EP0354359A1 - Washing block - Google Patents

Abstract

The invention relates to a purge block (10) which has a removal bore (16) for process gases and a purge gas line which can be connected to a purge gas supply via a purge gas connection (21). So that only one fitting (14) in the form of an annular flush can be flushed with an inert or flushing gas, the flushing block (10) has a flushing gas outlet (27) connected to the removal bore (16), which opens or with a shut-off valve (26) is closed.

Description

The invention relates to a flushing block according to the preamble of claim 1.

Compressed gas cylinder connections are used to connect compressed gas cylinders to filling or dispensing systems, which are screwed onto the cylinder valve, for example, by means of a union nut. A connecting line leads from the compressed gas cylinder connection to the filling or extraction system. When the compressed gas cylinder is empty, the cylinder valve is closed and the cylinder connection is removed from the cylinder valve. Then a filled compressed gas bottle is connected and the bottle valve is opened. Then gas can continue be fed into the filling or dispensing system.

This simple exchange of the compressed gas cylinders is not possible with explosive, self-igniting and especially with toxic gases, whose MAK values, depending on the medium, are lower than 0.1 ppm. There is so much gas in the dead volume, in particular between the cylinder valve and the compressed gas cylinder connection and in the compressed gas cylinder connection and the connecting pipe itself, that it cannot be safely released into the environment. Therefore, their design is increasingly influenced by the need to avoid the dangers by intensive purging with a purge gas. In addition, in many cases it is necessary to purge the atmosphere (air humidity) to prevent salt formation in the case of corrosive gases. So it is known to provide the bottle valve with a purge gas line. The purge gas line is equipped with a purge valve (DE 36 22 527).

According to DE-Gbm 86 22 871, it is proposed to provide the compressed gas cylinder connection with a purge gas line. The purge gas line is connected to a purge gas supply via a purge connection.

These purge gas connections must be used to allow the purge gas to flow into the purge gas line and continue to flow into the connecting lines and fittings via the removal bore of the cylinder valve until the entire process gas is displaced.

The invention is therefore based on the object of providing a flushing block which makes it possible to displace the process gases exclusively from the dead volumes of a fitting, in particular a cylinder valve.

Starting from the prior art taken into account in the preamble of claim 1, this object is achieved according to the invention with the features specified in the characterizing part of claim 1. Advantageous developments of the invention are specified in the subclaims.

The advantages achieved by the invention are that instead of a large number of fittings and connecting lines, only the bottle valve can be flushed in the form of an open ring flush. When purging with an inert or purge gas, the sampling line is shut off via a shut-off valve, so that no process gas can escape from the connected connecting lines and gas sampling fittings and no air or moisture can enter. It is advantageous here that during the flushing process no flushing gas enriched with moisture and process gas through the gas sampling fittings, e.g. B. pressure regulator or metering valve flows.

Further advantages result from the fact that the flushing gas outlets and inlets as well as the removal bore can be opened or closed via the flushing block, so that if necessary, for. B. if the empty gas cylinder contains the same process gas as the new one pressurized gas cylinder to be connected, only the cylinder valve - on the other hand, however, the entire filling or dispensing system can also be flushed.

Because the shut-off valves and the purge gas inlet and outlet are combined in one housing, the dead volume is reduced and operation is made easier. Contamination components such as particles and moisture are minimized, the purge gas consumption is reduced and the purge time when changing the gas cylinder is reduced.

An embodiment is shown in the drawing and will be described in more detail below.

• Fig. 1 eine Längsschnittdarstellung des Spül­blockes nach der Erfindung.
• Fig. 2 eine Schnittdarstellung entlang der Linie A - B der Fig. 1.
• Fig. 3 ein Tabelau für Prozeßgase mit einer Entsorgungsflasche

Show it:

• Fig. 1 is a longitudinal sectional view of the flushing block according to the invention.
• FIG. 2 shows a sectional illustration along the line A - B of FIG. 1.
• Fig. 3 is a table for process gases with a disposal bottle

The flushing block 10 shown in FIGS. 1 and 2 consists of a connecting part 11 on which a union nut 12 is arranged. The flushing block 10 is screwed onto the bottle valve 14 by means of the union nut 12, which can be placed against a flange 13 projecting radially from the connecting part. At the connecting part 11, the housing 15 of the flushing block 10 z. B. welded on.

Connection part 11 and housing 15 have a removal bore 16 which is connected to the outlet 17 of the cylinder valve 14. According to the invention, the extraction bore 16 is connected to a process gas outlet 20 via a shut-off valve 19 arranged in the housing 15.

The housing 15 also has a purge gas inlet 21, which is connected to the outlet 17 of the cylinder valve 14 via a shut-off valve 22 arranged in the housing 15. The connection is made by a tube 23 running in the extraction bore 16 and arranged in the housing 15 and a bore 24.

The outlet 17 of the cylinder valve is connected to a purge gas outlet 27 via a bore 25 branching off from the extraction bore 16 and a shut-off valve 26 arranged in the housing 15.

In the figures, the shut-off valves 19, 22 and 26 are shown as manually operated valves. It goes without saying and does not require a detailed description that these shut-off valves can also be operated automatically, for example pneumatically or hydraulically.

