CN104143856A - Energy storing charging circuit with vibration energy collector - Google Patents

Abstract

The invention relates to an energy storing charging circuit with a vibration energy collector and belongs to the field of emergency power sources. The energy storing charging circuit comprises a piezoelectric vibration energy collector set, a rectifying circuit, a charging circuit body and a storage battery. The piezoelectric vibration energy collector set of the energy storing charging circuit is arranged on an accessory structure of a transformer body or a transformer. The output end of the piezoelectric vibration energy collector set is correspondingly connected with the positive electrode and the negative electrode of the storage battery through the rectifying circuit and the charging circuit body. The piezoelectric vibration energy collector set of the energy storing charging circuit collects energy generated by vibration of the transformer in a resonance state and converts the energy into electric energy. The electric energy is sent into the storage battery to be stored through the rectifying circuit and the charging circuit body. When a power source for an alternating current station of a transformer substation loses electricity, an emergency lighting system is automatically connected with the power source output end of the storage battery, and the energy storage charging circuit provides the power source for an LED light-emitting device to achieve the emergency lighting function. Or, when a direct current operation power source of the transformer substation loses electricity, the energy storage charging circuit provides the emergency operation power source for the operation of a primary circuit switch of the transformer substation.

Description

Adopt the energy storage charging circuit of vibrational energy collector

Technical field

The invention belongs to emergency power supply unit field, relate in particular to a kind of energy storage charging circuit for transformer station's Emergency Light and switch emergency operation.

Background technology

Transformer station is that the electricity that power plant is sent is carried the place that changes voltage before.

In electric power system, transformer station is the assembly place of transmission and disttrbution, and its importance is self-evident.Once transformer station breaks down, to the electricity consumption of resident, factory etc., will cause significant impact and loss, so transformer station's fault must rush to repair in time, to reduce to greatest extent its society causing and economic loss.

In existing transformer station, emergent accident illuminator, as a kind of standard configuration, is widely used.

The emergent accident illuminator of a standard, consists of a set of AC/DC converting means, at least one group storage battery and emergent lighting lamp of being distributed in each crucial power for illumination etc. conventionally.When normal by AC power supply system at the station of transformer station, emergent accident illuminator is powered by AC power supply system by standing, batteries in emergent accident illuminator is charged, once the station of transformer station disappears by AC power, transformer station's emergent accident illuminator puts the batteries in charged state (also claiming direct current system) at ordinary times into operation by commutation circuit automatically, each emergent lighting lamp is powered, guarantee essential illumination in the state of accident.

Existing various emergent accident illuminator, in fact similar by the operation principle of UPS device with computer, be all when AC power has electricity, by AC power, batteries is charged, when AC power dead electricity, batteries proceeds to operating state, for emergent lighting lamp or system provide emergency power supply, guarantees in emergency circumstances required minimum and necessary brightness of illumination.

Development along with lighting technology, the lighting of various employing LED luminescent devices arises at the historic moment, for example, open day is on 03 12nd, 2014, publication number is in the Chinese invention patent application of CN103632621A, disclose a kind of " energy-saving LED emergency lighting and equipment nameplate one label ", its label body is transparent light guide panel, at transparent light guide panel, is marked with device numbering; At transparent light guide panel, LED luminescent device is set around; The exiting surface of LED luminescent device is towards transparent light guide panel; LED luminescent device is connected with the power supply of transformer station emergent accident lighting device through wire.After transformer station's emergent accident lighting device starts, LED luminescent device obtains electroluminescence, illuminate the device numbering on transparent light guide panel, help operating personnel to carry out correct reading rapidly to device numbering famous brand, and provide accident Emergency Light light source to position, label place.Its transparent light guide panel both can be numbered word by display device, can be used as again planar light source and illuminate surrounding enviroment, can avoid operations staff's misoperation, utilized to greatest extent illumination energy, make two one of emergent accident lighting device and device numbering famous brand, play double action.

Transformer noise is in body construction design, type selecting layout, installation, use procedure, and that transformer body and cooling system produce is irregular, intermittently, continuously or the machinery noise causing at random and airborne noise summation.

Specifically, the noise of transformer body generation of vibration has its source in:

(1) core vibration that the magnetostriction of silicon steel sheet causes;

(2) between silicon steel sheet seam crossing and lamination, exist the vibration that the electromagnetic attraction producing because of leakage field causes iron core;

(3), while having load current to pass through in Transformer Winding, the leakage field that load current produces causes the vibration of coil, oil tank wall.

