The present invention relates to an evacuation system or extraction system for containers. Various extraction systems are known from the prior art. For example, it has been known for some time to pressurize the containers to be evacuated, and in this way the filling can be extracted from the containers. However, devices are also known from the prior art which achieve the extraction of the fluid from the container by crushing the container. In an apparatus known from the prior art, two holding devices are provided which hold two different components of the containers and can be moved towards each other.
The prior art also discloses various extraction systems which for example have tap cocks and similar. In particular, the multiple use systems known in the prior art do not guarantee a pure beverage, for example pure beer, with tapping, unless the corresponding components are cleaned regularly.
Hence in these cases it would be desirable to be able to use single-use systems at least partially, for example single-use tap lines and similar.
The present invention is therefore based on the object of providing such an extraction device for containers which allows the use of at least some single-use parts. This is achieved according to the invention by the subjects of the independent claims. Advantageous embodiments and refinements are the subject of the subclaims.
An apparatus according to the invention for extracting fluids from containers has a first holding device which is suitable for holding a first region of the container. The apparatus also has a second holding device which is suitable for holding a second region of the container (which in particular is spaced from the first region of the container) and a movement device which generates a relative movement of one holding device relative to the other holding device, so that the container arranged at least in portions between these holding devices is evacuated by its compression.
According to the invention, at least one holding device is formed in several pieces with at least two components moveable relative to each other.
Whereas, in the prior art, such holding devices are usually formed of one piece, it is proposed as part of the invention to provide a multi-piece configuration in order to allow easier integration of single-use parts thanks to this multi-piece configuration. Said parts can then be exchanged relatively easily, for example when changing a beverage container.
The holding device may for example be a die which can be advanced towards a second holding device in order to evacuate the container in-between as completely as possible. As part of the invention therefore, the use of a two-piece or multi-piece die is proposed. Advantageously, the holding devices are arranged such that the container lying in-between is compressed in the longitudinal direction of this container.
Furthermore, advantageously, a drive device is proposed which causes the relative movements of the two holding devices relative to each other. This may for example be a spindle drive, the adjustment of which moves the holding devices relative to each other. Furthermore it is possible that one of the two holding devices is arranged stationarily and the other holding device moves relative to this. The multi-piece holding device is advantageously arranged stationarily in a working mode, i.e. for an evacuation process, the other holding device is advanced towards this holding device.
In a further advantageous embodiment, the holding device has a receiving region which serves to receive an extraction means for extracting the fluid, wherein this receiving region is made accessible by the relative movement of the components moveable relative to each other.
This receiving region may have supporting means for arranging the extraction means in a (precisely) defined position relative to the holding device. Thus for example a tapping means may be inserted in this receiving region. Preferably, for use of such a tapping means, the holding device is opened by the components being moved relative to each other, for example moved into an opening position so that then the extraction means can be inserted.
It would for example be conceivable that the holding device has two half shells which can be folded apart in order to insert the extraction means in the opened receiving region. It would however also be conceivable that the receiving region can be made accessible via a door or similar. Advantageously, in working mode the receiving region is completely surrounded in a peripheral direction by the other portions of the holding device.
In a further advantageous embodiment, the holding means formed in several pieces is suitable for receiving a mouth region of the container. Thus it is possible for example that the holding means is adapted to a container to be evacuated in the form of a shoulder region. A receiving region or receiving recess may be provided which serves to receive the mouth of the container.
In a further advantageous embodiment, the device has an extraction means for extracting the fluid from the container. This extraction means is preferably an element which can be removed from the holding device.
Advantageously, the extraction means is a single-use extraction means. This may be configured so that after a use, it can no longer be reused and in particular no longer be used for further containers.
In a further advantageous embodiment, the extraction means and/or the holding device have a catch mechanism and/or a snap mechanism which, under a defined force loading, transforms into a state in which the extraction means can no longer be used for further containers or for their evacuation. Advantageously, the force loading is a force which is exerted by a movement of the container relative to the holding device. This catch mechanism is advantageously configured irreversibly, i.e. the extraction means can no longer be transferred to a state in which it can be used again. Advantageously, the catch mechanism is a mechanism in which at least one portion of the extraction means cooperates with at least one portion of the holding device. Particularly preferably, the extraction means engages with part of the container from which fluid is to be taken, for example with a closure of the container.
In a further advantageous embodiment, the components of the holding device which are moveable relative to each other are pivotable relative to each other about a predefined pivot axis. Thus it would be possible, as already stated, for the holding device to have two halves which can be folded apart. It would however also be possible for a smaller part to be pivotable relative to a larger part. Advantageously, this is an axis which runs parallel to or perpendicular to a longitudinal direction of the container to be evacuated.
Advantageously, in other words, this is a pivot axis which also runs in the movement direction in which the holding devices are advanced towards to each other. It would however also be possible for an opening to be made by a slide movement, for example a drawer-like movement. Thus the openable die mentioned here contains an apparatus which preferably has a type of release mechanism. This mechanism, which may for example be a slider, can be moved in a predefined direction, for example upwards, on insertion of a container, in particular a plastic container, and in this process a snap device or catch device may be triggered which guarantees a single use of the extraction device.
This catch means or snap closure on the single-use connection forces the user to also change the associated single-use line, thus leading to a type of guaranteed exchange also of the respective extraction lines. In this way, also the entire system can be viewed as a single-use system, since the container with its closure and also the lines such as single-use lines must be exchanged or removed on completion of a tapping process. However, on the other hand it is not absolutely essential to evacuate the container completely, but it may be ensured that a container which is still half-full or half-empty, after opening of the holding device, cannot be evacuated further. In this way, a fully hygienic tapping process is achieved.
