DE236195C - - Google Patents

Description

IMPERIAL

PATENT OFFICE

with expansion tank.

The invention relates to a gas remote supply system in which the remote supply area is fed by an intermediate tank serving as an expansion tank, which is filled with the help of the pipeline from the main gas station through the gas tank located there or by means of a special one Gas carrier done.

With the previous systems of this type ίο the gas is also at times of low gas consumption taken from the expansion tank in the remote supply network. Now that this gas is one of the the highest gas consumption has the corresponding pressure, it must be through a pressure regulator up be brought to the lower voltage prevailing in the pipe network, with which energy losses are linked.

The invention aims to eliminate this drawback that the long-distance supply area temporarily bypassing the expansion tank directly from the pipeline or the gas pumping machine switched on in it the main gas station can be fed from. For this purpose, the pipeline is on the one hand to the expansion tank, on the other hand connected to the remote supply network, with the involvement of Pressure regulating devices which selectively feed the remote supply network through the expansion tank alone or bypassing it by the gas tank or enable the main gas installation's gas carrier or through both sources.

In the drawing are several embodiments of the device according to the invention shown.

Fig. Ι shows an embodiment of the device in a schematic representation.

Fig. 2 shows another embodiment of the device in a schematic representation.

Fig. 3 is a longitudinal section through that in the device of FIG. 2 in the connecting line the non-return device switched on in the remote supply network.

When setting up the system according to FIG. 1, the one for feeding the expansion tank 1 required gas pressure in the gas station either through the one connected to the pipeline 2 Main gas container or generated by the gas pumping machine 3, which in a bypass line 4 between the branch points by a shut-off 5 closable pipeline 2 is located.

A non-return member 6 is located between the gas delivery machine 3 and the expansion tank 1 switched on, through which the gas supply to the expansion tank at the maximum position of its Bell automatically interrupted and a backflow of when the container bell sinks Gas is prevented in the long-distance line via the non-return element 6. To both Sides of the non-return device 6 If two lines 7, 8 branch off from the capillary 2, in each of which a city pressure regulator 9, 10 of known type is switched on, the low-pressure sides through a connecting line 11 and a line 12 to the remote supply network are connected.

With low gas consumption in the pipe network directly connected to the gas station the expansion tank is ι by increasing the pressure in the gas station or filled by putting the gas pumping machine 3 into operation, the non-return member 6 as long remains open until the container is completely filled. The pressure regulators 9, 10 hold during the filling of the container 1 in known

to the way according to the gas consumption low pressure in the remote utility network. When the Container 1, the pressure in the pipeline 2 by lowering the pressure in the gas station or reduced again by stopping the gas pumping machine 3, the non-return element 6 allows the high tension to flow back Gas from the expansion tank 1 in the line 7 is not, but this is single fed by the gas quantities supplied by the main gas station.

The load on the pressure regulators 9 and 10 is now so different that the regulator 10, as long as the gas consumption in the remote supply network is that supplied by the gas company Gas quantity does not exceed, remains closed and only becomes available when the gas consumption is greater Delivery of the required additional quantity from the expansion tank 1 through line 8 opens.

As a result, the low-tension gas supplied by the main gas station escapes the pipeline 2 directly and without any significant throttling through the line 7, the pressure regulator 9 and the lines 11, 12 in the long-distance supply network, so that the previously used to increase the pressure of these gas quantities the amount of energy required is saved except for the pressure of the equalization gas tank.

If the supply of the equalization tank 1 caused only by the gas pumping machine, so you can in the connecting line 7 of the Remote supply network to the pipeline 2 switched on pressure regulator 9 by a non-return device Replace 13, as shown in FIG Junction for the line 7 in the trunk line 2 turns on in order to avoid that when filling the expansion tank 1 by starting the gas pumping machine 3 in During the night or in the morning, gas is extracted from the remote supply network. These Facility is particularly suitable in the event that the during the daytime in the Main gas tank, the pressure prevailing for the supply of the remote supply network is sufficient, so that the respective low-tension gas supplied by the main gas station is bypassed the expansion tank 1 through the line 7 (with the opening of the non-return device 13) and the lines 11 and 12 in the remote supply network flows. Only when the gas consumption of this pipe network is that of the main gas company Exceeds the amount of gas delivered, opens, as in the embodiment of the device according to Fig. I, the pressure regulator 10 and allows the additional amount of gas to pass into the lines 11, 12.

