CN111864976A

CN111864976A - Power generator set

Info

Publication number: CN111864976A
Application number: CN202010705882.7A
Authority: CN
Inventors: 高建宁; 丁传明; 魏崎峰; 张美凤
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-21
Filing date: 2020-07-21
Publication date: 2020-10-30

Abstract

The invention discloses a generator set, which comprises a generator set shell, a middle-layer structure partition plate, a top-layer mechanism partition plate, a first energy system and a second energy system, wherein the middle-layer structure partition plate is horizontally arranged in the generator set shell; the first energy system comprises a first energy system main motor, the working mode of the motor is converted into a generator mode after the input electric energy is cut off, a first energy system generator is provided with a first energy system generator power shaft, the first energy system generator power shaft penetrates through the middle-layer structure partition plate, a direct-current capacitor is arranged below the first energy system, and the direct-current capacitor is electrically connected with the first energy system and a third energy system; the second energy system comprises a second energy system power shaft, and the second energy system power shaft is axially connected with the first energy system generator power shaft.

Description

Power generator set

Technical Field

The embodiment of the invention relates to the technical field of power generation, in particular to a generator set.

Background

The existing small-sized generator set consumes more energy in the acquisition of the power energy, just like the power generation technology of diesel engine and gas oil engine generator sets, the consumed power energy in the acquisition of the power energy is larger, the output energy efficiency of the power energy is not greatly broken through and improved, and the output energy efficiency is lower.

Disclosure of Invention

Therefore, the invention provides a generator set, which aims to solve the problem that the output energy efficiency of the electric energy of the generator set in the prior art is low.

In order to achieve the above purpose, the invention provides the following technical scheme:

according to the invention, the generator set comprises a generator set shell, a middle-layer structure partition plate, a top-layer mechanism partition plate, a first energy system and a second energy system, wherein the middle-layer structure partition plate is horizontally arranged in the generator set shell, and the top-layer mechanism partition plate is arranged above the middle-layer structure partition plate and is parallel to the middle-layer structure partition plate;

the first energy system comprises a first energy system generator, the first energy system generator is provided with a first energy system generator power shaft, the first energy system generator power shaft penetrates through the middle-layer structure partition plate, a direct-current capacitor is arranged below the first energy system, and the direct-current capacitor is electrically connected with the first energy system;

the second energy system comprises a second energy system power shaft, the second energy system power shaft is axially connected with the first energy system generator power shaft, a fixed end bearing is arranged at the end part, far away from the first energy system generator power shaft, of the second energy system power shaft, and the fixed end bearing is arranged on the top mechanism partition plate.

Furthermore, the second energy system comprises an energy storage flywheel and a connecting sliding key, wherein the energy storage flywheel is sleeved on the power shaft of the second energy system and is connected with the power shaft of the second energy system by the connecting sliding key.

Further, the second energy system further comprises a quantum module of the second energy system magnetic kinetic energy rotor, a quantum module of the second energy system magnetic kinetic energy stator and a second energy system magnetic kinetic energy stator, wherein the quantum module of the second energy system magnetic kinetic energy rotor, the quantum module of the second energy system magnetic kinetic energy stator and the second energy system magnetic kinetic energy stator are respectively arranged in the circumferential direction of the second energy system power shaft.

Furthermore, the generator set further comprises a second energy system magnetic kinetic energy stator structure supporting frame, the second energy system magnetic kinetic energy stator structure supporting frame is in a half-H shape, and the second energy system magnetic kinetic energy stator structure supporting frame is arranged at the bottom of the second energy system.

Further, the second energy system magnetic kinetic energy stator structure support frame comprises a working portion and two connecting portions, wherein the number of the connecting portions is two, and the bottoms of the connecting portions are fixed to the middle layer structure partition plate in a contact mode.

Further, the generator set further comprises a third energy system, the third energy system comprises three energy system engines, and the number of the three energy system engines is two, and the two third energy system engines are respectively arranged on two sides of the second energy system.

Further, the third energy system engine comprises a third energy system rotor quantum module and a third energy system rotor shaft, the third energy system engine is arranged on the upper surface of the middle-layer structure partition plate, and the third energy system rotor quantum module is arranged at the top end of the third energy system rotor shaft.