The above-mentioned catch mechanism may be formed by the extraction means itself; it is however also possible that the catch mechanism results from a cooperation between the holding device and the extraction means.
Advantageously, during a tapping process, the extraction means is arranged by force fit in the receiving region. Advantageously, the extraction means has a line for conducting the beverage to be extracted, in particular a so-called tap line.
In a further advantageous embodiment, the extraction means has a puncture means which is suitable for puncturing a region of the container. This is advantageously the region of a closure of the container. This puncture means may advantageously be designed as a peripheral needle which can firstly be introduced into the container through the container closure, but which secondly functions as a conduction piece through which the beverage can be transported. In a further advantageous embodiment, this puncture means is arranged slidably relative to a carrier of the extraction means. This sliding process may also trigger the catch mechanism, so that for example on first puncture, the puncture means is moved into a position in which it is no longer suitable for a further extraction of fluid from a further container.
The present invention is furthermore oriented at an extraction means for extracting fluid from containers. This extraction means has a carrier and a puncture means arranged on this carrier which is provided for puncturing a region of the container, and a conduction device which is suitable for conducting fluids. According to the invention, the extraction means is formed as a single-use extraction means and has a catch mechanism which causes the extraction means, in a state used in an apparatus for extracting fluids, to be usable only for evacuating precisely one container.
Advantageously, the puncture means is displaceable relative to the carrier and in particular slidably in a straight direction. Particularly preferably, this sliding triggers and/or actuates the catch mechanism. Preferably, a sliding of the puncture means relative to the carrier causes locking of the puncture means.
Further advantages and embodiments result from the enclosed drawings which show:
By means of a drive device such as a motor 18, this holding device 4 may be moved upward, wherein the container 10 arranged between these two holding devices is thereby compressed and thus the fluid can be extracted therefrom. Advantageously, a contour of the holding device 4 facing towards the container 10 is adapted at least in regions to a corresponding contour of the first holding device 2, so that the container between these two holding devices can be compressed to a very narrow space in order to be able to extract as much fluid as possible. Reference numeral 29 designates a carrier on which the holding device 4 is mounted via a pretension device 28 such as a spring.
A choke device 56 may be arranged in an extraction line for extracting fluid. Reference numeral 52 designates a valve device which can be opened to extract the fluid via an outlet 54.
The holding device 2, as shown, furthermore comprises in closed state a receiving region 16 in its interior in which an extraction means, designated as a whole as 6, is arranged. This extraction means 6 has a puncture means 62, here formed as a tubular body, and in its lower region a cutting element 62a which for example can puncture the cover of a container. Reference symbol L designates a longitudinal direction in which the container to be evacuated extends. Reference numeral 65 designates a receiving space which serves to receive a container closure (not shown) during the evacuation process.
Reference numeral 64 relates to a base body of the extraction device, on which the puncture means 62 is arranged displaceably in the longitudinal direction L.
Reference numeral 66 designates an extraction line which is here arranged in particular fixedly on the extraction means 6. The puncture means 62 is moveable relative to the carrier 64 and hence also relative to components 22 and 24 in the longitudinal direction L.
Reference numerals 82 and 84 designate a catch mechanism which serves to ensure, on puncture or on further movement of the second holding device into the container, that the extraction means 6 cannot be used a second time for a further container. When the container to be evacuated is lifted, a first catch means 82 is forced up and engages behind a second catch means. This has the consequence that the puncture means is pushed upward and is no longer able to puncture a further container.
The base body of the components 22 and 24 is configured such that it can adapt to a shoulder of the container, and in this way an almost complete evacuation of the container is possible.
It is further evident that a catch element 82 is here arranged on the component 24, and the second catch element 84 is arranged on the extraction means 6. A holder 94 for the extraction means can also be seen.
In the open state shown in
Advantageously, in the embodiment shown in
Preferably, a pivot movement of the extraction means 6 and/or the receiving region 6 for the extraction means is coupled to a pivot movement of the component 22 of the holding device 2.
Also in the embodiment shown in
A further advantageous embodiment of the extraction means (not shown) is configured such that catch means are provided on the extraction means, which can engage on a closure of a container. Advantageously, these catch means are formed as claws which are arranged symmetrically around the puncture means. During the advance movement between the holding device and the container, these claws engage on corresponding catch points arranged on the closure of the container.
The applicant reserves the right to claim all features disclosed in the application documents as essential to the invention where novel individually or in combination relative to the prior art.
1 Apparatus
2 Holding device
6 Extraction means
10 Container
10
a Floor region of container 10
10
b Mouth region of container 10
16 Receiving region
18 Drive device
22 First component
24 Second component
25 Locking element
26 Hinge
27 Handle
28 Pretension device
29 Carrier
30 Closure of container
32 Fixing means
34 Groove/recess
42, 44 Linkage body
52 Valve device
54 Outlet
56 Choke device
62 Puncture means
62
a Cutting element
64 Base body/carrier
65 Receiving space
66 Extraction line
82, 84 Catch mechanism
92 Support elements
94 Holder
L Longitudinal direction
S1 First pivot axis
S2 Second pivot axis
S3 Third pivot axis
S4 Fourth pivot axis
Number | Date | Country | Kind |
---|---|---|---|
10 2013 110 121.6 | Sep 2013 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2014/069554 | 9/12/2014 | WO | 00 |