CN1436391A

CN1436391A - Method of generating electrical energy and apparatus for carrying out said method

Info

Publication number: CN1436391A
Application number: CN01810883A
Authority: CN
Inventors: 伊姆里希·霍瓦特
Original assignee: EGO SRO
Current assignee: EGO SRO; EGOS R O 公司
Priority date: 2000-06-09
Filing date: 2001-06-07
Publication date: 2003-08-13
Also published as: WO2001095466A1; AU2001266547A1; SK9022000A3; RU2002135900A; EP1295379A1; US20040234396A1

Abstract

A mode for generating electricity and equipment for carrying out the mode according to this invention, whereby following a connection of a controllable electric driving motor (7) and its switching on the disc rotor (2) is started, which generates a centrifugal force at the rim of rotor circumference, this force causing centrifugal acceleration of liquid (3) and subsequently achieve rise in liquid pressures, which are quadratic in respect to circumferential velocity measured at the outer rim of disc rotor (2), whereby liquid (3) is supplied via feeding valve (121) to liquid tank (12) and disc rotor (2) that is continuously supplied with liquid (3) to a constant level, due to the effect of the two matched liquid level vessels (4) stator (1) and disc rotor (2), while these centrifugal force and energy potential are used for driving hydraulic motor (5), in order to rotate driving shaft (51) and transfer rotating motion to generator (6) that serves for generating electricity, and this electricity is transferred from the generator by means of collector rings (26) and carbon collectors (27).

Description

Produce the device of method and this method of enforcement of electric energy

Technical field

Thereby the present invention relates generally to the method that a kind of pressure that centrifugal acceleration produced that utilizes liquid generates electricity on rotor along the acting by their periphery of rotor.Especially, the invention still further relates to a kind of device of implementing this method, thereby make mechanical energy be delivered to generator through hydraulic motor from a rotor mechanism.

Background technology

Normally produce electric energy, but their major defect is usually to need higher preliminary expenses and export relevant restriction with their limited electric energy by waterpower and the wind power station that is provided with larger-diameter rotor.Based on concurrent flow and corresponding to the unique feasible alternative electricity-generating method according to the device of patent No.278118 (Slovakia) also is unaccommodated, except the wind power station.

According to the description of patent No.164452, only solved the starting mode of pump problem in theory based on the pattern of the operation of water pump, but still had known impact such as undue oscillation, cause device to be damaged easily and break down thereby be in operation.Invention No.164452 relates generally to and includes the pump turbine that rotation distributes the gate case, and the ventilation of blade wheel chamber was carried out before the hydraulic turbine starts.

Patent No.250417 discloses a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), and this Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises unsteady housing, the hydraulic turbine, generator, supply and discharge pipe, and only utilizes water-head to generate electricity.

Only solved being connected of driving mechanism and turning tool according to the linear hydraulic motor of patent No.196906 (Czech) and hydraulic motor according to design patent No.7606 (Czech).

The impulse type hydraulic turbine of describing according to patent No.198349 (Slovakia) and only be used for low differential water pressures according to the hydraulic turbine of design patent No.8877 (Czech), and efficient is lower.

Have the equivalent technologies feature and be the disclosed centrifugal type hydropower station of patent application PV No.886-98 (Czech) near another program of design concept of the present invention, its utilizes and to be created in the arm of water-immersed centrifugal device and to be arranged on the output of arm and by the centrifugal force on axle and the impeller that the hydraulic turbine is connected, therefore, the rotation of centrifugal device produces centrifugal force, centrifugal force is shifted water on the impeller onto, simultaneously their energy delivery that will rotate and will so produce are used for generating electricity the outlet reflow tank of water leaving water turbine on turning arm to the hydraulic turbine.Centrifugal force forms negative pressure in centrifugal device, this will cause water to be transferred through inlet tube getting back in the centrifugal device.Water tank and centrifugal device form the container with the water level that is complementary, and get back to the therefore maintenance minimum of energy loss that centrifugal device produces owing to water is transferred.The major defect that is immersed in the rotor in the water is that frictional force increases, this will cause need be bigger energy.Another shortcoming of this scheme is to come a large amount of water of pumping by bigger energy.

