EP1559841A2 - Sewage collection well - Google Patents

Abstract

A wastewater collection well (2) with a potentially explosive atmosphere (8) above the wastewater level (6) has at least one wastewater feed pump (12) submerged in the waste water (4). The sewage pump (12) can be switched on as a function of an upper level (0) of the wastewater level (6) and can be switched off again after a delivery time. There is provided a pump controller (30), a time measuring device and a pressure detecting device (24; 26; 28), the time measuring device being capable of measuring a time interval between the detection of predetermined pressure values corresponding to two different heights (I; II) of the wastewater mirror (6) is. Depending on the measured time duration, the delivery time of the pump controller (30) can be specified.

Description

The invention relates to a sewer manhole with explosion hazard or non-explosive atmosphere above the sewage level, being in the sewage at least a sewage pump is immersed, wherein the Sewer pump depending on an upper level of the sewage level and after a delivery time can be switched off again.

Such a sewer manhole is from the state of Technique known. For such sewage collection shafts or their Operation must follow guidelines, according to which It should be avoided that mechanically moving parts with the air-gas mixture of a potentially explosive atmosphere come in contact. So it must be in the removal of sewage be avoided that moving parts of the sewage pump due to excessive sinking of the wastewater level with come into contact with the potentially explosive atmosphere. This means that the sewage pump is not too late may be turned off.

For sewage collection shafts, where the atmosphere above a wastewater level is not explosive, It is also important to avoid that the sewage pump is exposed. Such exposure causes air is sucked, whereby the reliable operation of the sewage pump is no longer guaranteed. It is therefore also in sewage collection shafts with non-explosive Atmosphere desirable, the delivery time such to limit that the Abwsserförderpumpe permanently in the wastewater remains immersed.

There is also a problem that the devices that a maximum wastewater level in the sewage collection shaft capture and arranged above the sewage pump are, for an accurate detection even over a long period of operation not continuously into the sewage should be immersed.

To achieve that, on the one hand, after reaching a maximum Sewage mirror the detection devices completely be released, but on the other hand excluded is that the sewage pump also exposed it is when installing conventional sewer manholes required, the optimal delivery time the sewage pump by an installer with the help to determine a stopwatch. The optimal delivery time is et al depending on the back pressure against which the sewage pump removes the wastewater. Is a low back pressure on, the delivery time is shorter, at higher back pressures increases the funding period. Also an inflow of Waste water when the pump is activated influences the optimal delivery time.

The procedure described is disadvantageous for several reasons. First, the delivery time must be determined manually and the Pump be programmed accordingly. Besides, it can happen that during the installation of the sewer manhole a back pressure of "zero" to "maximum" can not be applied is, so that the determination of the promotion time with a certain uncertainty is afflicted.

On this basis, the present invention has the object underlying, a sewer manhole as known presupposed way of creating with the reliable and optimal delivery time can be determined with little effort is.

This object is achieved in that a Pump control, a timing device and a pressure sensing device is provided, wherein with the timing device a period of time between the detection of two corresponding to different heights of the wastewater level, predetermined pressure values can be measured, depending on the duration of the measured time of the Pump control can be specified.

The wastewater collection shaft according to the invention allows the determination an optimal conveying time without manual intervention. In principle, the amount of time that is necessary to lower the sewage level by a certain amount determined and on the basis of this period determines the funding period. The beginning and the end of the mentioned period correspond to the acquisition of predetermined pressure values, the different heights of the sewage level correspond.

The delivery time may be during installation and / or maintenance be predeterminable of the sewage collection shaft. This funding period can for the further operation of the sewage collection shaft to be maintained without changes. Here, the funding period correspond to a multiple of the measured time duration.

It is particularly advantageous if the delivery time in dependence changeable from a respective last measured time duration is. This allows it without manual intervention the funding period corresponding to a changing, at the Sewage pump adjoining applied back pressure. In this case, successive measurements can also each be considered proportionally.

The pressure sensing device may include a ram bell and / or have a back pressure hose. This has the Advantage that no electrical components with the explosion hazard Atmosphere come into contact.

Furthermore, the pressure sensing device may include a dynamic pressure sensor, a differential pressure sensor and / or a pressure switch, esp. Have a pressure switch with hysteresis. These sensors or switches can the Staudruckglokke and / or downstream of the dynamic pressure hose, wherein the switches or sensors in a non-hazardous Environment should be arranged.

The pressure sensing device or the switches or sensors can be electrical or via radio with the pump control communicate. The use of a radio link has the advantage that the pump control on one further distant location of the sewer manhole is.

The invention further relates to a method for operating a Wastewater collection tray.

Figur 1 -

eine schematische Seitenansicht eines Abwassersammelschachts,

Figur 2 -

einen Ausschnitt der Seitenansicht gemäß Figur 1, wobei die Druckerfassungsvorrichtung einen Druckschalter aufweist,

Figur 3 -

eine der Figur 2 entsprechende Ansicht, wobei die Druckerfassungsvorrichtung einen Differenzdrucksensor aufweist.

