CN105298719A

CN105298719A - Buffer type hydroelectric generation system

Info

Publication number: CN105298719A
Application number: CN201510834135.2A
Authority: CN
Inventors: 蔡思琦
Original assignee: Chengdu Presster Energy Saving Technology Co Ltd
Current assignee: Chengdu Presster Energy Saving Technology Co Ltd
Priority date: 2015-11-25
Filing date: 2015-11-25
Publication date: 2016-02-03

Abstract

The invention discloses a buffer type hydroelectric generation system, which comprises a generator unit and a hydraulic power collector connected with the generator unit, wherein the hydraulic power collector comprises a tapered water inlet, a water outlet and a tapered water passing box arranged between the tapered water inlet and the water outlet; an inlet impeller is arranged in the tapered water inlet; the inlet impeller is connected with the generator unit by an inlet rotating shaft; a center runner is arranged in the tapered water passing box; the center runner is connected with the generator unit by a center rotating shaft; an outlet impeller is arranged in the water outlet; the outlet impeller is connected with the generator unit by an outlet rotating shaft; and the electricity output end of the generator unit is also sequentially connected with an adjustable power circuit and a buffer circuit in series. The invention provides a buffer type hydroelectric generation system, which has the advantages that the applicable range is widened, hydraulic power resources are fully utilized, and multiple utilizations of the hydraulic power resources are realized.

Description

Buffering type hydroelectric power system

Technical field

The present invention relates to a kind of environment-protecting clean energy field, specifically refer to that a kind of waterpower that can effectively utilize carries out the buffering type hydroelectric power system generated electricity.

Background technique

Along with the progress of science and technology and the lifting of people's environmental consciousness, entire society also more and more comes into one's own for the exploitation of new energy.In prior art, corresponding generation mode all be have developed to waterpower, wind-force and solar energy, well make use of the new energy of environment-protecting clean, reduce the destruction of conventional Power Generation Mode to environment, better improve the living environment of people, and along with the continuous progress of society, also need constantly to break through prior art, complete and new new energy are developed and utilization.Had now comparatively ripe electricity generating device for hydroelectric power, but existing hydroelectric installation takes up an area comparatively large, and multiple utilization cannot be carried out to water resources, be unfavorable for the utilization ratio improving resource.

Summary of the invention

The object of the invention is to overcome the problems referred to above, a kind of buffering type hydroelectric power system is provided, better improves the Applicable scope of product, make use of waterpower resourses more fully, achieve the multiple utilization of waterpower resourses.

Object of the present invention is achieved through the following technical solutions:

Buffering type hydroelectric power system, the waterpower trap comprising generator set and be connected with this generator set, this waterpower trap comprises again taper water inlet, drain opening and water tank is crossed in the taper be arranged between taper water inlet and drain opening; In taper water inlet, be provided with inlet impeller, this inlet impeller is connected with generator set by entrance rotating shaft; Cross in water tank in taper and be provided with central runner, this central runner is connected with generator set by center rotational shaft; In drain opening, be provided with outlet impeller, this outlet impeller is connected with generator set by outlet rotating shaft; Also adjustable power circuit and buffer circuit is serially connected with successively at the power output end of generator set.

As preferably, one end that described taper water inlet cross-section area is less is fixed on the side that the larger one end of water tank cross-section area is crossed in taper.

As preferably, described drain opening becomes tubular, and its one end is fixed on the side that the less one end of water tank cross-section area is crossed in taper.

Further, above-mentioned adjustable power circuit is by diode bridge rectifier U1, triode VT1, triode VT2, triode VT3, be serially connected in the resistance R1 between the collector electrode of triode VT2 and base stage, positive pole is connected with the base stage of triode VT2, the electric capacity C2 that negative pole is connected with the negative output terminal of diode bridge rectifier U1, P pole is connected with the negative pole of electric capacity C2, N pole is in turn through electric capacity C3, the diode D2 be connected with the emitter of triode VT1 after resistance R2, positive pole is connected with the negative pole of electric capacity C2, the electric capacity C1 that negative pole is connected with the positive input terminal of diode bridge rectifier U1, N pole is connected with the negative pole of electric capacity C1, P pole is in turn through resistance R4, the diode D1 be connected with the tie point of resistance R2 with electric capacity C3 after slide rheostat RP1, and one end is connected with the N pole of diode D2, the other end is connected with the emitter of triode VT1 after resistance R3, the slide rheostat RP2 that sliding end is connected with the base stage of triode VT3 forms, wherein, the positive output end of diode bridge rectifier U1 is connected with the collector electrode of triode VT2 with the collector electrode of triode VT1 simultaneously, the base stage of triode VT2 is connected with the collector electrode of triode VT3, the emitter of triode VT3 is connected with the sliding end of slide rheostat RP1, positive input terminal and the negative input end of diode bridge rectifier U1 form the input end of this circuit and be connected with the output terminal of generator set, output terminal that the emitter of triode VT1 and the N pole of diode D2 form this circuit.

