DE318886C - Process for conveying flammable liquids - Google Patents

Description

Process for pumping flammable liquids. From a storage flammable liquids that should really be fire and explosion-proof, it must be required that all pipelines located above the daytime during the idle state the system have been emptied of the flammable liquid, and that this Lines as well as the cavity of the underground liquid container with protective gas filled: have. With the known bearings of this type there is now the disadvantage that at the beginning of the liquid pumping. by a pump or by pressure of the protective gas itself, first of all, the gas in the delivery line from the Nozzle escapes, and that especially in the case of the compressed gas delivery systems also the following Liquid itself is so strongly permeated with ingested protective gas that z. B. an accurate measurement of the exiting liquid, for example by an upstream Dial gauge, is almost impossible even if intricate gas separators are installed % verden, which incidentally pose a considerable risk to the safety of the plant represent.

The conveying method which is the subject of the present invention forms, aims not only to avoid the described disadvantage, but offers at the same time the possibility of the liquid stored underground under protective gas in a completely gas-free state in any quantity, which is precisely determined beforehand can be let out of the nozzle without the dial gauge and gas separator would be required. In addition, the overriding principle is safety conveyor technology Note that only the simplest of manipulations may be required to the intended mode of action independent of the attention of the worker and of the effect of a device subject to failure occur allow.

The new procedure is that the fluid is withdrawn through the dispensing valve is preceded by a process which, firstly, is the degassing of the liquid and, secondly, prepares the removal of the liquid in precisely measured quantities. Both are achieved in that the liquid through the feed pump into one Circuit is moved in which the previously located in the pipelines and the protective gas that may be deposited from the liquid is returned to the container while at the same time part of it branches off from the circulating fluid and is passed into a measuring container by means of a siphon. The interruption of this Liquid circulation at one point causes the liquid to escape in precisely adjustable jet intensity. If, on the other hand, the circulation occurs in two places at the same time interrupted, the liquid previously passed into the measuring container enters a previously determinable and precisely adjustable amount on a scale by the Mouthpiece for discharge. Both types of funding can be used as long as the pump is in operation remains, can be repeated alternately until the main container is emptied is.

The device shown in the drawing is used to carry out this process. The pump a, which is provided with a manual or motor drive, sucks out the inert gas contained in the suction line with the subsequent liquid, to the storage container b through the pipelines c and 'd and the labyrinth chamber e and returns it through the pressure lines f into the container b . This pressure line is connected to the pressure chamber g of the pump at its highest point so that the gas that collects at the top due to its light weight can initially escape completely. As soon as the pipes are only pure; gas-free liquid circulates, the shut-off means h connected between the pressure chamber g and the pressure line f is closed by the lever i. At this moment the flammable liquid under the pressure of the pump opens the spring-loaded check valve k and passes through the outflow opening l into the open. Since in this case the pin is not opened by opening, but by closing the shut-off valve h by overcoming the closing force of the check valve k by the liquid pressure itself, a gradual closing of the valve lt by the lever i allows an exact regulation of the strength of the outflow jet . After the end of the pin, the release of the lever i causes it to snap back into its starting position by spring force, whereby the valve h is opened again. Since the pump remains in operation, the interrupted fluid circuit will be restored as soon as possible.

It belongs to the essence of the invention that this liquid circuit is used to prepare, in addition to the degassing of the liquid, also the delivery of measured quantities of liquid. For this purpose, a certain amount of liquid must be passed over into a measuring container iia before it is conveyed to the storage container b. This is done by a siphon tube n that branches off from the suction tube d reaching to the bottom of the storage container and protruding into the measuring container as soon as the liquid enters the inner labyrinth chamber o, and will flow through the siphon tube n. into the measuring container lia. As soon as the tube n is filled, however, a suction lifter comes into operation, which allows liquid to pass from the storage container b into the measuring container m until it is filled and the liquid in the front measuring container protruding into the gas space of the storage container p up to The liquid surface of the storage container has increased. The protective gas previously contained in the measuring container h2 passes through the tube p into the gas space of the storage container during the filling process.

So that when starting the pump a ,, if the measuring container is filled, but the suction lines d, n and c contain gas, liquid can be sucked in and conveyed at all, the liquid rising in the suction pipe d must have activated the siphon, before so much liquid from the measuring container in the siphon tube n. has risen that the liquid level has dropped here to the lower edge of the lever leg, because otherwise the inert gas penetrating into the lifting ear would make further suction of liquid from the storage container impossible. When it is necessary to be able to always fill the measuring container completely, so deeply that the liquid level in the storage container can never drop below the upper edge of the measuring container, there is therefore the condition that the width of the lifting legs for a given length Select the pipes and the given contents of the measuring container from the above point of view. The measuring container is expediently placed as high as possible within the permissible limits, the pipe p is made as narrow as possible and the free cross section of the siphon pipe n is selected to be smaller than the cross section of the suction pipe d.

