RU2691708C1 - Adamyans hydropower plant - Google Patents

Abstract

FIELD: power engineering.SUBSTANCE: invention relates to hydropower engineering. Hydroelectric power plant includes two housings 1 and 2 installed in parallel on both sides of bed 3 river or channel, divided by partitions 4 into two working lines 5 with reservoirs 11 and 12, and located between them offtake line 6, equipped with shutters 7 and 8. In each housing 1, 2 there are two chambers 17 with inlet and outlet holes 18–21, in which there are floats 24 and crankshaft 27 with flywheel 28 connected by connecting rods 25 with floats 24. Cuffs 26 of shaft 27 in chambers 17 are located in one plane and directed in one direction, in housings 1, 2 are installed by necks 26 in opposite directions. Line 6 is communicated with bypass lines 14. Each housing 1, 2 is installed between lines 5 and 14. Holes 18–21 of chambers 17 are arranged with the possibility of communication with lines 5 and 14, and shutters 22 shutting them are connected by rope systems 33, 36 with electric motors 31, 32, 34, 35. In one of chambers 17 of housings 1, 2 float switch 37 is installed, and on gate 22 of its outlet hole 19 sucker switch 40 for connection of corresponding electric motor 31, 32, 34, 35, which are connected by electric circuit to electric generator 30 connected with shafts 27.EFFECT: invention is aimed increasing power generation.4 cl, 3 dwg

Description

The invention relates to hydropower and can be used when using the flow of water of rivers or canals to generate electricity.

A device for converting energy of flowing water into electrical energy is known, containing an electric generator, a housing, a power take-off shaft installed in it, floats pivotally connected to rods and a system of levers associated with ratchets (US Patent No. 168832, M. class F03B 13/12, 1928 Analogue).

The known device has a low efficiency and complexity of the means of converting the energy of flowing water into electricity.

A hydropower installation is known, comprising a housing in which two chambers are formed with inlet and outlet openings, floats installed in the chambers, a collection tank, a working line, a crankshaft with connecting rods connected to the floats and a flywheel fixed to the crankshaft (Patent RU 2176747 C2 , M. CL F03B 17/02, 2001 Analog).

The lack of analogue - the long-term filling of the chambers with water through the pipes, resulting in a slow rise and speed of movement of the floats, which limits the capacity of the installation. Even placing on the chambers in height and perimeter of additional intake pipes connecting the chambers with the storage tank did not eliminate this drawback. In addition, in the hydro-power plant, great efforts are being made to open the valves of the inlet and outlet openings of the chamber. The larger the diameter of the valves, the greater the force of flow of water on them. This reduces the reliability of the distribution mechanism and its drive from the crankshaft.

The closest analogue is a hydroelectric power plant, comprising a housing in which two chambers are formed with inlet and outlet openings, floats installed in the chambers, an accumulator tank, a crankshaft whose necks are connected by connecting rods with floats and a flywheel mounted on the crankshaft. The case is located parallel to the riverbed or canal channel, divided by a longitudinal partition on the working and branch lines, equipped with valves for their overlap. The storage tank is formed in the working line, and the discharge line is connected to the bypass line. The case is located between the working and bypass lines, the inlet and outlet openings of the chambers are arranged to communicate with the working and bypass lines and are equipped with valves, connected by cable systems with electric motors for their lifting. The chambers are equipped with float and push-button switches for opening and closing the corresponding gates, and the electric motors are connected by an electric circuit to an electric generator connected by transmission to the crankshaft. (Patent RU No. 2631474, M. CL. F03B 17/06, 2017 Prototype).

The disadvantages of the prototype is that water is fed successively into each chamber in a limited volume of only one body, which does not ensure the complete use of a large volume of river or canal water flow and a significant amount of it flows through the partition into the discharge line without performing useful work. Increasing the use of the entire flow of water for useful work by increasing the diameter of the floats, dramatically reduces the speed of their movement and the number of revolutions of the crankshaft, which reduces the capacity of the hydro-power unit. Another disadvantage is the installation on the inlet and outlet openings of each chamber of four electric motors for successive raising of each shutter, as well as two float and push-button switches, which is not economical. In addition, the use of a manual drive for raising the dampers of the working and branch lines complicated the work of the operator when the hydropower plant was put into operation.

