DE3741437A1 - Headwater-controlled throttle device for the regulated run-off of built-up quantities of water, especially quantities of sewage - Google Patents

Abstract

The invention relates to a throttle device for quantities of water running out of a build-up space having an outflow orifice. Guided in front of the outflow orifice is a slide plate, to which a float lever having a float is connected. The slide plate is designed so that the outflowing quantity of water is constant. The float lever is arranged in the outflow direction and orthogonally to the slide plate and acts on the slide plate, with transmission members being interposed. An elongate build-up space, without the need for a special design, can thereby be brought about. <IMAGE>

Description

The invention relates to a surface-controlled throttle Direction for the regulated drainage of accumulated water quantities, especially waste water quantities, from one storage space with one Outlet opening and one depending on which is in the traffic jam operating water level in front of the outlet opening tion moving slide plate, which over a to a stationary Swivel axis swivel-mounted float lever with a Float is actuated, the slide plate so out forms is that the released cross in each case water flow is constant.

Such a throttle device is known, in which the slide plate above the outlet opening pivotable ge is stored. In this known construction, the Aus barrel opening formed by a pipe socket, which in the Storage space protrudes and there is a bracket for the bearings shaft of the slide plate carries. On this bearing shaft is the Float lever attached in a rotationally fixed manner, like the slider plate in a parallel arrangement to the outlet opening, consequently transverse to the outlet direction of the water flow. These Transverse arrangement of the far-reaching float lever requires a special training of the storage space or a special, additional shaft structure in which the transverse movement of the swim mers can take place with a float lever. The retention basin inevitably builds relatively wide. That bothers in confined spaces th spatial conditions (see. DE-OS 25 23 942). - Here she wants Invention to remedy the situation.

The invention has for its object a oberwasserge controlled throttle device of the type described above  create which for use in a narrow storage space,

e.g. B. storage channel is suitable and their installation is not particularly additional structure (shaft) required.

The invention solves this problem with a generic one Throttle device in that the float lever in off running direction and orthogonal to the slide plate is arranged and with the interposition of be by the float lever made transmission links between pivot axis and shooting works on the slide plate. - These measures have the consequence that the sequence regulation according to the invention does not require any special building measures because they are can be mounted directly in any usual storage space. Here is an easy assembly by, for example, dowelling to the existing building construction possible. The storage space or him forming retention basins can remain elongated stay does not require excessive width expansion.

Further features essential to the invention are set out below guided. So the invention teaches that the slide plate one depending on a given constant discharge water Quantity of panel cutout determined according to shape and size having. This panel cutout can be easily in the As part of a computer program developed for this purpose of the specified amount of discharge water and operation determine the water level difference. For any particular outlet amount of water and each maximum service water level before The outlet opening is the use of a special slide plate required. The slide plate is easy to replace possible if the specified amount of outlet water and / or  Reservoir height or the maximum service water level in the storage space change. This also applies considering any Cross sections for the outlet opening. With the panel cutout can be a closed or open neckline act. - The float lever is preferably a double lever trained and both lever arms are on the pivot axis a pivot shaft forming the pivot axis is rotatably attached arranges. No matter whether the float lever is one or two Has lever arms, the lever arms are expediently long mutable, e.g. B. as telescopic lever arms det. Consequently, the can be at different accumulation levels Stroke of the slide plate by changing the length of the lever keep arms constant. But there is also the possibility regulate the stroke by varying the lever arm length. Around the simplest possible and functional drive the mechanism for the slide plate sees Invention before that the transmission members as a tooth segment and rack are formed, wherein the toothed segment rotate firmly attached to the swivel shaft of the float lever and the rack is connected to the slide plate. The For its part, the slide plate is preferably connected to a vertical one Slider linkage connected with spindle / nut drive. Always the ratios are chosen so that the spindle / nut drive the stroke movements of the slide plate by the float lever due to different operating water levels. In fact, the spindle / nut drive serves the slide plate can also be operated manually from the outside, for example wisely by means of a handwheel or a slide key, to use the slide plate as an emptying slide can. This is for example in the case of malfunctions, constipation  or wanted rapid emptying advantageous. Because different the storage space or the retention basin must have a special one Emptying slide out for at least cases of constipation be prepared. - The rack can on the slide linkage be attached. The transmission links and swivel shaft are preferably in a protective housing made of sheet steel or Plastic arranged and protected against pollution. in the the rest can be maintenance-free plastic bearings for the contractor use the drive mechanism.

