DE1064254B - Pipetting device for handling dangerous liquids - Google Patents

Description

GERMAN

The invention relates to a pipetting device for handling dangerous, in particular radioactive liquids.

There are pipetting devices for handling dangerous liquids, especially radioactive liquids Liquids known from a pipette, from a holder for this latter and from a pump for Consist of aspirating the liquid into the pipette.

Most of the time, such instruments represent a certain danger because the pipette is clamped on the holder is attached and the user is therefore forced to touch the pipette when removing it from the holder want to remove. There is thus a great risk that the user will come into contact with the radioactive liquid comes. In addition, the liquid is sucked up in such a pipette by means of a pipette attached to the holder Pump carried out close to the user. This pump is connected by a hose to the Pipette connected, and if the user executes an excessive suction movement with the pump, can the radioactive liquid can get into the tube or even into the pump. Under such conditions it is practically impossible to detach the tubing from the pipette without coming into direct contact with the in radioactive fluid that has entered the tube.

So it is z. B. known, a fixed to a sufficiently distant Bunsen frame pipette on elastic Lines and a pressure indicator with a pump located near the operator connect to. This makeshift set-up with brackets and hoses does not offer any Possibility to safely replace a pipette once connected with another when the facility is used for pipetting radioactive liquids.

In another known device, the pipette is provided on a long, adjustable arm, Here, too, the pump is connected to the pipette via an elastic line. Here is the Provide the pump with an appropriate adjustment device in such a way that the pump is no longer dangerous Can suck in liquid than corresponds to the capacity of the pipette. Here, too, exists no possibility of using the pipette in a simple manner without coming closer or directly to it, from the connection hose and be able to exchange it for another.

Finally, more extensive injection or pipetting devices are known that have electric motors and remote controls work. One of these designs includes servomotors driven Movement organs for steering or moving the pipette holder.

Pipetting device for handling
dangerous liquids

Applicant:
Paul Vogel, Versoix, Geneva (Switzerland)

Representative: Dr.-Ing. F. Mayer, patent attorney,
Berlin-Dahlem, Hüttenweg 15

Claimed priority:
Switzerland from August 5, 1955

Alfred Kaspaul, Veyrier, Geneva (Switzerland),
has been named as the inventor

The latter device, which is also intended for use behind protective walls, has there is also no special device that allows the pipette to be replaced without any special measures allowed.

In contrast, the present invention pursues the purpose of eliminating the aforementioned disadvantages. The invention is an instrument of the aforementioned type, in which the pipette with a conical part forms a unit, which part is intended to be in an identically formed conical Cavity of the holder to be introduced, with at least one opening in the conical part of the pipette is provided to the inside of the same with a provided in the holder and leading to the pump line connect to.

The drawing shows schematically and as an example an embodiment of the instrument, which the The present invention forms, as well as several embodiments of pipettes for this Instrument.

Fig. 1 is a schematic section of the instrument, and

FIGS. 2 to 6 show various pipettes which are attached to the holder shown in FIG. 1 can be.

The instrument shown in Fig. 1 has a long tube 1 , which is shown abbreviated in the drawing for the sake of simplicity, but can in reality have a length of 1 to 2 m. One end of this tube is partially inserted into a cylindrical cavity 2 of a removable part 3 , this part of the wall of the hollow

909 609/221

Claims (2)

