WO1999023320A1 - Draining system - Google Patents

Abstract

The invention relates to a draining system comprising a clarification plant and/or a drain, a waste water line that feeds said plant or drain and that has at least one device arranged therein to regulate the flow by changing the height of the overflow. Said device is a rotational, arched segment of a duct, especially according to German patent 39 22 481 or a flexible, raisable tubular piece, especially according to German patent 39 43 607. The arched segment of the duct or the raisable tubular piece are connected respectively to the downstream or upstream canal by means of a flexible tubular connection, especially according to German patent 43 39 039 or according to international patent application PCT/DE94/00428 (WO 94/25784). The system also comprises devices to measure the waste water level downstream and upstream from the device for flow regulation. The device for measuring the waste water level located downstream from the flow regulation device detects the weight of the tubular connection between the flow regulation device and the downstream canal. A regulating device is connected to the flow regulation device and the measuring devices. Said regulating device adjusts the overflow height depending on the waste water level measured downstream and upstream from the flow regulation device. The device to measure the waste water level upstream from the flow regulation device consists of a device to measure the weight of the flow regulation device.

Description

 Drainage system

The invention relates to a method for drainage control for a drainage system, which has a clearing and / or a receiving water and a sewer network upstream of this or this with an open water line (this means that both closed and open channels are addressed). Such drainage systems serve to discharge waste water or Rainwater (hereinafter collectively referred to as "wastewater") from settlement and industrial areas

Control strategies have already become known, the aim of which is to reliably and effectively adapt complicated drainage systems, which often contain meshed drainage channels over thousands of kilometers, to support these goals by assigning complex drainage basins to the drainage system in order to create a retention space that can also cope with an extremely large volume and cause an overflow protection

Furthermore, it is known that cross-sectional control devices are unsuitable for metered discharge of water masses from free-flowing lines. Last but not least, the poor control characteristics of, for example, spools, weirs or throttle structures frequently lead to outflow faults with considerable damage to property and people

The disadvantages of the cross-section-restricting control devices were overcome by the rotary elbow and the related lifting hose technology. In these devices the pipe base is raised or lowered in order to change the headwater level by changing an overflow height to control the flow Even if the control of the overflow fails, an outflow of superfluous amounts of waste water is guaranteed by the preserved line cross-section.Other advantages are the high operational safety and the high hygienic level due to the closed design.These control elements are particularly suitable, a sewer cleaning due to traffic jams and release To cause amounts of water For further details, reference is made to the German patents 39 22 481 relating to a rotatable, arc-shaped channel section (so-called "swivel") and 39 43 607 relating to a flexible, lifting hose piece (so-called "lifting hose"), the content of which is fully included in this Registration is included The turntable was first used worldwide for wastewater control in the wastewater network of the city of Dresden and has been in operation there since April 5, 1994

The elbow and lifting hose technology is supplemented by flexible, hose-shaped connections to the upstream and downstream channels, which in particular the German patent DE 43 39 036 Cl or the international patent application PCT / DE 94/00428 (WO 94/25784) in detail are described, the content of which is included in the present application

In the PCT applications PCT / EP 96/01626 (WO 96/33319) "Process for the Treatment of Wastewater" and PCT / EP 97/01305 (WO 97/35077) "Drainage System", a control system with approaches to automation was first proposed For the measurement of the water level, they prefer to use the flexible, tubular connections to the adjacent sewers However, self-monitoring automation is not possible with the previously proposed techniques alone because the measurement data required for this do not achieve the required quality of use or informative value

Proceeding from this, the object of the invention is to improve the inherently advantageous control properties of the elbow or lifting hose technology in such a way that an automatic discharge, for example of wastewater, is achieved which can always search for the optimum operating point automatically without outside intervention. in particular through the interaction of several elbows or lifting hoses, a constant load operation within a branched drainage network is made possible, which continues e.g. in downstream clearingworks and thus the entire disposal system stops at an optimal operating point.Generally, the invention aims at a storage space management, accumulation flush cleaning and overflow protection To achieve the help of the elbow or lifting hose technology

The object is achieved by a drainage system having the features of claims 1 or 11. Advantageous refinements of the drainage system are specified in the subclaims

