IL190663A - Electric power generator equipment - Google Patents

Description

190663/2 ttwn ftps * &v>h nivnw ΊΜ nmvn IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER ARATEC ENG. CONSULT. E. REPRES. LTD A.

"IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER".

TECHNICAL FIELD The invention herein refers to improvements in electrical power generating equipment which, due to the construction adopted, allows simplified maintenance at reduced frequency; in addition to useful application in several types of hydro electrical power plants, namely : micro, mini and small sized hydroelectric power plants.

TECHNICAL FUNDAMENTALS The state-of-the-art technology already acknowledges several types of hydro-electrical power generators with turbine and electrical generator coupled as well as integrated in a single equipment.

Usually, equipments with turbine and electrical generator integrated into single equipment present, as main inconvenience, the need for electrical field feeding in the generator rotor, which in turn, requires the adoption of auxiliary systems, such as excitement system, brushes, rings and collectors, consequently, turning the required complete rotor water tightness difficult.

One of the existent integrated hydroelectric power generators, known as Straffo turbine, presents the generator rotor assembled in the periphery of the propeller or Kaplan wheel.

The referred Straflo generator has as source of magnetic flux generated in the rotor, coils fed by external electrical current; therefore, having as constructive characteristics the need of mechanical seals or hydrostatic gasket joints, for water tightness preventing water from reaching the gap between the rotor and the stator, and the electrical parts of the rotor.

Another inconvenience observed in such turbine model consists of the fact that: inasmuch there is a need for transferring electrical power from foreign source to the rotor to generate useful magnetic flux per pole in the rotor, water tightness for the physical circuit that will perform such transfer becomes necessary.

Other generators applied to hydro electrical plants may be found in the state-of-the-art, such as document EP 1318299, where a turbine in bulb shape is foreseen, using a synchronous generator with permanent magnetic excitation with permanent magnetic poles, which are arranged in the generator rotor; the generator refrigeration is allowed only by the turbine flux which directs and promotes heat transfer of the bulb external surface. The document herein, although utilizing permanent magnetic excitement, presents complex constructive format, which turns its application unfeasible as an application of the present invention.

Document EP 0790696 refers to an electrical power generator, which presents one stator and one rotor, while the stator comprises some plurality of rectangular sectors where magnectical pole elements are disposed, being such arrangement applied to conventional generators, aiming at reducing the size of equipment, and avoiding some inconveniences found in the technique, however, it cannot be used in hydro electrics due to lack of water tightness and some other decurrent problems.

The applicant already holds the patent deposit for one integrated hydro generator, applied for as No. PI 0205233-4, having turbine and generator integrated and the generator rotor assembled to the external diameter of the turbine blades.

BRIEF DESCRIPTION OF THE OBJECT.

In order to overcome inconveniences arising from current techniques, the invention herein has been developed focusing on "IMPROVING ELECTRICAL ENERGY GENERATOR EQUIPMENT", more specifically applied to electrical power generation systems, allowing energy conversion elements to constitute a set composed of: - Hydraulic turbine : used for energy conversion from fluid mechanical into mechanical energy; - Generator: used for conversion of mechanical into electrical energy, composed of: Generator Stator and Generator Rotor. The turbine power is directly transmitted to the electrical generator whenever the rotor with permanent magnets is assembled solidary to the turbine hub, or through a shaft that couples the turbine hub to the electric generator rotor.

The physical arrangement of the electrical energy generator equipment presents two main configurations, namely : External Generator Stator, and Internal Generator Rotor, shown in pictures from 1 to 7, 9, 11 and 13, named as Version A; and Internal Generator Stator and External Generator Rotor, shown in pictures 8, 10, 12 and from 14 to 19 and named as Version B.

In both instances, the rotor with permanent magnets is assembled either solidarily to the turbine hub or by means of a shaft that couples the turbine cube to the electrical generator rotor.

Yet, the synchronous generator may have permanent magnets positioned in the generator rotor in two formats, namely : Permanent magnets assembled on the rotor surface, shown in figure 3 for Version A and in figure 15 for Version B; and permanent magnets assembled, inserted in the rotor, shown in figure 4, for Version A and in figure 16 for Version B.

Resins, compound materials (either organic or metallic) or ceramics may be used in the capsulation of permanent magnets of the electrical generator rotor and stator, yet the capsulation option may be a combination of those materials listed.

The forms to obtain material encapsulation may be those performed by injection, immersion, dripping or by applying plates, ribbons, wires or blankets.