The non-return member 13 is set up so that it is when the gas pumping machine is started up 3 closes and thereby the remote supply network of the serving as the suction line of the gas pumping machine 3 part of the Capillary 2 absperit. The remote supply network is therefore during the filling of the Compensating tank 1 is only fed by this itself with the aid of the pressure regulator 10.

In Fig. 3, a particular embodiment of the non-return member 13 is shown in which a double-seated shut-off valve 14 is located in a housing 15 which is provided with a nozzle 16 is connected to the line 7 and with a connector 17 to the line 11 (Fig. 2). The valve 14, which lifts up from its seat, carries at the upper end of its filling rod 18 a swimmer bell 19, which with its lower edge into the shut-off liquid a closed container 20 attached to the housing 15 is immersed. The interior the float bell 19 is in communication with the interior of the housing 15, so that the bell 19 with the valve 14 closed the pressure prevailing in the line 7, while the container 20 by a Line 21 to the pressure line 22 of the gas pumping machine 3 (Fig. 2) between this and the non-return member 6 is connected, so that the float bell 19 on the other hand below the pressure prevailing in the pressure line 22. In place of the float bell can of course also use another resilient pressure member, e.g. B. a membrane, occur.

The buoyancy of the float bell 19 of the valve 14 must be dimensioned so that this Valve is open when the pressure above and below the bell, i.e. H. also in the lines 21, 22 and 7, is the same.

If the gas delivery machine 3 is put into operation, the pressure in the line 22 rises when the non-return element 6 is open, it acts on the gas container pressure and acts through the line

21 on the bell 19 of the valve 14 in such a way one that this closes.

When the filling of the gas container ι the non-return element 6 comes into the Closed position, the pressure in the line rises

22 and acts through the line 24 on a release device 23 of a known type (Rabasscher switch), which shuts down the gas carrier 3.

After the gas pumping machine has been shut down, the pressure in line 22 and the

with directly connected spaces as a result of the backflow of the gas through the hoisting machine on the pressure in the line 2, and the valve 14 opens again.
When the non-return device is formed in this way, the shut-off of the remote supply network from the pipeline 2 when the expansion tank 1 is filled by the gas delivery machine 3 is made independent of the attention of the worker operating the system.

Claims (4)

Patent Claims: i. Device for regulating the gas supply in remote gas supply systems with Expansion tank, characterized in that the pipeline (2) or an in this lying gas pumping machine (3) with the involvement of non-return devices (6,9,13) the remote supply pipe network (12), on the other hand the expansion tank (1) is connected, with which the remote supply pipe network is connected through a pressure regulator (10), which only opens when the gas consumption in the long-distance supply pipe network exceeds that of the main gas tank exceeds the amount of gas supplied to this network. 2. Device according to claim 1, characterized in that when feeding the expansion tank (1) directly through the main gas tank that between the pipeline (2) and the network (12) connected non-return device designed as a pressure regulator (9) is. 3. Device according to claim 1, characterized in that when feeding the expansion tank (1) exclusively by the gas conveyor (3) this between the Junction of the remote supply pipe network (12) and the expansion tank switched on is. 4. Device according to claim 2, characterized by the formation of the non-return member (13) as a shut-off device (14), which by a. yielding compression member (19) (float bell, membrane o. The like.) Is influenced, one side of which is under the Pressure of the suction line (2, 7) of the gas conveyor (3) and its other side below the pressure of the pressure line (22) is upstream of the non-return element (6). 1 sheet of drawings.