Summary of the invention

By adopting method of the present invention can overcome above-mentioned shortcoming to a certain extent, power generation mode of the present invention comprises a controllable motors, be used to drive the disk type rotor that produces centrifugal force, centrifugal force makes liquid quicken again and causes pressure to become the increase of quadratic relationship with respect to the peripheral speed of measuring in the disk type rotor outer rim, its cardinal principle is, liquid supplies in the fluid box by induction valve, simultaneously disk type rotor by feed fluid continuously to reach constant liquid level, liquid transmits having between two containers of the liquid level that is complementary, one of them container is a stator, another container is a disk type rotor, the centrifugal force and the energy potentiality that are produced by centrifugal acceleration are used to drive hydraulic motor, hydraulic motor makes the coupling spindle rotation, therefore coupling spindle transfers energy to generator, and electric energy is transmitted from generator by collector ring and carbon collector.

An advantage of this electricity-generating method is that disk type rotor rotates in atmosphere, and frictional force and institute's energy requirement reduce significantly.

Another advantage relevant with this electricity-generating method is to implement the device of this electricity-generating method, this Blast Furnace Top Gas Recovery Turbine Unit (TRT) comprises stator and disk type rotor, they are connected with the controllable motors driver element, these unit constitute two containers with the liquid level that is complementary, and stator comprises strutting piece, the one end is installed on the circular recess, the other end is installed on the fluid box that has induction valve, the fluid box sidewall is provided with at least one and connects hollow arm, it is connected on the circular recess that has flute profile excision portion, excision portion is contained in and can move freely the erection joint free discharge pipe on hydraulic motor one end, hydraulic motor is connected with generator through power transmission shaft, the 3rd device part includes oral pore and rotor skeleton piping, and rotor skeleton piping is connected to fluid box through respective chamber/chambers and quill shaft again.

The container of the liquid level that is complementary comprises circular recess, two connection hollow arm, fluid box, quill shaft, chamber and rotor skeleton pipings.

An advantage of the invention is that disk type rotor comprises rotor skeleton piping, rotor case and rotor drive shaft.

Another advantage of the present invention is that generator is installed on the axis of disk type rotor.

An advantage more of the present invention is, the bottom faces of quill shaft is to the mid portion of fluid box, and the top that has the quill shaft of anti-water swivel connector is installed on the disk type rotor securely.

An advantage more of the present invention is to have the negative pressure cover of the installation of sealing fully that has valve.

An advantage more of the present invention is that at least one hydraulic motor is installed on the peripheral tubes and is connected to through inlet at least one pipe of rotor skeleton piping.

Description of drawings

Describe the present invention below with reference to accompanying drawing, wherein, Fig. 1 has schematically shown the device feature that is used to implement the inventive method; And Fig. 2 has shown the vertical view of this device.

