that the material is not able to come into contact with the surroundings. Thanks to the connection of the shaft of the implement to the rotary drive in the connection unit, and thereby outside the container, essentially its entire volume is available as processing chamber. The fact that the labyrinth seal is accommodated loosely in the connection unit and is capable of being dismantled from this, means that it can be inspected and cleaned externally. Because it does not require any elastic component parts, such as lip seals, that are also subject to abrasion, and since the container and the implement can consist in their entirety of a metallic material, for example, cleaning is very effective. Furthermore, it could accordingly also be sterilized in an autoclave at a high temperature (e.g. 130° C.) together with the container and the implement. Hygienic conditions can be stipulated, assured and also demonstrated in this way for all parts of the device that come into contact with the material for processing, which is required above all for pharmaceutical applications. The labyrinth seal in this case constitutes the separating element between the hygienic part of the device and the driving part of the device, in relation to which no such strict requirements are imposed in respect of cleanliness.
In a first, preferred embodiment, the connection unit exhibits an external casing, to which the container is detachably flange-mounted. According to a further, preferred embodiment, the shaft of the implement is detachably attached in the connection unit with a spigot of the rotary drive via a receiving socket.
The presence of an external casing permits the receiving socket to be supported in the casing preferably in the vicinity of its end close to the container.
To the extent that the shaft of the implement is retained in the receiving socket with such lateral stability that the implement does not require any further means of support beyond that already provided, the implement can terminate freely in the container. A further means of support, such as a bearing situated close to the end, does not require to be dismantled in this case for the purpose of removing the implement. The absence of a further means of support also enables cleaning of the device to be carried out more easily and more rapidly.
According to a further, preferred embodiment, the shaft of the implement is secured in only non-positive engagement in the receiving socket in the axial direction. All that is required in this case for assembling the implement is to insert the implement with its shaft through the labyrinth seal and into the receiving socket. Conversely, the implement can be withdrawn simply from the receiving socket for the purpose of dismantling it, without the need to undo any screwed connections or the like.
A particularly simple construction results if the spigot of the rotary drive is mounted in the rotary drive. All that is required in this case, in order to retain the implement in its entirety in the receiving socket in a sufficiently stable fashion, is to provide the aforementioned support for the receiving socket in the casing of the connection unit.
The labyrinth seal provided for the purpose of sealing the container against the shaft of the implement exhibits the advantage that, because of its oversize, the shaft of the implement can be readily inserted through it or withdrawn from it, without the need for manipulations of any kind to be performed on it. In order further to seal the gap that is present due to the oversize against the bulk material to be processed in the container, the labyrinth seal can also be subjected to pressure with a flushing gas in the direction of the container.
Among other things, in order to facilitate access to the implement and its assembly or disassembly, the container can be provided with a removable front cover on its side facing away from the rotary drive.
According to a further, preferred embodiment, the container exhibits an upper inlet opening and a lower outlet opening, of which at least one is capable of being closed preferably in a sealing fashion by means of at least one sealing element in relation to the bulk materials for processing. At least one of these openings can also be executed in such a way that a pipe can be connected to it.
In contrast to the above-mentioned devices for industrial use, the device in accordance with the invention is preferably dimensioned in such a way that the container exhibits a volume of between 0.1 and 100 liters, and in particular between 1 and 10 liters. The rotary drive can be designed for a maximum torque in the range between 0.1 and 300 Nm.
The invention is now described below in greater detail in the form of illustrative embodiments with reference to the drawing. The following are shown in the figures:
Corresponding component parts are identified in the figures with identical reference designations.
The rotary drive 10 is, for example, a spur wheel back-geared motor with an integral transmission 11. The reference designation 12 denotes a drive spigot of the rotary drive 10 and the transmission 11 projecting into the connection unit 20, and reference designation 13 denotes a transmission flange. The rotary drive is secured in a fixed position in a holding device 14.
The container 40 encloses a processing chamber 41 and exhibits an upper inlet opening 42 and a lower outlet opening 43. The inlet opening 42 is closed by means of a removable cover 44. A further cover 45 is flange-mounted on a free end wall 46 of the container 40 and closes an opening that is present there. The diameter of this opening corresponds approximately to the diameter of the processing chamber. The processing chamber is delimited by a grating 47 in the direction of the outlet opening. A collecting container (not illustrated here) can be positioned under the outlet opening 43.