The technical problem of the invention is to improve the efficiency of the hydroelectric station by ensuring the full use of energy of a large volume of river or canal water flow, reducing the cost of electricity generation, reducing the amount of electrical equipment, simplifying the design and its maintenance.

The technical problem and the result is achieved by the fact that the hydroelectric power plant includes a housing in which two chambers are formed with inlet and outlet openings, floats installed in the chambers, a storage tank, a crankshaft whose necks are connected by rods with floats and a flywheel mounted on the crankshaft. The case is located parallel to the riverbed or canal channel, divided by a longitudinal partition on the working and branch lines, equipped with valves for their overlap. The storage tank is formed in the working line, and the discharge line is connected to the bypass line. The case is located between the working and bypass lines, the inlet and outlet openings of the chambers are arranged to communicate with the working and bypass lines and are equipped with valves, connected by cable systems with electric motors for their lifting. The chambers are equipped with float and push-button switches for opening and closing the corresponding gates, and the electric motors are connected by an electric circuit to an electric current generator connected by transmission to the crankshaft. New is the fact that the hydroelectric power station is equipped with a second bypass line connected to the branch line, and the river bed or channel is separated by an additional longitudinal partition with the formation of a second working line with a storage tank and a valve for its closure. Between the second working and second bypass highways parallel to the river bed or canal, a second building is additionally constructed, in which two chambers are formed with inlet and outlet openings arranged with the possibility of communication by said highways. The inlet and outlet openings of the chambers are provided with valves, cable-connected systems with electric motors for lifting them. Floats installed in the chambers, connected to the crankshaft journals with a flywheel attached to it, float and rod switches for opening and closing the corresponding gates. The necks of the crankshafts in the chambers of each body are located in the same plane and directed in one direction, and the crankshafts in the bodies are installed in necks in opposite directions.

These signs are necessary and sufficient for carrying out the invention and achieving a technical result.

The invention is also characterized by the fact that each pair of inlet and outlet openings of the chambers of the bodies are connected by cable systems with individual electric motors, dampers of workers and branch lines are connected with a common electric motor, and the float and rod switches are installed one at a time in the same chamber and on the gate of the outlet This camera of each body, both crankshafts are connected by a gear with a common electric generator.

These signs are optional, as they create additional technical result and can be replaced by other alternative solutions.

3. The causal connection of the new features of the invention and the technical result achieved is as follows: - equipment of the hydroelectric power station by the second bypass line and separation of the riverbed or channel by an additional longitudinal partition to form the second working line with a storage tank located on the opposite side of the branch line communicated from the second a bypass line, between which the second building is additionally located, made it possible to ensure the full use of the bol the volume of the flow of water from a river or canal to generate electricity; the arrangement of crankshafts in the chambers of each body in the same plane with the direction of their necks in one direction, and installing them in each body with necks in opposite directions allowed us to simultaneously open or close both inlet or outlet ports of the chambers of the same body to supply water to both chambers simultaneously and remove from them, as well as sequentially open the inlet and close the outlet openings of the chambers of the other body to complete a full rotation of the crankshaft in one cycle and thereby increase the full the use of an aqueous stream to useful work and enhance work efficiency hydroelectric four times, which is a principal feature of the invention;

- the connection of the pairs of inlet or outlet gates of the chambers with cable systems with individual electric motors, and the dampers on the working and branch lines of a single electric motor, and the installation of float and rod switches one in one chamber and on the gate of the outlet of this chamber of each building, reduced the number of funds control of raising and lowering of locks and gates;

- the connection of both crankshafts by transmission with an electric generator made it possible to transmit to it the total power generated by the hydroelectric power station.

FIG. 1 shows a hydroelectric station, top view, FIG. 2 is the same, section A-A in FIG. one; FIG. 3 shows a section BB in FIG. 1, a float switch is shown.

