EP1095219B1 - Inlet structure for pump installations - Google Patents

Abstract

The invention relates to an open or covered inlet structure having pumps arranged therein. To be able to reduce excavation and concreting works, the foundations of the inlet structure are positioned at a substantially higher level. Only at the point at which the pumps (2) and their inlet nozzles are mounted does the foundation plate have one or more recesses (7) into which the first impellers (2.1) of the pumps (2) are lowered.

Description

The invention relates to an inlet structure of a covered or open type or several pumps arranged in it, with semi-axial or axial flow, for use in power plants and / or in water management systems, wherein an inlet nozzle of a pump in an inlet chamber below Maintaining a ground clearance is arranged.

Such inlet structures are often used in pump systems where large quantities are to be extracted. For example in power plants or Plants for the irrigation or drainage of large areas of land need such Inlet structures meet certain conditions to meet the requirements placed on them To meet demands. In the essay "Influence of Cooling Processes and Inlet conditions for the construction of cooling water pumps for thermal power plants ", by A. Migod and H. Siekmann, KSB Technical Reports, No. 17, 1977, pages 25 to 45, the problem of such intake structures is described in detail.

US-A-1 476 210 shows various designs of such Inlet structures with pumps installed in them. It is clear from this that the Manufacture of such systems is of great importance to the building costs comes. The manufacturing costs of such a structure can be the pure Easily exceed the cost of a pump.

DE-B-21 37 637 describes the hydraulic problems in such Structures necessarily installed entrance chambers. By installation a baffle is intended to optimize the inflow to the inlet nozzle of a pump can be obtained. This is necessary, since it is predominant in an intake structure several inlet chambers are arranged. Depending on the Switch-on states of the pumps and the inlet conditions to the Inlet chambers therefore often result in inflow conditions, which are disadvantageous Can have effects on suction behavior.

It is an object of the invention for such intake structures with a variety of Pump and inlet chambers under optimization of the structural measures to achieve simultaneous improvement of the inflow conditions.

This problem is solved with the features of claim 1.

By arranging the pump with its inlet nozzle and / or part of it Housing in the recess ensures that one is attached to the inlet nozzle Adjacent first pump impeller in the intake structure at a deepest point is arranged. By arranging the inlet nozzle in a recess of the Floor area of the intake structure can be the total construction effort be significantly reduced. Excavation work and foundations for the inlet structure and the inlet chambers no longer have to be deep exhibit that was previously necessary. The same applies to inlet channels or channels, with which a medium to be pumped was fed to the pump. Instead is in a simple manner at the installation site of such a pump, for the building lowest point is only provided in the area of the inlet nozzle. Everyone dives with it Inlet of such pumps into a shaft, so to speak At the same time, the upper edge is the lower edge of a medium that brings the medium Basin or canal.

The arrangement of the pump inlet nozzle in such a recess results the additional benefit of improved inlet conditions for the first time Impeller of such a pump. The in usual intake structures due to the Variety of channels, inlet chambers and branches predominate Turbulence is compensated for by the directed inflow between the Depression and the pump part located therein.

Since the medium is pumped by the inflow between the wall surface Depression or the shaft and the pump part located therein better is the problematic inflow conditions in the known Inlet chambers compensated.

Smaller pumps with higher speeds can also be used Find use. The higher NPSH required for this is the simplest Way created by inexpensive production of the local depression, with what ultimately the cost of the pump and drive as well as the construction costs can be reduced many times over.

One embodiment of the invention provides that the pump has one or more stages Type is. This is an easy adaptation to the respective systems and their funding conditions possible. The inflow cross section between the Depression and the pump part located therein with inlet nozzle and the The length of the recess is so large that the pump both can be operated without cavitation, as well as in the sense of a high Efficiency losses are kept as low as possible.