Along with economic development, the fossil energy resources such as coal, oil are because constantly consuming day by day and reduce, and various regenerative resources are all being greatly developed in countries in the world, and hope can collect the energy that can recycle in environment and change.Piezoelectric vibration energy gatherer is exactly a kind of device of realizing this function, and it is collected the various vibrational energies in environment to be converted to electric energy by piezoelectric (normally piezoelectric ceramic) " piezoelectric effect ".

Piezoelectric ceramic be a kind of can be by mechanical energy and the electric energy ceramic material of conversion mutually.So-called " piezoelectric effect " refers to that some medium is when being subject to mechanical pressure, even this pressure is small as acoustic vibration, all can produce the change of shape such as compression or elongation, causes that dielectric surface is charged, and this is direct piezoelectric effect.Otherwise, applying excitation electrical field, medium will produce mechanical deformation, claim inverse piezoelectric effect.

If can utilize " piezoelectric effect ", prepare a kind of energy storage charging circuit based on piezoelectric vibration energy gatherer, the vibrational energy of transformer is collected and stored, piezoelectric vibration energy gatherer is combined with the energy storage charging circuit system of transformer station's Emergency Light and switch emergency operation, when transformer station breaks down, be emergency lighting power supply in time, both can realize the Emergency Light under malfunction, improve breakdown repair efficiency, guarantee personal safety and device security; Can make full use of the vibrational energy of transformer again, turn waste into wealth, contribute to save energy and reduce the cost, reduce the cost of operation maintenance work, the realization of its design and completing, is of great significance for the economical operation tool of transformer station.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of energy storage charging circuit that adopts vibrational energy collector, it is using array piezoelectric vibration energy gatherer as energy gathering apparatus, install, be fixed on the assigned address of transformer body or its accessory structure, under resonance condition, collect the energy of transformer generation of vibration, emergency operation for transformer station's Emergency Light and primary line way switch, can reach energy-saving and cost-reducing effect, can reduce operating cost again, improve the coefficient of safety of substation operation simultaneously.

Technical scheme of the present invention is: a kind of energy storage charging circuit that adopts vibrational energy collector is provided, it is characterized in that: described energy storage charging circuit comprises piezoelectric vibration energy gatherer group, rectification circuit, charging circuit and the storage battery connecting successively; Piezoelectric vibration energy gatherer group described in it is arranged on the accessory structure of transformer body or transformer; The electric energy output end of described piezoelectric vibration energy gatherer group, successively through described rectification circuit and charging circuit, should be connected with the positive/negative electrode pair of described storage battery; Piezoelectric vibration energy gatherer group described in it, the energy producing for collect transformer vibration under resonance condition, and utilize " piezoelectric effect " to be converted into electric energy; By described rectification circuit, convert the collected electric energy of described piezoelectric vibration energy gatherer group to stable, controlled direct current energy, through described charging circuit, send into and in storage battery, carry out stored energy; By in the emergency lighting system or DC operating system of the power output end access transformer station of described storage battery; When power supply dead electricity is used in the Exchange Station of transformer station, described emergency lighting system is by controlling the automatic closure of automatic control switch K1, connect the power output end of described storage battery, described energy storage charging circuit provides power supply for LED luminescent device, realizes the emergency lighting function of transformer station; Or when the DC operating system power supply dead electricity of transformer station, by Closed control K switch 2, the operation that described energy storage charging circuit is transforming plant primary line switching provides emergency operation DC power supply.

Concrete, described piezoelectric vibration energy gatherer group comprises a plurality of piezoelectric vibration energy gatherers, described a plurality of piezoelectric vibration energy gatherers are fixed at least one general frame structure; Described general frame structure and the accessory structure of transformer body or transformer are connected to one, and the vibrational energy that described transformer is produced is passed to described a plurality of piezoelectric vibration energy gatherers.

Further, at the spray bar of transformer and the connecting rod place between body, described general frame structure is set, described piezoelectric vibration energy gatherer group is set in described general frame structure, by connecting rod and the general frame structure that fixes as one with it, drive the described vibration of piezoelectric vibration energy gatherer group, generating.

Concrete, the piezoelectric vibration energy gatherer described in it is twin lamella cantilever beam structure piezoelectric vibration energy gatherer, drum organization piezoelectric vibration energy gatherer or big cymbals structure piezoelectric vibration energy gatherer.

Further, described resonance condition refers to that resonance frequency is the vibration applications environment of 100Hz.

Described in it, the fundamental vibration frequency of transformer is 100Hz, and the resonance frequency of described piezoelectric vibration energy gatherer group is also 100Hz.

Concrete, described rectification circuit is voltage doubling rectifing circuit.

