DE10316727A1 - Ventilation units for waste water treatment plant sewerage channels, each have ventilation head and are also used for e.g. advertising and road lighting - Google Patents

Abstract

Individual venting units, as illustrated in the disclosure, each have a ventilation head. They are put to diverse additional applications. These include advertising, road lighting, traffic cones or thermal protection units.

Description

The Invention relates to a ventilation system for sewage systems, especially for Sewer power supplies in which the waste water due to long periods of residence and lack of oxygen to form hydrogen sulfide and thus for unpleasant smells inclines.

The Required air exchange in the duct network is usually carried out by the openings in the inspection manhole covers and the ventilation ducts routed over the roof from house connections, due to from heat or wind-dependent Air pressure differences.

A number of ventilation hoods have been developed for the ventilation pipes routed through the roof. The vent head according to the invention is obvious DE 2451030 and the roof ventilation system DE 19756023 , Both systems were developed especially for roof ventilation, in which rain and snow penetration is prevented by an appropriate cap construction.

Out However, this necessary construction results in the disadvantage that no congestion-free flow out the exhaust air takes place and thus the ventilation effect is relatively low is.

All in all this ventilation method works however only if there is a sufficiently strong wind temperature gradient between the air in the sewage system and the outside air is available. Especially in the summer months when the outside temperature is higher than the temperature in the sewage system and the wind only weak blowing is proper ventilation not safe. In sewer power supplies with unfavorable drainage conditions This leads to the formation of hydrogen sulfide. Are particularly at risk Sewers, the outside the buildings and their ventilation only over the openings the manhole cover is made. If the dynamic air pressure even in wind same in the area of the manhole covers belonging to the sewage pipe is great there will be no ventilation to adjust. Appropriate are to achieve air circulation High points required. Also in residential or recreational areas, with one low building height and partially protected by tree cover, is the effectiveness of ventilation insufficient.

The Invention specified in claim 1 is based on the object a ventilation system to create where, by combining the use of wind, Sun and electrical energy designed and various devices the different spatial conditions be adjusted. This object is achieved by those mentioned in claim 1 characteristic features solved.

The Advantages achieved with the invention are that simple Devices have been created that improve the effectiveness of wind-dependent ventilation and when there is no wind, the function of ventilation by electrical or solar energy is secured. To be an inexpensive ventilation to be able to realize were the devices for multi-purpose use as a street lamp, Advertising display or as a heat protection device designed. Further advantageous configurations are mentioned in the subclaims.

The Individual devices of the invention are shown in the drawing and will be discussed in more detail below described:

It demonstrate:

1 Front view as a partial section of the ventilation device I

2 Side view as a partial section of the ventilation device I

3 Section of ventilation device II

4 Section of the ventilation device III - embodiment I

5 Section AA of the ventilation device III - embodiment I

6 Section of the ventilation device III - embodiment II

7 Front view of the ventilation device IV

8th Side view of the ventilation device IV

9 Section detail X

The ventilation devices I to IV of the ventilation system must have at least one ventilation head ( 1 ) equipped. The vent head ( 1 ) consists of the ventilation pipe ( 2 ), the air ring arranged on it ( 3 ), the bracket ( 4 ) and a cap ( 5 ), which consists of two composite conical shells.

In the space between the air duct ( 2 ) and the cap ( 5 ) of the vent head ( 1 ), whose cross-sectional area and principle of action are comparable to a Venturi nozzle, an air flow takes place at right angles to the longitudinal axis of the ventilation pipe when the wind occurs ( 2 ). This results in the ventilation pipe ( 2 ) a pressure drop, whereby exhaust air is extracted from the sewage system. Furthermore, when exhaust air rises in the ventilation pipe ( 2 ) due to temperature differences, due to the conical cap ( 5 ) a jam-free exit possible. The disadvantage here is that dripping or rainwater into the ventilation pipe ( 2 ) can penetrate. However, since it is a matter of venting sewage systems, this is perfectly acceptable.

The ventilation device I (designed as an advertising display) 1 u. 2 ) essentially consists of the ventilation heads ( 1 ), at least one board ( 6 ), the box-shaped cladding ( 7 ), the flow channels ( 9 u. 10 ), the mast serving as a ventilation pipe ( 11 ) with the base ( 12 ), the foot with the connecting piece ( 13 ) and the metal construction ( 14 ). For double-sided advertising, an additional board ( 6 ) are attached.

The ventilation device I is a combined use of wind and solar energy. Ventilation normally takes place when there is wind or when exhaust air rises due to different temperatures in ventilation device I, via the ventilation heads ( 1 ), as well as via the closed flow space emerging from the flow channels ( 9 u. 10 ), the space serving as a solar collector ( 8th ) and the mast ( 11 ) with the connector ( 13 ) consists. If the outside temperature is high and there is no wind, ventilation is ensured by solar energy. The table heats up strongly through the sun ( 6 ), or the cladding ( 7 ) if the board ( 6 ) consists of a translucent material. By giving off the heat to the air in the room ( 8th ), a vertically upward air flow is triggered. The heated air passes through the flow channel ( 9 ) and the ventilation heads ( 1 ) to the atmosphere. Due to the resulting negative pressure, exhaust air flows in from the sewage system.

Main parts of the 3 Ventilation device II shown as a street lamp are the modified ventilation head ( 1 ) with the cap ( 5 ) as a cover ( 15 ) of the lamp body ( 17 ) designed air duct, the lamppost serving as a ventilation pipe ( 16 ) with the mast base ( 18 ), the electrically driven fan ( 19 ) and the foot with ventilation connection piece ( 20 ). Electrical lines, the control part and the illuminants were not shown in the drawing.