The drainage system according to claim 1 has a clarification and / or a receiving water, a sewage network feeding this or these, at least one device arranged therein for adjusting the flow by changing an overflow height, which is a rotatable, arched channel section, in particular according to German patent 39 22 481, or a Flexible, liftable hose piece, especially according to German patent 39 43 607, is Der arcuate channel section or the liftable hose piece is connected via a flexible, hose-shaped connection, in particular according to German patent 43 39 039 or according to international patent application PCT / DE 94/00428 (WO 94/25784), respectively to the upstream and the downstream channel the drainage system means for measuring the level of waste water downstream and upstream of the means for adjusting the flow, the means for measuring the level of waste water downstream of the means for adjusting the flow measuring the weight of the tubular connection of the means for adjusting the flow with the downstream channel, and one with the means for adjusting the flow and the control device connected to the measuring device, which adjusts the overflow height depending on the measured wastewater level downstream and upstream of the device for adjusting the flow. The drainage system is thereby characterized in that the device for measuring the waste water level upstream of the device for flow adjustment is a device for measuring the weight of the device for flow adjustment

The use of the elbow or lifting hose technology enables a wastewater network to be operated fully automatically and in a self-monitoring manner, taking advantage of hydrophysical processes and the energy contained in the wastewater mass. To achieve this goal, the control loop formed from the elbow or lifting hose and a control device connected to it requires measurement data , which result from the fill levels of the drain channel. These measurement data are, according to the invention, weight data which are tapped from outside the drain channel. This is done in such a way that on the downstream side of the elbow or lifting hose the flexible, tubular connection to the downstream channel, which is also referred to as a "torsion compensator" in connection with an elbow, is subjected to a measurement of the weight by the measuring device. For this purpose, this tubular connection can be arranged in a suspension designed as a balance or on a supporting balance downstream wastewater level over the weight of the tubular connection is possible in that, due to their design, they consist of flexible material and, depending on the fill level, an externally measurable force is generated, which in turn enables exact conclusions to be drawn about the available channel volume on the outflow side

On the inflow side of the elbow or lifting hose, a weight measurement is also used to determine the wastewater level.This is carried out in such a way that the full condition of the device for flow control on the inflow side is detected.This is done in that the weight of the elbow or lifting hose together with the liquid contained therein by means of a Device for measuring the weight is determined For this purpose, the rotary elbow or lifting hose can be mounted on a single-sided weighing beam, which can be designed as a base frame.The storage can be carried out with a cross shaft, which is free in a combined standing / drawer bearing around a transverse axis to the weighing beam is pivotable

Depending on the full condition of the device for flow adjustment, the weight load changes, which can also be measured by a hanging or support device designed as a balance. The tubular ones arranged on the inflow and outflow sides and functioning as a seal Connections allow enough flexibility due to their design, which enables exact weight measurement

The two weight measuring devices are used for exact level determination in front of and behind the device for flow control of a drainage system, because the weight is a function of the respective liquid volume

So the weight measurement on the inflow side takes into account the back pressure, which is generated by the respective position of the elbow or lifting hose, the back pressure of which is determined by the horizontal line of the raised pipe base with the intersection of the downward line. On the other hand, the outflow side is independent of this because the corresponding horizontal line is not included the slope line can cut

According to the invention, the essential influencing variables, which result from water quantities which cannot be predetermined and which are composed of precipitation events, industrial or household wastewater at different times of the day or of the year, are continuously measured via the weight measurement, the result of which depends on the full quantities, and can be programmed into a PLC (programmable logic controller ) In the so-called sol-actual comparison, deviations are registered and converted into control signals, which act on the actuator of the flow adjustment device. The control loop is closed in this way, which now results in the "rotary elbow controller" or "lifting hose controller" The PLC is equipped with priorities.As a subordinate priority is congestion winding.This is activated according to a fixed time specification, for example at night.The accumulation winding process can be interrupted automatically by a higher-level signal.This is the case if the weight measurement gives a value that is a set one , permissible value reached, which is undershot again after the entry event has ended. The value is assigned individually to each control loop and is dependent on the storage capacity of the power supply unit monitored by the control loop

Several elbow or lifting hose controllers can be connected to each other via the drain side and continuously record the drainage status via the weight measurement.This means that the entire drain network is automatically monitored and its network capacities are fully used.Each elbow or lifting hose controller monitors itself