Often used for drainage or irrigation purposes and large amounts of cooling water single-stage volute casing pumps with elaborate concrete spirals. This design shows a slight difference in height between the entrance level and Exit level on, but is much more expensive to manufacture. With the Solution according to the invention has the serious advantage that in a metal pump in the simplest way with very low on-site costs, for example, a pipe housing pump or a submersible pump Conveying shaft, are used in the field of volute casing pumps can. Through the simple recess into which the suction nozzle of a first Impeller is lowered, the remaining depth of the intake structure turn out to be much lower. This can be done to a considerable extent Excavation, securing and support work as well Save concreting costs.

An additional advantage results from the possible other constructive possibilities Training of such structures. The previously necessary large-scale inlet and inlet structures as well as a slight slope having long inlet or connection channels can be in your Reduce construction volume as well. It is sufficient at the respective place where one is too conveying medium arises, the arrangement of a correspondingly deep suction point for the pump to create it again using simple pressure lines to promote the respective destination.

Further embodiments of the invention see the transition between the Inlet chamber and the opening of the recess a streamlined Transition before. With a flow deflection, the formation of unfavorable whirling avoided. Also, depending on the length of the Pump this floating in the recess or with the interposition of Support elements may be arranged. This depends on the particular one Installation situation and the system conditions.

There are also one or more flow-carrying within the depression Arranged guide elements with the help of which the cavitation behavior is influenced.

According to other configurations of the invention, the depression consists of fully or partially prefabricated components. This can be precast concrete or for prefabricated components that can be used for such purposes.

Fig. 1

den schematischen Aufbau eines üblichen Einlaufbauwerkes, die

Fig. 2

ein Einlaufbauwerk mit Vertiefungen zur Aufnahme von Pumpen und die

Fig. 3-7

verschiedene Ausführungsformen der Vertiefungen und/oder Schächte.

Embodiments of the invention are shown in the drawings and are described in more detail below. They show

Fig. 1

the schematic structure of a conventional intake structure, the

Fig. 2

an intake structure with recesses for receiving pumps and the

Fig. 3-7

different embodiments of the depressions and / or shafts.

In Fig. 1, an inlet structure 1 is shown in a schematic representation, in which a pump 2 is arranged, which is a medium to be pumped from a Inlet pool 3 takes. The inlet basin 3 forms in the inlet structure 1 usually the lowest point of its foundation 4. The inlet basin or the inlet chamber 3, a fluid flows through open or closed channels 5, it being from a river, lake or basin 6 can be removed. A reference line that also applies to FIGS. 1 and 2 A symbolizes the beginning of channels 5 of the intake structure 1 starting in Fig. 2 is the reduction in the overall length of the intake structure clear.

The necessary for safe, cavitation-free pump operation To ensure coverage H and also to the corresponding To provide delivery quantities, the inlet basin 3 of FIG. 1 have a appropriate size and depth. This requires a great deal of effort excavation, concreting and foundation of the whole Inlet structure 1 with the associated channels 5.

In contrast, it can be seen from FIG. 2 that the inlet basin 3 for the Pump 2 is laid out very flat. Compared to the previous design according to Fig. 1, the foundation 4 can now be much less deep with the same overlap H. be arranged, whereby the on-site effort is less. Only in In the area of a pump 2, the inlet structure 1 has a local depression 7 for the Lowering of the first impeller. This recess 7, which has the shape of a Has shaft is in a simple manner in the manufacture of a To build intake structure 1. Their dimensions are chosen so that the Inflow to the pump is not affected.

Based on the lowest water level shown in FIGS. 1 and 2, the Foundation depths B 1 and B 2 of the intake structure 1 are shown. 2 is clearly that the foundation depth B 2 for the foundation 4 is significantly smaller on-site processing effort with the same pump performance required. There is a local depression only in the area where the pump is installed required. The recess 7 is with customary prefabricated components very little excavation and foundation work required. At the The location of the pump, especially at the location of its first impeller, is local recess 7 adapted to the pump diameter. The deepening is in simple way with the much less deep foundation 4 of Inlet structure 1 connected. Compared to the known embodiments the effort that was previously required to excavate and manufacture the large inlet basin 3 was necessary. Another saving Construction effort can be achieved by making the pumps closer to that Place from where the medium must be conveyed.

