DE2312835C3 - Tank battery made up of at least two individual containers, especially for heating oil, with a common upper filling line - Google Patents

Description

Filling of several individual containers is possible. and although with throttle cross-sections, which on the other hand in the If the overpressure in the common filling line is still permissible, e.g. oil quantities of 1000 Let liters flow through per minute. s

The ventilation device can largely be arranged as desired. It is often useful to use the Ventilation device at the junction of the To arrange a diversion line for the last individual container in relation to the direction of flow. This is sufficient > o straight filling lines or, in the case of such filling lines, their axis continuously in a horizontal plane located. However, it can also be useful to have one at each branch point for the branch lines To arrange venting device, namely when the filling line is not continuously straight or yours Axis is not continuously in a horizontal plane.

In a particularly advantageous embodiment of the invention, the ventilation device consists of at least one tube that extends approximately to the highest point of the inner wall of the joint Filling line is enough and leads into the assigned individual container, which in turn is connected to a vent line connected. Instead of just one tube, several tubes could also be used at one ventilation point be used. The tube can bypassing the throttle point in the branch line into the lead assigned individual container. But it is also possible that the tube is the only liquid passage forms from the common filling line in the associated individual container.

Such a venting device is particularly simple. The air from the common filling line can get into the tube even if a throttle part no longer allows the air to escape, because the throttle point from the liquid, e.g. B. heating oil is flooded. If the tube is the only one Connection between the filling line and a single container, liquid can only enter flow through the single container when the liquid level has risen to the top of the tube, d. i.e. only after the filling line has been largely vented. To with such an embodiment To obtain the same hydrostatic pressures everywhere, there must be nine ventilation devices at each branch to be ordered. In an embodiment in which the tube is present in addition to a throttle point is, forms the tube at higher filling speeds, at which the common filling line is completely filled with liquid, an additional cross-section through which liquid enters each individual container the tank battery can flow into it. To now different flow cross:, v.-cut on the individual bowls To avoid this, a venting device must also be installed at each junction in this embodiment to be ordered.

The venting device can also be at the highest point on the wall of the common filling line have arranged vent hole, which is assigned a device that only for gas, but not is permeable to liquids. Such a device can, for example, consist of a float valve exist that closes an air passage when the float is lifted by liquid will. In such an embodiment of the ventilation device a ventilation device does not need to be assigned to each branch point, because yes, the venting device does not form an additional flow cross-section for the liquid.

Multiple vent holes can be connected to a vent manifold are connected, at the end of this vent manifold the device is arranged, which is only permeable to gas, but not to liquids. Such a vent arrangement is advantageous where the axis of the filling line is not continuously horizontal Level runs or has upward bulges. It can then be at every highest point Vent hole can be arranged.

Another embodiment of the invention relates to a tank battery in which the branch lines each have a dip tube protruding into the interior of the individual containers. According to a Further development of the invention, these dip tubes either have a significantly larger cross section than that Throttle point and / or they are ventilated just below the throttle point, preferably through openings in the immersion tube wall. This prevents suction behind the throttle point. Such a pull increases them Difference in the pressures upstream and downstream of the throttle point, which means that the flow rates are greater are than without such a suction. This can falsify the filling characteristics, especially with very low filling speeds. The case can then namely arise that through the first throttle point or the first throttle points as a result of the suction effect so much oil flows off that the last throttle point or the the last throttle points can no longer be reached by the liquid.

In the drawing is an Ausiührungsbeispiel the Invention shown. It shows

Fig. 1 is a plan view of a tank battery with three Single containers and

Fi g. 2 shows a section along line 11-11 in FIG. 1 in one compared to F i g. 1 enlarged scale.

The tank battery according to FIG. 1 consists of three individual containers 1, 2 and 3. Fig. 1 shows them Single container from above. On each container connecting pieces are arranged, namely nozzle 4 for a vent line designated as a whole with 5, nozzle 6 for a designated as a whole with 7 Drain line and nozzle 8 for the connection of a total of 9 designated common filling line for filling the individual containers 1, 2 and 3.

For the purpose of achieving an even filling of the tank battery is in front of each of the individual containers 1, 2, 3, a throttle point 10 (see FIG. 2) is arranged in the branch line 12, which is shown in FIG Case is designed like a nozzle. The wall of the nozzle-like throttle point 10 is denoted by 11. Through the Arrangement of throttling points 10 on each branch line 12 achieves that in the interior 13 the common filling line 9 forms an overpressure from certain filling speeds, which at each Throttle point 10 is essentially the same, so that equal volumes of liquid per unit of time through all choke points flow. For a correct venting of the filling line 9 at the beginning of the filling process, however, is one certain minimum filling speed is required, at which is still guaranteed (due to the relatively high Flow velocities) that the air from the interior! 3 Her filling line 9, which is initially there is contained, is torn out. At low filling speeds, however, it has been found that the Filling of the individual containers becomes uneven. this

it results from the fact that venting of the filling line 9 is no longer guaranteed with these small filling quantities was.

A tube is now arranged as a venting device 14 in each branch line 12, which extends approximately to the highest point of the inner wall 15 of the filling line. The tube goes through the wall 11 of the nozzle-like throttle point 10 and opens into the interior 16 of a dip tube 17, the forms an extension of the branch line 12 and into the interior space 18 of the individual container 3 protrudes into it, though not to the bottom of the same, but so deep that it is at the highest permissible Liquid wedge mirror 19 is immersed in the liquid 20.

In the immersion tube 17 there is at least one opening 21 designed as a transverse bore, which is connected to the Communicated interior 18 of the individual container 3 above the highest possible liquid level 19.