The hydraulic turbine and the generator are assembled in integrated format, with the electrical generator rotor directly coupled to the Propeller or Kaplan turbine hub (or cube), or to the equipment shaft, which can be formed by a single part or divided into sections interconnected by flanges, spools or sleeves, among others.

The hydraulic turbine can be Propeller or Kaplan type, and the electrical generator rotor with poles of permanent magnets is solidarily connected to its hub, or to the equipment shaft, being the shaft made either in one piece or divided into pieces connected by flanges, spools, sleeves, etc.

The turbine blades may possibly be adjusted during assemblage, or be controlled either by mechanisms or hydraulic systems, while the equipment shaft is applied for radial and longitudinal positioning of the turbine/generator set.

The hydraulic turbine hub may be cylindrical, spherical, elliptical, or any other shape that allows the pivoting of the hydraulic turbine blades, which means, the rotation motion around an axis perpendicular to the shaft of the solidary turbine/generator set.

When the blades of the hydraulic turbine are controllable, they will pivot in relation to the turbine hub.

Eventually, if permanent magnets of the electrical generator rotor are resistant to corrosion and abrasion, they may be non-encapsulated .

The electrical generator rotor can be encapsulated by resins, compound materials (either organic or metallic) or ceramics, as capsulation options, and in order to maintain water tightness, the capsulation option may be a combination of the above mentioned materials.

The application modes of capsulation materials may be by means of injection, immersion, dripping or applications per plates, bands, threads or blankets.

Eventually, permanent non-capsulated magnets resistant to corrosion and abrasion may be used, turning water tightness of the electrical generator rotor unnecessary, being such an option of the equipment physical arrangement.

One of the objectives of the present equipment is to propose that the rotor magnets of the electrical generator, whether encapsulated or not, remain immersed in water, therefore allowing water in the gap between the generator rotor and the generator stator (space between the electric generator rotor and the generator stator).

Another objective achieved with the construction of such electrical energy generator equipment is that, with the utilization of permanent magnets(5), either encapsulated or resistant to corrosion and abrasion, the electrical feeding is not necessary for the field of the electrical generator rotor, with consequent suppression of the excitation system, and also turning the water tightness between the electrical generator rotor and the equipment stationary parts and facilitating the equipment heat exchange.

Therefore, the Utility Model herein describes the equipment generator of electrical power as an innovative improvement applied to electrical systems for power generation, allowing the complete hydro-mechanic-electrical conversion in an integrated turbine/generator ensemble making use of permanent magnets, either capsulated or non-capsulated, with no need for electrical excitation system for the rotor of the electric generator; therefore, eliminating the need for water tightness, allowing presence of water in the gap between the generator rotor and the generator stator.

DESCRIPTION OF DRAWINGS.

In order to complement the present description, aiming at clearly understanding the characteristics of such invention, and according to a preferential practical presentation of the hardware arising from the same, there are two sets of drawings divided into two groups related to the following versions : Version A - External Generator Stator and Internal Generator Rotor Version B - Internal Generator Stator and External Generator Rotor, Thus, in an exemplified rather than restrictive manner, the following is represented : Figure 1 illustrates a frontal view of the electrical power generator equipment (Version A) and that in particular presents the physical arrangement with the Propeller or Kaplan turbine type; Figure 2 shows a schematic and lateral view of the application for patent registration (application Number PI-0.205.233.4) ; Figure 3 is the illustration of the permanent magnets arrangement on the surface of the rotor generator; Figure 4 is the illustration of permanent magnets arrangement inserted in the generator rotor; Figure 5 represents a longitudinal cut from Case Al equipment, illustrating the components assembled (application for patent registration No. PI-0.205.233-4); Figure 6 represents a longitudinal cut from the equipment Case A2, illustrating the components assembled (application for patent registration number PI-0.205.233-4); Figure 7 represents a longitudinal cut of the equipment, illustrating the assembled components / Case Bl : Set of turbine and electrical generator rotor bi-supported with the rotor of the electrical generator solidary with the turbine hub projection and with permanent magnets placed in the external diameter of the rotor electrical generator; Figure 8 represents a longitudinal cut of the equipment, illustrating the components assembled / Case B2 : set of turbine and electrical generator rotor bi-supported, with rotor of the electric generator solidary to the extension of the turbine hub, and with permanent magnets placed in the internal diameter of the electrical generator rotor; Figure 9 represents a longitudinal cut of the equipment, illustrating the assembled components / Case B3 : turbine and electrical generator rotor set bi-supported with the rotor of the electrical generator solidary to the equipment shaft, being the shaft either one single piece, or divided into sections interconnected by flanges, spools, sleeves, etc, and with permanent magnets in the external diameter of the electrical generator rotor; Figure 10 represents a longitudinal cut of the equipment, illustrating the assembled components / Case B4: turbine and electrical generator rotor set bi-supported with the electrical generator solidary to the equipment shaft, being the shaft either a single part or composed of by sections interconnected by flanges, reels, sleeves, etc. and with permanent magnets in the internal diameter of the electrical generator rotor; Figure 11 represents a longitudinal cut of the equipment, Illustrating the assembled components / Case B5 : The turbine is bi-supported and the electrical generator is in balance. Permanent magnets are in the external diameter of the electrical generator rotor; Figure 12 represents a longitudinal cut of the equipment, Illustrating the assembled components / Case B6 : The turbine is bi-supported and the electrical generator is in balance. The permanent magnets are in the internal diameter of the electrical generator rotor; Figure 13 represents a longitudinal cut of the equipment, Illustrating the components assembled / Case B7 : The turbine is in balance, fixed to the equipment shaft projection, being the shaft either a single piece or composed of sections interconnected by flanges, spools, sleeves, etc. and the rotor of the electrical generator bi-supported with the permanent magnets located in the internal diameter of the electrical generator rotor; Figure 14 represents a longitudinal cut of the equipment, Illustrating the assembled components / Case B8 : the turbine is in balance, fixed to the projection of the equipment shaft, being the shaft and the equipment either a single piece or composed of sections interconnected by flanges, spools, sleeves, etc, and the rotor of the electrical generator is bi-supported with the permanent magnets located in the internal diameter of the electrical generator rotor; and Version B - Internal Generator Stator and External Generator Rotor.

