DE19916964A1 - Collector device for rainwater and waste water has retainer channel containing full-length mixed water channel with perforations in upper section - Google Patents

Abstract

The device has a retainer channel (1) with intake, overflow shaft with relief channel, and outlet. A mixed water channel (10) extends through the retainer channel from intake to outlet. The mixed water channel has perforations (11) of given sizes. The perforations are located in an upper channel section above a lower non-perforated section. The mixed water channel is fastened to the wall of the retainer channel. Both channels are constructed from plastic pipe sections, which are glued together.

Description

The invention relates to a restraint system for low Whipped water and waste water with a storage channel an inlet with an overflow shaft on the inlet side Relief channel and with a spout for storage space channel.

In such restraint systems, the storage space channel is used for Intake not only of wastewater, but also in particular rainwater and consequently rainwater. At heavy rain events will result Mass of water dammed up in the storage space channel. Here is the Storage space designed so that a defined outlet always a constant wastewater flow to a sewage treatment plant running. Any masses of water that accumulate are also supplied jams and in the event of a maximum traffic jam being exceeded volume derived. To drain this water mass is the overflow shaft is provided with the relief duct, the the overflowing water to a trough or a Tees off water. This teeing water should be as possible be cleaned of rough contaminants to the environment not burden unnecessarily. That is with known re holding systems realized, for example, that heavy Contaminants sink to the bottom of the storage space channel and not at all due to a high overflow threshold of the overflow shaft can escape. The Suspended substances should predominantly use a baffle be held back. Nevertheless, it cannot be prevented that a certain percentage of the accumulated suspended matter escapes and inflowing suspended matter from the inlet  area to be relieved. At even Overflow thresholds are tried with the help of Loosen grids that hold back the suspended matter but should let the tapping water through. Such Measures are hardly suitable for round overflow shafts.

The invention has for its object a retention plant to the embodiment described above create with which suspended and / or contaminants not or at most minimally into the storage space channel long.

To achieve this object, the invention teaches that A mixed water channel through the inlet to the outlet Storage channel and the mixed water channel Has perforations of a predetermined size. - This measure took the invention have the consequence that the normal Waste water flow essentially through the mixed water channel is passed without water from the mixed water channel in enters the storage space channel. Only when there is more water due to major rain events, water leaks through the Perforations of the mixed water channel in the storage space channel out. However, suspended matter and / or dirt fabrics due to the relatively small perforation or perforation of the mixed water channel. Apart from that through these measures according to the invention the storage space channel is kept relatively clean, receives the downstream one Wastewater treatment plant continues the coarse contamination of the Wastewater in concentrated form, so that the quality of the Waste water can be kept relatively constant. Is at the restraint system according to the invention the maximum traffic jam  volume of the storage space channel exceeded, so reached now only such water over the overflow shaft in the environment, which is essentially cleaned of dirt has been. The result is an environmentally friendly Drainage system for restraint systems implemented.

According to a preferred embodiment, the mixed water channel at least in the area of the mixed water channel deepest unperforated duct wall area and above the unper perforated duct wall area a perforated duct wall area on. Through the imperforate duct wall area consequently a river bed for wastewater is realized. At Such an arrangement ensures that actual no waste water from the mixed water channel into the traffic jam room channel can enter as long as it is a normal one Wastewater flow. Rather, it only becomes special at heavy rain events through the perforation of the Mix water channel into the actual storage space channel This is achieved by using a mixed water channel with a Diameter is used that is larger than the diameter of the enema. Also, the sum of the cross cuts of the perforations may be larger than the cross section of the enema. The perforated duct wall area can be over a range of about 1/3 to 2/3 of the mixed water extend channel circumference.

Further measures essential to the invention are as follows listed. So the mixed water channel can be perforated Be fully tubular. But there is also the possibility Lichity that the mixed water channel from a perforated Half pipe or partial pipe and the associated duct wall of the  Storage channel is formed. Then the unper Forced duct wall area from the assigned duct wall of the storage space are formed while the perforated Half pipe or partial pipe the perforated duct wall area forms. In this context there is a possibility that the mixed water channel deep in the storage channel or in a traffic jam highest channel or in the area between storage space deepest and highest is laid. The mixed water channel is preferably with the channel wall of the storage space channel in connection, z. B. attached to it. Further The invention provides that the mixed water channel as usually the storage space channel made of plastic pipe sections is built that is not only adhesively bonded to each other and are preferably welded, but also with the Storage channel or its channel wall, so that a Wall-free fixation of the mixed water channel in the storage space channel is guaranteed, even in the area of Storage space channel highest or in the area between traffic jams deepest and highest in room channels.

