CN100390403C - Hydrolic mechanism free electric motor servo system water turbine speed regulator - Google Patents

Abstract

The present invention relates to a water turbine speed regulator of an electric motor servo system without a hydraulic mechanism. A single regulation water turbine speed regulator of an electric motor servo system without a hydraulic mechanism mainly comprises an electric controller, an electric servo driver, a guide vane drive motor and a mechanical actuating mechanism; a carbon brush unit, a slip ring unit, a blade driving motor and a mechanical actuating mechanism are added on the single regulation water turbine speed regulator of an electric motor servo system without a hydraulic mechanism to form a double regulation water turbine speed regulator of an electric motor servo system without a hydraulic mechanism. The water turbine speed regulator is not provided with an electrohydraulic switching assembly or a hydraulic mechanism, and provides a novel mechanical-electrical integration structure. Compared with a microcomputer, a mechanical hydraulic governor and an electric hydraulic governor, the water turbine speed regulator has the advantages of simple structure, no large device, good manufacturability, high reliability, small volume, light weight, no pressure oil working medium, no blocking failure, low failure rate, no easy abrasion parts and components, less maintenance and low maintenance cost. The water turbine speed regulator can be used for a direct current power supply of a hydraulic power station as a stand-by power supply.

Description

The motor servo system hydrogovernor of no hydraulic mechanism

Technical field

The invention belongs to hydrogovernor, particularly relate to a kind of motor servo system hydrogovernor that does not have hydraulic mechanism.

Background technique

Hydrogovernor is to regulate hydraulic turbine discharge and fluidised form thereof by the stator mechanism of water turbine and paddle mechanism, this adjusting needs very big power, even small-sized speed regulator, also to adopt mechanical-hydraulic actuator mostly, and often adopt the hydraulic actuator that has one-level or 2-level hydraulic to amplify.

At present, it is several that domestic and international known hydrogovernor can be divided into mechanical hydraulic governor, electrical hydraulic pressure governor and digital electric-hydraulic speed regulator etc., and the digital electric-hydraulic speed regulator claims microcomputer governor again.Up to now, all hydrogovernors all adopt hydraulic mechanism bar none.In early 1980s, countries in the world all begin to develop microcomputer (hydraulic pressure) speed regulator, up to 1993, the Central China University of Science and Technology cooperates with units concerned, the exploitation and the production of " programmable controller (hydraulic pressure) speed regulator " have been taken the lead in finishing, to the end of the year 2000, existing nearly 600 " programmable controller (hydraulic pressure) speed regulator " be hydroelectric station operation at home and abroad, and becomes the leading products of the current microcomputer-based hydro-turbine governor of China.This novel leading products have also adopted structures such as electro-control converter, machinery hydraulic system and main servomotor.

Above-mentioned several hydrogovernor all is to carry out work with the transformation of energy pattern of electric energy → hydraulic pressure energy → mechanical energy.The advantage of hydraulic system is that reaction is quick, and running steadily.But the hydraulic system that use in the water power plant has following shortcoming or deficiency.

(1) complex structure.The hydraulic system of speed regulator generally is made up of up to a hundred component such as oil sump tank, oil pump, oil pump motor, safety valve, feather valve, relief valve, safety check, pressurized tank, stop valve, pilot valve, auxiliary receiver, main control valve, main servomotor, emergency shutdown valve, aperture limiting valve, oil level indicator and pressure gauge with electric contacts.

(2) complex process, and need employ large-sized processing equipment.Oil sump tank and pressurized tank bulky need be employed large-sized processing equipments such as double column planing machine, vertical lathe; And the requirement on machining accuracy of oil pump and above-mentioned multiple valve is all very high, and about 80% component of whole hydraulic system are nonstandard, must make by oneself and the multiplex (MUX) plants the cooperation manufacturing.

(3) volume is big, quality is big.The boundary dimension of the hydraulic system of small-sized speed regulator is 1000mm * 1700mm * 1600mm, and its quality is about 1.5 tons.

(4) need to make the work medium with a large amount of machine oil.Small-sized speed regulator need be used 1～2 ton in machine oil, and need regularly do professional the chemical examination and regular oil strain to water content, acidity and the impurity content etc. of medium.

(5) rate of fault height in service.Easily stifled, the easy card of its oil circuit of electro-control converter; The oil pump serious wear, the oil transportation amount descends year by year; Main control valve also often constantly descends because of the wearing and tearing quality.More than three parts all be easily damaged parts, often need to change.