The possibility just described that the measuring container m through the siphon tube can generally be sucked empty so far «-erden. that protective gas enters the siphon tube from below and makes further suction of liquid impossible, if the liquid rising in the suction tube d has not previously set the siphon in action, can now be used in a simple manner to promote precisely demolished amounts of liquid, if namely, the liquid rising in the suction pipe d is prevented by a shut-off means q from entering the inner labyrinth chamber o and thus into the siphon pipe n: In order to be able to convey liquid in previously determinable, precisely measured quantities, in the lower part of the Lifting rods za an upwardly and downwardly movable tubular slide r, which is attached to a vertical guide rod s, which carries the pointer u playing on the scale t at its head end. If, namely, the pump a has put the liquid in a circuit, and this circuit is interrupted by simultaneously closing the two shut-off valves 1a and q, for example by moving the lever v down, only liquid can flow through to the filled measuring container no the siphon tube n can be sucked in. This liquid reaches the outlet through the mouthpiece 1, overcoming the closing force of the check valve k. At the moment when the liquid level in the measuring container has dropped from its ceiling to the lower edge of the liver tube w. Or the pipe slide r protruding over the pipe 7a, the inert gas penetrating through the pipe p interrupts the singing effect of the siphon pipe and thus the promotion in general. Just as much liquid has now escaped from your outflow 1 as was contained in the measuring container from its upper edge to the lower edge of the slide valve. This amount of liquid is dependent on the respective position of the tubular slide r, which is on. the scale t can be set precisely. .

The release of the spring force snapping back lever v has the simultaneous opening of the two shut-off valves h and q result and lets the flammable liquid so that the interrupted cycle can be resumed immediately, .because the suction line is still filled with liquid. From the one in the suction line d ascending liquid but immediately branches off and a part. puts the jack rt again in effect until the measuring container is completely filled again while that in the lifting ear? i. and, the suction line c penetrated inert gas through the Pump on the way d too. the. Pressure line f back into the gas space of the storage container is pressed. The facility is now to promote both the same or a new one other amount of liquid depending on the setting of the pointer as as well. for removal of the liquid ready again in an uninterrupted stream.

For the system to remain operational without interruption, it is essential that the measuring container is refilled as quickly as possible after each emptying. Since this filling takes place during the liquid cycle through the siphon tube n with part of the liquid flowing in through the sang tube d, it will obviously be finished faster, the greater the amount of liquid branched off from your tube d and the smaller the remaining amount is conveyed through the pipe c1, further participating in the circuit liquid residue. The reduction in size of this remainder and thus an acceleration of the filling of the measuring container can evidently be achieved by increasing the flow of liquid through the pump, because the amount of liquid flowing through the wide suction pipe d: acts more through the siphon effect than through the flow of the pump is determined. But since it is too. Would be awkward to change the pump around. the number of revolutions of the drive motor. To be set separately for each filling of the measuring container, the. Rotary screwpunipe a shown in the drawing can be used. At. This pump, the volumetric efficiency is primarily dependent on the pressure of the pumped liquid and returned through the jacket frame w and the nozzles x, so that with the reduction. at this pressure the delivery rate of the pump decreases considerably. In the present case, however, this is necessary to achieve the desired effect. Because at the moment the shut-off means 11 is opened by the snap-back lever -i or 'v , the liquid pressure drops at the start of the liquid cycle; the speed of the liquid in the upper suction tube c is considerably reduced as a result of the decreasing voluinetric efficiency of the pump, so that by far the greater part of the liquid flowing through the lower suction tube d is used to fill the measuring container in.

During the two types of conveyance described, pump a was continuous in action. When utin completed the pumping of flammable liquid and the pump has stopped operating, the reverse process occurs as when starting the pump. As it belongs to the essence of the invention, that Pump the estimated gas contained in the pipelines before the start of delivery into conveyed back in a circuit through the pipe f into the gas space of the storage container, so the reverse process, which restores the initial state, also belongs to it the process to be protected, namely stopping the pump The protective gas flows back from the gas space of the storage container in the same way, but in reverse the sinking of the liquid in the suction lines be; virlct. For this process, which is absolutely necessary for safety storage the screw pump shown is used again with particular advantage, ohiae that some special device would be necessary because of the effect of this Pump required jacket space w - and the nozzle openings x only through one anyway a few turns of the screw, which is not mechanically sealed in its barrel jacket represent interrupted connection between pressure chamber and suction chamber of the pump itself if the pump is still partially filled with finite liquid should, so that the liquid sinking in the suction lines removes the protective gas from your Storage container through line f and pump a. without further ado. -Of course, this process will work in a similar way too; at each other, do not perform perfectly tight singing pumps, which are necessary for the exercise of the question in question Funding method is used in the manner described.