Further, generating set still includes the programme-controlled operation display screen of intelligence, the programme-controlled operation display screen of intelligence set up in on one side of generating set shell.

Furthermore, the generating set still includes the operation pilot lamp, the operation pilot lamp with the programme-controlled operation display screen of intelligence is located the same side of generating set shell.

Furthermore, the quantity of operation pilot lamp is two, set up respectively in the both sides of the programme-controlled operation display screen length direction of intelligence.

The invention has the following advantages:

by inputting a small amount of electric energy, the permanent magnetic energy modularized program-controlled release quantum energy and the energy of another system or a plurality of systems are superposed together to form an energy combination system. The modularized release quantum energy program control technology of the permanent magnetic energy is accurately integrated, so that the output energy is converted into electric energy, and the energy efficiency of the generator set is greatly improved compared with that of a common generator set.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic diagram of a generator set according to an exemplary embodiment;

in the figure: 1. an intelligent program-controlled operation display screen; 2. an operation indicator light; 3. a top mechanism partition; 4. a fixed end bearing; 5. a second energy system power shaft; 6. an energy storage flywheel; 7. connecting a sliding key; 8. a quantum module of the second energy system magneto-kinetic energy rotor; 9. a quantum module of the second energy system magneto-kinetic energy rotor; 10. a second energy system magneto-kinetic stator quantum module; 11. a second energy system magnetic kinetic energy stator; 12. a second energy system magnetic kinetic energy stator structure support frame; 13. a middle layer structure separator; 14. a first energy system generator; 15. a direct current capacitor; 16. a third energy system rotor quantum module; 17. a third energy system rotor shaft; 18. a third energy system motor; 19. a third energy system boundary; 20. a first energy system generator power shaft; 21. a first energy system boundary; 22. a second energy system boundary; 23. a generator set housing; 24. a fourth energy system boundary; 25. and the second energy system is a quantum module of the magnetic kinetic energy rotor.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

According to an embodiment of the present invention, as shown in fig. 1, there is provided a generator set, including a generator set housing 23, a middle-layer structure partition plate 13, a top-layer structure partition plate 3, a first energy system, and a second energy system, wherein the middle-layer structure partition plate 13 is horizontally disposed inside the generator set housing 23, and the top-layer structure partition plate 3 is disposed above the middle-layer structure partition plate 13 and is parallel to the middle-layer structure partition plate 13;

the first energy system comprises a first energy system generator 14, the first energy system generator 14 is provided with a first energy system generator power shaft 20, the first energy system generator power shaft penetrates through the middle-layer structure partition plate 13, a direct-current capacitor 15 is arranged below the first energy system, and the direct-current capacitor 15 is electrically connected with the first energy system;

The second energy system includes second energy system power shaft 5, second energy system power shaft 5 with first energy system generator power shaft 20 axial connects, second energy system power shaft 5 is kept away from the tip of first energy system generator power shaft 20 is equipped with stiff end bearing 4, stiff end bearing 4 set up in on the top layer mechanism baffle 3.

By inputting a small amount of electric energy, the release quantum modularization program control of the permanent magnetic energy and the energy of another system or a plurality of systems are superposed together to form an energy combination system. The release quantum modular program control technology of the permanent magnetic energy is accurately integrated, so that the output energy is converted into electric energy, and the energy efficiency of the generator set is greatly improved compared with that of a common generator set.

In some optional embodiments, the second energy system includes an energy storage flywheel 6 and a connection sliding key 7, and the energy storage flywheel 6 is sleeved on the second energy system power shaft 5 and is connected with the second energy system power shaft 5 by using the connection sliding key 7.

In some optional embodiments, the second energy system further includes a quantum module 8 of the second energy system magnetic kinetic energy rotor, a quantum module 9 of the second energy system magnetic kinetic energy rotor, a second energy system magnetic kinetic energy stator quantum module 10, and a second energy system magnetic kinetic energy stator 11, where the quantum module 8 of the second energy system magnetic kinetic energy rotor, the quantum module 9 of the second energy system magnetic kinetic energy rotor, the second energy system magnetic kinetic energy stator quantum module 10, and the second energy system magnetic kinetic energy stator 11 are respectively disposed in a circumferential direction of the second energy system power shaft 5.