If there are several elbow or lifting hose regulators in the drainage system, there is a joint monitoring of the elbow regulators with each other with the result of optimal operational safety (bionic control sequence - see PCT / EP 97/01305) in terms of security and reliability was previously unknown

Elbow or lifting hose controllers obtain their control function exclusively from the weight measurement of the fill levels of the drainage system. Since the controllers have no throttling properties, ie the drainage cross-section is retained, there are negative effects, for example due to congestion. Exclusion of congestion by means of an optimized, integrated control system, clears deposits and prevents new deposits. The availability of the network volume in its entirety results in a high security potential, because, for example, deposit banks cannot arise due to the troubled operation. This creates an additional available storage volume that can be up to 50% of the total storage volume of the system. As a result, a considerable part of retention basins can be dispensed with in the future, the complex construction, maintenance and maintenance of which entails high costs

The automatic sewer network cleaning results in a high hygienic standard, which extends to the entire operating system and thus contributes significantly to improved city hygiene with all of its known advantages (odor pollution, vermin, etc.) The elbow or lifting hose controller as a system component brings about a significant improvement in the area of maintenance work up to the classic cleaning work, as is still common practice today.A special feature of the elbow or lifting hose controller is that the wastewater disposal systems can be operated with downstream clearing units in constant-load operation, because the uniformity of the wastewater pipe can be largely maintained with different quantities of entry

The fully automatic overall operation that is possible with the introduction of the elbow or lifting hose controller automatically keeps the operating point at its optimum limit in every network entry situation.Note that the elbow or lifting hose controller enables non-clogging operating states.This also means that an additional fuse is installed here The fact that all the functional elements required for the controller are located outside of the waste water-wound area and because of the special sealing method creates a gas- and watertight operating space via the tubular connections, the operational reliability is also high

The energy requirement of the elbow and lifting hose regulator is low.Therefore, such regulators can be operated independently by e.g. external solar energy.In contrast to the automatic full regulation, the regulator can also be operated in manual mode.This may be the case if this technology is used in countries should come, whose technological standard does not yet correspond to that of the industrialized country

The invention is explained in more detail below with reference to the accompanying drawing of an exemplary embodiment, which shows a part of a drainage system with a bow regulator in a longitudinal section

Mean in the drawing

F ₀ load in the center of gravity S in the upper water

F _u load in the compensator in the underwater

H overflow height α twist angle homa water level in the upper water h _u water level in the underwater

S focus The elbow controller 1 has an arcuate channel section 2, which is connected upstream via a flexible, tubular connection 3 to a channel 4 and downstream with a flexible, tubular connection 5 to a channel 6. The channels 4, 6 are through opposite walls of an underground housing 7 made of concrete, which accommodates the rotary regulator 1

The arcuate channel section 2 can be pivoted by an angle α to the vertical from 0 to 90 ° by means of a support shaft 8 which is fixedly connected thereto. The support shaft 8 is rotatably supported at both ends at 9 and 10 on a base frame 11 the other is designed as a thrust compensation bearing

On the support shaft 8 sits a toothed segment 12, which is driven via a pinion 13 and a countershaft 14 by a drive motor 15, which is fixed on the base frame 11. On the base frame 11 there is also a parking brake and a clutch for the drive, which but are not shown in the drawing

The base frame 11 is arranged below the arcuate channel section 2 and vertically below the central axis of the channels 4, 6.It is designed as a rocker arm.To this end, it has a transverse shaft 16 on the underside below the tubular connection 5, which is pivotally mounted at both ends in structural support bearings 17 are dimensioned sufficiently strong to absorb shear forces in the direction of flow. This arrangement of the base frame 11 allows degrees of freedom that are similar to that of a gimbal At the upstream end, the base frame 11 is supported on the underside on a force measuring device 18. This can be an electrical load cell

The weight of the arc-shaped channel section 2 and the upstream thereof pent Flussigkeitsmenge with the height h _om ax and the center of gravity S is thus measured for the formed as a balance beam and the force measuring device 18 in front of the base frame 11 weight measurement

For an independent weight measurement on the tubular connection 5 downstream of the arcuate channel section 2, a base-shaped support structure 19 is firmly connected to the base frame 11, which has 5 columns 20 on both sides of the connection and a crossbar 21 above the connection 5. A suspension device is on the crossbar 21 22 attached, which encompasses the connection 5 in the center of gravity and hangs on the crossmember 21 via a force measuring device 23. The hanging device 22 is arranged exactly vertically above the transverse shaft 16. By means of this weight measuring device, the weight of the tubular connection 5 and thus the amount of liquid contained is exactly the same can be determined with the height h _u , which is a measure of the downstream wastewater level