The implement 30 in
The connection unit 20 exhibits a rotationally symmetrical, more or less lantern-shaped outer casing 21, which is provided with bilateral flanges 22 and 23. The casing 21 is bolted to the aforementioned transmission flange 13 via the flange 22, and to the end wall 48 of the container 40 via the flange 23.
The implement shaft 33 is rigidly attached to the drive spigot 12 of the rotary drive 10 in the connection unit 20 and the casing 21 via a similarly rotationally symmetrical receiving socket 24. For this purpose, both the drive spigot 12 and an end section 34 (see
The receiving socket 24 is supported by a deep-groove ball bearing 28 in the outer casing 21 of the connection unit 20. At least one additional bearing is also present in the transmission 11 of the rotary drive 10 for the drive spigot 12, although this is not illustrated in the figures as a standard component of the transmission. The implement 30 is not provided with any additional support other than via these bearings. In particular, its end close to the container is not provided with additional support and is free. The receiving socket 24 is sealed by means of a lip seal 29 in relation to the casing 21.
For the purpose of sealing the end wall 48 of the container 40 against the implement shaft 33, a labyrinth seal 50 is inserted with a perfect fit, although still loosely, into the casing 21 from its end close to the container. With its peripheral edge 51, the labyrinth seal 50 makes contact with a corresponding step in the casing 21 and is also retained in position by the end wall 48. As suggested by its name, the labyrinth seal 50 is oversized in relation to the implement shaft 33 and, in particular, in relation to the section 35 of the implement shaft 33 with its enlarged diameter. The implement shaft 33 is capable in this way of being introduced unimpeded through the labyrinth seal 50 into the connection unit 20 and inserted into the receiving socket 24. In precisely the same way, it can again be withdrawn unimpeded through the labyrinth seal 50 from the connection unit 20 and the receiving socket 24.
In order to ensure that no material is able to penetrate from the container 40 into the gap to be sealed, the gap can be flushed in the opposite direction with a gas, which is supplied under pressure via a flushing gas connection 52. Because of the aforementioned snug fit of the implement shaft 33 in the receiving socket 24, and of the aforementioned lip seal 29 between the receiving socket 24 and the casing 21, the flushing gas is unable to take a path other than through the gap in the labyrinth seal into the container 40.
Seals in the form of o-rings or the like are also provided at other interfaces in the device, in particular between the flange 22 of the connection unit 20 and the transmission flange 13 and the flange 23 of the connection unit 20 and the end wall 48 of the container 40. Only the sealing grooves required for these seals are illustrated in the figures.
The previously described embodiment is further clarified by the perspective representation in
In the previously described device in accordance with the invention, the component parts or constructional units which come into contact with the material for processing are capable of being dismantled easily, for example for cleaning purposes. The necessary steps should be appreciated below with reference to
For example, the two covers 44 and 45 are first removed from the container 40. The flanged connection 48/23 between the container 40 and the connection unit 20 is then parted. Since the implement 30 is retained and supported solely in the connection unit 20, and projects into the container 40 only with its implement head 31, and since the diameter of the opening in the wall 48 of the container corresponds more or less to the diameter of the processing chamber 41, the container 40 can then be pulled off easily to one side. The resulting situation is illustrated in
As illustrated in
Assembly of the individual component parts takes place in the reverse order.
It is possible at this time to replace individual dismantled component parts by replacement parts, but also by differently executed component parts, and in this way to adapt the device in accordance with the invention for a different processing task. Four further devices in accordance with the invention are illustrated in
The device in
The device illustrated in
Number | Date | Country | Kind |
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0012/05 | Jan 2005 | CH | national |
Number | Name | Date | Kind |
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1959465 | Dryfoos | May 1934 | A |
2071410 | Kuhn et al. | Feb 1937 | A |
5094542 | Engels et al. | Mar 1992 | A |
6264360 | Lehmusavaara et al. | Jul 2001 | B1 |
Number | Date | Country |
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692 274 | Apr 2002 | CH |
0 620 039 | Oct 1994 | EP |
2.218.161 | Sep 1974 | FR |
Number | Date | Country | |
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20060175761 A1 | Aug 2006 | US |