The case can now arise that the pump a is stopped immediately after a certain and previously set amount of liquid has been withdrawn from the measuring container and the shut-off valves h and q are opened. As a result of the protective gas flowing back from the storage container b through the line f, the pump a and the suction line c, the flammable liquid then sinks rapidly in the suction line d before the measuring container is completely filled again by the siphon. If you wanted to start the pump again to deliver the set amount of liquid or a different amount of liquid, the process described above could occur that the measuring container would be sucked empty to the lower edge of the slide valve r before the liquid rising in line d would have put the jack into action. However, as a result of the penetration of protective gas into the pipe slide i- and into the siphon pipe n. The further liquid delivery would be canceled at all. But if this effect should not occur either, closing the two shut-off valves h and q too early by moving the lever v to remove a certain amount of liquid set on the scale t from the measuring container could lead to an incorrect result, because the measuring container was not yet completely filled.

In order to rule out such occurrences under all circumstances between the upper suction line c on the one hand and the lower suction line d and the Siphon tube yc on the other hand a labyrinth chamber e switched on, which the return flow the sinking liquid is slowed down so much after the pump has stopped, that the measuring container is completely filled again under all circumstances by the siphon effect is before the inert gas penetrate from above into the Sangleitung d and dainit the Can cancel the siphon effect. The delay in the lowering of the liquid will be reached by the lab_vrinth chamber c in two ways, firstly by that the in the upper singing pipe c and in the outer jacket chamber y of the L ab3, rinthes , e sinking liquid is forced into a protruding into the inner Kaiinn er o Pipe z from your narrow 'cross-section of the upper suction line c to flow upwards and secondly, because the chamber o, to which the pipe z widens, as it were, is chosen relatively large. It must now - first of all, almost the entire chamber o finite Your slowly penetrating treasure gas should be filled before so much liquid 'sank is that the inert gas penetrating into the lower suction pipe d immediately after completion of the pin can cancel the siphoning effect. Only after the measuring container in finite. Security has completely filled again, the liquid can, like it is necessary to sink down also in the sang pipe c> 'and in the siphon pipe ri.

However, should it happen that the measuring container Contains too little liquid when the pump is started, so that the liquid is pumped would be abolished in the manner described earlier, a condition that of course always is present when the storage container is empty, the siphon tube ii offers in connection with your pipe slide r and the labyrinth c in the following way the possibility of Remedy: The lower edge of the pipe slide r protruding into the measuring container m is designed as a valve seat. If the measuring container is now empty, the pipe slide becomes r brought to its lowest position by means of the guide rod s, in which it is through the valve disk j arranged on the bottom of the measuring container is completed. Will Now the Purnpe a is left on, so it is generated in the suction lines including the siphon tube n a negative pressure: and sucks the liquid out of your storage container through the pipe d. All suction lines including the labyrinth fill up. A slight lifting of the slide valve r causes the start-up immediately of the siphon and the filling of the measuring container in, even if the pump, immediately again should be stopped because in this case the liquid flow described above delaying effect of L abvrin.thes e sets in.

If the storage container b is also empty when the pump is started, the shut-off valve q is also closed in addition to the pipe slide valve r, j to suck in the liquid from the transport drum to be filled into your storage container. In this case, the transport barrel is connected to the labyrinth chamber e and by means of. emptied of a method not to be explained in detail here in the storage container and the measuring container.

