DE4422127C2 - Lifter line - Google Patents

Abstract

The siphon pipe (2) is connected at its highest point to an vacuum container (3) for the collection of air from the waste water. The container is connected to a pump (7) for air suction. The pump is controlled (10) via immersed level detecting electrodes (8,9), dependant upon the collected air. The container is connected to the siphon pipe via a connection part (4), which decreases in size. The sensors are formed by two dipped electrodes. <IMAGE>

Description

The invention relates to a Lifter line for the continuous energy-free pumping of wastewater according to the generic term of claim 1.

A generic arrangement is from DE-PS 1 69 886 known for drainage sewers. Here is a main lifter provided with a parallel auxiliary jack that with both mouths constantly under water remain, as long as a sufficient mirror difference between outside and inland water, by means of built-in water pump water in an above the top of the lifter container  promotes. The accumulating also becomes from the container Aspirated gases and replaced by water.

However, it has been shown that it is used in practice of lifting lines for the renovation of sewer lines through the entrained air, especially at low flow, the promotion comes to an end. Air bubbles collect in the lifter line, that interrupt the lifting effect. In this case then by sucking in the wastewater again corresponding aggregates the lifting process is relatively complex put back into operation.

The object of the invention is a generic Lifting line for sewer lines to be renovated create, the enables trouble-free operation.

This object is achieved according to the invention by the in the characterizing part of claim 1 characteristics listed.

This makes it possible to use low energy Air through relatively small vacuum tanks separate and continuous wastewater production to enable.  

A simple control is made possible by the fact that the sensors to control the vacuum pump are formed by two spaced electrodes.

In the drawing, an embodiment is one Lifter system for a sewage pipe to be renovated shown schematically.

Here, a sewage pipe 1 to be renovated is arranged with a siphon pipe 2 as a bypass. In the area of the highest point of the lifting line 2, a vacuum container 3 is connected via a connecting piece 4 .

The connecting piece 4 narrows conically in the direction of the vacuum container 3 and is connected via an interposed shut-off valve 5 to the vacuum container 3 , which widens conically in this inlet area 11 .

The vacuum container 3 is connected via a suction line 6 to a pump 7 for generating a vacuum. In addition, submersible electrodes 8, 9 are arranged in the vacuum tank 3 , which detect a minimum and maximum fill level of the wastewater and control the pump 7 for generating vacuum via an assigned control 10 .

The air disturbing in the wastewater is fed to the vacuum tank 3 due to the ascending properties, whereby the wastewater collected in the vacuum tank 3 by vacuum is displaced. After falling below the minimum fill level, the pump 7 is put into operation via the immersion electrode 9 , the air is removed and the maximum fill level is set again via the electrode 8 in the vacuum container 3 . As a result, reliable discharge of the waste water after the lifting effect is ensured with low energy by removing the air.

Claims (2)

1. Lifter line for the continuous energy-free conveyance of wastewater, which in the region of its maximum point has a vacuum container for collecting air from the wastewater, which is connected to a pump for extracting the absorbed air, characterized in that the lifter line ( 2 ) in the bypass for a drain pipe to be renovated ( 1 ), and that the pump ( 7 ) can be controlled by sensors ( 8, 9 ) according to the collected air depending on the water level. 2. Lifter cables according to claim 1, characterized in that the sensors ( 8, 9 ) for controlling the pump ( 7 ) for the negative pressure are formed by two spaced-apart immersion electrodes.