Hereinafter, preferred embodiments of the invention will be described in detail with reference to the drawings. Show it:

FIG. 1 -

a schematic side view of a sewer manhole,

FIG. 2 -

FIG. 2 shows a detail of the side view according to FIG. 1, wherein the pressure-sensing device has a pressure switch,

FIG. 3 -

a view corresponding to Figure 2, wherein the pressure sensing device comprises a differential pressure sensor.

According to FIG. 1, a wastewater collecting shaft 2 is provided, which is arranged below a cover 2a. Within the sewage collection shaft 2 wastewater 4 can be collected which forms a sewage level 6. The room 8 above the sewage level 6 is at risk of explosion.

The waste water 4 is the sewage collection shaft 2 by a Supply line 10 supplied. In the collected wastewater 4 dives at least partially a sewage pump 12 a. These has a volute 14, which always in the waste water. 4 should be immersed. The pump 12 is over a Flange 16 in an anchoring area 18 in the ground 20th attached.

The pump 12 is followed by a drain line 22, wherein vary the voltage applied in the drain line back pressure can.

Above the sewage level 6 within the sewage collection shaft 2, a dynamic pressure bell 24 is arranged, the via a dynamic pressure hose 26 with a switching / sensor device 28 communicates. The device 28 communicates with a pump control 30.

In FIG. 2, one of the units 28 according to FIG. 1 is corresponding Unit 28a with a hysteresis pressure switch shown.

The unit 28a has a housing 28b having an interior 28c, in which two mutually adjacent, gas-tight diaphragm 28d and 28e are provided. The membranes 28d and 28e define a membrane space 28f. Through the membrane 28e is a downstream switch 28g operable, the 28h from the housing of a adjacent pump control 30a is isolated.

The interior 28c of the unit 28a is above a housing neck 28i with the illustrated back pressure hose 26a in communication with the lower end the ram bell 24a is connected.

In case of damage of the diaphragm 28d can be explosive Mixture, the via the back pressure hose 26 a the interior 28c is supplied by a laterally arranged Channel 28j are derived.

Only indicated in FIG. 2 is a second unit 28k, which corresponds in structure to the unit 28a. With such a second unit may have another, not shown back pressure bell of the sewage 6th be detected. Such a second device 28k may be off Be provided for security reasons, a redundant arrangement to accomplish.

With reference to FIG. 3, the unit 28 according to FIG Differential pressure sensor 281 formed. This has a housing 28m, filled with a potting compound 28n is. The housing 28m has a first housing socket 28o on, via a back pressure hose 26b with a back pressure bell 24b communicates. The housing 28m has a second housing port 28p, at the simple ambient pressure is applied. Inside the potting compound 28n is a differential pressure sensor element 28q is provided which is suitable is, a differential pressure between the at the housing neck 28p and the housing stub 28o applied pressure to capture. The differential pressure sensor element 28q is above a downstream board 28r and electrical lines 28s with a pump control 30b in conjunction.

The following is the installation and operation of the sewage collection 2 will be described. For this purpose are in Figure 1 different levels or heights of the sewage level 6 with "0" to "IV" indicated.

When the waste water 4 has an upper level denoted by "0" reached, located in the pressure tube 26 a corresponding Pressure on, which can be detected with the unit 28. at Reaching this uppermost level "0", the pump becomes 12 switched on, so that the sewage level 6 decreases. there correspond to the water level heights "I" and "II" predetermined pressure values. The length of time between the Capture this with water level heights "I" and "II" corresponding Pressure values elapsed, can with the help of a (not shown) Zeitmeßvorrichtung be measured. This time is for example 5 seconds. It is dependent from the applied in the drain line 22 back pressure, against the pump 12, the wastewater 4 convey off got to. Based on the measured time duration can now, for example with the help of a predetermined multiplier, the entire funding period will be determined. When the pump 12 be turned off when reaching a water level "III" should, the measured time duration with a factor Multiplied by "2". Should be a "IV" designated Sewer 6 should be achieved, the measured Time multiplied by a multiplier of "3" become.

Of course, the switching on of the pump 12 also upon reaching the height "I" of the sewage level 6 initiated become. In this case, the highest level, from the sewage pump 12 is turned on, the highest height of the heights, the given pressure values correspond. In this case, turn on the sewage pump 12 and the beginning of the measurement of the duration between the detection of heights "I" and "II" of the sewage level 6 together.

With the described method, the sewage collection shaft 2 can be put into operation without a manual Intervention by an installer is required. Especially However, it is advantageous if the delivery time can be changed is. This will be explained below by way of example be explained.

