CN204376759U - A kind of microminiature piezoelectric wind driven generator - Google Patents

Abstract

The utility model relates to a kind of microminiature piezoelectric wind driven generator, belongs to new forms of energy and technical field of power generation.End cap and transparent cover are fixed on housing, and the seat supports of housing circular housing, include chute in the inner ring that circular housing is adjacent; Fan blade is fixed on rotating shaft front end, and rotating shaft rear and front end is arranged on transparent cover and end cap by bearing, and the slotted eye of rotating shaft fixes moving magnet, and the opposite pole of the fixed magnet laid in moving magnet and chute is mounted opposite; Fixture block is connected with fixed magnet, and the metal substrate evagination place be fixed on inside fixture block and end cap is bonded with piezoelectric chip, and the interior recess of two substrates is riveted mutually, and two substrates and piezoelectric chip form transducer jointly; The inner side of end cap is provided with energy storage plate, and energy storage plate is connected with transducer.Features and advantages: pre-bending piezoelectric chip only bears action of compressive stress, and reliability is high; The use of sliding groove structure, stability is high; Transducer architecture is novel, sends out power supply capacity strong.

Description

A kind of microminiature piezoelectric wind driven generator

Technical field

The utility model belongs to new forms of energy and technical field of power generation, is specifically related to a kind of microminiature piezoelectric wind driven generator.

Background technology

At present, energy crisis is day by day serious, brings very big inconvenience to the work of people, life.New energy technology more and more comes into one's own as a kind of means of effective alleviating energy crisis.Wind energy is one of energy of comparatively early using of the mankind, has clean, renewable and widely distributed etc. advantage.Wind energy under mostly what present larger wind power plants and medium-sized generating set utilized be fast state, the wind energy under lower-speed state is mostly left in the basket because of not easily utilizing.South China major part province annual mean wind speed is about 3-5m/s, belongs to lower wind speed, is not easy to build large-scale wind driven generator station; In China " 12 " development plan, just propose raising wind energy utilization as giving priority to one of target.So the development of microminiature wind-driven generator with develop into a trend.And rapidly, the electronic product of low-power consumption is promoted gradually in present MEMS (micro electro mechanical system) development.In micro electronmechanical field, the research and development of the self-contained electric system of micro-electromechanical device also becomes inevitable trend.

Microminiature piezoelectric wind driven generator is more existing researchs at present, are beam type excitation generating mostly.Have cantilever beam distortion uncontrollable, generating efficiency is lower, and piezoelectric patches during work in transducer bears compression and the tension stress of alternately change, easily causes the problems such as piezoelectric patches fragmentation.For existing issued patents Problems existing, the utility model proposes a kind of microminiature piezoelectric wind driven generator, have pre-bending piezoelectric chip and only bear compression, iso-stress is out of shape, and energy output is large, is out of shape controlled, stability advantages of higher.

Summary of the invention

The utility model proposes a kind of microminiature piezoelectric wind driven generator, uncontrollable, fragile with the distortion of the self energizing problem and existing cantilever piezoelectric wind-driven generator that solve micro-electromechanical device, the problems such as generating efficiency is low.

The technical scheme that the utility model is taked is: end cap and transparent cover are fixed by screws on housing, and the seat supports of described housing circular housing, includes chute in the inner ring adjacent with described circular housing; Fan blade is fixed on rotating shaft front end, described rotating shaft rear and front end is arranged on described transparent cover and end cap by bearing, the slotted eye of rotating shaft fixes moving magnet by screw, the opposite pole of the fixed magnet laid in described moving magnet and chute is mounted opposite, and an end face of fixed magnet and fixture block are fixed by screw; One end of metal substrate is by screw fixed clamp on described fixture block, and the other end is fixed by screws on the inner side projection of end cap, and the evagination place on described metal substrate is bonded with piezoelectric chip, and the interior recess of two substrates is riveted mutually by rivet; On two substrates and described substrate of rivet, bonding piezoelectric chip forms transducer jointly; The inner bulge of end cap is provided with energy storage plate through screw, described energy storage plate is connected by the substrate of wire group L2 and transducer and piezoelectric chip, two adj acent piezoelectric wafers on transducer on same substrate connect through wire group L1, are in two piezoelectric chips adjacent on different substrate on the transducer and are connected through wire group L3.