Charging circuit described in it is the charging circuit of the fast mold filling formula of current limliting-constant voltage, in whole charging process, the voltage of described storage battery is exponential form in time to be increased, but battery current is the constant current charge stage in the charging starting stage, is then in time exponential form and reduces; When at the beginning of charging, cell voltage is lower, with a larger electric current, battery is charged, then charging current reduces gradually, until battery is full of.

Storage battery described in it is lithium battery.

Energy storage charging circuit described in technical solution of the present invention, the piezoelectric vibration energy gatherer based on having " piezoelectric effect " is collected the energy of transformer generation of vibration under resonance condition, adopts storage battery that the vibrational energy of transformer is collected and stored; In transformer station, break down or its Exchange Station during by power supply dead electricity, the Emergency Light power supply using storage battery as transformer station or the emergency operation power supply of primary line way switch, in time for emergency lighting is powered, or provide emergency operation power supply for primary line way switch; Both can realize the Emergency Light under malfunction, improve breakdown repair efficiency, guarantee personal safety and device security; Can make full use of the vibrational energy of transformer again, turn waste into wealth, contribute to save energy and reduce the cost, the cost that reduces operation, maintenance work, the emergency operation for transformer station's Emergency Light and primary line way switch, reaches energy-saving and cost-reducing effect, reduce operating cost, improve the coefficient of safety of substation operation.

Compared with the prior art, advantage of the present invention is:

1. the many groups piezoelectric vibration energy gatherer that adopts array format to arrange, this array apparatus is fixed on to the assigned address on transformer, under resonance condition, collect the energy of transformer generation of vibration, emergency operation for transformer station's Emergency Light and primary line way switch, not only reach energy-conservation effect, transformer has also been had the function of vibration and noise reducing simultaneously;

2. adopt and can be fastened on the general frame structure on vibration source, a plurality of piezoelectric vibration energy gatherers are formed to array, be fixed in frame structure, to improve its electric energy fan-out capability;

3. whole energy storage charging circuit system both can be realized the Emergency Light under malfunction, can make full use of again the vibrational energy of transformer, turned waste into wealth.

Accompanying drawing explanation

Fig. 1 is the circuit module schematic diagram of energy storage charging circuit of the present invention;

Fig. 2 is the structural representation of general frame structure of the present invention;

Fig. 3 is the structural representation of twin lamella cantilever beam structure piezoelectric vibration energy gatherer of the present invention;

Fig. 4 is the structural representation of big cymbals structure piezoelectric vibration energy gatherer of the present invention;

Fig. 5 is the structural representation of cydariform piezoelectric structure vibrational energy collector of the present invention;

Fig. 6 is the acceleration time domain figure of transformer vibration-testing point;

Fig. 7 is that the vibration characteristics of transformer vibration-testing point on frequency domain distributes;

Fig. 8 is the line map of charging circuit embodiment of the present invention.

In figure, 1 is piezoelectric vibration energy gatherer, and 2 is general frame structure, and 3 is vibration source, 4 is mass loading, and 5-1 is the first piezoelectric monocrystal sheet, and 5-2 is the second piezoelectric monocrystal sheet, 6 is substrate, and 7-1 is upper metal cap, and 7-2 is lower metal cap, 8 is relaxor ferroelectric monocrystal sheet, and 9 is copper ring, and 10-1 is upper copper sheet, 10-2 is lower copper sheet, and 11 is circular piezoelectric single-chip, and 12 is copper billet mass loading, K1 is the automatic control switch that emergency lighting system is controlled, and K2 is control switch.

Embodiment

Below in conjunction with drawings and Examples, the present invention will be further described.

In Fig. 1, technical scheme of the present invention provides a kind of energy storage charging circuit that adopts vibrational energy collector.

Described energy storage charging circuit comprises piezoelectric vibration energy gatherer group, rectification circuit, charging circuit and the storage battery connecting successively.At storage battery source output terminal and serve as between the LED luminescent device of emergency lighting system light emitting source, be serially connected with the automatic control switch K1 that emergency lighting system is controlled; Between storage battery source output terminal and primary line way switch emergency operation power input, be serially connected with control switch K2.

Piezoelectric vibration energy gatherer group described in it is arranged on the accessory structure of transformer body or transformer.

The electric energy output end of described piezoelectric vibration energy gatherer group is through described rectification circuit, charging circuit, with the corresponding connection of positive and negative electrode of described storage battery.

Piezoelectric vibration energy gatherer group described in it, for collect the energy of transformer generation of vibration under resonance condition, and utilizes " piezoelectric effect " to be converted into electric energy.