Claims (1)

PATENT CLAIMS: r. Process for conveying flammable liquids stored under protective gas in any quantity, possibly also determinable in advance, characterized in that the liquid is put into a circuit by a pump (a) before the start of the conveyance, in which the previously in the pipelines (d, c; f) the protective gas is returned to the storage container (b) and a part of the circulating liquid is branched off and passed into a measuring container (7-n.) by means of a siphon, whereby the delivery is prepared in such a way that the liquid is now gas-free If the circuit is interrupted at one point in the pump pressure pipe by means of a valve (1a), the flow out of the storage tank is constant and with any adjustable jet intensity as long as the pump is working, so that a simultaneous second interruption in the pump saturation tube (d) by a valve (q) the exit of a previously determinable, precisely measured amount of liquid from the measuring container ter (7n) has the consequence, and that both types of delivery can be repeated in any alternation, as long as the pump remains in operation, while stopping the pump restores the original state of rest by itself, by the liquid on the reverse Paths into the storage and measuring container sinks back, the measuring container (in) being closed as a result of the backflow-inhibiting effect of a labyrinth chamber (s) connected to the suction line. fills with flammable liquid by means of a siphon effect and all pipelines are filled with protective gas in the reverse cycle. a. Construction of the pressure pipeline between the pump and the storage container for carrying out the delivery method according to claim i, characterized in that the pressure chamber (g) of the pump (a) is provided with a pipeline (f) branching off at the highest point and closable by means of a valve (Ir) the gas frame of the storage container (b) is connected in such a way, (let the inert gas, which is located in the suction pipe and which is initially sucked in, and the liquid that follows later on into the storage container (b), until this liquid circuit is interrupted by the shut-off valve ( h) forces the liquid to escape into the open air through the outflow opening (1) by opening a spring-loaded check valve (k), the strength of the outflow jet being regulated by the degree of shut-off of the valve (h) Liquid containers for carrying out the conveying method according to claim i, characterized in that net, that a siphon pipe (s) branches off from the suction pipe (d ) leading to the bottom of the storage container (b), which leads into the lower measuring container (77a ) protrudes, the arrangement of the storage container and measuring container to each other and the diameter of the pipes are chosen so that when the liquid is sucked in by the pump from both containers at the same time, the initially filled small measuring container, never to the end of the lever arm (s) and thus until the suction is interrupted by the entry of gas, before the liquid in the suction tube (cd) has not risen to the start of the siphon and thus a refilling of the measuring container and the subsequent tubes (p, n) up to the height of the liquid level has initiated in the storage container. 4. Device for carrying out the conveying method according to claim i, characterized in that the siphon tube (n.) In its lower part has an up and downward movable pipe slide (r), which in each position with its lower cutting edge one on a scale ( t) the precisely readable amount of liquid in the filled measuring container (in) is limited; the. During the operation of the pump (a) as a result of the simultaneous interruption of the liquid circulation in the pipes (d, c, f) through the two shut-off valves (h., q) , the outflow reaches the outlet during the time in which the liquid level in the measuring container (77a) lowers by the suction effect of the pump from the upper edge of the container to the lower edge of the pipe slide, so that the suction of the siphon pipe is interrupted at this moment by the penetration of gas, which flows from the storage container through the narrow pipe (p) , and that a simultaneous reopening of the two shut-off valves (h, q) immediately restores the interrupted liquid circuit, with part of the circulating liquid being branched off and passed through the siphon pipe (s) back into the rapidly filling 112eßbehälters (zit), whereby the The initial state and readiness for new funding is restored. 5. Device for carrying out the conveying method according to claim i, characterized in that the opening of the upper shut-off valve (1a) as a result of the falling pressure and the associated reduction in the volumetric efficiency of the pump (a) used for conveying a slowing down of the liquid velocity in the upper suction pipe (c) results in. so that during the liquid cycle only a small part of the liquid sucked in from the storage tank through the lower suction pipe (d) when the lower shut-off valve (q) is open at the same time is returned by the "pump to the storage tank * (b), while the larger part is fed back through the The siphon pipe (s) branched off from the suction line (d) passes into the measuring container (zag), whereby its accelerated filling is achieved after each delivery and thus an almost uninterrupted operational possibility. characterized in that, in order to be able to refill the measuring container (aaz) emptied by a certain amount after the spigot when the pump is at a standstill, between the upper suction line (c) on the one hand and the lower suction line (c1) and the siphon pipe (aa) on the other a labyrinth chamber (e) is switched on, which serves to prevent the sinking of the liquid in the suction tube (c) and in the chamber (y) as a result of the to slow down penetrating protective gas when the pump is switched off by forcing the liquid to flow upwards from the narrow cross-section of the upper suction line (c) through a pipe (z) protruding into the inner chamber (o), while a further delay in the return flow through the Expansion of the cross-section of the narrow tube (z). to the inner chamber (o). 7. Apparatus according to claim q and 6, characterized in that the lower edge of the pipe slide (y) protruding into the measuring container (eel) is designed as a valve seat which is supported by a valve disk (j) seated on the bottom of the measuring container (vz) is completed in the lowest slide position.