CN106567800A

CN106567800A - Hydraulic cycle power generation system

Info

Publication number: CN106567800A
Application number: CN201610945782.5A
Authority: CN
Inventors: 杨红炜
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-11-02
Filing date: 2016-11-02
Publication date: 2017-04-19

Abstract

The invention relates to a hydraulic power generation system, in particular to a hydraulic cycle power generation system. The hydraulic cycle power generation system comprises a cycle water tank, an electric water pump and an impounding reservoir, wherein a plurality of hydraulic power generation devices are connected to the lower portion of the cycle water tank sequentially from top to bottom through pipelines; and the bottom of the hydraulic power generation device at the lowest horizontal position among the multiple hydraulic power generation devices is connected with the impounding reservoir located at a low horizontal position through a pipeline. The input end of the electric water pump communicates with the impounding reservoir. The output end of the electric water pump communicates with the upper portion of the cycle water tank through a water inlet pipe. Part of the multiple hydraulic power generation devices are connected with the electric water pump through circuits so as to supply power to the electric water pump. The hydraulic cycle power generation system has the beneficial effects of being simple in structure and capable of converting potential energy of water to electric energy and providing convenience for production electricity and living electricity.

Description

A kind of hydraulic circulating generation system

Technical field

The present invention relates to a kind of hydroelectric power system, more particularly to a kind of hydraulic circulating generation system.

Background technology

Progress and the understanding to fossil energy application limitation with society, people increasingly pay attention to it is various directly will be from The equipment that so power is converted into power.At present, hydroelectric generation is becoming one of the important way of power generation, existing hydroelectric generation Relying primarily on the mode that barrage (river) builds a dam carries out hydroelectric generation, with being limited to natural conditions, costly, construction period compared with Long shortcoming.

The content of the invention

The technical problem to be solved is to provide a kind of simple structure, circulating generation system in the water that can effectively generate electricity System.

The technical scheme that the present invention solves above-mentioned technical problem is as follows：A kind of hydraulic circulating generation system, including recirculated water Case, electric water pump and cistern, the lower section of the cyclic water tank from top to bottom passes sequentially through pipeline and is connected with multiple hydroelectric generations Device, is horizontally situated the bottom of a minimum hydroelectric installation by pipe in multiple hydroelectric installations Road connection is horizontally situated the cistern of lower, and the input of the electric water pump connects the cistern, the electric water The outfan of pump connects the top of the cyclic water tank by water inlet pipe, and several in multiple hydroelectric installations pass through Circuit is connected with the electric water pump, for powering for the electric water pump.

The invention has the beneficial effects as follows：Water in cyclic water tank enters under gravity hydroelectric installation blade On, in this process the potential energy converting and energy of water is into mechanical energy, the mechanical energy of water is converted into into electric energy by hydroelectric installation, Water can be flowed in cistern；In use, the water in cistern is added to by water storage box recirculated water by electric water pump With the water of replenishment cycles water tank in case；Present configuration is simple, can be household electricity provider by the potential energy converting and energy of water into electric energy Just.

Further, also including water storage box, the water storage box is arranged between adjacent two hydroelectric installation.

Further, the hydroelectric installation is hydrodynamic blade electromotor or tilt-impulse type electromotor, connects the tilt-impulse type The pipeline of electromotor is obliquely installed.

It is using the beneficial effect of above-mentioned further scheme：Hydroelectric installation can as needed and arrange select water Power blade electromotor or tilt-impulse type electromotor.

Further, the hydrodynamic blade electromotor includes generating groove, and notch, the generating are provided with the top of the generating groove The bottom of groove is provided with outlet, be provided with the generating groove it is horizontally disposed can axial rotation rotary shaft, in the rotary shaft Blade is provided with, the notch is arranged towards the blade, the generating groove is stretched out in one end of the rotary shaft, outside the generating groove Be provided with speed change gear, the input shaft of the speed change gear is connected with the transmission of rotary axis, the output shaft of the speed change gear with The generating axle of electromotor A is connected.

It is using the beneficial effect of above-mentioned further scheme：Blade rotation is stirred by the fall impact power of water, blade is solid In rotary shaft, rotating shaft one end is connected with input shaft on speed change gear, rotating speed is improved by speed change gear, due to speed change The output shaft of device is connected with the generating axle of electromotor A, and by speed change gear rotating speed is improved, and then generates electricity, and improves and generates electricity Amount.

Further, the input shaft of the speed change gear be arranged in parallel with the rotary shaft, the input shaft of the speed change gear It is connected by the first drive with the rotary shaft, first actuating device includes big belt pulley and small belt pulley, The diameter with diameter greater than the small belt pulley of the big belt pulley, the big belt pulley is set in the rotary shaft, described Small belt pulley is set on the input shaft of the speed change gear, and the big belt pulley and the small belt pulley are connected by belt.