Embodiment

Example 1

Being used to as shown in Figure 1 implements the inventive system comprises stator 1 and the circular recess 15 that is installed on the stator support 11, and stator support is fixed firmly on the fluid box 12 with liquid 3.Stator support 11 is connected on the negative pressure cover 111 that has valve 112 hermetically.Fluid box 12 comprises induction valve 121, is used for supplying with and drain 3.Fluid box 12 middle parts comprise vertical quill shaft 13, are used for the flowing under action of gravity of liquid 3, have two containers 4 of the water level that is complementary with filling.The water level container 4 that is complementary comprises circular recess 15, two hollow arm 14, fluid box 12, quill shaft 13, chamber 231 and rotor skeleton pipings 24.Axle 13 tops are provided with water-proof connector 23 and chamber 231.Connector 23 is connected to and starts disk type rotor 2 necessary controllable driving unit 71 and motor 7.Disk type rotor 2 comprises rotor skeleton piping 24, rotor case 21 and electrical wiring shaft 22.Fluid box 12 connects hollow arm 14 by means of two and is connected with circular recess 15 on its sidewall.Circular recess 15 is provided with shaped cutting 151, and it is holding the erection joint free discharge pipe 53 that hydraulic motor 5 can move freely.Discharge pipe 53 at one end is installed on the hydraulic motor 5, and its other end can move freely and is contained in the excision portion 151 of circular recess 15.The bottom side of stator 1 has controllable motors 7, by travelling gear 71 it is connected with disk type rotor 2.Disk type rotor 2 comprises rotor case 21, electrical wiring shaft 22, rotor skeleton piping 24 and watertight coupling swivel 23.Chamber 231 holds rotor skeleton piping 24, and it is radially installed with respect to axis 25.Rotor skeleton piping 24 has the hydraulic motor 5 that the end that enters hole 52 has firm installation, and liquid 3 is supplied under pressure by this hydraulic motor.The other end of hydraulic motor 5 has discharge pipe 53, is used for liquid 3 is transferred to circular recess 15.The erection joint that can move freely that the circular recess 15 that is provided with excision portion 151 is holding discharge pipe 53 freely connects.Hydraulic motor 5 is used for being delivered to generator 6 generatings near the rotation 25 of disk type rotor 2 with rotatablely moving through coupling spindle 51.The top of disk type rotor 2 has electrical wiring shaft 22, and it is connected to current-collector 26 and carbon collector 27 with generator 6, to collect the electric energy that is produced by generator 6.

Example 2

As shown in Figure 1 the inventive system comprises stator 1 and the circular recess 15 that is installed on the stator support 11, stator support is installed on the fluid box 12 that liquid 3 is housed securely.Stator support 11 is installed on the negative pressure cover 111 that is provided with valve 112 hermetically.Fluid box 12 is provided with induction valve 121, is used for supplying with and drain 3.Fluid box 12 middle parts are provided with vertically arranged quill shaft 13, make liquid 3 be fed in the container 4 of the water level that is complementary in the action of gravity current downflow.The water level container 4 that is complementary comprises that circular recess 15, two connect hollow arm 14, fluid box 12, quill shaft 13, chamber 231 and rotor skeleton piping 24.Quill shaft 13 tops are provided with the anti-water swivel connector 23 that has chamber 231.Anti-water swivel connector 23 is connected to and starts disk type rotor 2 necessary travelling gear 71 and controlled drive motors 7.Disk type rotor 2 comprises rotor skeleton piping 24, rotor case 21 and electrical wiring shaft 22.Fluid box 12 connects hollow arm 14 by means of two and is connected with circular recess 15 on its two side.Circular recess 15 has excision portion 151, and it is holding the erection joint free discharge pipe 53 that hydraulic motor 5 can move freely.Discharge pipe 53 at one end is connected on the hydraulic motor 5, connects at the other end in the flute profile excision portion 151 of circular recess 15.Hydraulic motor 5 be installed on the peripheral tubes 28 and by it inlet 52 be connected hollow arm 14 connections.The bottom of stator 1 has controllable motors 7, and it is connected with disk type rotor 2 by travelling gear 71.Disk type rotor 2 comprises rotor case 21, power wiring armature spindle 22, rotor skeleton piping 24 and anti-water swivel connector 23.Chamber 231 holds rotor skeleton piping 24, and it is radially installed with respect to rotation 25.The end that has the rotor skeleton piping 24 of inlet 52 has the hydraulic motor 5 of firm installation, and liquid 3 is supplied under pressure by this hydraulic motor.The other end of hydraulic motor 5 has discharge pipe 53, and liquid 3 flows into circular recess 15 by this discharge pipe.Circular recess 15 is provided with flute profile excision portion 151, to hold the erection joint free discharge pipe 53 that can move freely.Rotatablely moving is delivered to generator 6 from hydraulic motor 5 through coupling spindle 51, generator for electricity generation and be installed in the distance of most probable near the rotation 25 of disk type rotor 2.The top of disk type rotor 2 has power wiring armature spindle 22, and it is connected to collector ring 26 and carbon collector 27 with generator 6, and they are used to shift the electric energy that is produced by generator 6.