Described energy storage charging circuit, by described rectification circuit, converts the collected electric energy of described piezoelectric vibration energy gatherer group to stable, controllable direct current energy, through described charging circuit, sends into and in storage battery, carries out stored energy.

By in the emergency lighting system or DC operating system of the power output end access transformer station of described storage battery; When power supply dead electricity is used in the Exchange Station of transformer station, described emergency lighting system is by controlling the automatic closure of automatic control switch K1, connect the power output end of described storage battery, described energy storage charging circuit provides power supply for LED luminescent device, realizes the emergency lighting function of transformer station.

Or when the DC operating system power supply dead electricity of transformer station, by Closed control K switch 2, the operation that described energy storage charging circuit is transforming plant primary line switching provides emergency operation DC power supply.

Aforesaid piezoelectric vibration energy gatherer group comprises a plurality of piezoelectric vibration energy gatherers, and a plurality of piezoelectric vibration energy gatherers are fixed in a general frame structure; Described general frame structure and the accessory structure of described transformer body or transformer are connected to one, and the vibrational energy that described transformer is produced is passed to described a plurality of piezoelectric vibration energy gatherers.

Further, connecting rod place between described transformer spray bar and body, described general frame structure is set, described piezoelectric vibration energy gatherer group is set in described general frame structure, by connecting rod and the general frame structure that fixes as one with it, drive the described vibration of piezoelectric vibration energy gatherer group, generating.

Concrete, piezoelectric vibration energy gatherer described in it is twin lamella cantilever beam structure piezoelectric vibration energy gatherer, drum organization piezoelectric vibration energy gatherer or big cymbals structure piezoelectric vibration energy gatherer, and the concrete structure of above-mentioned various piezoelectric vibration energy gatherers can be referring to shown in subsequent figure 3～Fig. 5 and related text explanation.

Concrete, the collected electric energy of described piezoelectric vibration energy gatherer group, through voltage doubling rectifing circuit, converts stable, controllable direct current energy to.

Further, the resonance condition described in it refers to that resonance frequency is the vibration applications environment of 100Hz; Described in it, the fundamental vibration frequency of transformer is 100Hz, and the resonance frequency of described piezoelectric vibration energy gatherer group is also 100Hz.

Charging circuit described in it is the charging circuit of the fast mold filling formula of current limliting-constant voltage, in whole charging process, the voltage of described storage battery is exponential form in time to be increased, but battery current is the constant current charge stage in the charging starting stage, is then in time exponential form and reduces; When at the beginning of charging, cell voltage is lower, with a larger electric current, battery is charged, then charging current reduces gradually, until battery is full of.

Storage battery described in it is lithium battery.

Energy storage charging circuit described in technical solution of the present invention system, the piezoelectric vibration energy gatherer based on having " piezoelectric effect " is collected the energy of transformer generation of vibration under resonance condition, adopts storage battery that the vibrational energy of transformer is collected and stored; Emergency Light power supply using storage battery as transformer station or the emergency operation power supply of primary line way switch; In transformer station, break down or its Exchange Station during by power supply dead electricity, in time for emergency lighting is powered, or provide emergency operation power supply for primary line way switch; Both can realize the Emergency Light under malfunction, improve breakdown repair efficiency, guarantee personal safety and device security; Can make full use of the vibrational energy of transformer again, turn waste into wealth, contribute to save energy and reduce the cost, reduce the cost of operation/maintenance work, reach energy-saving and cost-reducing effect, reduce operating cost, improve the coefficient of safety of substation operation.

In Fig. 2, provided the general frame structure that the accessory structure with transformer body or transformer is connected to one, its be one with the frame structure 2 of a plurality of tabulas, between every two tabulas, be fixed with a plurality of piezoelectric vibration energy gatherers 1, one end of each a plurality of piezoelectric vibration energy gatherers is fixed on described tabula, be provided with a mass loading, when the vibrational energy of transformer generation conducts to each piezoelectric vibration energy gatherer by general frame structure, each piezoelectric vibration energy gatherer is by received mechanical oscillation, be converted to electric energy output.

Described a plurality of piezoelectric vibration energy gatherers are parallel-connection structure on circuit, can avoid on the one hand affecting because of the damage of or local several piezoelectric vibration energy gatherers the output of whole electric energy, on the other hand, adopt parallel-connection structure, can export larger electric current, for follow-up rectification circuit or charging circuit provide larger operating current, to meet the charging current requirement of storage battery.