Between the opening 22 of the tube of the ventilation device 14 and the interior 18 of the Individual container 3 is therefore connected regardless of whether the immersion tube 17 is in the liquid 20 immersed or not. Before the liquid level 19 has reached the lower end of the immersion tube 17, there is also a connection via the lower end of the immersion tube. Has the fluid level risen higher? than the lower end of the immersion tube, the connection via the opening 21 is present. the Interior 18 of the individual container 3 is connected to the atmosphere via the ventilation line 5.

When 9 liquid wedge flows into the common filling line, the flow velocity is very high is low, there can be no appreciable overpressure in the pipe of the filling line 9, or no overpressure at all

ίο Build up overpressure. The vent through the tubes the ventilation device 14 (such a ventilation is assigned to each individual container 1, 2 and 3)! the removal of the air from the interior 13 dei filling line 9, so that there is no undesirable Air bubbles can remain. Down to a very low filling speed can therefore be a uniform supply of all throttle points 10 reach chen. Only at very low filling speeds namely, filling speeds which are so low that the incoming liquid can easily be displaced by di < first throttle positionc, d. H. the throttle point assigned to the individual container 1 can flow is a « Even filling of all individual containers is not possible with flour.

For this purpose 2 sheets of drawings

Claims (9)

Patent claims: 1.Tank battery, in particular for heating oil, consisting of at least two individual containers ¹ with a common filling line passing over the individual containers, leading from the branch line to the individual containers which open out in the upper area of the individual containers, wherein a throttle point is arranged in each branch line and the sum of the cross-sections of all throttle points is smaller than the cross-section of the filling line, characterized in that a venting device (14) is arranged on the common filling line (9) in such a way that the escape of in the filling line (9) s, holding air; is still possible when the liquid level rises in the filling (9). 2. Tiinkbiilterie according to claim 1, characterized in that that at least at the junction of the branch line (12) for the with respect to Direction of flow last individual container (3) a ventilation device (14) is arranged. 3. Tank battery according to claim 2, characterized in that at each junction for the Branch lines (12) a ventilation device (14) is arranged. 4. Tank battery according to one of claims 1 to 3, characterized in that each venting device (14) consists of at least one tube that extends approximately to the highest point of the Inner wall (15) of the common filling line (9) extends and into the associated individual container (1, 2, 3), which in turn is connected to a vent line (5). 5. tank battery according to claim 4, characterized in that the au ;; existing to the tube F. ventilation device (14) bypasses the throttle point (10) in the branch line (12). 6. Tank battery according to claim 4, characterized in that that the tube is the only liquid passage from the common fill line (9) in forms the assigned individual container (1,2,3). 7. tuner battery according to one of claims 1 to 3, characterized in that the F.ntlüftungseinrichlung has a vent hole arranged at the highest point of the wall of the common filling line, to which a device is assigned, which is only permeable to gas, but not to liquid. 8. tank battery according to claim 7, characterized in that that several vent holes are connected via a vent manifold and that at the end of this vent manifold the device is arranged, which is only for gas, not ss but is permeable to liquids. 9. Tank battery according to one of claims I to 8, wherein the branch lines each one into the Have inside of the individual containers protruding immersion tube, characterized in that the immersion tubes (17) either have a significantly larger cross-section than the throttle point (K)) and / or that they are ventilated just below the throttle point (10), preferably through holes (21) in the Rope wall. (> 5 The invention relates to a tank battery, in particular for heating oil, consisting of at least two Individual containers, with a common one, the individual containers crossing filling line, from the branch lines lead to the individual containers, which open in the upper area of the individual container, in each Branch line a throttle point is arranged and the sum of the cross-sections of all throttle points is smaller than the cross section of the filling line. The invention thus relates to both designs where the branch lines of the filling line open into the ceiling of the tank as well as to such Embodiments in which the branch lines open into side walls, specifically in their upper area. Tank structures of this type are lulled from above. This filling system is becoming more and more prevalent against the system most commonly used to date, in which the Individual containers communicate with one another via a collecting line connected to the bottom of this. The latter The system has the advantage that there are no major problems with the even filling of the Individual containers are created because they are connected to one another according to the principle of communicating tubes. When filling the top, however, special aids must be used in order to to obtain uniform filling of the individual containers. For this purpose, throttling points have already been placed in each branch line. Achieved by this one from a certain filling speed that an overpressure develops in the filling line, which in the entire line is about the same size, so that everywhere the same amounts per unit of time through the Throttle positions flow. Practice has now shown that with low Filling speed a uniform filling of the individual containers even when using throttle positions is no longer guaranteed. It then shows the phenomenon that is observed without throttling points is, namely a preferred filling of the individual containers, which are at the front with regard to the direction of flow in the filling line. The invention aims to develop a tank battery of the type mentioned at the outset in such a way that Even if the filling speed is slow, all individual containers are filled evenly. This object is achieved according to the invention in that a Ventilation device is arranged such that the escape of air contained in the filling line also is still possible when the liquid level rises in the filling line. With a tank battery designed in this way, the formation of an air pocket in the filling line is avoided because the air can escape via the ventilation device specially provided for this purpose. A free liquid level can now develop in the filling line, which ensures that the same hydrostatic pressure exists over all throttle positions in the branch lines and thus the same flow rates are present everywhere through the throttle points. The filling speed can therefore be so low that there is no longer any overpressure in the common filling line, because at the throttle points the entire inflowing fluid flows through even without such an overpressure. Tests have shown that down to filling speeds of ¹ SO liters per minute more uniform