The perforations can be circular or oval be, with a diameter of 6 mm to 20 mm recommends. This ensures, on the one hand, that levitation substances and / or contaminants are retained, for others will clog or clog the perforations prevented by the suspended matter and / or contaminants.

In the following, the invention is based on only one Embodiment showing drawing he closer purifies. Show it:  

Fig. 1 is a restraint system of the invention in a schematic vertical section tischem,

Fig. 2 shows an enlarged detail of the storage channel,

Fig. 3 is a vertical section through the article of Fig. 2,

Fig. 4 shows a modified embodiment of the subject of Fig. 3 in a schematic representation;

Fig. 5 shows another modified embodiment of the object of FIG. 3 in a schematic Dar position, and

Fig. 6 shows a further modified embodiment of the object of FIG. 3 in a schematic Dar position.

In the figures, a retention system for mixed water from wastewater and rainwater is shown, the basic structure of which has a storage space channel 1 with an inlet-side overflow shaft 2 and an outlet-side throttle shaft 3 , the overflow shaft 2 having at least one inlet 4 , an overflow threshold 5 and a discharge channel 6 and the throttle shaft 3 Drosseleinrich lines 7 . Furthermore, the storage space channel 1 has an outlet 8 leading to the throttle shaft 3 , which in turn is equipped with an outlet channel 9 (cf. FIG. 1).

From the inlet 4 of the storage channel 1 to its outlet 8, a mixed water channel is led through the storage space 1 channel 10th This mixed water channel 10 has perforations 11 of a predetermined size (cf. FIG. 2).

Fig. 3 to 6 show that the mixed water channel 10 in the area of the mixed water channel deepest an imperforate channel wall area and above the imperforate channel wall area has a perforated channel wall area.

In the exemplary embodiments according to FIGS. 4 to 6, the mixed water channel 10 is formed as a perforated solid tube 12 . In the embodiment according to FIG. 3, the mixing water channel 10 is formed by a perforated half pipe 13 and by the associated channel wall of the storage space channel 1 .

A comparison of FIGS. 4 to 6 shows that the mixed water channel 10 spatial channel deepest in the deepest storage channel or storage channel highest or in the area between traffic jam and may be disposed -höchsten. According to the exemplary embodiment, the mixed water channel 10 is always connected to the channel wall of the storage space channel 1 and is fastened to it.

The mixed water channel 10 and the storage channel 1 are made of plastic pipe sections, which are welded together, so that a proper fixation of the mixing water is ensured in the storage channel 1 channel 10, even when the mixed water channel 10 is channel-highest in the region of the storage space.

Claims (7)

1.Retention system for rainwater and waste water with a storage space channel with an inlet, an inlet-side overflow shaft with relief channel and with an outlet for the storage space channel, characterized in that from the inlet ( 4 ) of the storage space channel ( 1 ) to its outlet ( 8 ) a mixed water channel ( 10 ) is guided through the storage space channel ( 1 ) and the mixed water channel ( 10 ) has perforations ( 11 ) of a predetermined size. 2. Restraint system according to claim 1, characterized in that the mixed water channel ( 10 ) at least in the area of the mixed water channel deepest an imperforate channel wall area and above the imperforate channel wall area has a perforated channel wall area. 3. Restraint system according to claim 1 or 2, characterized in that the mixed water channel ( 10 ) is designed as a perforated solid tube ( 12 ). 4. Restraint system according to claim 1 or 2, characterized in that the mixed water channel ( 10 ) by a perfo-cut half pipe ( 13 ) or partial pipe and the associated channel wall of the storage space channel ( 1 ) is formed. 5. Restraint system according to one of claims 1 to 4, characterized in that the mixed water channel ( 10 ) is laid deepest in the storage space channel or in the storage space channel highest or in the area between storage space channel deepest and highest. 6. Restraint system according to one of claims 1 to 5, characterized in that the mixed water channel ( 10 ) with the channel wall of the storage space channel ( 1 ) is connected, for. B. is attached to it. 7. Restraint system according to one of claims 1 to 6, characterized in that the mixed water channel ( 10 ) and the storage space channel ( 1 ) are constructed from plastic pipe sections which are adhesively connected to one another.