In order to obtain larger electric energy output, general frame structure as shown in the figure can arrange a plurality of, for example, connecting rod place between transformer spray bar and body, upper and lower at connecting rod all arranges some groups (being equivalent to even number general frame structure as shown in the figure) symmetrically, so on the one hand a plurality of general frame structures can be as much as possiblely set, and forms a group pattern structure, on the other hand, also relate to the resonance frequency problem of general frame structural entity part.

Because in the technical program be makes general frame structure drive the described vibration of piezoelectric vibration energy gatherer group, generating under resonance condition (referring to that resonance frequency is the vibration applications environment of 100Hz), therefore choose suitable general frame architecture quality, make its resonance frequency and fixedly the vibration frequency of the transformer body at general frame structure place or the accessory structure of transformer match, only in this way, just can make piezoelectric vibration energy gatherer group in optimum vibration frequency, output maximum power.

During actual enforcement, can first make a single-store frame, the piezoelectric vibration energy gatherer of some (is for example fixed on single-store frame, each single-store frame is installed respectively piezoelectric vibration energy gatherer 3 row, 3 of every row, totally 9), more a plurality of single-store frames are run through and tightened together, be i.e. the general frame structure of forming array formula.

By test, the vibration acceleration of the spray bar recording and body connecting rod is at 0.4m/s ²left and right.Specifically can be referring to the acceleration time domain figure of this test point shown in subsequent figure 6.

Data are carried out to Fourier transform, and research spray bar and the body connecting rod vibration characteristics on frequency domain distributes known, and as shown in subsequent figure 7, this place's transformer vibration is maximum with 100Hz frequency accounting.

From the viewpoint of oscillation intensity and installation difficulty two, select the connecting rod place of spray bar and body, the fixing position of frame structure as a whole, general frame structure (being referred to as power generation part) with a plurality of piezoelectric vibration energy gatherers is arranged on this connecting rod, by connecting rod, drives power generation part vibrating power-generation.

Due to the resonance frequency of the bar linkage structure frequency 100Hz far above vibration source.After general frame structure (power generation part) is arranged on connecting rod, power generation part is as mass loading, the resonance frequency of bar linkage structure can decline, if resonance frequency can drop to just 100Hz, general frame structure can receive the vibration of maximum intensity, in other words, it can absorb the vibration of maximum intensity.

By finite element simulation, simulate and field measurement, for the main transformer of a 35kV, its power generation part gross mass is 13.6kg; On the connecting rod position between transformer spray bar and body, apart from body 8.6cm place, be best position.

In Fig. 3, the piezoelectric vibration energy gatherer of the technical program can adopt twin lamella cantilever beam structure piezoelectric vibration energy gatherer.

The structure of twin lamella cantilever beam structure piezoelectric vibration energy gatherer is to consist of upper and lower surface each bonding piezoelectric monocrystal sheet 5-1, a 5-2 at a laminar substrate 6 (for sheet metal) (conventionally alleged piezoelectric layer or piezoelectric patches), and the area of piezoelectric monocrystal sheet is conventionally equal with sheet metal or be slightly smaller than sheet metal.

During experiment, one end of twin lamella is fixed on vibration source 3 and vibrates with vibration source, and the other end is stained with different mass loading 4.

For the impact on vibrational energy collector generating capacity of the thickness of piezoelectric monocrystal sheet and sheet metal in research double wafer structure, the piezoelectric patches to same size, select the metal copper sheet of different-thickness, made different twin lamella vibrational energy collectors.

In experiment, selection is of a size of the PZT potsherd (relaxor ferroelectric monocrystal sheet) of 58mm * 15mm * 0.5mm and makes piezoelectric patches, it is the copper sheet that 70mm * 17mm, thickness are respectively 0.2mm, 0.5mm that metal copper sheet is selected length and width, piezoelectric patches is bonded in copper sheet middle part, only has copper sheet to be held fixing when one end is fixed on vibration source.

Known with measurement by experiment, (1), with the increase of mass loading, the resonance frequency of twin lamella reduces gradually from 47Hz to 17Hz; (2) high open circuit voltage is elevated to 35V gradually from 20V, and this is mainly that deformation quantity increases because the increase of mass loading increases the amplitude of cantilever beam gradually, thereby open circuit voltage improves constantly.

By experiment and measure, some that obtain the fixing piezoelectric monocrystal sheet beam type vibrational energy collector of resonance frequency are optimized guides:

1) than width w and the mass loading M of beam _t, the resonance frequency of cantilever beam is to length L and substrate thickness t _mmore responsive, so length L and substrate thickness t _maspect the output performance of improvement cantilever beam, playing a leading role.

2) want to increase the open circuit voltage at piezoelectric layer two ends, can increase mass loading by increasing the length of substrate thickness and reduction beam, still, change width, invalid to increasing open circuit voltage.