In the following, the invention is based on only one Exemplary embodiment of the drawing explained in more detail; show it:

Fig. 1 is a vertical section channel with an inventive head-water your d th by a storage space and flow throttling device,

Fig. 2 is a plan view of the subject of Fig. 1 and

Fig. 3 shows an enlarged section of the object of FIG. 1 in supervision of the slide plate.

In the figures, an upper water-controlled Drosselvorrich is processing for the regulated flow of accumulated amounts of water, esp. Sewage volumes, from a storage 1 with an off-running opening 2 and an adjusting function of which space in the reservoir 1 operating water level S in front of the outlet opening 2 parallel moving Slider plate 3 shown. The slide plate 3 can be actuated by a float lever 5 pivotably mounted about a fixed pivot axis 4 with a float 6 . Furthermore, the slide plate 3 is designed so that the water flow through the released cross section is independent of the respective operating water level S constant. The float lever 5 is arranged in the outlet direction and orthogonal to the slide plate 3 . The float lever 5 operates with intermediate switching device operated by the float lever 5 transmission links 7 , 8 between the pivot axis 4 and slide plate 3 on the slide plate. The slide plate 3 has a plate cutout 9 determined as a function of a predetermined constant outlet water quantity according to shape and size. The float lever 5 is designed as a double lever. Both lever arms are arranged on the pivot axis side on a pivot shaft 4 forming the pivot axis in a rotationally fixed manner. The float lever 5 is variable in length or has variable-length lever arms, for. B. telescopic lever arms. The transmission elements are formed as a toothed segment 7 and 8 rack. The toothed segment 7 is fixed in a rotationally fixed manner on the swivel shaft 4 of the float lever 5 , the toothed rack 8 is connected to the slide plate 3 . A vertical slide linkage 10 with a spindle / nut drive 11 and a handwheel 12 is connected to the slide plate 3 . The rack 8 is attached to the slide linkage 10 . At least the transmission members 7 , 8 and the pivot shaft 4 are arranged in a Schutzge housing 13 which has the bushings 5 required for the slide linkage 10 and the float lever.

Claims (8)

1. Upper water-controlled throttle device for the regulated discharge of pent-up water quantities, in particular wastewater quantities, from a storage space with an outlet opening and a slide plate that moves in front of the outlet opening depending on the operating water level that is set in the storage space and that can be pivoted via a fixed swivel axis Bearing float lever can be actuated with a float, the slide plate being designed so that the amount of water flowing through the discharge cross section, which is released because it is constant, is characterized in that the float lever ( 5 ) is arranged in the outlet direction and orthogonally to the slide plate ( 3 ) and with the interposition of transmission elements ( 7 , 8 ) actuated by the float lever ( 5 ) between the pivot axis ( 4 ) and slide plate ( 3 ) on the slide plate ( 3 ). 2. Throttle device according to claim 1, characterized in that the slide plate ( 3 ) has a determined in dependence on a predetermined constant amount of discharge water Plat tenausschnitt ( 9 ). 3. Throttle device according to claim 1 or 2, characterized in that the float lever ( 5 ) is formed as a double lever and both lever arms on the pivot axis side on a pivot shaft forming the pivot shaft ( 4 ) are rotatably angeord net. 4. Throttle device according to one of claims 1 to 3, characterized in that the float lever ( 5 ) length-variable lever arms, z. B. has telescopic lever arms. 5. Throttle device according to one of claims 1 to 4, characterized in that the transmission members as a toothed segment ( 7 ) and rack ( 8 ) are formed, the toothed segment ( 7 ) rotatably on the pivot shaft ( 4 ) of the floating lever ( 5 ) attached and the rack ( 8 ) is connected to the slide plate ( 3 ). 6. Throttle device according to one of claims 1 to 5, characterized in that the slide plate ( 3 ) in exten tion of the rack ( 8 ) to a vertical slide linkage ( 10 ) with spindle / nut drive ( 11 ) is connected. 7. Throttle device according to one of claims 1 to 6, characterized in that the rack ( 8 ) on the slide rod ( 10 ) is attached or forms part of the slider rod. 8. Throttle device according to one of claims 1 to 7, characterized in that the transmission members ( 7 , 8 ), the pivot shaft ( 4 ), the slide linkage ( 10 ) and the spindle ( 11 ) are arranged in a protective housing ( 13 ).