DE475444C - Device on measuring pumps for degassing the liquid to be measured - Google Patents

Description

Device on measuring pumps for degassing the liquid to be measured It is known that on measuring pumps in which the stroke of the piston of a suction pump the amount to be delivered determines, inaccuracies arise in operation because of the suction process creates a negative pressure through which any existing leaks, z. B. when installing the filter device in the suction pipe of the pump, - air bubbles be sucked in and conveyed.

With the present invention, first of all, in a measuring pump the approximately also sucked in air bubbles are rendered harmless by the fact that the pump piston is designed as a double piston so that the air bubbles at the highest point of the piston Can withdraw into a collecting space and through an additional piston and a known Circulation line to be returned to the storage container. As a result of this improvement it is possible in the conventional feed pumps with a downstream measuring device The usual way to install the filter in the suction line, even with measuring pumps, so that the pump only sucks in completely dirt-free petrol, which means that it does not contain any parts are included, through which the piston, its passage valve or the suction valve could leak.

In Fig. 1 such a measuring pump is shown, the cylinder i contains a volumetric flask 2 and a suction valve 14. to which first the one removable cover 16 owning filter 15 and connected to this the suction line 17 is. As a result, the metering pump can only draw in completely pure gasoline. Of the Pump piston 2 is provided with the usual passage valves i8 and is designed in such a way that that the air bubbles accumulating under it through one at its highest point 3 subsequent line 1g can be withdrawn into a cylindrical collecting space. In this collecting cylinder .4 is also equipped with passage valves 2o Piston 5 arranged, which is with its valve cone 1: 2 against the connection point the riser 6 applies and seals it. On the bottom is the piston 5 is also provided with another valve cone 13, which is in the lower position of the Additional piston 5 seals the connecting line i9 to the measuring cylinder i. The riser 6 contains the drive rod 21 of the auxiliary piston 5 and is by means of a box 22 connected to the trombone tube 7, which is immersed in the receiving tube 8 to which the return line g is connected. The piston rod -2 i is by rack i i and drive io moves.

In Fig. I, the measuring pump is shown at the moment in which the suction stroke of the piston has ended. As a result, the valve cone 12 of the additional piston 5 still seals the inlet opening to the riser pipe 6. The space below the additional piston 5 in the receiving cylinder 4 is only partially filled with gasoline as a result of the penetration of the air bubbles which have been sucked in and can only be partially filled with gasoline during the start of the delivery stroke, whereby initially only the additional piston moves downwards without the measuring piston 2 moving, nor the last about subsequent air bubbles. take up. During the downward movement of the additional piston 5, the air and gasoline under it in the cylinder: 4 is pressed through the valves 2o onto the top of the additional piston 5, so that when the lower valve cone 13 is placed on the connection ig, the liquid and air on the top of the additional piston 5 has stepped (see Fig. 2). Now, by cranking the additional piston 5 further down, the measuring piston is brought into the lowest position, with the completely bubble-free gasoline located under the piston 2 passing through the check valves 18 on its top. If the piston is now to be cranked up again, initially only the additional piston 5 moves in the cylinder q. so far upwards until the cone i3 closes off the riser line 6 again, the receiving space again under the additional piston 5 being filled with liquid and in this way for. which becomes available during the suction stroke of the piston 2 with air bubbles sucked in. If the rack ii is then cranked up further, the air bubbles coming from the suction line 17 or the filter 15 can continuously rise through the piston 9 into the receiving cylinder 4 and move there accumulate where they remain until they reach the beginning of the downward movement again through the additional piston 5 and into the circulation line 6, 7, 8, g.

By sealing the riser line 6 by means of the valve cone 1.2 it is prevented that when cranking up the two pistons from the return line 7, 8 due to any leaks in the - additional piston 5 or its check valves 2o air can get into the suction chamber of the pumps. Shouldn't valve 12 either seal completely, so can only a part of the during the suction stroke of the piston The amount of gasoline located in the riser pipe 6 is sucked back, but this does not result in any Measurement error arises. The sealing of the valve cone 13 on the pipe ig, however has only the task of allowing the passage of both pistons while the pistons are being cranked downwards measured gasoline in the riser 6 to prevent. The sealing of the valve cone 13. is very perfect here because it uses all the power of resistance to movement of the pump piston 2 and the pump stuffing box 23 is available.

Claims (2)

PATENT CLAIMS: i. Performed on measuring pumps for degassing the liquid to be measured, characterized in that when an auxiliary pump is used to return the separated grass to the storage container, a cylinder connected to the measuring chamber is connected to the measuring piston with a double-acting piston conveying to the storage container , and that the volumetric flask is carried along by the additional flask as a drag flask. 2. Measuring pump according to Anspi uch i, characterized in that the additional piston (5) on the top and bottom each with a valve cone (i2) - and (i3) with which it is in the upper Position the riser (6), in the lower position, however, the connection (ig) of the cylinder (14) ends with the measuring space (i).