CN105763023A

CN105763023A - Hydraulic inertia driving generator

Info

Publication number: CN105763023A
Application number: CN201410782073.0A
Authority: CN
Inventors: 韦福华
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-12-16
Filing date: 2014-12-16
Publication date: 2016-07-13

Abstract

The present invention discloses a hydraulic inertia driving generator which comprises a power supply component and a hydraulic system. The hydraulic system comprises a hydraulic motor, a hydraulic cylinder, an oil pump and a hydraulic rod. The hydraulic motor is connected with the power supply component which is a storage battery component which is divided into two groups to supply power to the hydraulic system. The power supply component is connected to the hydraulic motor through an inverter. The hydraulic motor is connected to the oil pump. The hydraulic cylinder is connected to the hydraulic rod. A transmission shaft is arranged above the hydraulic rod. The parallel teeth in the hydraulic rod is engaged with a reverse gear arranged on the transmission shaft. Two sides of the reverse gear in the transmission shaft are provided with two inertia flywheels. The transmission shaft is connected to an AC generator through a speed increaser. According to the embodiment of the invention, the switch is automatically switched through control, storage batteries are alternatively switched to supply power to an AC motor, e potential energy is converted into kinetic energy and then is converted into alternating current, the hydraulic inertia driving generator has the functions of self power generation and self charging, the energy consumption and maintenance cost are reduced at the same time, and the hydraulic inertia driving generator is a low-carbon, energy-saving, environmental-friendly power generation device.

Description

A kind of hydraulic pressure inertia driven generator

Technical field

The present invention relates to electrical generator fields, particularly relate to a kind of hydraulic pressure inertia driven generator.

Background technology

Current world energy sources skewness, big as energy diesel oil and gasoline electromotor fuel consumption, noise is big, CO 2 waste gas is big, environmental pollution ratio is more serious.

Summary of the invention

Embodiment of the present invention technical problem to be solved is in that, it is provided that a kind of low-carbon (LC), energy-saving and environmental protection type hydraulic pressure inertia driven generator.

Described hydraulic pressure inertia driven generator, including power supply module and connected hydraulic system, described hydraulic system includes hydraulic motor, hydraulic cylinder, oil pump and hydraulic stem, described hydraulic motor is connected with described power supply module, described hydraulic motor is connected with described oil pump, for driving oil pump to be recycled to by hydraulic oil in described hydraulic cylinder, described hydraulic cylinder is connected with described hydraulic stem, described hydraulic stem is provided above power transmission shaft, parallel teeth on described hydraulic stem is connected with the back skating gear engagement being arranged on described power transmission shaft, on described power transmission shaft, the both sides of back skating moving gear are respectively arranged with an inertial flywheel；The opposite side of described power transmission shaft is connected with alternating current generator, described alternator output terminals, is connected with described power supply module, hydraulic motor and electrical network respectively.

As the further improvement of the technical program, described power transmission shaft is connected with described alternating current generator by gearbox.

Described power supply module is accumulator cell assembly, and described power supply module includes 16 accumulator, described 16 accumulator divide two groups respectively hydraulic system power.

Described power supply module is connected with described hydraulic motor by inverter, and described alternating current generator is connected with described hydraulic motor by inverter.

It is connected with automatic transfer switch between described power supply module outfan and described inverter input terminal.

Described alternating current generator is connected with bi-directional shift switch electronic automaton.

Implement the embodiment of the present invention, have the advantages that

Embodiment of the present invention hydraulic pressure inertia driven generator have send cleaning electric energy high-efficiency environment friendly, not by the restriction in area and resource, cost, Maintenance and Repair expense are low, floor space is little, simple in construction, is the electromotor of a kind of low-carbon (LC), energy-saving and environmental protection type, the present embodiment is by controlling automatic transfer switch, switching accumulator is powered to ac motor in turn, is be transformed into alternating current again after kinetic energy by potential energy, has the function of self-generated electricity, self-charging.Up to zero consumption, waste water, waste residue, zero waste gas emission, steric environment no pollution, low noise, go out more than 90% by the energy production of 8%, reduce consumption and the maintenance cost of the energy simultaneously, be the generating equipment of a kind of low-carbon (LC), energy-saving and environmental protection.

Accompanying drawing explanation

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

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly, below in conjunction with accompanying drawing, the present invention is described in further detail.

