CN201786542U - Waterpower generating capacity multiplying device - Google Patents

Abstract

The utility model is named waterpower generating capacity multiplying device, which relates to a multiplying device for waterpower generation by using the water discharged from the hydroelectric generating assembly of a large dam. The prior large-scale waterpower generators are formed by building water retaining dams in rivers and applied for power generation by using the drop of water as the power to make the generating assembly function. The utility model mainly solves the problems of the prior large-scale waterpower generators that the water discharged from the power generating assembly is wasted though the discharged water has a certain pressure and a certain velocity. The utility model comprises a turbine and a generator, wherein the turbine is provided with a water intake pipe and a water outlet pipe. The water intake pipe is tangentially equipped along the turbine blade. The water outlet pipe is equipped on the upper end of the turbine. The water intake pipe and the water outlet pipe are respectively symmetrically equipped on the two sides of the turbine. By using the water discharged from the hydroelectric generating assembly and with a certain pressure and a certain flow velocity as the power, the utility model drives the turbine generating assembly to generate power again through the pipeline effect. Furthermore, multiple generating assemblies in the utility model can be serially connected so as to achieve generating capacity multiplication due to the multiplying generating assemblies.

Description

Hydroelectric power amount multiplying assembly

Technical field

The utility model relates to a kind of hydroelectric installation, relates to specifically utilizing the water that the hydroelectric power unit flows out in the dam to carry out hydroelectric multiplying assembly.

Background technique

Large-scale hydroelectric power at present is to build check dam on rivers, utilize the drop hydraulic pressure and the impact force of water generator set to be generated electricity as power, it is huge to build a large-scale check dam investment, and the water that certain pressure and speed are arranged of discharging from generator set wastes, and is not fully utilized; In addition, the rivers that can build check dam are limited with the place of building the dam, and the quantity of the check dam that builds up installation generator set also is limited, so its generated energy is limited.

Summary of the invention

The purpose of this utility model is at above-mentioned deficiency, and a kind of water of discharging from the hydroelectric power unit that makes full use of that proposes, the hydroelectric power amount multiplying assembly that generates electricity once more by pipe effect.

Technical solution of the present utility model is: hydroelectric power amount multiplying assembly comprises turbo machine and generator, it is characterized in that: turbo machine is provided with intake pipe and outlet pipe, intake pipe is along the tangential setting of turbine wheel blade, outlet pipe is located at the upper end of turbo machine, the symmetrical respectively both sides that are located at turbo machine of intake pipe and outlet pipe.

The water that has certain pressure and flow velocity that the utility model utilization process hydroelectric power unit is discharged is as power, driving turbogenerator once more by pipe effect generates electricity, in addition, can also be with a plurality of generator set series connection of the present utility model, be that outlet pipe of the present utility model is connected with the intake pipe of next turbine generation unit, and the like, can reach the effect of doubly adorning generator set multiplication generated energy.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Embodiment

As shown in Figure 1, the utility model is according to the working principle of tap water water meter, generator 4 is located at the top of turbo machine 3, turbo machine 3 is connected with generator 4 by a sets of transmission mechanism, on turbo machine 3, be provided with intake pipe 1 and outlet pipe 2, intake pipe 1 is along the tangent direction setting of turbo machine 3 turbines, can make the water that flows in the turbo machine 3 from intake pipe 1 directly rush at turbine blade, on turbine blade, produce maximum impact force, outlet pipe 2 is located at the upper end of turbo machine 3, the symmetrical respectively both sides that are located at turbo machine 3 of intake pipe 1 and outlet pipe 2, as required at the turnover water pipe 1 of turbo machine 3, be connected with inlet and outlet pipe lines 5 on 2,6, inlet and outlet pipe lines 5,6 can be by the turnover water pipe 1 on flange and the turbo machine 3,2 connect; When using the utility model generating, the utility model is fixed on water-bed underground deep layer place in the dam, outlet conduit 6 is connected makes it to form a unified total system on the dam generator set gate; Perhaps the utility model is fixed on outside the dam underground deep layer place at the bottom of the downstream water, also can be fixed on underground deep layer places such as sandy beach, waterside, the water outlet of generator set on intake pipe 5 and the dam is connected makes it to form a unified total system, by pipe effect when generator set when work on the dam, the utility model is nature electric generation simultaneously, the intake pipe 5 that on outlet conduit 6 of the present utility model, connects another the utility model turbine generation unit, can form many generator set and generate electricity simultaneously, thus the effect of generation multiplication generated energy.

Claims (1)

1. hydroelectric power amount multiplying assembly, comprise turbo machine (3) and generator (4), it is characterized in that: turbo machine (3) is provided with intake pipe (1) and outlet pipe (2), intake pipe (1) is along the tangential setting of turbo machine (3) turbine blade, outlet pipe (2) is located at the upper end of turbo machine (3), and inlet tube and outlet tube (1,2) symmetry respectively is located at the both sides of turbo machine (3).

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