The hydroelectric power plant (Fig. 1) contains two bodies 1 and 2 installed in parallel on both sides of the riverbed 3 of a river or canal, divided by longitudinal partitions 4 into two workers 5 and, between them, a discharge line 6. At their entrance there are installed a valve 7 and 8, connected by a cable system 9 with a common motor 10. In working lines 5, accumulation tanks 11 and 12 are formed adjacent to the inner longitudinal walls 13, and the discharge line 6 is connected to two bypass lines 14 adjacent to the outer longitudinal stem nkam 15 cases 1 and 2. Each case 1 and 2 is divided by a transverse wall 16 into two equal volumes adjacent chambers 17, provided with inlet 18 and 19 outlet openings on housing 1, as well as inlet 20 and outlet 21 holes on housing 2 equipped with gates 22 These holes are located opposite each other with the possibility of communication cameras 17 with storage tanks 11 and 12 and bypass highways 14. In each case 1 and 2 are fixed rollers 23 and mounted, supported on them by side walls, floats 24, connected by connecting rods 25 with necks 26 to Each of the crankshafts 27 in the chambers 17 of the housing 1 and 2 is located with the journals 26 in the same plane and is directed in one direction, and in both cases the crankshafts are installed with the indicated journals in opposite directions. As a result of this arrangement of the necks 26, the floats 24 in the housing 1 are, for example, in the lower, and in the housing 2 in the upper "dead center". The housing 1 is equipped with electric motors 31 and 32, connected by cable systems 33 with valves 22, respectively, on inlet 8 and outlet 19 holes, and on case 2, electric motors 34 and 35, connected by cable systems 36 to valves 22, respectively on inlet 20 and outlet 21 holes . In one of the chambers 17 of each housing 1 and 2 there is a float switch 37, made in the form of a pipe 38 (Fig. 3) with a ball valve 39, and on the gates there are 22 outlet openings 19 and 21 of these cameras - a rod switch 40. A cable system 9 ( Figures 1 and 2) are made in the form of a three strand pulley 41 on the shaft of the electric motor 10, two bypass rollers 42, 43 and the cables 44 and 45 spanning them, connected to the flaps 7 and the cable 46 - with the flap 8 for simultaneous opening of the workers 5 and closing bypass 6 lines. Cable systems 33 and 36 (Fig. 1) are made in the form of two brook pulleys 47 on the shafts of electric motors 31, 32, 34, 35 and bypass rollers 48, 49, which include cables 50 and 51 connected to the gates 22 of the respective inlet and outlet ports . The transmission 29 contains, mounted on the crankshafts 27, pulleys 52 connected by drive belts 53 to the pulley 54 of the electric generator 30.

Hydroelectric works as follows. In the off-position hydroelectric station, all inlet 18 and 20, as well as outlet 19 and 21 openings of chambers 17 of buildings 1 and 2, are closed with valves 22. Workers 5 of the pipeline are closed with valves 7, and outlet line 6 is opened with valve 8 and the flow of water from the channel 3 is co-current passes by a broken hydroelectric station.

Before starting the hydroelectric station, the operator turns on the electric motor 10 with a battery (not shown). The cable system 9 (FIGS. 1 and 2) is connected by cables 44 and 45 fixed on two streams of three stream pulley 41 via bypass rollers 42 and 43 lifts the valves 7 of the working lines 5, and a cable 46 (Fig. 2) attached to the third stream of this pulley simultaneously closes the flap 8 by the discharge line 6 and the specified motor turns off. The flow of water through the working lines 5 enters the storage tanks 11 and 12 and completely fills them, and the excess water through the longitudinal partitions 4 is poured into the discharge line 6.