It is using the beneficial effect of above-mentioned further scheme：The diameter with diameter greater than small belt pulley of big belt pulley, this is just Rotary shaft input shaft of speed change gear when a circle is rotated is enabled to rotate multi-turn, when raising is transferred to the generating axle of electromotor A The rotating speed of generating axle, so as to improve generated energy.

Further, the output shaft of the speed change gear be arranged in parallel with the generating axle of the electromotor A, the speed change gear Output shaft be connected by the second drive with the generating axle of the electromotor A, second actuating device includes big Gear and little gear, the diameter with diameter greater than the little gear of the gear wheel, the gear wheel is set in the change quick-mounting On the output shaft put, the little gear is set on the generating axle of the electromotor A, and the gear wheel and the little gear are ratcheting Connection.

It is using the beneficial effect of above-mentioned further scheme：The diameter with diameter greater than little gear of gear wheel, realizes canine tooth Wheel little gear when a circle is rotated can rotate multi-turn, the slewing rate of the generating axle of electromotor A be improved, so as to improve generated energy.

Further, the tilt-impulse type electromotor includes power generation box, and inclined-jet turbine is provided with the power generation box, described oblique The output shaft for hitting the formula hydraulic turbine stretches out and be connected with the input shaft of the electromotor B after the power generation box.

It is using the beneficial effect of above-mentioned further scheme：Mistake of the water entered in casing in impact inclined-jet turbine Drive inclined-jet turbine to rotate in journey, generate electricity so as to drive the electromotor B being connected with inclined-jet turbine to rotate.

Further, the hydroelectric installation also include generating water receiving case, the top of the generating water receiving case with described The bottom connection of electric groove or the power generation box.

It is using the beneficial effect of above-mentioned further scheme：Generating water receiving case is defeated after can the water in power generation box be collected It is sent to next hydroelectric installation or is transported to water storage box.

Further, the top of the generating water receiving case is provided with the captation for collecting rainwater.

It is using the beneficial effect of above-mentioned further scheme：The setting of captation can collect the rainwater in daily life, With amount of makeup water.

Further, the captation for collecting rainwater is communicated with the top of the cyclic water tank and/or the water storage box.

Further, the captation is collection hyponome, bottom and the cyclic water tank and/or the institute of the collection hyponome State the top connection of water storage box.

Description of the drawings

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the structural representation of hydrodynamic blade electromotor in the present invention, and the generating water receiving case is not drawn in accompanying drawing；

Fig. 3 is the structural representation of tilt-impulse type electromotor in the present invention.

In accompanying drawing, the list of parts representated by each label is as follows：

1st, cyclic water tank, 2, water inlet pipe, 3, electric water pump, 4, cistern, 5, hydroelectric installation, 5-1, generating groove, 5- 2nd, notch, 5-3, outlet, 5-4, rotary shaft, 5-5, blade, 5-6, speed change gear, 5-7, big belt pulley, 5-8, small belt pulley, 5-9, belt, 5-10, gear wheel, 5-11, little gear, 5-12, electromotor A, 5-13, generating water receiving case, 5-14, power generation box, 5- 15th, inclined-jet turbine, 5-16, electromotor B, 6, water storage box, 7, captation.

Specific embodiment

The principle and feature of the present invention are described below in conjunction with accompanying drawing, example is served only for explaining the present invention, and It is non-for limiting the scope of the present invention.

As shown in figure 1, the present invention includes cyclic water tank 1, electric water pump 3 and cistern 4, the lower section of the cyclic water tank 1 From top to bottom pass sequentially through pipeline and be connected with multiple hydroelectric installations 5, horizontal position is located in multiple hydroelectric installations 5 The bottom for putting a minimum hydroelectric installation 5 is horizontally situated the cistern 4 of lower by pipeline connection, described The input of electric water pump 3 connects the cistern 4, and the outfan of the electric water pump 3 connects the circulation by water inlet pipe 2 The top of water tank 1, several in multiple hydroelectric installations 5 are connected by circuit with the electric water pump 3, for for The electric water pump 3 is powered.Also include water storage box 6, the water storage box 6 is arranged on adjacent two hydroelectric installation 5 Between.The hydroelectric installation 5 is hydrodynamic blade electromotor or tilt-impulse type electromotor, connects the pipe of the tilt-impulse type electromotor Road is obliquely installed.