3) if will increase energy, can be by increasing the thickness of substrate, the mode of the length of reducing amount and the width of recruitment realizes.

4) when the mass loading of end keeps constant, there is a best base plate thickness with length variations, make open circuit voltage and energy obtain maximum.

Finally choose cantilever beam length L=20mm, width w=5mm, piezoelectric patches thickness t _p=0.5mm, substrate thickness t _m=1mm, mass loading M _t=22g.

In Fig. 4, the piezoelectric vibration energy gatherer of the technical program can also adopt big cymbals structure piezoelectric vibration energy gatherer.

The structure of its big cymbals structure piezoelectric vibration energy gatherer is by middle relaxor ferroelectric monocrystal sheet 8 and be located thereon, upper metal cap 7-1 and the lower metal cap 7-2 of lower surface form.

After relaxor ferroelectric monocrystal sheet metal cap (copper cap) is on one side fixed on vibration source, on the copper cap of another side, bond copper billet when (being equivalent to mass loading), the vibration mode that copper cap top displacement is larger is suppressed, from its impedance spectrum, increase along with mass loading, resonance point moves to low frequency direction, and the corresponding device output impedance of resonance point increases, therefore power output reaches the required external build-out resistor of maximum, increases.

Under frequency analysis: 8.5g and 17.0g mass loading, there is respectively maximum in output variable when 650Hz and 500Hz.

Load resistance is analyzed: under 8.5g and 17.0g mass loading, power output reaches respectively maximum when outer meeting resistance is 57k Ω and 74k Ω.

Output size: this big cymbals device is under the effect of 0.55N motive force, and power output is 14mW, and power density is 188mW/cm ³.

In Fig. 5, the piezoelectric vibration energy gatherer of the technical program can also adopt cydariform piezoelectric structure vibrational energy collector.

Its cydariform piezoelectric structure vibrational energy collector is by middle copper ring 9, be positioned at the upper copper sheet 10-1 on the upper and lower surface of copper ring, lower copper sheet 10-2, on upper copper sheet, bonding is fixed a circular piezoelectric single-chip 11 (PMNT single-chip) again, the lower surface of cydariform piezoelectric structure vibrational energy collector is fixed on vibration source, and in the center of upper surface, bonding is fixed a copper billet as mass loading 12.

During actual enforcement, in the copper ring upper and lower surface of external diameter 23mm, internal diameter 21mm, high 3mm, be stained with the upper and lower copper sheet of diameter 25mm, thick 0.15mm, on upper copper sheet, be stained with again the circular piezoelectric single-chip (PMNT single-chip) of diameter 17mm, thick 0.5mm, the lower surface of cydariform piezoelectric structure vibrational energy collector is fixed on vibration source, and the copper billet of sticky a diameter 5mm, quality 0.5g of the center on surface is as mass loading thereon.

The resonance frequency of this kind of cydariform piezoelectric structure vibrational energy collector structure is 710Hz left and right, more than maximum output voltage can reach 7V.

Compare with the structure of the cantilever beam structure of twin lamella shown in Fig. 3 piezoelectric vibration energy gatherer, this drum organization has its distinctive advantage: on the one hand, this structure does not need the required space of long-armed and swing arm of cantilever beam structure, only in drum surface internal vibration very among a small circle up and down, therefore the requisite space of working is smaller, is more suitable for working in the vibration environment in little space; On the other hand, drum organization bottom surface is larger, together with can being bonded and fixed at vibration source better.

Fig. 6 and Fig. 7 are the spray bar of transformer and the acceleration time domain figure of body connecting rod place test point and the vibration characteristics distribution map of this test point on frequency domain, and as seen from the figure, the vibration acceleration at transformer spray bar and body connecting rod place is at 0.4m/s ²left and right, this place's transformer vibration is maximum with 100Hz frequency accounting.

In Fig. 8, the charging circuit of the technical program, that the battery proposing according to 20 th century America scientist Maas (J.A.Mas) fills three laws soon, high-impedance behavior in conjunction with piezoelectric is carried out improved charging circuit, this charging circuit is to take DC-DC converter as core, in conjunction with control circuit, unstable, the shortcoming that can not manual control that have overcome the electric energy of electricity generation material output, be converted to stable, controllable electric energy confession charge in batteries the electric energy of collecting on vibration vibrational energy collector.

Charge characteristic according to storage battery in vibrational energy gathering system, designs and has adopted energy storage, immediately discharges and the charging strategy that throws light on manages limited electric energy.