(6) energy input is big.Dripping, run, emitting, leak of water power plant hydraulic mechanism pressure oil is common phenomena, is difficult to radical cure.Under holding state, oil pump also will inevitably constantly start, consumption with supplementary pressure oil, and even more serious be, because the wearing and tearing of oil pump make its oil transportation amount fewer and feweri, cause oil pump to start more and more continually, and behind each the startup to continue the time of buying oil more and more longer, make the idle energy consumption of speed regulator increasing.

(7) maintenance cost is big.Up to standard for the safe operation that guarantees speed regulator and its working medium machine oil not only will regularly do the specialty chemical examination to machine oil, also wants regular oil strain.The hydroelectric power plant needs the oil filter of acquisition price costliness, also will consume disposable filter paper in a large number, also will often clean filter core or renew cartridge more, and filter core is the easy consumption product.In addition, change expensive electric liquid converting member, oil pump and main control valve etc., also occupy sizable ratio.

(8) befouling environment.Dripping, running, emit, leak in the water power plant of pressure machine oil is nothing to be surprised at, no wonder phenomenon.And during regularly extensive oil strain, then often cause full ground greasy dirt, and this also has part greasy dirt etch soil except the pollution factory building, also may inject rivers and lakes, and stream is returned the ocean, polluted water.

Current, advanced both at home and abroad digital electric-hydraulic speed regulator, claim microcomputer governor again, electro-control converter in its structure, and component such as the pilot valve that comprises in the machinery hydraulic system, main control valve and main servomotor, also all adopt hydraulic mechanism to do follower and actuator bar none, and existing major defect of micro electronmechanical class speed regulator or deficiency, what also its hydraulic mechanism caused exactly, because micro electronmechanical class speed regulator also is a kind of energy transfer mechanism by electric energy → hydraulic pressure energy → mechanical energy.Wherein, electric energy be converted to hydraulic pressure can electric liquid converting member be continuously, amplify the key element be transformed into corresponding mechanical displacement and flux signal by hydraulic pressure linearly with electric signal.Therefore, electric liquid converting member is the bottleneck of all micro electronmechanical class speed regulators, also is the main hardware that can the micro electronmechanical class speed regulator of decision safe and reliable operation, also is simultaneously the static quality of the micro electronmechanical class speed regulator of decision and the main hardware factor of dynamic quality.Operation facts have proved, the hardware fault more than 50% that causes hydrogovernor normally not move, all be that electric liquid converting member causes, should be noted that: electric liquid converting member is owing to the particularity of its structure and function, and it is the parts of a high rate of fault exactly.

The kind of electricity liquid converting member is more, but all exists separately shortcoming or deficiency respectively.

Various types of electric liquid converting members all adopt hydraulic mechanism bar none, and therefore, electric liquid converting member certainly exists above-mentioned hydraulic system existing (1)～(8) bar shortcoming or deficiency, and moreover, also there is following technical problem in electric liquid converting member.

Electricity liquid converting member has displacement output and flow to export two types.General output displacement be called electro-control converter, output flow be called electrohydraulic control.

Have the progressional electric-hydraulic converter that one-level hydraulic pressure amplifies, position when its output will remain on the power supply disconnection after power supply disappears, so long as do not get back to meta, all will cause the main servomotor standard-sized sheet of speed regulator or the catastrophic effect of complete shut-down, this is a big technical hidden danger.

In addition, moving coil electricity liquid converting member, easily blocked or by jam; The static fuel consumption of circular spraying type electricity liquid converting member is big, forces that oil pump is additional to be started, and energy consumption is big and quicken the wearing and tearing of oil pump; The stagnant ring of Proportional valve electricity liquid converting member is very big; The then more easily stifled easily card of nozzle baffle-type electricity liquid converting member.From the above, not only shortcoming is many for electric liquid converting member, and price is higher, so far, and the also real not desirable electric liquid converting member that is suitable for the water power plant use.Therefore, thoroughly get rid of electric liquid converting member and hydraulic mechanism, become the target that people pursue naturally.

Summary of the invention

The present invention provides a kind of both do not had electric liquid converting member and main servomotor for solving the technical problem that exists in the known technology, does not also have the motor servo system hydrogovernor of hydraulic mechanism.