After that, the battery operator (not shown) turns on the electric motor 31, two pulley pulley 47, cable system 33 with cables 50 and 51 through the bypass rollers 48 and 49, lifts both shutters 22 at inlet holes 18 and water from storage tank 11 quickly fills both chambers 17 housing 1. Floats 24 float by moving the side surface along rollers 23 fixed on housing 1, and connecting rods 25 connected to necks 26 located in the same plane and direction in both chambers 17 of housing 1 rotate the crankshaft 27 by 180 degrees. The flywheel 28 converts the crankshaft 27 through the upper "dead point", and the floats 24 in the chambers 17 of the housing 2 are lowered to the lower position. The ball valve 39, the float switch 37 pops up in the water-filled pipe 38, turns off the electric motor 31 and turns on the electric motor 32, the cable systems 33 with the valves 22 instantly block the inlet 18, and also open the outlet 19 and the water from the chambers 17 of the housing 1 is removed. Barbell switch 40 mounted on the shutter 22 of the outlet 19 of the housing 1, includes an electric motor 34, the cable system 36 lifts the valves 22 at the inlet 20 of the housing 2 and the water fills its chambers 17. The floats 24 float in the chambers 17 of the housing 2 and rotate the cervix rods 25 26 crankshaft 27 180 degrees, completing its full turn. The second float switch 37 in the chamber 17 of the housing 2 similarly turns off the electric motor 34 and turns on the electric motor 35, the cable systems 36 instantly shut off the inlets 20 with the closures 22 and open the outlet openings 21. Water from the chambers 17 of the housing 2 is removed, and the second push rod 40 installed on the gate 22 of the outlet 21 of the housing 2 includes an electric motor 31, which, by means of a cable system 33, lifts the closures 22 on the inlet openings 18 of the housing 1. The cycle is completed and the hydroelectric power station continues to operate t in the same way in automatic mode. Transmission 29 of the pulleys 52 on the crankshafts 27 and the belts 53 rotates the pulley 54 of the generator shaft 30 connected by an electrical circuit with electric motors 31, 32, 34 and 35 of low power. The generator 30 generates electricity and its insignificant part, when the battery is disconnected, is supplied to power these motors when the gates 22 are sequentially raised.

As a result, water supply simultaneously to both chambers of one hull and successively to chambers of another hull increases four times the use of a large volume of water from a river or canal for useful work in one work cycle and the total capacity of the declared hydroelectric power station increases four times compared to the prototype, with relatively small additional costs for its improvement.

Claims (4)

1. A hydroelectric power plant comprising a housing in which two chambers with inlet and outlet openings are formed, floats installed in the chambers, a crankshaft whose necks are connected by connecting rods with floats, a flywheel mounted on the crankshaft, the housing is located parallel to the river channel or channel divided a longitudinal partition on the working line with a cumulative reservoir and a branch line, equipped with valves for shutting them down; a bypass line connected to the branch line, with the housing placed do working and bypass highways, and the inlet and outlet openings of the chambers are arranged to communicate with the working and bypass highways and are equipped with valves connected by cable systems with electric motors connected by an electrical circuit with a generator, connected to the crankshaft, and installed in the chambers and gates outlets, respectively, float and rod switches, characterized in that the hydroelectric power station is equipped with a second bypass line, and the riverbed or canal is It is provided with an additional longitudinal partition with the formation of a second working highway with a valve for its closing and a storage tank located on the opposite side of the branch line connected to the second bypass highway, while a second building is additionally built between the second working and second bypass highways parallel to the river channel or canal, in which two chambers are formed with inlet and outlet openings arranged with the possibility of communication with the said highways, equipped with tangles connected by cable systems with electric motors installed in the chambers of each housing floats connected by rods to the crankshaft journals on which the flywheel is mounted, as well as the float switches and rod switches of these electric motors, and the crankshaft necks in the chambers of each hull are located in the same plane and directed in one direction, and crankshafts in housings are installed in necks in opposite directions. 2. Hydroelectric power plant according to claim 1, characterized in that each pair of valves of the inlet or outlet openings of the chambers of each body is connected by cable systems with individual electric motors, and the dampers of workers and branch lines - with one common electric motor. 3. Hydroelectric power plant according to claim. 1, characterized in that the float switches are installed in one chamber, and the rod switches on the valves of the outlet openings of this chamber of each body. 4. Hydroelectric power station according to claim 1, characterized in that the crankshafts are connected to a single electric current generator by transmission.

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