DE3722562A1 - Annular filter body - Google Patents

Abstract

An annular filter body 10, especially for medical, microbiological, biochemical, immunological or molecular biological samples, on one end of which a filtrate vessel 14 may be fastened and between whose ends there is provided a filter disc 26 extending over the inner cross-section of the ring, has an intended breaking point 30 in the region of the filter disc 26 in order to ensure easy access to the filter disc on completion of filtration. <IMAGE>

Description

The invention relates to an annular filter body, especially for medical, microbiological, bio chemical, immunological or molecular biological samples including radioactive material a sample receptacle at one end and at the other the other end a filtrate vessel can be fastened, and zwi the ends of which extend over the inner ring cross-section extending filter disc is provided.

Such a filter body is known from DE-OS 34 27 114 ( Fig. 3 to 8). For filtering, the filter body is screwed onto the sample receptacle provided with the test sample, the filtrate vessel being screwed onto the upper end of the filter body before or after. At closing, the entire arrangement of the three parts mentioned is rotated so that the filtrate vessel is below. Then, due to gravity, the filtration takes place in a closed system. Alternatively or additionally, this arrangement can be used in an ultracentrifuge in order to support the filtering process by the centrifugal force. In order to then be able to examine the filtrate residue retained on the filter disk more precisely, at least the now empty space in the known arrangement must be removed from the filter body (unscrewed here). Depending on the further investigation method, the filter disc including the filtrate residue is then removed from the filter body, or the filtrate residue on the filter disc is examined in place within the filter body, for example visually for the presence of parasites. Since the filter disk is arranged in the area of the axial center of the length of the filter body, access to the filter disk is difficult.

In contrast, the object of the invention is one annular filter body of the type mentioned ready to provide easy access to the filter offers after filtering.

This object is achieved in that the filter body with a predetermined breaking point is provided in the area of the filter disk is.

In the subclaims are not necessary, however particularly preferred developments of the invention are specified.

The invention is based on the drawing a preferred embodiment explained.

It shows:

Figure 1 is a side view of a filter body according to the innovation before screwing together with a sample receiving vessel and a filtrate.

Fig. 2 shows the screwed arrangement of the parts of FIG. 1 in a sectional side view after filtering and

Fig. 3, the arrangement according to FIG. 2 with separation of the upper half at the innovation breaking point.

The drawing shows an annular filter body 10 , at one end of which a sample receptacle 12 and at the other end of which a filtrate vessel 14 can be attached. The cross section of the filter body is circular, as is the filtrate vessel and sample receptacle, in order to enable the screwed arrangement 16 from these three parts to be used in an ultra-centrifuge with the usual receptacle shapes. With conventional filtration under the influence of gravity, possibly supported by manual shaking, another cross-sectional shape can also be selected.

In the illustrated embodiment, the parts 10 , 12 and 14 can be screwed together (external threads 18 and 20 on the parts 12 and 14 , which sections 22 and 24 of the filter body 10 can be screwed into corresponding internal threads). However, alternative types of connection are also conceivable, such as clips.

The function of the filter body 10 is in addition to the United connection of sample receptacle 12 and filtrate vessel 14 in the holder of the actual sieve or filter, which is designated in Fig. 2 with 26 and is referred to below as a filter disk. Conventional sieve and filter materials are suitable for this filter disc. A multilayer structure according to FIGS. 6 to 8 of DE-OS 34 27 114 can also be provided, or a filter with a surface that is enlarged in three dimensions by folding or embossing. The filter disk 26 can be anchored in the filter body 10 or can be designed to be removable from the filter body 10 . In the latter case in particular, a support sieve can be arranged in the filter body, which is indicated schematically in FIG. 2 and is designated by 28 . The filter disk 26 is indicated in FIGS. 1 and 3 with a dash-dot line.

Filter disk 26 and support sieve 28 are arranged between the two ends of the filter body, in particular in the area of the axial center length of the filter body 10 . Referring to FIG. 2 is located just above the quiescent in this arrangement on the support screen 28 filter disc 26 a predetermined breaking point 30 on the filter body 10 formed with an accordingly just above the filter disc 26 lying a circumferential circle of the annular filter body 10 fol lowing predetermined breaking line 32.. This predetermined breaking line 32 lies between the front end 34 of the screw-in neck 36 of the sample receptacle 12 which bears the external thread 18 and which is directed downward in FIG. 2.

The handling of the arrangement described is the following de:

The sample liquid to be examined is filled into the sample receptacle 12 . In Fig. 1 the corresponding de liquid level 40 is indicated. Then the filter body 30 is screwed on and oriented in such a way that the predetermined breaking point 30 is on the side of the filter disk 26 facing the sample receptacle 12 . By correspondingly different design of the Außenge winch 18 and 20 , incorrect orientation of the filter body 10 can be excluded when screwing.

The filtrate vessel 14 is then screwed on, provided that it has not already been screwed onto the filter body beforehand. Now the filtration can take place, be it due to gravity, for which reason the screwed arrangement must accordingly be rotated 180 ° around a transverse axis (arrangement according to FIG. 2), be it by inserting the screwed arrangement into an ultra centrifuge with radial outward-facing filtrate vessel 14 .

The filtrate 44 is then in the filtrate vessel 14 . The filtered components, which are indicated by dotted lines in FIG. 2 and bear the reference number 46 , are then on the upper side of the filter disk 26 facing away from the filtrate vessel 14 .

In order to be able to examine the filtered parts 46 in more detail, the predetermined breaking point 30 is next broken up by the corresponding bending (arrow A in FIG. 3) of the screwed arrangement of the parts 10 , 12 and 14 . The upper part of the filter body, designated 48 , above the predetermined breaking point 32 can then be removed together with the filtrate vessel which is still screwed into this part. The filter disk 26 is now freely accessible and can either be removed for further investigation or examined on the spot, for example visually.

The division of the filter body 10 after the filtration has been carried out into the already mentioned upper part 48 and the lower part 50 carrying the filter disk 26 can, if necessary, also be carried out with the filtrate vessel 14 unscrewed and / or with the sample receptacle 12 unscrewed, even if it is broken open in the screwed-together state according to Fig. 3 the advantage of particularly simple operation provides a result of the lever extending through the eingeschraub ten parts 12 and 14.

The predetermined breaking point 30 can be designed in the usual way as a lacing in the wall, although other types of execution come into question, such as the installation of a tear thread or a perforation-like design.

Claims (5)

1. Ring-shaped filter body ( 10 ), in particular for medical, microbiological, biochemical, immunological or molecular biological samples, at one end of which a filtrate vessel ( 14 ) can be attached and between the ends of which a filter disk ( 26 ) extending over the inner cross section of the ring is provided is characterized in that the filter body ( 10 ) is provided with a predetermined breaking point ( 30 ) in the region of the filter disc ( 26 ). 2. Filter body according to claim 1, characterized in that the filter disc ( 26 ) is designed to be removable. 3. Filter body according to claim 1, characterized by a support sieve ( 28 ) for the filter disc ( 26 ). 4. Filter body according to one of the preceding claims, characterized by a screw thread ( 22 , 24 ) for the sample receiving vessel ( 12 ) and / or for the filtrate vessel ( 14 ). 5. Filter body according to one of the preceding claims, characterized in that the two screw threads ( 22 , 24 ) are designed differently.