Raumes 2 has a slot 4 and a conical external thread 5, the latter allowing this wall to be drawn together by means of a knurled nut 6 in order to hold the part 3 at the end of the tube 1. The cylindrical cavity 2 forms a pump cylinder in which a piston 7 slides which is mounted on the end of a rod 8 guided through the tube 1. The other end of this rod 8 has a handle 9 by means of which the user can transmit the desired movements to the piston 7. The part 3 also has a conical cavity 10 in which an annular groove 11 is provided and connected to the line 12 of the pump cylinder. The pipette is formed by two containers 13 and 14 that are inserted one inside the other. The container 14 is extended downwards by a tube 15 which forms the suction tube of the pipette. In its lower part, the container 13 has a conical part 16, the shape of which corresponds to the conical cavity 10 of the part 3. The conical part 16 is connected to the tube 15 at its lower part by a tubular wall 17, so that an intermediate space 18 is formed between the tube 15 and the wall 17. The upper wall of the container 14 has an opening 19 which connects this container to the container 13. The upper part of this container 13 has an opening 20 which is closed by a pin 21. The conical part 16 has at least one opening 22 which connects the container 13 to the pump cylinder via the groove 11 and the channel 12. The operation of this instrument is very simple, since the user only needs to operate the handle 9 on the rod 8 in order to suck in or expel air into the interior of the container 14 of the pipette. This air flows through the channel 12, the groove 11, the opening 22, the container 13 and the opening 19. Should the user inadvertently suck too much liquid into the container 14, the liquid would emerge from the opening 19 and along the outer wall of the container 14 run out. This liquid would then fill the gap 18, which serves as an overflow, and draw the user's attention to his misfortune, since of course all parts of the pipette are made of transparent material, for example glass, with the exception of the pin 21, which is made of rubber can. In order to prevent any excess liquid from getting into the interior of the pump, the opening 22 in the conical part 16 has a collar 23 which forms a projection in the interior of this part. As a result, the liquid that may flow off along the inner wall of the container 13 is diverted and cannot flow through the opening 22. The upper part of the wall of the container 13 is deformed in order to form the attachment points 24 for the container 14. The latter has a measuring scale 25 in order to measure the amount of liquid sucked up by the pipette. A measuring scale could also be provided on the wall 17 in order, if necessary, to measure the amount of liquid that has entered the overflow due to a handling error. When the user has finished his work or needs another pipette, he can easily replace the pipette attached to the end of the holder in part 3 by placing the suction tube of the pipette on an object and pressing the holder 1 downwards, both of them conical parts 10 and 16 are pushed apart. Direct contact of the hands with the pipette, to which a few drops of radioactive liquid can often still adhere, can thus be avoided. The opening 20 closed by the pin 21 is provided for cleaning the pipette after use. However, this opening is not absolutely necessary. Of course, numerous variants of this embodiment can be provided, of which FIGS. 2 to 6 give some examples. In the pipette shown in FIG. 2, the container is extended downward by a tube 15 which runs inside the conical part 16 and forms the suction tube of the pipette. The upper part of the container 14 is connected to the interior of the part 16 by an angled tube 26 which is guided outside the container. The lower end of the tube 26 forms a projection in the interior of the conical part 16 and is arranged in such a way that an excess of liquid flows directly into the intermediate space serving as an overflow without reaching the opening 22 of the conical part, which here, in contrast to Fig. 1, has no collar. FIG. 3 shows a pipette of the same type as that of FIG. 1, but in which an annular wall 27 is provided in order to prevent an excess of liquid from getting into the opening 22. The pipette shown in FIG. 4 differs from the preceding ones in that the tube 15 does not pass through the conical walls 16 here. This part 16 is only connected to an ordinary laboratory pipette by an angled tube 28. A support 29 is fused on between the container 14 of the pipette and the upper surface of the conical part 16 in order to give the arrangement a better hold. FIG. 5 shows a very simple embodiment in which the container of the pipette is arranged below the conical part 16. However, this pipette does not have an overflow for a possible excess of liquid caused by operating errors. 6 shows another pipette of the same type as that of FIG. 5, but in which there is an intermediate space 18 designed as an overflow, namely between the lower part of the wall of the conical part 16 and an extension of the upper wall of the Container 14 representing tube 30. Claims: 1. Pipetting device for handling dangerous liquids, especially radioactive ones Liquids, consisting of a pipette and a holder for the same, as well as a pump for sucking the liquid into the pipette, characterized in that the pipette with a conical part which is inserted into a similarly shaped conical part of the holder, a Forms unit, wherein at least one opening is arranged in the conical part of the pipette to the Inside of the latter with a line provided in the holder and opening into the pump To bring connection. 2. Instrument according to claim 1, characterized in that the pipette serves as an overflow Has interspace in which the absorbed liquid runs in, without the im conical part arranged opening reach