With the flushing block according to the invention, compressed gas cylinders with dangerous contents can be exchanged safely. For this purpose, the bottle valve 14 and the shut-off valve 19 are first closed and then a flushing or inert gas is introduced through the flushing gas inlet 21 stream. When the shut-off valves 22 and 26 are open, this passes through the bore 24 and the pipe 23 into the connection 17 of the cylinder valve 14. The process gas in the dead volume there is mixed with the purge gas and flows through the bore 25 to the purge gas outlet 27. One leaves this Flushing purge gas through the purge gas inlet 21 until the entire process gas in the cylinder valve and the purge block is displaced. Then the purging gas supply is interrupted by closing the shut-off valve 22. The compressed gas bottle can then be safely exchanged for a freshly filled one.

For a compact structure and simple operation of the flushing block, it is advantageous that the shut-off valve 22 is arranged in the same horizontal plane over the corner to the shut-off valve 26 and on the same central axis of the tube 23. The shut-off valve 19 is arranged in the intersection of the central axes of the shut-off valves 22, 26 perpendicular to these in the housing 15. The purge gas inlet 21 and the purge gas outlet 27 emerge from the housing 15 on a common side 28.

It is of course also advantageously possible to arrange all the shut-off valves 19, 22, 26 in the same horizontal plane at a corner to one another. The shut-off valve 22 is advantageously arranged opposite the connection 12, 13, 17 of the bottle valve, while the shut-off valves 19, 26 are each arranged to the left or right of it. As a result of this measure, the process gas flows perpendicularly to the shut-off valves 19, 22, 26 and passes from the flushing gas outlet or inlet 21 or 27 to a fitting, for example a pressure regulator. Here are the Pressure gauges assigned to pressure regulators are advantageously arranged in the correct reading position.

For a quick and effective flushing of the bottle valve, it is of great advantage that the flushing block 10 has a flushing gas outlet 27, so that the flushing can be carried out in the form of an annular flush.

The shut-off valves 22 and 26 are closed under operating conditions, as shown in FIGS. 1 and 2. Process gas flows with the cylinder valve open via the extraction bore 16 and the open shut-off valve 19 to the process gas outlet 20.

3 shows a table for the process gases with a purge block 10, the purge gas inlet 21 of which is connected to a purge gas bottle 31 via a pressure reducer 29 and a cylinder valve 30. The connection 11, 12, 13 of the flushing block 10 is connected to the bottle valve 14 of the process gas bottle 18. With the process gas outlet 20, which exits in FIG. 3, for example on the upper side of the flushing block, the flushing block is connected to a gas extraction or filling system 32. According to the invention, it is now further proposed to connect the purge gas outlet 27 via a check valve 33 to an empty disposal gas bottle 34 or a disposal gas container into which the process-purge gas mixture or the atmosphere-purge gas mixture flows during the purge process. A pressure intensifier 36 can be arranged in the connecting line 35 arranged between the flushing block 10 and the disposal gas bottle 34, by means of the flushing gas pressure in the back pressure line as the flushing gas pressure decreases and the disposal bottle pressure increases is increased. With this measure, the disposal gas bottle can be filled even when the purge gas pressure decreases. Another method consists in liquefying the process-purging gas mixture or atmosphere-purging gas mixture before its disposal by means of a disposal gas container. In addition to liquefaction, the process purging gas mixture or atmospheric purging gas mixture can also be solidified using a chemical reaction process and likewise disposed of using a disposal gas container. In all disposal processes, toxic components can be neutralized using appropriate chemicals. After the disposal gas bottle 34 has been filled, its bottle valve 38 is closed, the connection to the back pressure line 37 is released and the full disposal gas bottle is exchanged for an empty disposal gas bottle.

Claims (7)

1. purge block with a connection that can be connected to bottle valves, which has a removal bore and a purge gas line connected to the removal bore, which can be connected to a purge gas supply via a purge gas connection,
characterized,
that the purging block (10) has a purging gas outlet (27) connected to the removal bore (16), which is opened or closed with a shut-off valve (26). 2. flushing block according to claim 1,
characterized,
that the shut-off valve (26) is arranged in the housing (15) of the flushing block (10). 3. flushing block according to claim 1 or 2,
characterized,
that the extraction bore (16) is connected to a process gas outlet (20) via a shut-off valve (19) arranged in the housing (15). 4. flushing block according to one of claims 1 to 3,
characterized,
that the purge gas line (23, 24) is connected to the purge gas connection (21) via a shut-off valve (22) arranged in the housing (15). 5. flushing block according to one of claims 1 to 4,
characterized,
that the purge gas outlet (27) via a line (35, 37) is connected to a disposal gas bottle (34) in which the purge gas is received. 6. flushing block according to one of claims 1 to 5,
characterized,
that a check valve (33) is arranged in the line (35, 37) and a bottle valve (30) is arranged on the disposal gas bottle (34). 7. panel for process gases,
characterized by a purge gas bottle (31) which is connected to a purge gas connection (21) of a purge block (10) which is connected to a process gas bottle (18) via a connection (11, 12, 13) and via a process gas outlet (20) with fittings ( 32), and which has a purge gas outlet (27) which is connected to a disposal gas bottle (34).

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