DE1991827U - PNEUMATICALLY CONTROLLED LIQUID DISTRIBUTOR. - Google Patents

Description

The innovation relates to a pneumatically controlled liquid distributor, which in particular enables this liquid to flow into one or the other of two separate discharge lines, in a corresponding manner like a three-way valve.

As is known, the most common means of controlling a line network for drawing off a flowing liquid into a storage, testing or measuring device is a manually or automatically operated valve or tap. In the case of nuclear power plants, in particular plants for the treatment of irradiated fuels, however, the use of such valves must be restricted as far as possible.

The aim of the innovation is a liquid distributor with a particularly simple structure and simple mode of operation, which advantageously replaces a conventional mechanical three-way valve, in particular for the field of application mentioned.

The liquid distributor according to the innovation has a through-container with a liquid inlet and a first liquid discharge line opening into the interior of the through-container substantially above the bottom of the same, and is characterized by a jacket tube which is firmly connected to the cover of the through-container and which extends downwards and at least partially the first The discharge line surrounds a pressure line connecting the through-tank inside the jacket tube to a source of a pressure medium and a second discharge line opening into the lateral inner wall of the through-tank above the level of the first discharge line.

Apart from the features specified above, a liquid distributor designed according to the innovation has other associated properties, which are further explained by the following description of an embodiment which is only given as an example.

The attached figure shows a schematic view of the liquid distributor in vertical section.

As can be seen from this figure, the distributor has essentially a through container 1 of generally cylindrical shape, with a side wall 2 which is closed at the lower and upper ends by a base 3 and a cover 4. The through-container 1 is connected to a line 5 which opens into it in the vicinity of its cover 4 and serves to supply the liquid to be distributed in the two separate discharge lines. The device has a first derivative for this purpose

6, which is provided with a knee 6a as a hydraulic closure and the end 7 of which opens at a height located well above the bottom 3 of the through-container. This first discharge line 6 includes a cylindrical jacket tube 8 which is firmly connected to the cover 4 of the through-container and which extends downward so that its lower end 9 surrounds the corresponding end of the discharge line 6 and covers it over a certain height. The jacket pipe 9 thus delimits two areas 10 and 11 in the interior of the through-container 1, which are inside and outside of the jacket pipe 8, respectively. The through-container 1 also has a second discharge line 12 which opens into the space 11 by being guided through the side wall 2 at a height that is considerably above the end 7 of the first discharge line.

Finally, the distributor also includes a pressure line 13, which is guided through the cover 4 and opens into the area 10 inside the jacket tube 8 and is connected to a control unit 15, whereby a pressure medium can be supplied at a controllable pressure. In addition, the cover 4 has at least one outlet 16, whereby the pressures in the area 11 and outside of the through-container, where mostly the atmospheric pressure prevails, can be equalized.

The manifold constructed in this way works as follows: During normal operation, the areas 10 and 11 delimited by the jacket pipe 8 inside the through-flow container are at atmospheric pressure. The in the through container through the supply line

5 incoming liquid rises in this up to the level of the end 7 of the first discharge line 6. The liquid overflows into this discharge line, fills the hydraulic shut-off 6a, which forms a siphon, and then runs out of the device.

If you want to interrupt the flow of the liquid through the discharge line 6 and reach its discharge through the second discharge line 12, the control 15 is actuated in order to obtain a suitable pressure of the pressure medium in the area 10, which is slightly higher than the static pressure, which corresponds to the height of the liquid column located between the end 7 of the first discharge line 6 and the height of the second discharge line 12. The liquid located in the area 10 is pressed down to a height below the end 7, so that the outlet is interrupted by the first discharge line 6. In contrast, the liquid rises in the area 11 until it reaches the second discharge line 12 through which it drains.

Such a particularly simple liquid distributor is particularly suitable for installation in cycles of radioactive solutions. This distributor allows a controllable amount of liquid to be drawn off through the second discharge line 12 at any time by simple pneumatic actuation, while the normal process takes place through the first discharge line 6.

Claims (3)

1.) Pneumatically controlled liquid distributor with a through-container which is provided with a liquid inlet and a first discharge line opening into the interior of the through-container well above the bottom of the same, characterized in that it has a fixedly connected to the lid (4) of the through-container, according to jacket tube (8) reaching below and at least partially surrounding the first discharge line (6), a pressure line (13, 14) which connects the inner region (10) of the jacket tube (8) of the through-container with a source of the pressure medium, and a second through the Has a side wall (2) of the through-going container and a second discharge line (12) which opens above the level of the mouth (7) of the first discharge line (6). 2.) Pneumatically controlled liquid distributor according to claim 1, characterized in that the first discharge line (6) outside of the through-container is provided with a hydraulic shut-off (6a). 3.) Pneumatically controlled liquid distributor according to claim 1 or 2, characterized in that the through-container has at least one outlet (16) to compensate for the pressures prevailing in the through-container in space (11) outside the jacket tube (8) and outside the through-container.