The invention relates to a device as described in the preamble of claim 1.
Such a device is disclosed in Dutch patent 1029093 (vide also WO2006/126879 A2).
In these publications an improved cleanability of the parts which—in use—get into contact with the soiled objects, is mentioned as an advantage of the flexible transfer bag within the chamber.
More specifically it is said that the transfer bag (indicated in de publications by the terms “mof”, “sok”, “kous” and “sleeve”) can be easily cleaned from the inside.
With the well-known device, however, the chamber wall surface remains subjected to fouling. This fouling takes place—on the one hand directly—when placing a soiled object—and on the other hand indirectly—due to the ejection of an object taking place while the transfer bag, the inner side of which was fouled already in an earlier stage, is turned inside out. Moreover, the removal of a fouled transfer bag, e.g. for the purpose of a thourough cleaning or replacement, is rather difficult. This is because the edge around the mouth of the transfer bag is (halfway the chamber) locked up in a circumferential groove of the chamber wall by means of a radially outwardly pretensioned locking ring, which—because of its nature—can be is easily put in place but is difficult to remove.
It is a first object of the invention to provide a device of the type above referred to, that offers better possibilities for a thourough cleaning of the parts which—in use—are subjected to fouling and more particularly offers the desired ease with which such possibilities may be utilized and thereby the ease with which a high standard of hygiene may be satisfied.
According to the invention a device of the type above referred to is characterized in that the transfer bag is attached to a collar, which is rigid as compared with the flexibility of the bag material and the height of which is of the order of half the length of said chamber, which collar—together with said transfer bag—can be moved into/out of said chamber and locked therein against undesired outward movement by means of a locking ring that cooperates with the edge of said opening.
Such a flexible transfer bag provided with a rigid collar can be simply placed into and removed from the chamber through the easily accessible and easily manageable locking ring. In fact, the collar constitutes a lining for the chamber wall, which is thereby—in use—protected against direct as well as indirect fouling.
In a practical embodiment of the device according to the invention the locking ring forms an integral part of the collar.
A thus formed transfer bag assembly is particularly advantageous in circumstances, wherein for economic reasons cleaning can be carried out less frequently and therefore—from a point of view of hygiene—one decides to exchange the transfer bag assembly earlier. In these circumstances it is a real advantage, that automatically the locking ring (subjected to fouling when depositing as well as when expelling a soiled object) is exchanged as well.
A preferred embodiment of the collar is characterized in that starting from a collar neck portion, that corresponds with the inlet/outlet opening, the collar widens into a conical form and is—against spring action—radially inwardly contractible or compressible to a circumferential size that corresponds with the size of the inlet/outlet opening, e.g. as a result of the collar being provided with cuts or slits which are evenly divided around the terminal edge of the collar that is turned away from the collar neck portion.
When using a transfer bag assembly with such a cone-shaped collar in a cylindrical chamber(section) having a diameter that corrseponds with that of the inlet/outlet opening, the collar will become lying against the cylindrical chamber wall in its radially compressed state, i.e. under pressure, which contributes to the reliability in operation of the device.
It has still to be noted that with the well-known device discussed hereinabove both ends of the chamber are open and function as inlet/outlet opening, in the sense, that each time one chamber end fulfils the function of outlet opening, while the other chamber end is in the inlet (deposit) position. This means that also in periods of time, in which there is no “supply” of soiled objects, the chamber containing the transfer bag that was fouled by previous use, is in direct connection with the surrounding atmosphere, which is also very undesirable from a point of view of hygiene.
With the device according to the invention, on the contrary, only one end of the chamber fulfils the function of inlet/outlet opening whereas the other end of the chamber is closed. Therefore, when placing the device into the outlet position—as a closing action after the deposit of a soiled object—the chamber is automatically shut off from the surrounding atmosphere and this situation continues until a next (soiled) object has to be disposed of.
As compared with the well-known device the device according to the invention has still the additional advantage that also the expel body remains out of contact with the soiled objects, without requiring therefore any material connection with the transfer bag, which facilitates the handling of the transfer bag when the latter is to be removed in order to be exchanged or cleaned.