Further, above-mentioned buffer circuit is by triode VT4, metal-oxide-semiconductor Q1, metal-oxide-semiconductor Q2, be serially connected in the inductance L 1 between the drain electrode of metal-oxide-semiconductor Q1 and source electrode, one end is connected with the drain electrode of metal-oxide-semiconductor Q1, the resistance R5 that the other end is connected with the collector electrode of triode VT4, one end is connected with the source electrode of metal-oxide-semiconductor Q1, the inductance L 2 that the other end is connected with the emitter of triode VT4, one end is connected with the collector electrode of triode VT4, the other end is connected with the emitter of triode VT4, the slide rheostat RP3 that sliding end is connected with the grid of metal-oxide-semiconductor Q1, positive pole is connected with the emitter of triode VT4 after resistance R6, the electric capacity C5 that negative pole is connected with the base stage of triode VT4, one end is connected with the positive pole of electric capacity C5, the resistance R7 that the other end is connected with the source electrode of metal-oxide-semiconductor Q2, P pole is connected with the drain electrode of metal-oxide-semiconductor Q2 after electric capacity C4, the diode D4 that N pole is connected with the negative pole of electric capacity C5 after electric capacity C6, P pole is connected with the positive pole of electric capacity C5, the diode D3 that N pole is connected with the P pole of diode D4, and P pole is connected with the drain electrode of metal-oxide-semiconductor Q2, the diode D5 that N pole is connected with the N pole of diode D4 after resistance R8 forms, wherein, the source electrode of metal-oxide-semiconductor Q1 is connected with the grid of metal-oxide-semiconductor Q2, drain electrode and the base stage of triode VT4 of metal-oxide-semiconductor Q1 form the input end of this circuit and be connected with the output terminal of adjustable power circuit, output terminal that the N pole of diode D5 and the negative pole of electric capacity C5 form this circuit.

As preferably, described triode VT1, triode VT2, triode VT3 and triode VT4 are NPN type triode.

The present invention compared with prior art, has the following advantages and beneficial effect:

(1) the present invention is provided with inlet impeller, central runner and outlet impeller, current can drive generator set to generate electricity through inlet impeller, central runner and outlet impeller successively, thus well improve the utilization ratio of waterpower, further increase the generated energy of product.

(2) taper water inlet of the present invention and taper are crossed water tank and are all arranged to taper, and current all through overcompression, thus well will maintain hydraulic pressure after passing through, and well can drive the electrification structure of next stage, and then improve the generating efficiency of product.

(3) the present invention is provided with adjustable power circuit, can regulate, further increase the Applicable scope of product, make the use of product more flexible according to the demand of reality to the electricity exported.

(4) the present invention is provided with buffer circuit, electricity can be allowed in transmitting procedure can to have the leeway of a buffering, reduce the fluctuation of voltage and electric current, and then reduce the impact brought when product uses, better improve the Security of product and the working life of product.

(5) structure of the present invention is simple, easy for installation, and generated energy, far above the conventional products of identical place of production area, is applicable to extensively promoting.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the circuit diagram of adjustable power circuit of the present invention.

Fig. 3 is the circuit diagram of buffer circuit of the present invention.

Description of reference numerals: 1, generator set; 2, inlet impeller; 3, entrance rotating shaft; 4, taper water inlet; 5, center rotational shaft; 6, central runner; 7, impeller is exported; 8, drain opening; 9, rotating shaft is exported.

Embodiment

Below in conjunction with embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited thereto.

Embodiment

As shown in Figure 1, buffering type hydroelectric power system, the waterpower trap comprising generator set 1 and be connected with this generator set 1, this waterpower trap comprises again taper water inlet 4, drain opening 8 and the taper be arranged between taper water inlet 4 and drain opening 8 and crosses water tank; In taper water inlet 4, be provided with inlet impeller 2, this inlet impeller 2 is connected with generator set 1 by entrance rotating shaft 3; Cross in water tank in taper and be provided with central runner 6, this central runner 6 is connected with generator set 1 by center rotational shaft 5; In drain opening 8, be provided with outlet impeller 7, this outlet impeller 7 is connected with generator set 1 by outlet rotating shaft 9; Also adjustable power circuit and buffer circuit is serially connected with successively at the power output end of generator set 1.

One end that described taper water inlet 4 cross-section area is less is fixed on the side that the larger one end of water tank cross-section area is crossed in taper.Described drain opening 8 one-tenth tubular, its one end is fixed on the side that the less one end of water tank cross-section area is crossed in taper.