Figure 15 represents the arrangement of permanent magnets on the surface of the generator rotor; in Version B : Figure 16 represents the arrangement of permanent magnets inserted in the generator rotor; Figure 17 represents a longitudinal cut of the equipment CASE CI ; Figure 18 represents a longitudinal cut of the equipment CASE C2; and Figure 19 represents a longitudinal cut of the equipment, illustrating the assembled components / CASE C3, (Version B). Turbine and electrical generator rotor set bi-supported with the electrical generator solidary to prolongation of the turbine hub.

DETAILED DESCRIPTION OF THE OBJECT.

With reference to the illustrated drawings, the invention herein refers to "IMPROVEMENTS UPON THE ELECTRICAL POWER GENERATOR EQUIPMENT", employed as generator of hydroelectric energy, synchronous generator type with permanent magnet poles ( 1), equipment composed of the following parts, namely (see figures 7, 8, 9, 10, 11, 12, 13, 14, 17, 18 and 19) : a) Hydraulic turbine (2) : used for fluid mechanical conversion into mechanical ; b) Electrical Generator (3) set composed of parts 1,4,5,7 and 10 : used for mechanical conversion into electrical, which is composed of: bl) Generator stator ( 4) - Figures from 7 to 14, 17, 18 and 19) : encapsulated, however, similar to the electrical stators usually employed which, in its conception is composed of magnetic circuit, named Stator Ironwork (5) Figures 3 and 4) and multiphase winding ( 6) (Figures 3, 4, 15 and 16), placed in the stator grooves, distributed and shortened, aiming at by its peculiarities to confer the expected characteristics to the electrical output tension of the generator (3) ; b2) Generator rotor ( 7) Figures from 7 to 14, 17, 18 and 19) : composed of magnetic circuit, identified as "Rotor Ironwork" ( 8) - figures 3 , 4, 15 and 16) and poles( 9) ( figures 3 , 4, 15 and 16), of permanent magnets ( 1) ( Figures from 7 to 14, 17, 18 and 19), being the mentioned poles placed in the rotor ( 7 ) of the generator, c) Gap between stator and rotor ( 10) (Figures from 7 to 14, 17, 18 and 19) : gap between the generator stator (4) and the generator rotor (7).

The generator stator ( 4 ) shall be totally encapsulated by resins, compound materials (either organic or metallic) or ceramics; the encapsulation option may be the combination of the aforementioned materials.

The application process for encapsulation materials may be by means of injection, immersion, dripping, or applications of plates, ribbons, threads or blankets.

Optionally, permanent magnets ( 1) of the generator rotor (7) may not be encapsulated, and in such situation permanent magnets shall be resistant to corrosion and abrasion.

