DE4035435C1 - Transfer station of pipeline - incorporates by=pass and pig trap system - Google Patents

Abstract

Fluid transfer station consists of pipeline, hose line and interposed bridge piece complete with shutoff valve. Both lines (1, 2) should have line and hose connection pipes (16, 17, 23, 29) to act as pig (14, 15) traps (12,13,21,28), one pipe connection and one hose connection (17, 23) each to be connected via holes (20, 24) in the bridge piece (3) to the shutoff valve (19) inside this. These same connection pipes (17, 23) lead back towards the opposite ends of pipe and hose beyond the connecting holes (20, 24) and are linked by a bypass line (27) also containing a shutoff valve (26). The bypass is branched off upstream of the line connection (17) pig trap (13) to issue into the hose line (23) connection trap (21) behind the pig position (22). One trap at least (12, 13) is fitted with a driving gas connection (4, 5) and a venting connection (6, 7). USE/ADVANTAGE - Pipelining fluids, e.g. in separate flows. Single hose line linked to pipeline through bypass for reliable line pigging between incompatible fluids thus preventing contact or deposit nuisance.

Description

The invention relates to a transfer station for flow capable products consisting of a pipeline and a hose line and one in between Neten bridge piece with shut-off valve.

Different filling stations for alternate filling whose flowable products are via a pipeline there is a bridge piece to a hose line, usually one for each product if required the bridge piece can be connected to a separate hose line is provided. Depending on the embodiment, these remain Hose lines filled with product or at least product residues remain in it during emptying. In both cases, the product or the residual product can be damaged by temperature influences, caking cause and always represents an undesirable residual amount is also the space required for the various Hose lines considerably.  

There is the task of a transfer station to the one to find the type mentioned above, in which only one Hose line is required so that the Reduced space requirements, the risk of damage to the Product reduced and also the risk of contamination of the subsequent product is reduced.

This problem is solved in that both lines trained at both ends as fishing stations for newts Pipe connection piece or hose line connection end fittings are assigned, each of which is a pipe line connecting piece and a hose line have connection ports that each one Pipe connection piece and a hose line connection Final connection over flow openings of the bridge piece with the shut-off valve arranged in the bridge piece are bound backwards towards the opposite overlying end of the pipeline or hose line extend beyond the positions of the flow openings and via a bypass line containing a shut-off valve are connected, and that the bypass line in front of the trap this pipe branches and still behind the Position of the newt in the trapping station of that hose line connecting piece opens, at least one of the fishing stations with a propellant gas connection and is equipped with a vent connection.

This ensures that both the pipeline and also the hose line with pigs for the purpose of ent emptying and cleaning are passable. Because everyone's at least one pig is assigned to both lines, these lines can also have different nominal diameters  have. Caking within the hose line no longer occur; the contamination of an after following promoted product by the previous one is avoided. The space requirement is significantly less and the changeover process when changing products is easier tert. Also a mix-up of the hose lines, like it occurred earlier often, is excluded.

In the drawing, the new transfer station is in two Exemplary embodiments shown purely schematically in section provided and explained in more detail below. Show it:

Fig. 1, the first embodiment and

Fig. 2 shows a second embodiment by hose line-side modification of the first imple mentation form.

In Fig. 1, a bridge piece 3 is provided between a pipe 1 and a hose line 2 . The pipe 1 has connections at both ends with propellant gas connections 4 , 5 , vent connections 6 , 7 and pushbutton connections 8 , 9 , 10 , 11, equipped as catching stations 12 , 13 for pigs 14 , 15 formed pipe connection stubs 16 , 17 , one of which one has a connection opening 18 and the other has a flow opening 20 corresponding to a shut-off valve 19 of the bridge piece 3 designed as a ball valve. Beyond the shut-off valve 19 , a hose line connecting piece 23 designed as a catching station 21 for a pig 22 is provided, which also has a flow opening 24 and a button connection 25 and at its closed end via a bypass line 27 provided with a shut-off valve 26 , bypassing the shut-off valve 19 the pipe connection piece 17 is connected. The second end of the hose line 2 also has a hose line connecting piece 29 designed as a catching station 28 for the pig 22 with a connection opening 30 for a nozzle 31 . This catching station 28 is also equipped with a button connection 32 . For the sake of clarity, it is not shown that the propellant gas connections 4 , 5 and the ventilation connections 6 , 7 as well as the shut-off valves 19 , 26 , 31 or their control elements and the connections 8 , 9 , 10 , 11 , 25 , 32 provided on the push buttons Pushbuttons are connected to a control unit via pulse lines, so that the operation or the cleaning process can take place automatically.