FIG. 3 shows an inlet chamber analogous to FIG. 2 on an enlarged scale. Starting from the one arranged significantly higher than in FIG. 1 Foundation 4 of a new inlet structure has the inlet chamber 3 in Area of the first impeller 2.1 of the pump 2 has a recess 7. One at the Pump 2 arranged inlet nozzle 8 is at a distance from the bottom 9 of this Well 7 arranged, the usual for better flow management Has inlet cone 10. This allows the foundation 4 of the intake structure Arrange 1 at a much higher level and only in the area of the first Pump impellers are each a local depression 7 that is easy to produce to be excavated and concreted.

FIG. 4 shows a top view of an inlet chamber according to FIG. 3 Inlet basin 3, two pumps 2 arranged side by side are shown here However, more or fewer pumps can also be used. The one from that at a higher reference level of the foundation 4 lying floor area of the Inlet chamber 3 has only local in the area where pumps 2 are installed arranged depressions or shafts 7. The shown with the arrows Pumped medium flows into the inlet chamber 3 at a higher level and then flows from above into the recesses 7. This is at the bottom of the depression Delivery medium deflected and flows through the inlet nozzle 8 into the pump 2 and flows off in the opposite direction. By choosing the length of the Well 7 can be necessary for the safe conveyance of the medium Height difference guaranteed in the form of the overlap H of the medium become. Cavitation-free pump operation is thus possible in a simple manner. For the purpose of better flow guidance, a is at the opening of the recess 7 streamlined transition 13 formed.

5 differs from the embodiment of FIG Fig. 4 in that here the pumps 2 and their associated recesses 7 in Flow direction of the medium are arranged one behind the other.

The embodiment in FIG. 6 points in relation to the embodiment in FIG. 3 a feed channel 5 and an inlet basin 3 in a covered version. Also 7 different guide elements 10, 11 are shown in the recess, with their Aid to influence the flow is possible. For those installation situations, where vibrations can be expected due to the dimensions, the Pump 2 through support elements 12 opposite the recess 7 or therein located internals 10, 11 are supported.

7 shows a top view of different ones arranged one inside the other Cross-sectional shapes of several possible depressions 7 shown. Out A cross-sectional shape is used because of the ease of manufacture find one that can be created easily and has good flow conditions having. When using a square or rectangular or round cross-sectional shape can optionally prefabricated concrete components Find the way they are used in pipeline construction. Such Measure also reduces the manufacturing costs of an intake structure a significant measure.

Claims (6)

1. Inlet structure (1) of the covered or open form of construction, with one or more tubular-casing pumps (2) which are arranged in it and through which a flow passes semi-axially or axially, a first impeller (2.1) being arranged at a lowest inflow point, for use in power plants and/or in hydraulic engineering installations, a pump inlet being arranged in an inlet chamber (3) so as to maintain ground clearance, characterized in that the pump inlet and/or a first impeller (2.1) of a pump (2) are/is arranged in a depression (7), and in that the depression (7) is arranged in the foundation (4) of the inlet structure (1).
2. Inlet structure according to Claim 1, characterized in that a streamlined transition (13) is arranged between the inlet chamber (3) and the orifice of the depression (7).
3. Inlet structure according to Claim 1 or 2, characterized in that the pump (2, 2.1) is arranged, freely suspended, in the depression (7).
4. Inlet structure according to Claim 1 or 2, characterized in that supporting elements (12) are arranged between the depression (7) and the pump (2, 2.1).
5. Inlet structure according to one of Claims 1 to 4, characterized in that one or more flow-leading guide elements (10, 11) are arranged in the depression (7).
6. Inlet structure according to one or more of Claims 1 to 5, characterized in that completely or partially prefabricated components form the depression (7).

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