As shown in Fig. 2 in an embodiment of the present invention, the hydrodynamic blade electromotor includes generating groove 5-1, the generating Notch 5-2 is provided with the top of groove 5-1, the bottom of the generating groove 5-1 is provided with outlet 5-3, in the generating groove 5-1 water is provided with It is flat arrange can axial rotation rotary shaft 5-4, rotary shaft 5-4 is provided with blade 5-5, and the notch 5-2 is towards described Blade 5-5 is arranged, and the generating groove 5-1 is stretched out in one end of rotary shaft 5-4, and the generating groove 5-1 is externally provided with speed change gear Input shaft and rotary shaft 5-4 of 5-6, the speed change gear 5-6 is connected, the output shaft of the speed change gear 5-6 with The generating axle of electromotor A5-12 is connected.The input shaft of the speed change gear 5-6 be arranged in parallel with rotary shaft 5-4, institute The input shaft for stating speed change gear 5-6 is connected with rotary shaft 5-4 by the first drive, first actuating device Including big belt pulley 5-7 and small belt pulley 5-8, the diameter with diameter greater than the small belt pulley 5-8 of the big belt pulley 5-7, The big belt pulley 5-7 is set in rotary shaft 5-4, and the small belt pulley 5-8 is set in the defeated of the speed change gear 5-6 Enter on axle, the big belt pulley 5-7 and the small belt pulley 5-8 are connected by belt 5-9.The output of the speed change gear 5-6 Axle be arranged in parallel with the generating axle of the electromotor A5-12, the output shaft of the speed change gear 5-6 and the electromotor A5-12 Generating axle connected by the second drive, second actuating device includes little gear 5-10 and little gear, described The diameter with diameter greater than the little gear of little gear 5-10, little gear 5-10 is set in the defeated of the speed change gear 5-6 On shaft, the little gear is set on the generating axle of the electromotor A5-12, little gear 5-10 and the pinion gear teeth Close connection.

The diameter with diameter greater than small belt pulley 5-8 of big belt pulley 5-7, this allows for rotary shaft 5-4 when a circle is rotated The input shaft of speed change gear 5-6 can rotate multi-turn, the rotating speed of generating axle when raising is transferred to the generating axle of electromotor A5-12, from And improve generated energy.The diameter with diameter greater than little gear of little gear 5-10, realizes little gear 5-10 little tooth when a circle is rotated Wheel can rotate multi-turn, the slewing rate of the generating axle of electromotor A5-12 be improved, so as to improve generated energy.

As shown in figure 3, the tilt-impulse type electromotor includes power generation box 5-14, in the power generation box 5-14 tilt-impulse type water is provided with The output shaft of turbine 5-15, the inclined-jet turbine 5-15 is stretched out after the power generation box 5-14 with the electromotor B5-16's Input shaft is connected.

In an embodiment of the present invention, the hydroelectric installation 5 also includes generating water receiving case 5-13, connects in the generating The top of water tank 5-13 connects with the bottom of the generating groove 5-1.

The hydroelectric installation 5 have including level height up to set gradually down the first hydroelectric installation, second Hydroelectric installation, the 3rd hydroelectric installation, the 4th hydroelectric installation, the 5th hydroelectric installation, the 6th hydroelectric generation Device, first hydroelectric installation, the second hydroelectric installation, the 3rd hydroelectric installation, the 4th hydroelectric installation Be tilt-impulse type electromotor, connect first hydroelectric installation, the second hydroelectric installation, the 3rd hydroelectric installation, The inlet channel of the notch of the 4th hydroelectric installation is obliquely installed, and the bottom of the 4th hydroelectric installation passes through pipeline Connection water storage box 6, the bottom of the water storage box 6 is sequentially connected the 5th hydroelectric installation and the 6th waterpower by pipeline Electric installation, the 5th hydroelectric installation and the 6th hydroelectric installation are hydrodynamic blade electromotor machine, in the present embodiment In, input channel is vertically arranged.

The setting of captation 7 can collect the rainwater in daily life, with amount of makeup water.The captation 7 is to catchment Funnel, the bottom of the collection hyponome connects with the top of the cyclic water tank 1 and/or the water storage box 6.

Water in cyclic water tank of the present invention 1 is entered under gravity in hydroelectric installation 5, in this process The mechanical energy of water is being converted into electric energy by the potential energy converting and energy of water into mechanical energy by hydroelectric installation 5, and water can be flowed into water-retention In pond 4, the water in cistern 4 is sent to cyclic water tank 1 by the induced effect of electric water pump 3, again as the power for generating electricity；This Inventive structure is simple, can be household electricity provides convenient by the potential energy converting and energy of water into electric energy.Stirred by the fall impact power of water Blade 5-5 rotates, and blade 5-5 is fixed in rotary shaft 5-4, and rotating shaft one end is connected with input shaft on speed change gear 5-6, leads to Cross speed change gear 5-6 and improve rotating speed, because the output shaft of speed change gear 5-6 is connected with the generating axle of electromotor A5-12, lead to Cross speed change gear 5-6 and improve rotating speed, and then generate electricity, improve generated energy.