In view of the circumstance just mentioned it is a further object of the invention to optimalize the working of an expel body that is permanently disconnected from the transfer bag, with a device according to the invention.
To that end the invention provides a solution, which starts from a device according to claim 1 with at least also the feature of either claim 5 or 6, and which is characterized in that starting from said inlet/outlet opening, the chamber wall is at first conically widening through a length corresponding to the collar height and then—from a location halfway the chamber—conically narrowing, the cone angles of both of the chamber wall sections being smaller than that of the collar in its completely expanded, tensionless state.
With this solution the diameter of the expel body can be simply adjusted to the cone-shaped chamber wall and the cone-shaped collar respectively such that two defined endpositions are created for the expel body, between which positions the expel body, when moving from the inlet position to the expel position and vice versa, may carry out an effective stroke. More specifically this manner of operation may result in a limitation of the extent to which the flexible transfer bag will—in the expel phase—be pushed by the expel body into the collar, so that with the next following movement towards the inlet (deposit) position it will be easier for the transfer bag to follow the expel body in its fall movement back to the chamber bottom.
Finally, a solution which is effective independant of the features of any subclaim consists therein that within the chamber a second or auxiliary bag is provided, the mouth edge of which engages the chamber wall round about so as to divide the chamber into two sections located one behind the other, and the flexible circumferential wall of which hangs down—when said cover section is in said first position—into the chamber section located at the closed end of the chamber, around the end of the transfer bag also hanging down therein, the bottom of said auxiliary bag being constituted by said expel body.
In this particular embodiment of the device according to the invention, the expel body is in the expel phase—wherein the chamber is moving and has been moved from the first position into the second position—operating in a manner which is comparable to the one with the well-known device. Indeed, in that phase the expel body will—although mechanically disconnected from the transfer bag, get positioned on top of the loaded transfer bag and push the latter downwardly, whereby the object is expelled and the transfer bag will get hanging—with its bottom directed downwardly and turned inside out—within the collar. Furthermore the auxiliary bag gets positioned—with its mouth edge suspending from the chamber wall—within the transfer bag turned inside out.
However, when the chamber is returning from the second position towards and into the first position—the deposit phase—the cooperation between the expel body and the transfer bag differs fundamentally from that with the well-known device. In this connection it is assumed that the fastening of the mouth edge of the auxiliary bag to the chamber wall as well as the fastening of the collar of the transfer bag in the inlet/outlet opening by means of the locking ring are (substantially) hermetic.
Under the condition just mentioned an amount of air will get trapped between the two flexible bags, which constitutes as it were a pneumatic connection between the transfer bag and the bottom (=expel body) of the auxiliary bag. In the deposit phase—when the expel body due to its weight returns to its starting position at the chamber end turned away from the deposit/outlet opening—this will create a slight under-pressure within the connecting “air-cushion” between the two bags, under the influence of which the transfer bag will be pulled along into its starting position—ready for receiving a (next) object. Unlike the well-known device, with which the expel body has to be mechanically connected to the transfer bag, such a connection is missing with the device according to the invention, thanks the use of an auxiliary bag that is not subjected to fouling and thus gives long lasting service. This means that, when a (very) fouled transfer bag has to be exchanged for a clean one, no expel body needs to disconnected from the fouled transfer bag, which is a great advantage from a point of view of hygiene.
Furthermore the invention relates to a transfer bag for use with the device according to the invention.
The invention is hereinafter further explained by way of two examples with reference to the accompanying drawings, in which:
The device shown in
Within the shell portion 4 a substantially spherical cover section is pivotally mounted about a horizontal axis (not shown) through the common centre of the shell portion and the cover section 6. The cover section 6 can be moved by hand between a first position or deposit position (
At one end of the chamber 7—on the side of the chamber section 7a having the larger diameter—there is provided an inlet/outlet opening 8, whereas the opposite end of the chamber—on the side of the chamber section 7b having the smaller diameter—is closed by a bottom wall 9. The inlet/outlet opening 8 coincides with a corresponding opening in the spherical cover section 6, which is surrounded by a circular groove 10.