In the course of work, when fan blade rotates under wind-force effect, the reel on driven rotary axle does circular-rotation, and the moving magnet that the slotted eye of reel is installed also rotates thereupon, thus relatively rotates with the fixed magnet be fixed on fixture block; During non operating state, because moving magnet and fixed magnet are that opposite pole is near installing, and an end face of contact block on inner ring is when contacting with the end face near transducer on fixed magnet, the non-telescope distortion of transducer, when moving magnet and fixed magnet relatively rotate, fixed magnet can produce motion in chute, and transducer bears pulling force effect all the time, and piezoelectric chip bears the effect of compression all the time; Running hours, because of reel circular-rotation, moving magnet on reel and the fixed magnet in chute, close, away from constantly hocketing, therefore the pulling force that transducer bears when the fixed magnet in moving magnet and chute relatively rotates and the compression that piezoelectric chip bears alternately increase and reduce, piezoelectric chip institute compression chord alternately increases and minimizing is converted to electric energy by mechanical energy, and this is power generation process; The electric energy generated supplies energy storage plate by wire group L2, and energy storage plate can be connected with external device, thus realizes the electricity generation efficiency of wind-driven generator.

Features and advantages of the present utility model: 1. pre-bending piezoelectric chip iso-stress distortion of the present utility model, only bear action of compressive stress, reliability is high; 2. the use of sliding groove structure, be out of shape controlled, stability is high; 3. transducer architecture is novel, and configuration rationally, sends out power supply capacity strong.

Accompanying drawing explanation

Fig. 1 is the section of structure of microminiature wind-driven generator in the utility model preferred embodiment;

Fig. 2 is the A-A view of Fig. 1;

Fig. 3 is enlarged drawing and the vertical view of transducer;

Fig. 4 be in Fig. 1 transducer by minimum magneticaction time I portion enlarged drawing;

Fig. 5 is the I portion enlarged drawing of the contact block end face in Fig. 1 on inner ring when contacting with the end face on fixed magnet;

Embodiment

End cap 3 and transparent cover 7 are fixed by screws on housing 6, and the bearing 6a of described housing 6 supports circular housing 6b, include chute Q in the inner ring 6c adjacent with described circular housing 6b; Fan blade is fixed on rotating shaft 5 front end, described rotating shaft 5 rear and front end is arranged on described transparent cover 7 and end cap 3 by bearing 4, on rotating shaft 5, the slotted eye of reel 5a fixes moving magnet 8 by screw, the opposite pole of the fixed magnet 9 laid in described moving magnet 8 and chute Q is mounted opposite, and an end face and the fixture block 10 of fixed magnet 9 are fixed by screw; One end 1c of metal substrate 1 passes through screw fixed clamp on described fixture block 10, other end 1d is fixed by screws on the inner side projection 3a of end cap 3, evagination place 1a on described metal substrate 1 is bonded with piezoelectric chip 2, and the interior recess 1b of two substrates 1 is riveted mutually by rivet 11; On two substrates 1 and described substrate 1 of rivet 11 riveted joint, bonding piezoelectric chip 2 forms transducer H jointly; The inner bulge 3b of end cap 3 is provided with energy storage plate S through screw, described energy storage plate S is connected by the substrate 1 of wire group L2 and transducer H and piezoelectric chip 2, two adj acent piezoelectric wafers 2 on transducer H on same substrate 1 connect through wire group L1, transducer H is in two piezoelectric chips 2 adjacent on different substrate 1 and is connected through wire group L3.