The technological scheme that the present invention takes for the technical problem that exists in the solution known technology is:

A kind of motor servo system hydrogovernor that does not have hydraulic mechanism, it mainly is made of the motor servo system hydrogovernor of the no hydraulic mechanism of dull joint electric controller, electric servo driver, stator drive motor and mechanical transmission mechanism; After setting up carbon brush group, slip ring group, paddle drive motor and mechanical transmission mechanism on the motor servo system hydrogovernor of the no hydraulic mechanism of dullness joint, form two motor of regulating no hydraulic mechanism and watch it mainly is made of the no hydraulic mechanism of dull joint the swivel nut leading screw mechanical transmission mechanism of electric controller, electric servo driver, stator drive motor and no hydraulic mechanism motor servo system hydrogovernor; On the motor servo system hydrogovernor of the no hydraulic mechanism of dullness joint, set up the carbon brush group, the slip ring group, the paddle drive motor is formed two motor servo system hydrogovernors of regulating no hydraulic mechanism with the worm and gear mechanical transmission mechanism of no hydraulic mechanism, it is characterized in that, on the output shaft of stator drive motor, be connected one the cover no hydraulic mechanism swivel nut leading screw mechanical transmission mechanism, the concrete formation of this mechanical transmission mechanism is, be loaded into one by the output shaft of motor and the endoporus of swivel nut, swivel nut the other end endoporus is equipped with a rhizoid thick stick, the terminal of the leading screw cross that is connected, cross is installed in the fixing guide rail, a slide block also is housed in the cross, an arm handle is installed on the jack shaft of slide block again, in the other end axis hole of arm handle, install a speed governing axle, thereby form the swivel nut leading screw mechanical transmission mechanism of no hydraulic mechanism.The swivel nut leading screw mechanical transmission mechanism of no hydraulic mechanism directly connects the dress guide vanes of water turbine; Be connected on the output shaft of the paddle drive motor worm and gear mechanical transmission mechanism of the no hydraulic mechanism of a cover, this mechanical transmission mechanism directly connects adorns the water turbine paddle.

The present invention can also adopt following technical measures:

The worm and gear mechanical transmission mechanism of described no hydraulic mechanism, install by the endoporus of the shaft of motor and the worm screw the other end and to be one, the worm meshing worm gear installs a worm-wheel shaft in the axis hole of worm gear, thereby forms the worm and gear mechanical transmission mechanism of no hydraulic mechanism.

Described electric servo driver, stator drive motor and paddle drive motor, the autosynchronous motor of the autosynchronous motor servo driver that adopting complements one another uses, the autosynchronous motor that drives stator and driving paddle.

Described electric servo driver, stator drive motor and paddle drive motor, the asynchronous motor of the AC asynchronous motor servo driver that adopting complements one another uses, the asynchronous motor that drives stator and driving paddle.

Described electric servo driver, stator drive motor and paddle drive motor, the asynchronous motor of the frequency variator that adopting complements one another uses, the asynchronous motor that drives stator and driving paddle.

Described electric servo driver, stator drive motor and paddle drive motor, the direct current motor of the direct current motor servo driver that adopting complements one another uses, the direct current motor that drives stator and driving paddle.

Described electric servo driver, stator drive motor and paddle drive motor, the reluctance motor of the reluctance motor servo driver that also can adopting complements one another uses, the reluctance motor that drives stator and driving paddle.

Described electric servo driver, stator drive motor and paddle drive motor, the stepping motor of the stepping motor servo driver that also can adopting complements one another uses, the stepping motor that drives stator and driving paddle.

Advantage and good effect that the present invention has are: by electric controller, the electricity servo driver, motor and mechanical transmission mechanism are formed the motor servo system hydrogovernor of no hydraulic mechanism, it is with the transformation of energy pattern work of electric energy → mechanical energy, with known mechanical hydraulic governor, electrical hydraulic pressure governor and digital hydrodynamic governor (claiming microcomputer governor again) are compared, the present invention has reduced the transformation of energy link of machine/liquid or electricity/liquid, because electric energy is than the easier transmission of other form of energy, control, handle, so the present invention had both kept the hydraulic system reaction fast, running steadily and have outside the advantage of stand-by power source and has overcome all shortcomings or the deficiency of hydraulic mechanism and electric liquid converting member simultaneously.

Compare with known hydrogovernor, the present invention has the following advantages and good effect: no hydraulic mechanism, simple in structure; No pressure oil working medium does not have stifled card failure, and rate of fault is low; The dripping of inorganic oil, run, emit, leak phenomenon, free from environmental pollution; Volume is little, in light weight; No large-scale device, good manufacturability; Do not have easily mill fragile part, be bordering on freedom from repairs, so maintenance expenses is low; Can use the DC electrical source in water power plant to make stand-by power source.

