DE1015753B - Device for automatic regulation of the gas flow in bell-shaped gas containers - Google Patents

Description

Device for automatic regulation of the gas flow in bell gas containers The operation of, shut-off devices for filling low-pressure gas containers with bell is mostly done by hand, since devices that are supposed to perform this switching automatically have not yet been satisfactory. In the case of the low-pressure gas containers with automatic switching, a switchover valve or valve is usually used, which through. a drop hammer is switched. The drop hammer is brought over its center of gravity by the rising and falling bell by means of adjustable handles and actuates the switching valve when it falls. These devices must be extremely heavy, as they must not be hindered by snow and ice. The disadvantage of these devices is on the one hand their trough-shaped construction, on the other hand the. Shake that. Every # switchover process entails. For this reason, the automatic filling device% 7 is often used. Another type of automatic switching device is electrical. Here, too, take adjustable ..- handle-, on the bell each a lever for switching on and off, which is also blocked when icing up. The switched electrical current actuates a solenoid valve that acts as a relay on the. The filling regulator works. The main disadvantage of this electrical device is that electricity is used directly on the gas container and an electrical device is also required on the filling regulator. It is quite possible that the power fails and the automatic control does not work as a result.

A major disadvantage of both arrangements is also that the bell both laterally as well as in its axis has a certain amount of play and consequently the interventions easily become either too tight or too strong when taking away.

By the subject of the invention these disadvantages behc> b, -ni. The invention relates to a pulse generator with permanent magnets and a switching element, for example a switching valve, with two permanent impulse magnets on the bell with different polarity are attached and these impulse magnets by the change in altitude the bell past a magnet, which is coupled to a switching valve will. The solenoid of the switching valve can be placed directly on the axis of the switching valve sit. The magnet is expediently designed as a flat magnet and has opposite both ends are small pieces of ferromagnetic material that are firmly attached to the housing are arranged that hold the magnet in its end position.

This arrangement has the advantage that the switching valve with the magnet can be built into a closed housing and so no moving part is exposed to the weather. Another advantage is that there is no contact between the pulse magnet and the valve magnet and the lateral or axial movements of the bell due to the intense action of the magnets, e.g. B. still at a distance of 5 cm, a perfect function result. The device is small and easy to install.

The effect is such that, for example, when the bell drops the south pole of one magnet sweeps past the north pole of the switching magnet, this attracts and that thereby the switching valve, the gas passage from Releases container pressure to the filling regulator. By; the, effect of the tank pressure via the Mernb # ran of the filling regulator, which, for example, is a load due to weights can have, for example, 100 mm WS, this regulator opens and the gas flows into the container. When the highest level of the container is reached, it becomes the North Pole of the second pulse magnet is moved past the valve magnet, this is repelled and closes the switching valve. With the closing of the switch valve the line for the filling regulator is opened, the pressure above the filling regulator core escapes and the filling regulator closes. The permanent magnets. are useful as flat magnets educated. In this way, they most effectively resemble a lateral displacement of the bell the end. Their direction of action must be perpendicular to the axis of the bell.

To hold the switching valve in the respective switching position and to be pressed onto the respectively closing valve seat, are on, both. end up of the flat magnet of the switching valve are small pieces of ferromagnetic material arranged. At the same time, these hold the flat magnet so that it does not twist. This ensures that the frictional resistance of the switching valve is on lowest level is brought. and that this valve without mechanical Facility or springs are firmly attached in each end position.

In the drawing, FIG. 1 shows the schematic embodiment of a switching valve, seen from above, and FIG. 2 shows the overall arrangement, for example.

The gas, which can be taken from the filling line connected to the container, passes through the connecting pieces 1 in front of the valve 2, which is shown above in the figure. The gas flows through the valve 2, through the outlet connector 3 12 to the feed controller on the axis 4 of the valve is arranged at the end of the magnet 5, the two ferromagnetic pieces is retained in position 6 through and by the action of these pieces on the magnet, the valve plate 7 presses on its seat. The north pole of the magnet 5 lies towards the bell. The connection between the gas container and the space above the membrane is open. The gas pressure in the container opens the fill regulator so that gas is fed into the container.

If the highest level of the container bell has been reached, the magnet 8 attached to the bell, the south pole of which is directed at the switchover valve, brushes past it and thereby attracts the magnet of the switchover valve. As a result, the valve 2 is pressed onto its seat and the blow-off valve 7 is opened. The magnet of the switching valve is held by the two f erromagnetischen pieces 9 back in place! and dressed. The gas via the membrane of the filling regulator 12 escapes through the blow-off nozzle 10, and the filling process is thereby ended.

If the container bell collapses again. Measure that can be chosen arbitrarily, so the pulse magnet 11 reaches the switchover valve. The pulse magnet 11 is directed with its NTordpol at the switching valve and pushes the magnet, when it has reached the force field of the switching magnet, into its rear position, so that the vent valve 7 closes again and the filling valve 2 opens. The filling process starts all over again. The magnet 5 of the Umschaltveritils is held back in its end position by the two ferromagnetic pieces 6.

The same device can be used as a safeguard against empty singing of the container be used. The magnets must be arranged in such a way that that in the lowest position of the bell controlled by the auxiliary gas flow The main valve is closed and when the bell is raised it is opened again.

Is the magnet5 on your switching valve with the south pole towards the bell effective, the other magnets must be reversed accordingly.

Claims (2)

PA TE NT ANS PR ÜC 11 EI: 1. Device for automatic regulation of the gas flow in bell gas containers, characterized by a permanent magnet controlled valve and two at different heights. Permanent impulse magnets attached to the bell of the gas container and affecting the solenoid of the switching valve. 2. Device according to claim 1, characterized thereby. that the permanent magnet of the switching valve is arranged on the axis of the Unischaftventils. 3. Device according to claim 1 and 2, characterized in that the permanent magnet of the switching valve is a Flachniagnet, opposite the ends of which on the housing pieces of ferromagnetic material are arranged, by which the magnet is held in both end positions.