In some optional embodiments, the generator set further includes a second energy system magnetic kinetic energy stator structure support frame 12, the second energy system magnetic kinetic energy stator structure support frame 12 is in a half-H shape, and the second energy system magnetic kinetic energy stator structure support frame 12 is disposed at the bottom of the second energy system. The second energy system magnetic kinetic energy stator structure support frame 12 comprises a working part and two connecting parts, wherein the connecting parts are in number, and the bottoms of the connecting parts are in contact with the middle layer structure partition plate 13.

The first energy system is a main power supply system, and the output energy of the first energy system is output by adopting time-interval modular control. The input of the starting electric energy of the engine of the first energy system is modularly customized according to the rated load of the power generation system, the control system controls the starting current of the first energy system to be below 1/3 of the rated current value of the load, and controls the starting torque to be more than five times of the rated torque value of the load, wherein the load borne by the first energy system comprises an electric consumption load, an inductive load and a frictional resistance load of a superimposed system and the like, and the electric consumption load is a variable.

In some optional embodiments, the generator set further comprises a third energy system, the third energy system comprises a third energy system motor 18, and the number of the third energy system motors 18 is two, and the third energy system motors are respectively arranged on two sides of the second energy system.

In some optional embodiments, the third energy system motor comprises a third energy system rotor quantum module 16 and a third energy system rotor shaft 17, the third energy system motor 18 is disposed on the upper surface of the middle-layer structural partition plate 13, and the third energy system rotor quantum module 16 is disposed on the top end of the third energy system rotor shaft 17 and is in parallel indirect magnetic connection with the quantum module 8 of the quantum module of the second energy system magnetic kinetic energy rotor.

In some optional embodiments, the generator set further comprises an intelligent program-controlled operation display screen 1, and the intelligent program-controlled operation display screen 1 is disposed on one side of the generator set housing 23.

In some optional embodiments, the generator set further comprises an operation indicator light 2, and the operation indicator light 2 and the intelligent program-controlled operation display screen 1 are located on the same side of the generator set housing 23. The quantity of operation pilot lamp 2 is two, set up respectively in 1 length direction's of intelligent programme-controlled operation display screen both sides.

Wherein the third energy system boundary 19, the first energy system boundary 21 and the second energy system boundary 22 are boundaries of several systems, differentiating different systems.

The using method comprises the following steps:

the genset is started and the first energy system inputs electrical energy to the first energy system generator 14. The main motor can recharge the dynamic energy superposed on the power shaft 20 of the first energy system generator within 8 seconds, and the rotating speed is increased to the rated maximum value. At this time, the kinetic energy of the main system exceeds the rated load of the generator by 150%, and at this moment, the first program control command sends out the power failure of the generator 14 of the first energy system. The first energy system generator 14 loses kinetic energy from the first energy system generator 14 on the power shaft 20, at which point the first energy system generator 14 is de-energized and the operating mode is switched to a generator.

After the first program control command of the generator set is sent out, the positive kinetic energy superposed on the power shaft 20 of the generator of the first energy system comprises a second energy system and a third energy system. The third energy system rotor sub-module 16 and the third energy system motor 18 are in no-load magnetic connection with the second energy system magnetomotive force sub-module rotor and operate synchronously with the first energy system. The set rated load on the first energy system generator power shaft 20 is a constant negative kinetic energy. After the first program control instruction is sent, the kinetic energy state on the power shaft 20 of the generator of the first energy system is (magnetic kinetic energy of the second energy system + the third energy system) — the rated load > the rated load, the power generation system operates normally, and the operation time is prolonged; along with the release of the kinetic energy of the second energy system and the opposition of the energy of the load system, the kinetic energy of the second energy system is gradually reduced, and the rotating speed of the first energy system is synchronously reduced; and when the rated load is less than the rated load or less than or equal to 1/2 rated load (the second energy system and the third energy system), the second program control command is sent out.

