EP0031438A2 - Transporting and withdrawing apparatus - Google Patents

Abstract

The invention relates to a transport and removal device for high-purity, liquid, with components of the air reacting chemicals, consisting of a container which is provided with connecting pipes for filling and removal, the container being divided into two parts and a lower part and an upper part containing the connecting pipes exists, which are connected by means of a flange provided with a seal.

Description

The invention relates to a device for transporting and removing highly pure, liquid chemicals which react with components of the air.

Chemicals of the highest purity are required for many applications. If these chemicals with components of the air, such as. B. can react oxygen or humidity, care must be taken to ensure that these chemicals cannot come into contact with air both during transport and storage, as well as during removal. So z. B. for the production of optical fibers liquid chemicals such. As silicon tetrachloride, phosphorus oxychloride, boron tribromide, germanium tetrachloride in high purity is required. In particular, the presence of the transition elements of the 4th period (vanadium to copper) is undesirable. Especially with the stainless steel containers commonly used for these chemicals, contamination with heavy metals such as iron, chromium and nickel is practically unavoidable, since hydrolysis, which can hardly be prevented during filling and removal, produces hydrogen halide acids which attack the stainless steel container.

These chemicals are therefore also supplied in sealed glass ampoules. However, this has the disadvantage that only relatively small amounts can be filled in a container, and that the removal can only be carried out with very complex measures to keep air out. A quartz container also known for this purpose with melted connecting pipes is extremely expensive on the one hand and therefore can only be realized for relatively small volumes and on the other hand the cleaning required before refilling is very difficult since there is no sufficiently large opening available.

It was therefore the task of creating a container for high-purity chemicals that is inexpensive to manufacture, allows easy filling and removal under an inert gas atmosphere and is easy to clean when reused.

This object has been achieved by the present invention.

The invention therefore relates to a transport and removal device for high-purity, liquid chemicals which react with constituents of the air, consisting of a container which is provided with connecting pipes for filling and removal, characterized in that the container is divided in two and consists of a lower part ( 1) and an upper part (2) containing the connecting pipes (5, 6), which are connected by means of a flange (3) provided with a seal (4).

• Figur I zeigt einen Schnitt durch die Transport- und Entnahmevorrichtung.
• Figur II zeigt einen Schnitt durch das Oberteil der Vorrichtung mit der Verbindung zum Unterteil.
• Figur III zeigt eine Aufsicht auf das Oberteil der Vorrichtung.
• Figur IV zeigt einen Schnitt durch ein Entnahmerohr mit einem zur Entnahme aufgesetzten Eckventil.
• Figur V zeigt einen Schnitt durch eine andere Form eines Entnahmerohres mit Schraubanschlüssen.
• In Figur VI ist ein Fließschema dargestellt, das andeutet, wie die Transport- und Entnahmevorrichtung in eine stationäre Anlage integriert werden kann.

The invention is explained in more detail with reference to the drawings, in which some preferred embodiments are shown.

• Figure I shows a section through the transport and removal device.
• Figure II shows a section through the upper part of the device with the connection to the lower part.
• Figure III shows a top view of the upper part of the device.
• Figure IV shows a section through a sampling tube with a corner valve attached for removal.
• Figure V shows a section through another shape of a sampling tube with screw connections.
• FIG. VI shows a flow diagram which indicates how the transport and removal device can be integrated into a stationary system.

1 with the lower part and 2 with the upper part of the container, which are connected by means of the flange 3 and the seal 4. 5 and 6 denote the extraction pipes and 7 the debris valves attached therein. 8 are the filling pipes, which are drawn in the sealed state. With 9 caps placed on the extraction tubes, with 10 a lateral approach of a preferred embodiment of the extraction tubes. 11 is a corner valve placed on another embodiment of a sampling tube, and FIG. 13 is the side extension. With 12 a protective hood is designated, which is attached to the flange 3.

In the flow diagram in FIG. VI, 14 is the nitrogen supply, 15 is a drying tower and 16 is a fine filter. With 17 flow meters are designated and 18 is the transport and removal device according to the invention. 19 is a storage container and 20 is the exit to the consumer. The main advantage of the device according to the invention, which is preferably made of glass, in particular borosilicate glass of the 1st hydrolytic class such as. B. Duran glass or Pyrex glass is made, the easy handling when cleaning, filling and emptying. By dividing the container containing the chemical into an upper (2) and lower part (1), it is possible to clean the device very thoroughly without great effort before filling. Furthermore, by using a uniform size of the flange (3), it is possible to use the upper part (2) for any size of the lower part (1) after adjusting the length of the extraction tube (6). The capacity of the device according to the invention can therefore be easily adapted to the needs of the consumer by having different sizes of the lower part (1) ready.

After careful cleaning of the upper and lower part (1, 2), they are assembled using the flange (3) and a seal (4) made of inert material, preferably Teflon, and the extraction tubes (5, 6) closed with debris valves (7) are also assembled Caps (9), which are screwed on or put on, are closed. The filling with the chemical can then take place through the still open filling tubes (8) under inert gas flushing <. Then the two filling tubes (8) are melted down. The chemical is now completely sealed against environmental influences and ready for transport. To protect the filling and extraction tubes (5, 6, 8) from damage, the upper part (2) can be covered with a protective hood (12).

To remove the chemical under inert conditions, the device can be installed in a stationary system according to the flow diagram in Figure VI. For this purpose, the caps (9) are removed from the removal tubes (5, 6) and the removal tubes (5, 6), if necessary after fitting a corner valve (11), via the side extension (10) or the side extension (13) of the corner valve (11) connected to the inert gas supply and the consumer.

After thorough flushing of the room over the debris valves (7), these, for. B. by inserting a cleaned glass rod, destroyed and the removal tubes (5, 6) either, after removing this glass rod, with the upper part of the angle valve (11) or a pierced cap (9) closed, in which case the already with rinsing the cap (9) loosely placed glass rod remains in the approach (5, 6). By pressing inert gas through the extraction tube (5), the contents of the device can then be fed through the extraction tube (6) to a storage vessel of the consumer. Alternatively, however, the device according to the invention can itself be used as a storage vessel (so-called bubbler). are, with only the inert gas supply via the sampling tube (6). After emptying, renewing the debris valves (7) and cleaning them appropriately, the device can be refilled and used again.

The present invention thus provides a transport and removal device which is not only very versatile with the greatest possible security, but is also very easy to handle and, in particular, is also inexpensive to manufacture.

Claims (5)

1. Transport and removal device for high-purity, liquid, with components of the air reacting chemicals, consisting of a container which is provided with connecting pipes for filling and removal, characterized in that the container is divided into two and from a lower part (1) and one the connecting pipes (5, 6) containing the upper part (2) are connected by means of a flange (3) provided with a seal (4). 2. Transport and removal device according to claim 1, characterized in that the upper part (2) is provided with 2 connecting pipes each for filling and removal. 3. Transport and removal device according to claim 1 or 2, characterized in that one of the removal tubes (6) extends to the bottom of the lower part (1). 4. Transport and removal device according to one of claims 1 to 3, characterized in that the removal tubes (5, 6) are closed with debris valves (7). 5. Transport and removal device according to one of claims 1 to 4, characterized in that the extraction tubes (5, 6) above the debris valves (7) have a lateral connection (10).

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