Instead of the motor drive 15, a manual drive or a hydraulic drive by means of a lifting and control cylinder is optionally also possible

The measured values of the measuring devices 18, 23 and a signal relating to the angle α of the arcuate channel from section 2 are fed to a PLC 24, which in turn outputs a control signal to the drive motor 15

Claims

Expectations 1 drainage system with a clearing and / or a receiving water, a sewage network feeding this or these, with at least one device arranged therein for adjusting the flow by changing an overflow height, which has a rotatable, arcuate channel section (2), in particular according to German patent 39 22 481, or A flexible, liftable ski is also stucco, in particular according to German patent 39 43 607, wherein the arcuate channel section (2) or the liftable hose piece via a flexible, hose-shaped connection (3, 5), in particular according to German patent 43 39 039 or according to international patent application PCT / DE 94/00428 (WO 94/25784), each connected to the upstream and downstream channels (4, 6), devices for measuring (18, 23) the wastewater level downstream and upstream of the device for adjusting the flow ( 2), the device for measuring the waste water level (23) downstream of the device for carrying out Flow setting (2) detects the weight of the tubular connection (5) of the flow setting device (2) with the downstream channel (6), and one connected to the flow setting device (2) and the measuring devices (18, 23) Control device (24) which adjusts the overflow height as a function of the measured wastewater level downstream and upstream of the device for setting the flow (2), characterized in that the device for measuring (11, 18) the wastewater level upstream of the device for setting the flow (2) means for measuring the weight of the flow adjustment device (2) Drainage system according to claim 1, characterized in that the device for measuring (11, 18) the weight of the device for flow adjustment comprises a weighing beam (11) carrying the device for flow adjustment (2) with a pivot bearing (16, 17) with a horizontal pivot axis and one has at a distance from the pivot bearing acting force measuring device (18) Drainage system according to claim 2, characterized in that the weighing beam (11) is oriented in the direction of the channels (4, 6) adjoining the device for flow adjustment (2) upstream and downstream Drainage system according to claim 2 or 3, characterized in that the pivot bearing (16, 17) is arranged further downstream than the point of application of the force measuring device (18) Drainage system according to one of claims 2 to 4, characterized in that the swivel bearing (16, 17) is arranged in a vertical plane through the tubular connection (5) downstream of the device for flow adjustment (2) Drainage system according to one of claims 2 to 5, characterized in that the pivot bearing (16, 17) is arranged in a vertical plane through the hose-shaped connection (5) of the device for flow adjustment (2) with the downstream channel (6) Drainage system according to one of claims 2 to 6, characterized in that the weighing beam (11) supports the device for adjusting the flow (2) between the pivot bearing (16, 17) and the point of application of the force measuring device (18) Drainage system according to one of claims 1 to 7, characterized in that a drive device (8 to 15) for the device for flow adjustment (2) is arranged on the device for measuring (11, 18) the weight of the device for flow adjustment (2) Drainage system according to one of claims 1 to 8, characterized in that the device for measuring (23) the waste water level downstream of the device for flow control the deflection of the tubular connection (5) and / or holding forces of a holding structure (19) of the tubular connection ( 5) recorded as a measure of their weight Drainage system according to one of claims 1 to 9, characterized in that the device for measuring the waste water level (23) is fixed downstream of the device for adjusting the flow (2) on the weighing beam (11) or on the pivot bearing (16, 17) Drainage system, in particular according to one of claims 1 to 10, for regulating and / or controlling contaminated water masses enriched with solids in free-level drainage channels of so-called main and secondary collectors in topographically flat inclined areas with simultaneous storage space management using the The water content of accumulated water masses, which, depending on the mass, intermittently for cleaning purposes or quantity-controlled, automatically or in combination by means of program specification of an assigned programmable logic controller (PLC), which sends its signals by means of constant measurements of the weight of the arched channel section mounted on one side or lifting piece of hose, the base frame of which is designed as a balance is maintained and in this way regulated or program-controlled drains off the water masses, monitors the discharge quantities, measures the quantity throughput and always maintains a discharge operating system at an optimal operating point without any significant delay