Technology of the present invention, economic base are that motor servo system and the electric Hydrauservo System that electric servo driver and motor constitute has same static quality and dynamic quality, so, the motor servo system hydrogovernor of no hydraulic mechanism in theory with technical be feasible.And with the identical seriation of motor servo system critical component, the commercialization of capacity of the speed regulator of known technology, ample supply of commodities on the market, and in other industry ripe operation, use experience are arranged, just the cost of motor servo system is higher, but low because of its energy consumption, maintenance cost is little, so, overall economic efficiency of the present invention is still identical substantially with known speed regulator, from the above, from technology, production and economic conditions, speed regulator of the present invention be feasible, can realize and favorable economic benefit and social benefit being arranged.

Description of drawings

Fig. 1 is the schematic front view of guide vanes of water turbine controlling device of the present invention;

Fig. 2 is the diagrammatic top view of Fig. 1;

Fig. 3 is the schematic front view of water turbine paddle controlling device of the present invention;

Fig. 4 is the diagrammatic top view of Fig. 3;

Fig. 5 is the flow chart of the dullness water saving turbine speed control system of Fig. 1 and Fig. 2;

Fig. 6 is two flow charts of regulating the water turbine governing system of Fig. 1～Fig. 4.

Embodiment

For further understanding content of the present invention, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:

See also Fig. 1, Fig. 2 and Fig. 5, electricity servo driver 1 receives the control signal of electric controller (A), simultaneously, also by measuring the relevant physical quantity of wire harness 2 and feedback wire harness 3 sampling stator motor 4, and acquisition is from the feedback signal of stator motor 4, above three class signals are carried out comprehensively, at last by motivational drive wire harness 5 to stator motor 4 output driving currents, its motor 4 is rotated, because motor 4 exists sample circuit and feeder loop, so need 4 power supplies of 6 pairs of motor of control power supply wire harness.Swivel nut 7 is rigidly connected by the shaft of key 14 and pin 13 and motor 4, so swivel nut 7 rotates synchronously with motor 4, swivel nut 7 drives leading screws 8 and does straight-line displacement, and leading screw 8 push-and-pull crossheads 16 are done straight-line displacement along guide rail 10.When crosshead 16 displacements, slide block 15 in the crosshead is done orthogonal translation simultaneously with crosshead 16, causing arm handle 9 and speed governing axle 11 is that rotate together at the center with the axis of speed governing axle 11, and speed governing axle 11 drives guide vanes of water turbine and rotates, thereby finishes the position servo to guide vanes of water turbine.Said mechanism constitutes the Water-Turbine Engine Adaption device of dull joint.

Consult Fig. 3 and Fig. 4, be the water turbine paddle controlling device of present embodiment, form mechanical transmission mechanism B by rotary wheel of water turbine main shaft 18, slip ring group 19, runner motivational drive wire harness 20, paddle motor 21, worm screw key 22, worm-wheel shaft 23, worm gear 24, worm screw pin 25, worm screw 26 ₂, it and water turbine paddle 27 are installed in the runner of water turbine, and rotate around rotary wheel of water turbine main shaft 18 with rotary wheel of water turbine.Motivational drive wire harness 5 conducts the driving current of electric servo driver 1 output to carbon brush group 17, carbon brush group 17 contacts closely with slip ring group 19 on being installed in rotary wheel of water turbine main shaft 18, the driving current of electric servo driver 1 output is imported paddle motor 21 by runner motivational drive wire harness 20, the shaft of this motor 21 installs with worm screw 26 rigidity by key 22 and worm screw pin 25 and is one, worm screw 26 is rotated synchronously with motor 21, and driving worm gear 24 rotates, worm-wheel shaft 23 rotates with worm gear 24, and drive 27 rotations of water turbine paddle, finish position servo to the water turbine paddle.21 servo-actuateds of paddle motor are in stator motor 4, and it does not accept the sampling of electric servo driver 1, also not to this driver 1 feedback physical quantity.Said mechanism constitutes the followup device of the Water-Turbine Engine Adaption device of dull joint, and forms the Water-Turbine Engine Adaption device of binodal with the Water-Turbine Engine Adaption device of dullness joint.

Consult Fig. 1～Fig. 6, its input quantity of present embodiment is the rotation speed n of water turbine, and its output quantity is the displacement of leading screw to dullness water saving turbine speed regulator, is the displacement of leading screw and the corner of worm gear to two adjusting hydrogovernors.