An assembly of two substantially flexible bags 11 and 12 is provided within the chamber 7 (vide
The auxiliary bag 11 has a flexible circumferential wall 11a, which has one of its terminal edges fastened to the inner circumference of a flange ring 11b, whereas its other, slightly radially inwardly extending terminal edge 11c is to be fastened, by gluing or otherwise, in a circumferential groove of the bag bottom 11d that functions as an expel body. Preferably the flange ring 11b is formed as a radially outwardly functioning pinch ring.
In contrast with the auxiliary bag 11, the bag 12 (which will be hereinafter called “transfer bag”) comes into direct contact with the soiled objects and thus needs to be frequently exchanged by a new one. The transfer bag 12 comprises a flexible part 12a and a cylindrical part 12b of a more rigid material, the latter part forming a collar, that extends from the mouth edge of the flexible part 12a in axial direction as far as the inlet/outlet opening 8. The transfer bag 12 will hereinafter be described in more detail.
When placing the auxiliary bag/transfer bag assembly—in the position according to FIG. 3—the auxiliary bag 11 is placed first, in such a way that its flange ring sealingly engages the shoulder face that functions as a support face. The weight of the expel body 11d will thereby cause the flexible bag wall 11a to hang down, while stretched, into the chamber section having the smaller diameter (vide
The locking ring 13 has—in cooperating with the annular groove 10 (FIG. 3)—also a sealing function when the cover section 6 is moving from the first position (
In fact
This movement of the expel body 11d causes the flexible auxiliary bag section 11a and the transfer bag 12 connected to the former bag by means of the above mentioned air cushion, to move along. The auxiliary bag/transfer bag assembly extending (in
The device is therewith ready to receive a soiled object.
After having been used for a selected number of times for the transfer of soiled objects to the collecting container 1, the transfer bag can be simply exchanged for a clean one. For this purpose only the locking ring 13 needs to be detached, after which the fouled transfer bag can be removed, the clean one can be put in place and the locking ring can be placed back (vide
Reference is now made to
An essential difference with the transfer bag according to
In the conical collar 12′b cuts or slits 32 are provided, which are evenly divided about the collar periphery and which start at the collar neck and merge into the (lower) terminal edge 12′c of the collar. These cuts or slits 32 make it possible for the collar 12′b and thereby for the whole transfer bag assembly to contract or to be radially compressed to an extent that allows its removal from the chamber or placement into the chamber through the inlet/outlet opening 8. The advantage of the represented collar shape with slits is, that the collar, while expanding after it has been inserted (in a radially compressed state) through the inlet/outlet opening 8, gets lying against the chamber wall under a certain pressure. This applies e.g. for a cylindrical chamber wall, such as the chamber wall section 7a in the embodiment according to
Halfway the chamber 7′ the conical chamber wall section 7′a connects to the chamber section 7′b that conically narrows towards the chamber bottom 9′. This form of the chamber wall 7′a, 7′b has the advantage, that two defined end positions can be created for a (disc-shaped) expel body, between which the expel body may carry out effective strokes.
This applies for a loose, independently moving expel disc as well as for an expel disc that—similar to the embodiment according to FIGS. 1-7—constitutes the bottom of an auxiliary bag. In case of an independently movable expel disc, however, it is to be recommended to choose the end position on the side of the inlet/outlet opening not closer to the latter opening than about halfway the conical collar 12′b in order to be assured of a sufficient unfolding of the transfer bag when returning from the expel position back to the inlet or deposit position.
The attachment of the auxiliary bag 11′ within the chamber takes place by means of the flange ring 11′b which has to be mounted into an annular groove 33 provided between the chamber wall sections 7′a and 7′b. For this purpose the flange ring is radially compressible for placement into and subsequent expansion and locking within the groove 33 (vide
The final mounting step is the installation of the transfer bag 12′ in the chamber 7′ through the inlet/outlet opening 8, which step needs not to be explained any further.
As far as the method of working of the embodiment according to
Number | Date | Country | Kind |
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1039491 | Mar 2012 | NL | national |
Filing Document | Filing Date | Country | Kind |
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PCT/NL2013/050208 | 3/22/2013 | WO | 00 |