The generator rotor (7) shall be encapsulated by resins, compound materials (organic or metallic), or ceramics that may be encapsulation options, yet the encapsulation option may also be a combination of the above mentioned materials, aiming at keeping water tightness of the generator rotor.

The generator rotor (7) is usually encapsulated and totally immersed in water, allowing the presence of water in the gap (10) between the generator rotor (7) and generator stator (4) .

The application process for encapsulation materials of the generator rotor (7) and (3) may be obtained by means of injection, immersion, dripping, or applications of plates, ribbons, threads or blankets.

The permanent magnets ( 1) placed in the generator rotor (7) act as excitation elements (generating the useful magnetic flux per pole), which can be assembled in the Rotor Iron in two ways : a) Permanent magnets ( 1 ) at generator rotor surface (7), shown in figures 3 and 15, with the magnetization of the permanent magnets in radial direction ( Rl ) ; or b) Permanent magnets inserted in the Rotor Iron (8) as shown in figures 4 and 16, where the Rotor iron ( 8 ) is previously prepared for the insertion of permanent magnets ( 1) leading to the magnetization of the permanent magnets ( 1) to tangential direction (Tl) The arrangement of permanent magnets ( 1) for every pole ( 9) may be formed either by only one piece of permanent magnet or by a composition of small pellets, conveniently displayed in the rotor surface or inserted in the rotor.

The Stator iron (5) and Rotor Iron may be made of any magnetic materials that better fits the project.

The electrical energy generator equipment herein proposed is composed of a structure formed by a rear crossbar ( 12 ) figures fro 7 to 14, 17, 18 and 19) and posterior crossbar ( 13) figures from 7 to 14, 17, 18 and 19), where the forward guiding bearing is located ( 14) ( figures from 7 to 14, 17, 18 and 19) and rear guiding bearing ( 15) ( figures from 7 to 14, 17, 18 and 19), being the thrust bearings ( 16) (figures from 7 to 14,17, 18 and 19) and back- thrust bearing ( 17) ( figures from 7 to 14, 17, 18 and 19) being alternatively placed either in the forward bearing ( 14) or in the rear bearing ( 15).

The bearings ( 16/17) may be sliding bearings or roller bearings, lubricated by water, grease, oil or dry.

The heat generated by mechanical friction in the bearings is transferred to the water flow; whenever bearings are lubricated by oil the heat dissipation may be carried out by using external heat exchangers.

The forward guiding bearing ( 14) and the rear guiding bearing ( 15) support the equipment shaft ( 18) figures from 7 to 14, 17, 18 and 19).

The arrangements of figures 3 and 15 envisage that permanent magnets ( 1) be positioned on the surface of the generator rotor (7) .

The arrangements of figures 4 and 16 envisage that permanent magnets (1) positioned inserted in the generator rotor (7).

The hydraulic turbine may be Propeller or Kaplan type.

The blades ( 11) figures from 7 to 14,17, 18 and 19 ) of the hydraulic turbine (2) may be fixed, adjustable in the assemblage or controllable by means of mechanisms, hydraulic or electrical systems.

The equipment shaft (18) allows radial and longitudinal positioning of the set.

The turbine hub (cube) (19) figures from 7 to 14, 17, 18 and 19) may be cylindrical, spherical, elliptical, or any other shape that allows the pivoting of the blades ( 11).

When the blades ( 11) of the hydraulic turbine are controllable, they will pivot in relation to the turbine hub (9) .

The regulation of electrical tension and frequency are obtained by electronic, electromechanical or hydraulic external equipment.

The pre-distributor with regulating blades ( 11) contributes to improve the equipment efficiency in different load and flow conditions.

The electrical power generating equipment (2) and (3) may be positioned as follows : a) as to individual positioning, such as : a l = horizontal (perpendicular to the site surface vertical); a2 = aligned to site surface vertical a3 = inclined in relation to the site surface vertical; b) as to the number of equipments in the same site : one or more equipment. The equipment for electrical energy generation (2) and (3) may be grouped as follows : bl)In parallel, side by side horizontally, with the middle cross section plane of the turbine rotors perpendicular to the main water flow direction ; b2) one equipment over another vertically (also in parallel) with the middle cross section plans of turbine rotors perpendicular to the main water flow direction ; b3) serial positioned equipment (one equipment receiving the water output flow from the previous equipment) b4) Combined in one or more modules, which can be switched on and off individually or in groups.

It is important to understand that the invention herein does not limit its application to the details and steps herein described. Such invention allows some other modalities and to be practiced or executed in various manners, being understood that the terminology used aims at description, rather than limitation.