Consult Fig. 5 and Fig. 6, the working principle of the rotational speed of water turbine regulating system of present embodiment is: the rotation speed n of hydraulic turbine generator group F feeds back to A ₁The place, and with rotational speed setup n ₀Relatively, its difference DELTA n=n ₀-n sends into electric controller, electric controller is pressed given mathematical model to this difference DELTA n, with certain algorithm analyze, comprehensive and decision-making, export controlled quentity controlled variable with digital form or analog amount mode at last, this controlled quentity controlled variable is exactly the position expected value of guide vanes of water turbine and water turbine paddle.Electric controller has analog circut and digital circuit two major types, and its algorithm can be a kind of in classical pid control algorithm, optimal control algorithm, FUZZY ALGORITHMS FOR CONTROL and the adaptive control algorithm.The electricity servo driver is the Linear Power Amplifier parts, and its receives the controlled quentity controlled variable of electric controller, and receives driving mechanism and feed back to its position signal, comprehensive after, give motor with the instant output driving current of linear mode.Motor is the power unit of hydrogovernor, and it drives guide vanes of water turbine and water turbine paddle by mechanical transmission mechanism, thereby changes the inflow of water turbine, and then changes the rotating speed of water turbine, finishes the automatic adjusting to rotational speed of water turbine.In fact, electric servo driver and motor are the followup systems of electric controller.From the viewpoint of transformation of energy, embodiments of the invention are one and are converted to the controlling device of mechanical energy by electric energy that it has got rid of hydraulic mechanism fully.

Claims (8)

1. motor servo system hydrogovernor that does not have hydraulic mechanism, it is mainly by electric controller, electric servo driver, the stator drive motor swivel nut leading screw mechanical transmission mechanism (B with no hydraulic mechanism ₁) the dull motor servo system hydrogovernor that saves no hydraulic mechanism of composition; On the motor servo system hydrogovernor of the no hydraulic mechanism of dullness joint, set up the worm and gear mechanical transmission mechanism (B of carbon brush group, slip ring group, paddle drive motor and no hydraulic mechanism ₂) form two motor servo system hydrogovernors of regulating no hydraulic mechanism, it is characterized in that: the swivel nut leading screw mechanical transmission mechanism (B of the no hydraulic mechanism of a cover that on the output shaft of stator drive motor (4), is connected ₁), the concrete formation of this mechanical transmission mechanism (B1) is, be loaded into one by the output shaft of motor (4) and the endoporus of swivel nut (7), swivel nut (7) the other end endoporus is equipped with a rhizoid thick stick (8), the terminal of leading screw (8) cross (16) that is connected, cross (16) is installed in the fixing guide rail (10), a slide block (15) also is housed in the cross, an arm handle (9) is installed on the jack shaft of slide block (15) again, in the other end axis hole of arm handle, install a speed governing axle (11), thereby the swivel nut leading screw mechanical transmission mechanism (B1) of forming no hydraulic mechanism, mechanical transmission mechanism (B1) directly connect dress guide vanes of water turbine (12); On the output shaft of paddle drive motor (21), be connected one the cover no hydraulic mechanism worm and gear mechanical transmission mechanism (B ₂), this mechanical transmission mechanism (B ₂) directly connect and adorn water turbine paddle (27).

2. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1 is characterized in that: the worm and gear mechanical transmission mechanism (B of described no hydraulic mechanism ₂), installing by the endoporus of the shaft of motor (21) and worm screw (26) the other end and to be one, worm screw (26) engagement worm gear (24) installs a worm-wheel shaft (23) in the axis hole of worm gear, thereby forms the worm and gear mechanical transmission mechanism (B of no hydraulic mechanism ₂).

3. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: described electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the autosynchronous motor of the autosynchronous motor servo driver that adopting complements one another uses, the autosynchronous motor that drives stator and driving paddle.

4. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: described electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the asynchronous motor of the AC asynchronous motor servo driver that adopting complements one another uses, the asynchronous motor that drives stator and driving paddle.

5. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: described electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the asynchronous motor of the frequency variator that adopting complements one another uses, the asynchronous motor that drives stator and driving paddle.

6. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the direct current motor of the direct current motor servo driver that adopting complements one another uses, the direct current motor that drives stator and driving paddle.

7. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: described electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the reluctance motor of the reluctance motor servo driver that adopting complements one another uses, the reluctance motor that drives stator and driving paddle.

8. the motor servo system hydrogovernor of no hydraulic mechanism according to claim 1, it is characterized in that: described electric servo driver (1), stator drive motor (4) and paddle drive motor (21), the stepping motor of the stepping motor servo driver that adopting complements one another uses, the stepping motor that drives stator and driving paddle.

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