During use, current first drive inlet impeller rotate and drive generator set to carry out one-level generating by taper water inlet, current enter taper and cross water tank under the compression of taper water inlet, cross in taper the central runner that arranges in water tank to rotate with water and to drive center rotational shaft to drive generator set to carry out secondary generating, current are again compressed and are entered drain opening after crossing water tank through taper, drive outlet wheel rotation when discharging and drive generator set to carry out three grades of generatings by outlet rotating shaft, so just well utilize waterpower resourses, improve resource utilization, also well improve generated energy simultaneously.

As shown in Figure 2, above-mentioned adjustable power circuit by diode bridge rectifier U1, triode VT1, triode VT2, triode VT3, resistance R1, resistance R2, resistance R3, resistance R4, electric capacity C1, electric capacity C2, electric capacity C3, slide rheostat RP1, slide rheostat RP2, diode D1, and diode D2 forms.

During connection, between the collector electrode that resistance R1 is serially connected in triode VT2 and base stage, the positive pole of electric capacity C2 is connected with the base stage of triode VT2, negative pole is connected with the negative output terminal of diode bridge rectifier U1, the P pole of diode D2 is connected with the negative pole of electric capacity C2, N pole is in turn through electric capacity C3, be connected with the emitter of triode VT1 after resistance R2, the positive pole of electric capacity C1 is connected with the negative pole of electric capacity C2, negative pole is connected with the positive input terminal of diode bridge rectifier U1, the N pole of diode D1 is connected with the negative pole of electric capacity C1, P pole is in turn through resistance R4, be connected with the tie point of resistance R2 with electric capacity C3 after slide rheostat RP1, one end of slide rheostat RP2 is connected with the N pole of diode D2, the other end is connected with the emitter of triode VT1 after resistance R3, sliding end is connected with the base stage of triode VT3, wherein, the positive output end of diode bridge rectifier U1 is connected with the collector electrode of triode VT2 with the collector electrode of triode VT1 simultaneously, the base stage of triode VT2 is connected with the collector electrode of triode VT3, the emitter of triode VT3 is connected with the sliding end of slide rheostat RP1, positive input terminal and the negative input end of diode bridge rectifier U1 form the input end of this circuit and be connected with the output terminal of generator set 1, output terminal that the emitter of triode VT1 and the N pole of diode D2 form this circuit.

As shown in Figure 3, above-mentioned buffer circuit by triode VT4, metal-oxide-semiconductor Q1, metal-oxide-semiconductor Q2, resistance R5, resistance R, resistance R7, resistance R8, inductance L 1, inductance L 2, electric capacity C4, electric capacity C5, electric capacity C6, diode D3, diode D4, diode D5, and slide rheostat RP3 forms.

During connection, between the drain electrode that inductance L 1 is serially connected in metal-oxide-semiconductor Q1 and source electrode, one end of resistance R5 is connected with the drain electrode of metal-oxide-semiconductor Q1, the other end is connected with the collector electrode of triode VT4, one end of inductance L 2 is connected with the source electrode of metal-oxide-semiconductor Q1, the other end is connected with the emitter of triode VT4, one end of slide rheostat RP3 is connected with the collector electrode of triode VT4, the other end is connected with the emitter of triode VT4, sliding end is connected with the grid of metal-oxide-semiconductor Q1, the positive pole of electric capacity C5 is connected with the emitter of triode VT4 after resistance R6, negative pole is connected with the base stage of triode VT4, one end of resistance R7 is connected with the positive pole of electric capacity C5, the other end is connected with the source electrode of metal-oxide-semiconductor Q2, the P pole of diode D4 is connected with the drain electrode of metal-oxide-semiconductor Q2 after electric capacity C4, N pole is connected with the negative pole of electric capacity C5 after electric capacity C6, the P pole of diode D3 is connected with the positive pole of electric capacity C5, N pole is connected with the P pole of diode D4, the P pole of diode D5 is connected with the drain electrode of metal-oxide-semiconductor Q2, N pole is connected with the N pole of diode D4 after resistance R8, wherein, the source electrode of metal-oxide-semiconductor Q1 is connected with the grid of metal-oxide-semiconductor Q2, drain electrode and the base stage of triode VT4 of metal-oxide-semiconductor Q1 form the input end of this circuit and be connected with the output terminal of adjustable power circuit, output terminal that the N pole of diode D5 and the negative pole of electric capacity C5 form this circuit.

As mentioned above, just well the present invention can be realized.