With ventilation device II, wastewater systems are normally ventilated like ventilation device I via the ventilation head ( 1 ), by wind energy or by temperature-dependent rising of exhaust air from the sewage systems. Only in the summer months, when the outside temperature is high and the wind speed is very low, is ventilation done by the electrically driven fan ( 19 ). The control of the fan ( 19 ) is preferably carried out centrally for several ventilation devices II automatically, depending on the temperature and wind.

For special use cases can the ventilation device II also without fan getting produced.

Like the ventilation device I, the ventilation device III designed as a cone is a combined use of wind and solar energy, which ensures the necessary height difference to the wind-dependent ventilation in the absence of buildings and high points. The common main parts of the embodiments I u. II, shown in 4 . 5 u. 6 , are the vent head ( 1 ), the conical housing ( 21 ), which has a bowl-shaped partition ( 22 ) is connected in such a way that the solar collector ( 23 ) forms by the warming of the exhaust air taking place in the sun and thus triggering the ventilation. The delimitation of the solar collector ( 23 ) downwards in embodiment I through a crescent-shaped bottom ( 24 ) in which the flow channel ( 25 ) that opens with the connecting piece ( 26 ) connected is. Embodiment II is designed so that it is directly on a manhole cover ( 30 ) is mounted. Accordingly, profile struts ( 29 ) arranged with which the device on a manhole cover ( 30 ) can be attached. With the base plate ( 28 ) the room ( 32 ) by separating the exhaust air from the shaft through the openings in the shaft cover ( 30 ) enter and across the room ( 24 ) can flow out. In order to ensure the stability of the ventilation device III, the flap ( 31 ) arranged.

As with the ventilation device II, the material selection for the solar collector ( 23 ) decides on the ventilation effect when exposed to the sun. Optimal efficiency is achieved if the conical housing ( 21 ) in the area of the solar collector ( 23 ) made of translucent and the partition arranged behind it ( 22 ) is designed in black. However, the basic use of opaque material that is as dark as possible is less expensive, with lower efficiency.

The ventilation device III can be used for applications in which the efficiency of the outlet solar energy plays a subordinate role, even without an internal partition ( 22 ) are manufactured. In this configuration, the entire interior of the cone forms the flow space.

The in the 7 u. 8th Ventilation device IV shown was arranged with the double function as a heat protection device under the roof of a building. Its main parts are the breather head ( 1 ), the ventilation pipe ( 32 ), which is in the solar collector ( 35 ) is integrated, which essentially consists of an airtight segment of the roof membrane ( 33 ) and the box-shaped cladding ( 34 ) composed. The components that enable a watertight connection of the ventilation pipe to the roof cladding have been omitted.

The Operation of the ventilation device IV resembles that of ventilation devices I and III. An additional one Benefit results from the fact that the exhaust air from the sewage systems the interior of the building in summer from strong heat radiation and in winter from the cold protects.

Claims (14)

Ventilation system for sewage systems, in particular for sewer networks, consisting of ventilation devices, the function of which is ensured by wind, electrical or solar energy, characterized in that the individual ventilation devices I to IV have at least one ventilation head ( 1 ) and are designed for multi-purpose use as advertising displays, street lights, cones or heat protection devices. Ventilation system for sewage systems according to claim 1 , characterized in that the vent head ( 1 ) is equipped with a cap ( 5 ), which is composed of two conical shells and a uniform air duct ( 3 ) which is axially from the ventilation pipe ( 2 ) is penetrated and attached to it. ventilation system for sewage systems according to at least one of the claims 1 to 2, characterized in that designed as an advertising display breather I, the ventilation device designed as a cone III and as a heat protection device designed ventilation device IV are each equipped with a solar collector. Ventilation system for sewage systems according to at least one of claims 1 to 3, characterized in that the ventilation device I with an opaque panel ( 6 ) is provided, which is used as an absorber of the solar collector. Ventilation system for sewage systems according to at least one of claims 1 to 4, characterized in that the panel ( 6 ) the ventilation device I is designed to be translucent and the cladding ( 7 ) is used as an absorber of the solar collector and as an advertising board. Ventilation system for sewage systems according to at least one of claims 1 to 5, characterized in that the mast ( 11 ) the ventilation device I is used as a ventilation pipe. Ventilation system for sewage systems according to at least one of claims 1 to 6, characterized in that the ventilation device II designed as a street lamp with a modified air duct ( 3 ) of the vent head ( 1 ) that comes out of the cover ( 15 ) and the lamp body ( 17 ) consists. Ventilation system for sewage systems according to at least one of claims 1 to 7, characterized in that the ventilation device II with an electrically driven fan ( 19 ) is equipped, which is controlled depending on the outside temperature and the wind strength. Ventilation system for sewage systems according to at least one of claims 1 to 8, characterized in that the light pole ( 16 ) is designed as a ventilation pipe of ventilation device II. Ventilation system for sewage systems according to at least one of claims 1 to 9, characterized in that the solar collector of the ventilation device III through the housing ( 21 ) and the partition ( 22 ) is formed. Ventilation system for sewage systems according to at least one of claims 1 to 10, characterized in that the housing ( 21 ) of the ventilation device III in the area of the solar collector consists of translucent material. Ventilation system for sewage systems according to at least one of claims 1 to 11, characterized in that the solar collector of the ventilation device III only through the housing ( 21 ), made of opaque material. Ventilation system for sewage systems according to at least one of claims 1 to 12, characterized in that the ventilation device III directly on a manhole cover ( 30 ) is attached. Ventilation system for sewage systems according to at least one of claims 1 to 13, characterized in that a sealed segment of the roof skin ( 33 ), forms part of the solar collector of the ventilation device IV.