Battery based on Mas fills three laws soon, for piezo-electric type electricity generation material, has designed the charging circuit of the fast mold filling formula of current limliting-constant voltage, and according to this theory, the voltage and current of battery in charging process can be represented by the formula:

V _b(s)＝V _∞+（V ₀-V _∞）e ^-αs，

$i_b\left(s\right)=\left\{\begin{array}{cc}{I}_0,& \mathrm{when\; s}\≤s_c,\\ I_0{e}^{-\mathrm{\α}(s-s_c)}& \mathrm{when\; s}>s_c,\end{array}\right.$

In formula, s represents the charging interval, s _crepresent the time breakover point that battery is charged to current index decay by constant current charge.From electrochemical rechargeable battery theory, s _cby following conditional decision: work as s=s _ctime, the electric charge of storing in battery is generally 80% of battery maximum charge memory space Qm.V ₀the initial voltage that represents battery, V _∞the charging deboost that represents battery.α is constant, I ₀the charging current that represents the initial charge stage.

By above formula, analyze known: in whole charging process, cell voltage will be exponential form in time to be increased, but battery current is the constant current charge stage in the charging starting stage, is then in time exponential form and reduces.Therefore can predict: when at the beginning of charging, cell voltage is lower, with a larger electric current, battery is charged, rear charging current reduces gradually, until be full of.

Concrete, its charging circuit is comprised of boost chip, resistance R 0～R8, adjustable resistance RT, capacitor C 1～C6, diode D1～D4, inductance L 11 and field effect transistor BGA of DC-DC; Wherein, the boost AVIN pin of chip of power input INPUT and DC-DC is connected, this power input is also connected through the boost PVIN pin of chip of diode D1 and DC-DC, this power input is also connected through the boost CHC pin of chip of resistance R 2, diode D2 and DC-DC simultaneously, also through the boost EOC pin of chip of resistance R 3, diode D3 and DC-DC, be connected, and through capacitor C 1 ground connection.

The boost LVO pin of chip of DC-DC is connected with one end of capacitor C 2 with resistance R 1 with NC pin, the other end ground connection of capacitor C 2, the boost TP pin of chip of the other end of resistance R 1 and DC-DC is connected, the other end of resistance R 1 is connected with one end of resistance R 0 with adjustable resistance RT simultaneously, the other end ground connection of adjustable resistance RT and resistance R 0.

The DC-DC GND pin ground connection of chip of boosting.

DC-DC boosts the ISET pin of chip through resistance R 4 ground connection, and DC-DC boosts the IEOC pin of chip through resistance R 5 ground connection, and DC-DC boosts the VAD pin of chip through resistance R 6 ground connection.

Boost one end of the VBAT pin of chip and capacitor C 3, capacitor C 6, resistance R 8 of DC-DC, and the positive pole of storage battery (representing with battery in figure) is corresponding connects, construction system load SYSTEM LOAD end, the minus earth of storage battery.

The other end ground connection of capacitor C 3 and capacitor C 6.

The boost DRI pin of chip of DC-DC is connected with the grid G of field effect transistor BGA, the boost PVIN pin of chip of the source S of field effect transistor BGA and DC-DC is connected, and be connected with load SYSTEM LOAD end simultaneously, the drain D of field effect transistor BGA is connected with one end of one end of inductance L 11, the negative pole of diode D4 and resistance R 7 simultaneously, the plus earth of diode D4, the other end of resistance R 7 is through capacitor C 4 ground connection.

The boost SNS pin of chip of the other end of inductance L 11 and DC-DC is connected, and is connected with the other end of resistance R 5 simultaneously, also passes through capacitor C 5 ground connection.

Significantly, this is an inductance type field DC-DC booster circuit, the effect that effect pipe BGA wherein serves as switching tube.

The DC-DC chip that boosts can be selected the commercially available prod such as LK8811, MAX732 or MC34063A.

Adopt the DC-DC booster circuit of technical solution of the present invention, piezoelectric vibration energy gatherer group (generating body) electricity can be boosted to 3V to two joint lithium battery (the every joint of 350mAh) chargings, as calculated according to the generating body charging current 0.416mA of actual measurement, being full of two joint lithium batteries approximately needs 70 days, can drive the LED white light of 3 60mW to throw light on approximately 3.88 hours.

Above-mentioned DC-DC booster circuit and storage battery are connected to form to one, can form a DC-DC accumulator.

This DC-DC accumulator not only can serve as the power supply of the transformer station's emergency lighting system that adopts LED luminescent device, also can serve as the emergency operation power supply of primary line way switch.