In Fig. 2 the transfer station is built in the same way. Only the hose connection connection piece facing away from the bridge piece has a different embodiment here, so that the hose connection can also be operated with two pigs: The hose connection connection piece 41 is designed as a catching station 42 for two pigs 22 and 43 and has button connections 44 , 45 and a connection opening 46 and a propellant gas port 47 and a vent port 48 .

The operation of the transfer station according to FIG. 1 is as follows: The hose line 2 is connected to a storage tank via the nozzle 31 . With the shut-off valve 19 closed, the tank pump now pushes product into the hose connecting piece 29 and the pig 22 is driven out of the catching station 28 through the hose 2 into the catching station 21 . The shut-off valve 26 in the bypass line 27 is open. When the pig 22 reaches its end position in the catching station 21 , the button assigned to the button connection 25 sends a signal to the control unit, causing the shut-off valve 26 to close and the shut-off valve 19 to be opened. The product now flows through the flow openings 24 and 20 into the trapping station 13 and drives the pig 15 in front of it into the trapping station 12 , from which the product is passed through the opening 18 to a further processing which is not of interest here.

After the end of the conveying process, a shut-off valve arranged in the outlet line connected to the connection opening 18 is closed and propellant gas is introduced via the propellant gas connection 4 and thereby the pig 15 is pressed through the pipeline 1 into the trapping station 13 , the remaining product in the pipeline 1 via the Shut-off valve 19 is pushed back. If the pig 15 reaches the catching station 13 , the shut-off valve 19 is closed and the shut-off valve 26 is opened. Now the propellant gas flows through the bypass line 27 and presses the pig 22 while emptying the hose line 2 into the catching station 28 . The starting position has been reached again and a new cycle can begin.

The embodiment according to FIG. 2 has no restrictions with regard to the flow direction, because two pigs 22 , 43 are also present in the hose line 2 .

If the product is supplied through a lockable, to the connection opening 18 connected to the line, the pigs 14 and 15 are first pressed into the trapping station 12 when the shut-off valves 19 and 26 are closed by the propellant gas port 5 supplied with propellant gas 5 , the vent port 6 being open . The pigs 22 and 43 are pressed into the trapping station 21 by the application of propellant gas via the propellant gas connection 47 with the shut-off valve 19 and the vent connection 7 open. Then the propellant gas supply via the propellant gas connection 47 is interrupted and product 18 is supplied via the connection opening, as a result of which the pig 14 is conveyed into the trapping station 13 . The product then passes through the flow openings 20 , the open shut-off valve 19 and the flow opening 24 into the hose line 2 and pushes the pig 43 back into the trapping station 42 and flows out through the connection opening 46 . If the conveying process is ended, the supply line connected to the connection opening 18 is blocked and propellant gas is introduced through the propellant gas connection 4 into the trapping station 12 , whereby the pig 15 is conveyed into the trapping station 13 . If he has reached this position, the shut-off valve 19 is closed and the shut-off valve 26 is opened.

The propellant gas now flows via the bypass line 27 into the catching station 21 and presses the pig 22 into the catching station 42 . Now that both pipeline 1 and hose line 2 have been emptied, a new cycle can begin.

Claims (1)

Transfer station for flowable products, consisting of a pipeline ( 1 ) and a hose line ( 2 ) as well as a bridge piece ( 3 ) with a shut-off valve ( 19 ) arranged in between, characterized in that both lines ( 1 , 2 ) have trapping stations ( 12 , 13 , 21 , 28 ; 42 ) for pigs ( 14 , 15 , 22 ; 43 ) trained pipe connection piece ( 16 , 17 ) or hose line connection piece ( 23 , 29 ; 41 ) are assigned, of which one pipe connection piece ( 16 ) and one Hose line connection piece ( 29 ; 41 ) connection openings ( 18 , 30 ; 46 ) have a pipe connection piece ( 17 ) and a hose line connection piece ( 23 ) via flow openings ( 20 , 24 ) of the bridge piece ( 3 ) with that in the bridge piece ( 3 ) angeord Neten shut-off valve ( 19 ) are connected, backwards in the direction of the opposite end of the pipe or hose line on the position s of the flow openings ( 20 , 24 ) extend beyond and are connected to each other via a bypass line ( 27 ) containing a shut-off valve ( 26 ), and that the bypass line ( 27 ) branches off in front of the trapping station ( 13 ) of this pipeline connection piece ( 17 ) and opens behind the position of the pig ( 22 ) into the catching station ( 21 ) of that hose connection piece ( 23 ), at least one of the catching stations ( 12 , 13 ; 42 ) is equipped with a propellant gas connection ( 4 , 5 ; 47 ) and a vent connection ( 6 , 7 ; 48 ).