Claims

1. buffering type hydroelectric power system, it is characterized in that: the waterpower trap comprising generator set (1) and be connected with this generator set (1), this waterpower trap comprises again taper water inlet (4), drain opening (8) and the taper be arranged between taper water inlet (4) and drain opening (8) and crosses water tank; In taper water inlet (4), be provided with inlet impeller (2), this inlet impeller (2) is connected with generator set (1) by entrance rotating shaft (3); Cross in water tank in taper and be provided with central runner (6), this central runner (6) is connected with generator set (1) by center rotational shaft (5); In drain opening (8), be provided with outlet impeller (7), this outlet impeller (7) is connected with generator set (1) by outlet rotating shaft (9); Also adjustable power circuit and buffer circuit is serially connected with successively at the power output end of generator set (1).

2. buffering type hydroelectric power system according to claim 1, is characterized in that: one end that described taper water inlet (4) cross-section area is less is fixed on the side that the larger one end of water tank cross-section area is crossed in taper.

3. buffering type hydroelectric power system according to claim 2, is characterized in that: described drain opening (8) becomes tubular, and its one end is fixed on the side that the less one end of water tank cross-section area is crossed in taper.

4. buffering type hydroelectric power system according to claim 3, it is characterized in that: described buffer circuit is by triode VT4, metal-oxide-semiconductor Q1, metal-oxide-semiconductor Q2, be serially connected in the inductance L 1 between the drain electrode of metal-oxide-semiconductor Q1 and source electrode, one end is connected with the drain electrode of metal-oxide-semiconductor Q1, the resistance R5 that the other end is connected with the collector electrode of triode VT4, one end is connected with the source electrode of metal-oxide-semiconductor Q1, the inductance L 2 that the other end is connected with the emitter of triode VT4, one end is connected with the collector electrode of triode VT4, the other end is connected with the emitter of triode VT4, the slide rheostat RP3 that sliding end is connected with the grid of metal-oxide-semiconductor Q1, positive pole is connected with the emitter of triode VT4 after resistance R6, the electric capacity C5 that negative pole is connected with the base stage of triode VT4, one end is connected with the positive pole of electric capacity C5, the resistance R7 that the other end is connected with the source electrode of metal-oxide-semiconductor Q2, P pole is connected with the drain electrode of metal-oxide-semiconductor Q2 after electric capacity C4, the diode D4 that N pole is connected with the negative pole of electric capacity C5 after electric capacity C6, P pole is connected with the positive pole of electric capacity C5, the diode D3 that N pole is connected with the P pole of diode D4, and P pole is connected with the drain electrode of metal-oxide-semiconductor Q2, the diode D5 that N pole is connected with the N pole of diode D4 after resistance R8 forms, wherein, the source electrode of metal-oxide-semiconductor Q1 is connected with the grid of metal-oxide-semiconductor Q2, drain electrode and the base stage of triode VT4 of metal-oxide-semiconductor Q1 form the input end of this circuit and be connected with the output terminal of adjustable power circuit, output terminal that the N pole of diode D5 and the negative pole of electric capacity C5 form this circuit.

5. buffering type hydroelectric power system according to claim 4, it is characterized in that: described adjustable power circuit is by diode bridge rectifier U1, triode VT1, triode VT2, triode VT3, be serially connected in the resistance R1 between the collector electrode of triode VT2 and base stage, positive pole is connected with the base stage of triode VT2, the electric capacity C2 that negative pole is connected with the negative output terminal of diode bridge rectifier U1, P pole is connected with the negative pole of electric capacity C2, N pole is in turn through electric capacity C3, the diode D2 be connected with the emitter of triode VT1 after resistance R2, positive pole is connected with the negative pole of electric capacity C2, the electric capacity C1 that negative pole is connected with the positive input terminal of diode bridge rectifier U1, N pole is connected with the negative pole of electric capacity C1, P pole is in turn through resistance R4, the diode D1 be connected with the tie point of resistance R2 with electric capacity C3 after slide rheostat RP1, and one end is connected with the N pole of diode D2, the other end is connected with the emitter of triode VT1 after resistance R3, the slide rheostat RP2 that sliding end is connected with the base stage of triode VT3 forms, wherein, the positive output end of diode bridge rectifier U1 is connected with the collector electrode of triode VT2 with the collector electrode of triode VT1 simultaneously, the base stage of triode VT2 is connected with the collector electrode of triode VT3, the emitter of triode VT3 is connected with the sliding end of slide rheostat RP1, positive input terminal and the negative input end of diode bridge rectifier U1 form the input end of this circuit and be connected with the output terminal of generator set (1), output terminal that the emitter of triode VT1 and the N pole of diode D2 form this circuit.

6. buffering type hydroelectric power system according to claim 5, is characterized in that: described triode VT1, triode VT2, triode VT3 and triode VT4 are NPN type triode.