Because technical scheme of the present invention adopts into piezoelectric vibration energy gatherer that array structure arranges as vibrational energy collector, installed, be fixed on the assigned address of transformer body or its accessory structure, under resonance condition, collect the energy of transformer generation of vibration, emergency operation for transformer station's Emergency Light and primary line way switch, both can reach energy-saving and cost-reducing effect, can reduce operating cost again, improve the coefficient of safety of substation operation simultaneously.

The present invention can be widely used in design, the manufacture field of transformer station's emergency lighting system or primary line way switch emergency operation power supply.

Claims (10)

1. an energy storage charging circuit that adopts vibrational energy collector, is characterized in that:

Described energy storage charging circuit comprises piezoelectric vibration energy gatherer group, rectification circuit, charging circuit and the storage battery connecting successively;

Piezoelectric vibration energy gatherer group described in it is arranged on the accessory structure of transformer body or transformer;

The electric energy output end of described piezoelectric vibration energy gatherer group, successively through described rectification circuit and charging circuit, should be connected with the positive/negative electrode pair of described storage battery;

Piezoelectric vibration energy gatherer group described in it, the energy producing for collect transformer vibration under resonance condition, and utilize " piezoelectric effect " to be converted into electric energy;

By described rectification circuit, convert the collected electric energy of described piezoelectric vibration energy gatherer group to stable/controlled direct current energy, through described charging circuit, send into and in storage battery, carry out stored energy;

By in the emergency lighting system or DC operating system of the power output end access transformer station of described storage battery;

When power supply dead electricity is used in the Exchange Station of transformer station, described emergency lighting system is by controlling the automatic closure of automatic control switch K1, connect the power output end of described storage battery, described energy storage charging circuit provides power supply for LED luminescent device, realizes the emergency lighting function of transformer station;

Or when the DC operating system power supply dead electricity of transformer station, by Closed control K switch 2, the operation that described energy storage charging circuit is transforming plant primary line switching provides emergency operation DC power supply.

2. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described piezoelectric vibration energy gatherer group comprises a plurality of piezoelectric vibration energy gatherers, described a plurality of piezoelectric vibration energy gatherers are fixed at least one general frame structure; Described general frame structure and the accessory structure of transformer body or transformer are connected to one, and the vibrational energy that described transformer is produced is passed to described a plurality of piezoelectric vibration energy gatherers.

3. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 2, it is characterized in that at the spray bar of transformer and the connecting rod place between body, described general frame structure is set, described piezoelectric vibration energy gatherer group is set in described general frame structure, by connecting rod and the general frame structure that fixes as one with it, drive described piezoelectric vibration energy gatherer group vibration/generating.

4. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 2, it is characterized in that described piezoelectric vibration energy gatherer is twin lamella cantilever beam structure piezoelectric vibration energy gatherer, drum organization piezoelectric vibration energy gatherer or big cymbals structure piezoelectric vibration energy gatherer.

5. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described rectification circuit is voltage doubling rectifing circuit.

6. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described resonance condition refers to that resonance frequency is the vibration applications environment of 100Hz.

7. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 6, the fundamental vibration frequency that it is characterized in that described transformer is 100Hz, and the resonance frequency of described piezoelectric vibration energy gatherer group is also 100Hz.

8. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described charging circuit is the charging circuit of the fast mold filling formula of current limliting-constant voltage, in whole charging process, the voltage of described storage battery is exponential form in time to be increased, but battery current is the constant current charge stage in the charging starting stage, is then in time exponential form and reduces; When at the beginning of charging, cell voltage is lower, with a larger electric current, battery is charged, then charging current reduces gradually, until battery is full of.

9. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described storage battery is lithium battery.

10. according to the energy storage charging circuit of employing vibrational energy collector claimed in claim 1, it is characterized in that described energy storage charging circuit, piezoelectric vibration energy gatherer based on thering is " piezoelectric effect ", under resonance condition, collect the energy that transformer vibration produces, adopt storage battery that the vibrational energy of transformer is collected and stored; In transformer station, break down or its Exchange Station during by power supply dead electricity, the Emergency Light power supply using storage battery as transformer station or the emergency operation power supply of primary line way switch, in time for emergency lighting is powered, or provide emergency operation power supply for primary line way switch; Both can realize the Emergency Light under malfunction, improve breakdown repair efficiency, guarantee personal safety and device security; Can make full use of the vibrational energy of transformer again, turn waste into wealth, contribute to save energy and reduce the cost, the cost that reduces operation/maintenance work, the emergency operation for transformer station's Emergency Light and primary line way switch, reaches energy-saving and cost-reducing effect, reduce operating cost, improve the coefficient of safety of substation operation.