The second programmed command is issued to start the third energy system motor 18, and the superposition of the kinetic energy of the third energy system indicates that the positive kinetic energy of the first energy system generator power shaft 20 of the primary kinetic energy system falls to the red line state. After the motor 18 of the third energy system is started for 8 to 10 seconds, the third energy system receives a third program control command to cut off the power supply, so that the dynamic energy for the work of the generator set is supplemented and adjusted, the normal operation of the energy system of the generator set is maintained, and the normal work of the load of the generator set is ensured;

the energy storage flywheel 6 in the second energy system is bound with a quantum module rotor of the second energy system and is synchronous with the first energy system, and the starting and stopping of the motor 18 of the third energy system are the last step of energy superposition of the generator set. After the main motor of the generator set is powered off, the dynamic energy of the magnetic module is released in three steps of superposed energy, and the dynamic energy is in a state of confrontation with the system load energy. The load energy is changed along with the size of the power consumption;

when the positive energy of the energy system of the generator set is reduced to the red line state after the third energy system receives the third program control command, the program control system sends a fourth program control command at the moment, the main motor of the first energy system is restarted, and the energy of the main system returns to the original state after 8 seconds. I.e. the start of a further energy superposition procedure.

The electrical energy of the third energy system is derived from a high-power combined capacitor or battery configured by the main system. When the third energy system is in power shortage, the program control system can send a fifth program control command, the fourth energy system capacitor works alternately, and meanwhile, the program control system sends a sixth program control command to regulate the set electric energy for charging.

In some alternative embodiments, the genset further includes a fourth energy system boundary 24 and a quantum module 25 of the second energy system magneto-kinetic rotor.

The running mode of the generator set is completed by the program-controlled intelligent system of the generator set, so that the energy input cost of the generator set can be greatly reduced, and the energy efficiency of the generator set is improved.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A generator set is characterized by comprising a generator set shell, a middle-layer structure partition plate, a top-layer mechanism partition plate, a first energy system and a second energy system, wherein the middle-layer structure partition plate is horizontally arranged inside the generator set shell, and the top-layer mechanism partition plate is arranged above the middle-layer structure partition plate and is parallel to the middle-layer structure partition plate;

2. The generator set of claim 1, wherein the second energy system comprises an energy storage flywheel and a connection sliding key, and the energy storage flywheel is sleeved on the power shaft of the second energy system and connected with the power shaft of the second energy system by the connection sliding key.

3. The generator set according to claim 1 or 2, wherein the second energy system further comprises a quantum module of a second energy system magnetic kinetic energy rotor, a quantum module of the second energy system magnetic kinetic energy rotor, a second energy system magnetic kinetic energy stator quantum module and a second energy system magnetic kinetic energy stator, and the quantum module of the second energy system magnetic kinetic energy rotor, the second energy system magnetic kinetic energy stator quantum module and the second energy system magnetic kinetic energy stator are respectively arranged in the circumferential direction of the second energy system power shaft.

4. The generator set of claim 3, further comprising a second energy system magnetic kinetic energy stator structure support frame, wherein the second energy system magnetic kinetic energy stator structure support frame is semi-I-shaped, and the second energy system magnetic kinetic energy stator structure support frame is disposed at a bottom of the second energy system.

5. The generator set according to claim 3, wherein the second energy system magnetomotive stator structure support frame comprises two working portions and two connecting portions, and the bottom of each connecting portion is fixed in contact with the middle structure partition plate.

6. The generator set of claim 1, further comprising a third energy system including a third energy system motor, wherein the number of the third energy system motors is two, and the third energy system motors are respectively disposed on two sides of the second energy system.

7. The generator set of claim 6, wherein the third energy system motor comprises a third energy system rotor quantum module and a third energy system rotor shaft, the third energy system motor is disposed on the upper surface of the mezzanine structural spacer, and the third energy system rotor quantum module is disposed on the top end of the third energy system rotor shaft.

8. The generator set of claim 1, further comprising an intelligent program-controlled operation display screen disposed on a side of the generator set housing.

9. The generator set of claim 8, further comprising an operation indicator light, wherein the operation indicator light and the intelligent programmable operation display screen are located on a same side of the generator set housing.

10. The generator set according to claim 9, wherein the number of the operation indicator lights is two, and the two operation indicator lights are respectively arranged on two sides of the intelligent program control operation display screen in the length direction.