The electromotive force that therefore the present invention can utilize the centrifugal acceleration to produce, because the continuous supply of liquid and based on the principle of the water level container that between stator and rotor, is complementary, the centrifugal acceleration causes rotor rotation, and this effect can be used in the place that needs electric energy, can insert any other place of distributing major network or be used to drive the place generating of other mechanical device.

Claims

1, a kind of electricity-generating method, connect controllable motors and make that the user can the disc-shaped rotor, disk type rotor will produce centrifugation accelerates power and realize that therefore fluid pressure raises, fluid pressure becomes quadratic relationship with respect to the peripheral speed of measuring in the disk type rotor outer rim, it is characterized in that, liquid (3) supplies in the fluid box (12) by induction valve (121), it is flowing liquid (3) between stator (1) and the disk type rotor (2) that disk type rotor (2) is supplied with at two water level containers (4) that are complementary continuously, centrifugal force and the energy potentiality that is produced by centrifugal acceleration is used to drive hydraulic motor (5) simultaneously, hydraulic motor applies for coupling spindle (51) and rotatablely moves, and actuating force is delivered to generator (6) generating, electric energy is transmitted from generator by collector ring (26) and carbon collector (27).

2, method according to claim 1 is characterized in that rotatablely moving of disk type rotor (2) carried out in atmosphere.

3, a kind of Blast Furnace Top Gas Recovery Turbine Unit (TRT), comprise stator and disk type rotor, they are connected with controllable motors, it is characterized in that, stator (1) and disk type rotor (2) constitute the container (4) of two liquid levels that are complementary that liquid (3) is housed, stator (1) comprises stator support (11), the one end is installed on the circular recess (15), the other end is installed on the fluid box (12) that has induction valve (121), the fluid box sidewall is provided with at least one and connects hollow arm (14), it is connected on the circular recess that has flute profile excision portion (151), excision portion is contained in and can move freely erection joint free discharge pipe (53) on hydraulic motor (5) one ends, the other end of hydraulic motor is connected with generator (6) through power transmission shaft (51), third part is connected on inlet (52) and the rotor skeleton piping (24), and (231) and quill shaft (13) are connected to fluid box (12) to rotor skeleton piping through the chamber again.

4, device as claimed in claim 3 is characterized in that, the container of two liquid levels that are complementary (4) comprises that circular recess (15), two connect hollow arm (14), fluid box (12), quill shaft (13), chamber (231) and rotor skeleton piping (24).

As claim 3 or 4 described devices, it is characterized in that 5, disk type rotor (2) comprises rotor skeleton piping (24), rotor case (21) and electrical wiring shaft (22).

As the arbitrary described device of claim 3-5, it is characterized in that 6, generator (6) is installed on the axis of disk type rotor (2).

7, as the arbitrary described device of claim 3-6, it is characterized in that, the mid portion of the bottom of quill shaft (13) and fluid box (12) matches, and the top of quill shaft (13) and anti-water swivel connector (23) match and be installed to securely on the disk type rotor (2).

As the arbitrary described device of claim 3-7, it is characterized in that 8, stator support (11) and/or circular recess (15) have the negative pressure cover (111) of the sealing installation that has valve (112).

As the arbitrary described device of claim 4-8, it is characterized in that 9, at least one hydraulic motor (5) is installed in peripheral tubes (28) and goes up and be connected at least one pipe of rotor skeleton piping (24) through inlet (52).