DE1038996B - Method and device for lifting waste water - Google Patents

Description

Method and device for lifting sewage The invention relates refer to a method and a device for lifting waste water that allow heavily soiled in the simplest way without a lot of construction and equipment and to lift wastewater interspersed with material parts with high-efficiency pumps or to further promote.

The essence and mode of operation of the invention are expedient Hand of the drawing explained in more detail, showing a vertical section through the sewage lifting unit shows.

It denotes 1 d the lower and 1 b the upper part of the inlet shaft for the waste water flowing in from the inlet connection 12. 2 denotes a freely floating closure body, which has been chosen here in the form of a ball. 4 designates the pump sump, which has an inlet 11 with a rake 3 at the top. 5 denotes a pump, 13 the suction pipe, 6 the pump pressure and pump inlet pipe, which is provided with a finite rake 7 for the incoming dirty water. The discharge pressure line with non-return valve 10 is designated by 9. 8, the sealing seat of the float ball in the feed shaft, which can comprise a loading knew upwardly disposed in the wall of the housing recess, in order to create an air cushion in a known manner on the sealing seat. With 14 the pressure port of the centrifugal pump 5 and with .S1 the lower and with S2 the upper liquid level in the pump sump is designated.

The mode of operation of the arrangement is as follows - the liquid level in the pump sump 4 should be at the very bottom at S1. The float 2. the ball is then also located at the very bottom of the inlet shaft l a. At 12, the wastewater flows into the inlet shaft and further through the pump pressure and inlet line 6 in the direction of the arrow. -F through the centrifugal pump 5 via line 13 into the pump sump 4.

The pump pressure and supply line 6 is provided with a rake 7, so that the pieces of material carried along by the sewage, such as rags, bones, etc., become gather in front of your rake. If the liquid level rises to approximately .S2, then the Ki; e # el 2 is already pressed against its sealing seat 8 in the inlet shaft. That Further inflowing wastewater now passes through the rake 3 and nozzle 11 in the Pump sump 4. If the liquid level continues to rise here to S2, then becomes the centrifugal pump 5 is switched on and now pumps the liquid out of the pump unit 4 via the pump pressure and supply line 6 in the direction of arrow B into the discharge pressure line 9. The ball 8 keeps the lower part 1 a of the inlet shaft closed, even then still, when the liquid level has dropped well below, S2 and is the lowest Level S1 approaches at which the pump is switched off. This closure is achieved in that the previously static pressure of the liquid column on the ball when Work of the pump 5 is replaced by the dynamic delivery pressure of the pump, so that the ball remains in its closed position due to the delivery pressure of the pump. The foreign objects that have accumulated in front of the rake 7 are immediately at Onset of the pump delivery pushed away and via the discharge pressure line 9 in the direction of arrow B pumped away.

As a centrifugal pump, pumps with the most favorable can be used according to this method Efficiency can be used. The material parts carried along, such as rags, scraps of fabric, Bones are held back by the rake 7, so that when the sewage enters no sticking or jamming of these material parts in the pump by the pump can go on. The gaps between the impeller and the housing can therefore be narrower which again means that pumps with higher efficiency can be used can come.

The arrangement shown can also be made so that the pump sump 4 with pump spatially removed from the inlet shaft l a, 1 b can be arranged. The lines 6 and the connecting piece 11 would then have to pass through correspondingly longer pipelines which establish the connection between the spatially separated structures 4 and l a-. 1 b, be replaced.

The system can be used as a step conveyor in urban sewer networks Find. But it can also be used to connect the sewer pipes to lower-lying buildings serve to the main sewerage line.

The plant works continuously, i. H. that the sewage is permanent can flow in without an A1: - and switchover being necessary. One can also use two or more pumps instead of one to pump away more liquid can be called runs in; this in turn causes the automatic Self-cleaning of the system.

Claims (6)

PATENT% xsi'i; rt: iIE: 1. Method for lifting waste water, characterized in that the waste water to be lifted or further fed freely into an inlet shaft (1 b, 1 a) and via rakes (7) and Pump pressure and feed pipe (6) flow via pump (5) into the pump sump (4) and pass through a float, e.g. B. Ball (2), which is pressed against the sealing seat (8) by the liquid rising in the shaft (1 a), can be reversed in such a way that after further. free inflow via rake (3) and nozzle (11) into the pump sump (4) the float (2) is held in the closing position (8) by the delivery pressure of the pump. 2. Device for Lifting waste water according to claim 1, characterized in that it consists of a pump sump (4), an inlet shaft (1 a, 1 b) for the inflowing waste water, a float (2) to close off the lower part (1 a) from the upper part (1 b) of the inlet shaft, a pump pressure and feed line (6) arranged in the lower part of the feed shaft with rake (7) and a nozzle arranged in the upper part (1 b) of the inlet shaft (11) with rake (3), the lower inlet shaft (la) with the discharge pressure line (9) is connected. 3. Apparatus according to claim 2, characterized in that the nozzle (11) and the pump pressure and supply line (6) is replaced by a longer pipe string, so that two spatially separated structures, consisting of pump sump (4) with pump on the one hand and Inlet shaft (1 a, 1 b ) on the other hand, arise. 4. Apparatus according to claim 2 or 3, characterized in that the pump pressure and feed line (6) is replaced by a double pipe string, so that the inflow of waste water to the pump sump (4) is separated from the amount of water pressed by the pump from the pump sump into the discharge pressure line (9 ) , the reversal being effected electrically or mechanically by a valve depending on the liquid level in the pump sump (4). 5. Method according to claim 1, characterized in that all larger entrained at the inlet of the wastewater Parts of material (scraps of fabric, bones, stones, etc.) are retained by the rake (7) and be conveyed through the pressurized water of the pump (5) into the discharge pressure line (9). 6. Device according to one of claims 2 to 4, characterized in that pumps (5) the most favorable efficiency can be used individually or in groups.