Claims (10)

1. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", characterized by the hydraulic turbine and synchronous electrical generator constitute a set operating in integrated manner with the generator rotor, and may be either directly coupled to the turbine hub or coupled to the equipment central shaft (CE) which may be composed of one only piece or divided into sections interconnected by means of flanges, spools, sleeves etc. ; the generator rotor has poles with permanent magnets; the hydraulic turbine may be either the Propeller or Kaplan type with blades of the referred hydraulic turbine be fixed, adjustable in the assemblage or controllable by mechanisms, hydraulic or electrical systems; the equipment central shaft (CE) is responsible by the longitudinal and radial positioning of the generator/turbine set; the turbine hub may be either cylindrical, spherical, elliptical or any other shape which allows the pivoting of hydraulic turbine blades; when the blades are controllable they will pivot in relation the turbine hub; the generator rotor is usually encapsulated and totally immerse in water allowing water to be present in the gap between the rotor and the stator of the electrical generator; the regulation of the electrical tension and frequency are obtained by means of external electronic, electromechanical or hydraulic equipment.

2. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", in accordance with the claim 1, characterized by the equipment may be arranged in relation the radial and longitudinal according to three physical arrangements: a) With the turbine and generator rotor set located between the two radial supports bearings and that is in bi-supported arrangement having one single bearing or more bearings in each support and having pre-distributor with controllable, fix or adjustable blades located forward the rotor allowing the pre-distributor to be located either before or after the shaft support located forward the rotor; the bearings support are assembled in crosspieces and solidary with the equipment fixed structure named in its entirety as equipment housing ; b) Turbine and generator set located between and by- supported in relation to the support bearings, and one of the supports will shelter the thrust bearing and back- thrust bearing being the pre-distributor located forward the rotor; the bearings supports are assembled in crosspieces and solidary with the equipment fixed structure named in its entirety as equipment housing; c) Electrical generator located bi-supported in relation to the supports and the hydraulic turbine in balance in relation to its supports and one of the supports sheltering the thrust bearing and back-thrust bearing and the pre-distributor located forward the turbine rotor; the bearings supports are assembled in crosspieces and solidary to the equipment fixed structure named in its entirety as equipment housing.

3. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", in accordance with claims 1 and 2, characterized by the bearings and may be sliding or roller bearings lubricated by water, grease, oil or dry.

4. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", in accordance with claims 1, 2 and 3, characterized by the generator rotor has as excitation element permanent magnets, which can be assembled in the Rotor Iron in two ways : a) Permanent magnets on generator rotor surface : with magnetization of permanent magnets in radial direction ; b) Permanent magnets inserted in the "Rotor Iron": the Rotor Iron with slots previously prepared for the insertion of permanent magnets; the permanent magnets are inserted so that the magnetization of the magnets are in tangential direction .

5. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", in accordance with the claims 1, 2, 3 and 4, characterized by the generator has as excitation element permanent magnets which can be positioned in two ways: • permanent magnets in the rotor making a generator rotor internal to the generator stator; • permanent magnets in the generator rotor making generator rotor external to the generator stator.

6. ) "IMPROVEMENT IN ELECTRICAL EQUIPMENT GENERATOR OF ELECTRICAL POWER", in accordance with claims 1, 2, 3 and 4, characterized by the arrangement of permanent magnets for every pole may be formed by only one piece of permanent magnet or by a composition of smaller pellets, conveniently displayed on the rotor surface or inserted in the rotor.

7. ) "EQUIPMENT GENERATOR OF ELECTRICAL POWER" in accordance with previous requests, characterized by the equipments may have several units assembled in parallel, side by side either horizontally, or vertically one over another, all of them with the average cross section plan of the rotor set perpendicular to the main flow of water passing by the equipment.

8. ) "IMPROVEMENTS ON ELECTRICAL POWER GENERATOR EQUIPMENT", in accordance with previous requests characterized by the equipments may have several units assembled in series (an equipment receiving water from the output of the previous one).

9. ) "IMPROVEMENTS ON ELECTRICAL POWER GENERATOR EQUIPMENT", in accordance with claims 6 and/or 7, characterized by the equipments may have several units assembled together to form one or more independent modules.

10. ) "IMPROVEMENTS ON ELECTRICAL POWER GENERATOR EQUIPMENT", in accordance with claims 6 or request 7 or request 8, characterized by the equipments may have various units and/or modules switched on and off individually. For the Applicant Dr. Yitzhak Hess & Partners By :