Embodiment of the present invention hydraulic pressure inertia driven generator, including power supply module and connected hydraulic system, hydraulic system includes hydraulic motor 8, hydraulic cylinder 6, oil pump 7 and hydraulic stem 2, hydraulic motor 8 is connected with power supply module 12, power supply module is accumulator cell assembly, power supply module includes 16 accumulator, 16 accumulator divide two groups respectively hydraulic system power；Power supply module 12 is connected with hydraulic motor 8 by inverter 10, power supply module 12 outfan is connected with the input of automatic transfer switch 11, the outfan of automatic transfer switch 11 is connected with inverter 10 input, and inverter 10 is connected with the hydraulic motor 8 of hydraulic system；Hydraulic motor 8 is connected with oil pump 7, for driving oil pump 7 to be recycled to by hydraulic oil in hydraulic cylinder 6, oil pump 7 is connected with hydraulic oil container 9, hydraulic cylinder 6 is connected with hydraulic stem 2, hydraulic stem 2 is provided above power transmission shaft, parallel teeth on hydraulic stem 2 is nibbled 3 conjunctions with the back skating gear being arranged on power transmission shaft and is connected, and on power transmission shaft, the both sides of back skating moving gear 3 are respectively arranged with an inertial flywheel (1,13)；Power transmission shaft is connected with alternating current generator 5 by gearbox 4；Alternating current generator 4 outfan, a line returns for entering power supply module, and accumulator battery is charged.Confession is returned by inverter in two wires, supplies hydraulic system hydraulic motor, and three lines transfer to booster, then grid-connected power transmission, and four lines are automatically controlled by bi-directional shift switch electronic:

If 1 alternator load is overweight, electronics shift switching disconnects intrasystem power circuit automatically, and turn on automatically civil power enters battery charging.

If 2 alternator load are light or unloaded, power circuit in shift switching turn on automatically system, automatically disconnect mains supply.

3, electronics shift switching can automatically cut off along with the change of load or connect the function between two groups of circuits.

During work, the application passes through power supply module, inverter startup hydraulic system motor, oil pump circulate delivery hydraulic pressure to hydraulic cylinder, start working, and the parallel teeth of hydraulic stem starts to drive back skating gear, drives operating with the rotating speeds of 30 turns per minute；The inertial flywheel of shaft coupling back skating gear rotates with the speed of 30 turns per minute simultaneously；Owing to the inertia force of 2 inertial flywheels constantly strengthens, shaft coupling is in the alternating current generator of 750 turns per minute of the gearbox driving of 1:30, gearbox back skating gear connecting generator, to protect electromotor operationally inertial rotation, if rotating speed all can carry out automatic speed regulation higher or lower than 50-60HZ.

Above disclosed it is only one preferred embodiment of the present invention, certainly can not limit the interest field of the present invention, the equivalent variations therefore made according to the claims in the present invention with this, still belong to the scope that the present invention contains.

Claims

1. a hydraulic pressure inertia driven generator, it is characterized in that, including power supply module and connected hydraulic system, described hydraulic system includes hydraulic motor, hydraulic cylinder, oil pump and hydraulic stem, described hydraulic motor is connected with described power supply module, described hydraulic motor is connected with described oil pump, for driving oil pump to be recycled to by hydraulic oil in described hydraulic cylinder, described hydraulic cylinder is connected with described hydraulic stem, described hydraulic stem is provided above power transmission shaft, parallel teeth on described hydraulic stem is connected with the back skating gear engagement being arranged on described power transmission shaft, on described power transmission shaft, the both sides of back skating moving gear are respectively arranged with an inertial flywheel；The opposite side of described power transmission shaft is connected with alternating current generator, described alternator output terminals, is connected with described power supply module, hydraulic motor and electrical network respectively.

2. hydraulic pressure inertia driven generator as claimed in claim 1, it is characterised in that: described power transmission shaft is connected with described alternating current generator by gearbox.

3. hydraulic pressure inertia driven generator as claimed in claim 1, it is characterised in that: described power supply module is accumulator cell assembly, and described power supply module includes 16 accumulator, described 16 accumulator divide two groups respectively hydraulic system power.

4. hydraulic pressure inertia driven generator as claimed in claim 1, it is characterised in that: described power supply module is connected with described hydraulic motor by inverter, and described alternating current generator is connected with described hydraulic motor by inverter.

5. hydraulic pressure inertia driven generator as claimed in claim 4, it is characterised in that: it is connected with automatic transfer switch between described power supply module outfan and described inverter input terminal.

6. hydraulic pressure inertia driven generator as claimed in claim 4, it is characterised in that: described alternating current generator is connected with bi-directional shift switch electronic automaton.