Is at a first measurement between the heights "I" and "II" of the sewage level 6, the measured time, for example 5 sec., This measured time can be increased by one predetermined multiplier, for example multiplied by "3" 15 seconds in total receive. After this promotion time, the pump is 12th switched off. If the sewage level 6 then again rises to the height "I", the pump 12 is turned on and the time to reach the height "II" can again be measured. Should the duration of this second Measurement equal to the time duration of the first measurement is no change in the funding period required. Is the Time duration of the second measurement shorter than that of the first Measurement, this second measurement of delivery time can directly be based on. For example, at the second Measure the duration 4 sec., So that at a multiplier of "3" a funding period of 12 seconds determined can be. This ensures that the Back pressure bell 24 completely exposed from wastewater 4 can be.

If, however, due to a higher back pressure in the Drain line 22, the measured time duration of the second measurement is longer than the first measurement, so the Duration of the second measurement not readily the delivery time be used without the risk of that is pumped off too long, resulting in an exposure of the Spiral housing 14 of the sewage pump 12 could lead. To minimize this risk, the second, longer Time period initially considered only proportionately. At a arbitrary share factor of, for example, 50% a measured first time of 5 seconds and a measured second period of 10 sec. would be a new one Initially only a period of 7.5 sec become. These 7.5 seconds will be used to determine the Funding time with the o.g. Multiplier multiplied.

Now if in a subsequent, third measurement a shorter duration, this may be as above again directly based on the new funding period become. Is the time duration of the third measurement the same? the duration of the second measurement, this can be maintained become. When the time of the third measurement is longer than that of the second measurement, for example, 12.5 sec., can be the duration of the second and the third Measurement in turn be taken into account proportionally, what with a 50% share in a subsidy period of 10 sec. This funding period would be in turn with multiply by the given multiplier.

Claims (14)

Sewer collecting shaft (2), esp. With explosive atmosphere (8) above the waste water level (6), wherein in the waste water (4) at least one sewage pump (12) is immersed, wherein the sewage pump (12) in response to an upper level (0 ) of the waste water level (6) can be switched on and switched off again after a delivery time,
characterized in that a pump control (30), a time measuring device and a pressure detecting device (24; 26; 28) is provided, wherein the time measuring device corresponding to a time period between the detection of two different heights (I; II) of the waste water mirror (6), predetermined pressure values can be measured, depending on the measured time duration, the delivery time of the pump controller (30) can be predetermined. Sewer collecting shaft according to claim 1,
characterized in that the delivery time in an installation and / or maintenance of the sewage collection shaft (2) can be predetermined. Sewer collecting shaft according to claim 1 or 2,
characterized in that the conveying time is equal to a multiple of the measured time duration. Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the conveying time is variable as a function of a respective last measured time duration. Sewer collecting shaft according to claim 4,
characterized in that for the change in the delivery time, the respective last measured time duration is only partially taken into account. Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the pressure-detecting device (24; 26; 28) comprises a dynamic pressure bell (24) and / or a dynamic pressure hose (26). Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the pressure sensing device (24; 26; 28) comprises a dynamic pressure sensor. Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the pressure sensing device (24; 26; 28) comprises a differential pressure sensor (281). Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the pressure sensing device (24; 26; 28) comprises a pressure switch (28a), esp. a pressure switch with hysteresis. Sewer collecting shaft according to at least one of the preceding claims,
characterized in that the pressure sensing device (24; 26; 28) communicates electrically and / or by radio with the pump control (30). Method for installing and / or operating a wastewater collection well (2) with a potentially explosive atmosphere (8) above the wastewater level (6), in particular a wastewater collection well (2) according to at least one of the preceding claims, wherein a wastewater effluent (4) submerged pump (12), wherein the sewage pump (12) in response to an upper level (0) of the waste water level (6) is switched on and off again after a delivery time, characterized by the following steps: two pressure values are given which correspond to different heights (I, II) of a wastewater level (6), the sewage pump is switched on when reaching the upper level (0) of the wastewater mirror (6), the time duration between the detection of the predetermined pressure values corresponding to the different heights (I; II) of the wastewater mirror (6) is measured, the delivery time is specified as a function of the measured time duration. Method according to claim 9,
characterized in that the upper level (0) of the waste water level (6) is equal to the upper level (I) of the heights (I; II) of the waste water level (6) corresponding to a predetermined pressure value. Method according to claim 9 or 10,
characterized in that the delivery time is adjusted on the basis of successive time duration measurements according to the following rule: if the time duration of a second measurement is equal to the time duration of a first measurement, the delivery time is not changed, if the time duration of a second measurement is shorter than the time duration of a first measurement, the delivery time is adjusted as a function of the time duration of the second measurement, if the time duration of a second measurement is longer than the time duration of a first measurement, the delivery time is adjusted as a function of the time durations of the first and the second measurement. Method according to claim 11,
characterized in that the periods of the first and the second measurement are taken into account in accordance with a predeterminable, in particular variable proportions ratio.

Images