The foregoing is only presently preferred embodiments of the present invention, not to limit the present invention, all spirit in the present invention and Within principle, any modification, equivalent substitution and improvements made etc. should be included within the scope of the present invention.

Claims

1. a kind of hydraulic circulating generation system, it is characterised in that including cyclic water tank (1), electric water pump (3) and cistern (4), The lower section of the cyclic water tank (1) from top to bottom passes sequentially through pipeline and is connected with multiple hydroelectric installations (5), multiple water The bottom that the minimum hydroelectric installation (5) is horizontally situated in power generation device (5) passes through pipeline connection position In the cistern (4) of horizontal level lower, the input of the electric water pump (3) connects the cistern (4), the electric water The outfan of pump (3) connects the top of the cyclic water tank (1) by water inlet pipe (2), in multiple hydroelectric installations (5) Several be connected with the electric water pump (3) by circuit, for for the electric water pump (3) power supply.

2. a kind of hydraulic circulating generation system according to claim 1, it is characterised in that described also including water storage box (6) Water storage box (6) is arranged between adjacent two hydroelectric installation (5).

3. a kind of hydraulic circulating generation system according to claim 1, it is characterised in that the hydroelectric installation (5) For hydrodynamic blade electromotor or tilt-impulse type electromotor, the pipeline for connecting the tilt-impulse type electromotor is obliquely installed.

4. a kind of hydraulic circulating generation system according to claim 3, it is characterised in that the hydrodynamic blade electromotor bag Generating groove (5-1) is included, notch (5-2) is provided with the top of the generating groove (5-1), the bottom of the generating groove (5-1) is provided with out The mouth of a river (5-3), be provided with the generating groove (5-1) it is horizontally disposed can axial rotation rotary shaft (5-4), the rotary shaft (5-4) blade (5-5) is provided with, the notch (5-2) is arranged towards the blade (5-5), one end of the rotary shaft (5-4) Stretch out the generating groove (5-1), the generating groove (5-1) is externally provided with speed change gear (5-6), the speed change gear (5-6) it is defeated Enter axle to be connected with the rotary shaft (5-4), the output shaft of the speed change gear (5-6) and the generating of electromotor A (5-12) Axle is connected.

5. a kind of hydraulic circulating generation system according to claim 4, it is characterised in that the speed change gear (5-6) Input shaft be arranged in parallel with the rotary shaft (5-4), and the input shaft of the speed change gear (5-6) is logical with the rotary shaft (5-4) The connection of the first drive is crossed, first actuating device includes big belt pulley (5-7) and small belt pulley (5-8), described The diameter with diameter greater than the small belt pulley (5-8) of big belt pulley (5-7), the big belt pulley (5-7) is set in the rotation In rotating shaft (5-4), the small belt pulley (5-8) is set on the input shaft of the speed change gear (5-6), the big belt pulley (5-7) connected by belt (5-9) with the small belt pulley (5-8).

6. a kind of hydraulic circulating generation system according to claim 5, it is characterised in that the speed change gear (5-6) Output shaft be arranged in parallel with the generating axle of the electromotor A (5-12), the output shaft of the speed change gear (5-6) and the generating The generating axle of machine A (5-12) by the second drive connect, second actuating device include gear wheel (5-10) and Little gear (5-11), the diameter with diameter greater than the little gear (5-11) of the gear wheel (5-10), the gear wheel (5- 10) it is set on the output shaft of the speed change gear (5-6), the little gear (5-11) is set in the electromotor A (5-12) Generating axle on, the gear wheel (5-10) and the ratcheting connection of the little gear (5-11).

7. a kind of hydraulic circulating generation system according to any one of claim 3 to 6, it is characterised in that the tilt-impulse type Electromotor includes being provided with inclined-jet turbine (5-15), the tilt-impulse type water in power generation box (5-14), the power generation box (5-14) The output shaft of turbine (5-15) stretches out and be connected with the input shaft of the electromotor B (5-16) after the power generation box (5-14).

8. a kind of hydraulic circulating generation system according to claim 7, it is characterised in that the hydroelectric installation (5) Also include generating water receiving case (5-13), top and the generating groove (5-1) or the generating of the generating water receiving case (5-13) The bottom connection of case (5-14).

9. a kind of hydraulic circulating generation system according to any one of claim 2 to 5, it is characterised in that the recirculated water The captation (7) for collecting rainwater is communicated with the top of case (1) and/or the water storage box (6).