In the course of work, when fan blade rotates under wind-force effect, the reel 5a on driven rotary axle 5 does circular-rotation, and the moving magnet 8 that the slotted eye of reel 5a is installed also rotates thereupon, thus relatively rotates with the fixed magnet 9 be fixed on fixture block 10; During non operating state, because moving magnet 8 and fixed magnet 9 are that opposite pole is near installing, and an end face of contact block 6c1 on inner ring 6c is when contacting with the end face near transducer on fixed magnet 9, the non-telescope distortion of transducer H, when moving magnet 8 relatively rotates with fixed magnet 9, fixed magnet 9 can produce motion in chute Q, and transducer H bears pulling force effect all the time, and piezoelectric chip 2 bears the effect of compression all the time; Running hours, because of reel 5a circular-rotation, moving magnet 8 on reel 5a and the fixed magnet 9 in chute Q, close, away from constantly hocketing, therefore the pulling force that transducer H bears when the fixed magnet 9 in moving magnet 8 and chute Q relatively rotates and the compression that piezoelectric chip 2 bears alternately increase and reduce, piezoelectric chip 2 compression chords alternately increase and minimizing is converted to electric energy by mechanical energy, and this is power generation process; The electric energy generated supplies energy storage plate S by wire group L2, and energy storage plate S can be connected with external device, thus realizes the electricity generation efficiency of wind-driven generator.

In the utility model; for improve transducer H generating capacity, avoid piezoelectric chip 2 to damage because of tension stress effect; when should guarantee transducer H not by External Force Acting, non-telescope distortion; when one end face of the contact block 6c1 on inner ring 6c contacts with the end face near transducer on fixed magnet 9, on the metal substrate 1 of transducer H, the least radius of circular arc external surface is R=h{ α+0.5 [α ²(1-β)-1-η E _p/ T _p1-α]/[(1-β)] }, the ultimate range in chute Q in fixed magnet 9 direction of motion is D=[L-2Rsin (0.5L/R)] n, wherein $\mathrm{\η}=(1-\mathrm{\α})[1-\mathrm{\α}(1-\mathrm{\β})]+\mathrm{\α\β}/(1+k_{31}^2),$ α=h _m/ h, h=h _m+ h _p, h _p, h _mbe respectively the thickness of piezoelectric chip 2 and metal substrate 1, β=E _m/ E _p, E _p, E _mbe respectively the Young's modulus of piezoelectric chip 2 and metal substrate 1, t _pbe respectively electromechanical coupling factor and the allowable tensile stress of piezoelectric, L is the arc length of single circular arc on metal substrate 1, and n is the circular arc quantity on single metal substrate 1.

Claims (1)

1. a microminiature piezoelectric wind driven generator, is characterized in that: end cap and transparent cover are fixed by screws on housing, and the seat supports of housing circular housing, includes chute in the inner ring that circular housing is adjacent; Fan blade is fixed on rotating shaft front end, rotating shaft rear and front end is arranged on described transparent cover and end cap by bearing, the slotted eye of rotating shaft fixes moving magnet by screw, and the opposite pole of the fixed magnet laid in moving magnet and chute is mounted opposite, and an end face of fixed magnet and fixture block are fixed by screw; One end of metal substrate is by screw fixed clamp on fixture block, and the other end is fixed by screws on the inner side projection of end cap, and the evagination place on metal substrate is bonded with piezoelectric chip, and the interior recess of two substrates is riveted mutually by rivet; On two substrates and substrate of rivet, bonding piezoelectric chip forms transducer jointly; The inner bulge of end cap is provided with energy storage plate through screw, energy storage plate is connected by the substrate of wire group L2 and transducer and piezoelectric chip, two adj acent piezoelectric wafers on transducer on same substrate connect through wire group L1, are in two piezoelectric chips adjacent on different substrate on the transducer and are connected through wire group L3.