CN105186781A - Lever and heavy hammer driven power generator - Google Patents

Abstract

The invention discloses a lever and heavy hammer driven power generator which is characterized by being composed of conductive rings, a main shaft, bearings, heavy hammers, a slide way supporting plate, slide ways, levers, speed-increasing gearboxes, speed-increasing gearbox input shafts, a speed-increasing gearbox supporting plate, speed-increasing gearbox output shaft butting wheels, power generators, power generator supporting seats, a transmission wheel, a transmission belt, a driving wheel, a driving motor, a driving motor supporting plate, a complete machine supporting frame, conductive wires and a conductive ring frame. The lever and heavy hammer driven power generator does not rotate in a single direction but rotates in a repeated direction, and is not rotated by using mechanical energy separately to generate power but is rotated by utilizing the action force of the levers and the heavy hammers; and due to the effects of the levers and the heavy hammers, the obtained electric energy is greater than the input mechanical energy, and the conversion efficiency is greater than 1, so that the power generation efficiency is improved.

Description

The generator that a kind of lever and weight drive

Technical field

The present invention relates to a kind of DC generator, particularly relate to the generator of a kind of lever and weight driving, belong to electromechanical equipment technical field.

Background technology

To do relative motion the generator generated electricity with wire and magnetic field in the market, be all rotate generating with mechanical energy drive electrical generators, be converted to electric energy with mechanical energy, its conversion efficiency is less than 1, and the electric flux obtained is less than the mechanical energy of input.Generator is all that one direction rotates.

Summary of the invention

Object of the present invention is just the deficiency overcoming prior art existence, proposes the generator of a kind of lever and weight driving.The present invention rotates with mechanical energy drive electrical generators separately to generate electricity, but utilize the active force of lever and weight, pushing generator rotates, and due to the effect of lever and weight, the electric flux obtained is greater than the mechanical energy of input, and conversion efficiency is greater than 1.Improve generating efficiency.The generator of this technology is not that one direction rotates, and is that direction rotates repeatedly.

The technical solution that the present invention provides is: the generator that this lever and weight drive, its feature is made up of cock wheel 11, generator 12, generator supporting seat 13, drive 14, driving-belt 15, driving wheel 16, drive motor 17, drive motor supporting bracket 18, complete machine bracing frame 19, conductor wire 20, conduction ring stand 21 conducting ring 1, main shaft 2, bearing 3, weight 4, slideway supporting bracket 5, slideway 6, lever 7, gear speedup case 8, gear speedup case power shaft 9, gear speedup case supporting bracket 10, gear speedup case output shaft, wherein.

Described conducting ring 1 is fixedly connected with one end of main shaft 2.

Described main shaft 2 is hollow shaft and is fixedly connected with the bearing 3 being positioned at complete machine bracing frame upper end.

Described weight 4 is fixedly connected with one end of lever 7.

The other end of described lever 7 is fixedly connected with gear speedup case power shaft 9 through after slideway 6.

Described slideway supporting bracket 5 is fixedly connected with slideway 6 with main shaft 2.

Described gear speedup case 8 is fixedly connected with gear speedup case supporting bracket 10.

Described gear speedup case power shaft 9 and gear speedup case 8 are for being rotationally connected.

Described gear speedup case supporting bracket 10 and main shaft 2 are for being fixedly connected with.

Described gear speedup case output shaft to the output shaft of cock wheel 11 and generator 12 for being fixedly connected with.

Described generator 12 and generator supporting seat 13 are for being fixedly connected with.

Described generator supporting seat 13 and main shaft 2 are for being fixedly connected with.

Described drive 14 and main shaft 2 are for being fixedly connected with.

Described driving-belt 15 and drive 14 and driving wheel 16 are for being in transmission connection.

The output shaft of described driving wheel 16 and drive motor 17 is for being fixedly connected with.

Described drive motor 17 and drive motor supporting bracket 18 are for being fixedly connected with.

Described drive motor supporting bracket 18 and complete machine bracing frame 19 are for being fixedly connected with.

The overcoat of described complete machine bracing frame 19 and bearing 3 is for being fixedly connected with.

One end of described conductor wire 20 is connected with generator 12, and the other end of conductor wire 20 is connected with conducting ring 1 by the centre bore of main shaft 2.

Described conduction ring stand 21 for being slidably connected, conducts electricity ring stand 21 with complete machine bracing frame 19 for being fixedly connected with conducting ring 1.

Compared with prior art, the invention has the beneficial effects as follows.

1., compared with existing wind power generation: structure is simple, the no longer little and restriction that can not generate electricity of by wind, can uninterruptable power generation.

2., compared with existing fuel power generation function: save fuel, generating efficiency is high, energy output is greater than the mechanical energy of input.

3., compared with existing hydroelectric power generation: generating efficiency is high, energy output is greater than the mechanical energy of input.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is gear speedup case, the supporting bracket of generator, generator, generator supporting seat, scheme of installation with main shaft.

Fig. 3 is the scheme of installation of weight, lever, gear speedup case, generator shaft gear, sector gear, sector shaft and generator.

Fig. 4 is that weight, lever are to the swing schematic diagram of gear speedup case.

Fig. 5 is the scheme of installation of slideway supporting bracket and slideway.

Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, Figure 13, Figure 14, Figure 15, Figure 16, Figure 17 are when chute board rotates, and slideway is along with the schematic diagram rotated.

Figure 18 is the horizontally-mounted schematic diagram of generator.

Mark in figure.

1 conducting ring, 2 main shafts, 3 bearings, 4 weights, 5 slideway supporting brackets, 6 slideways, 7 levers, 8 gear speedup cases, 9 gear speedup case power shafts, 10 gear speedup case supporting brackets, 11 gear speedup case output shafts are to cock wheel, 12 generators, 13 generator supporting seats, 14 moving runners, 15 driving-belts, 16 driving wheels, 17 drive motors, 18 drive motor supporting brackets, 19 complete machine bracing frames, 20 conductor wires, 21 conduction ring stands.

Embodiment

The case study on implementation now provided by reference to the accompanying drawings, is described in detail technical scheme of the present invention.

As shown in Figure 1, the generator that this lever and weight drive, by conducting ring 1, main shaft 2, bearing 3, weight 4, slideway supporting bracket 5, slideway 6, lever 7, gear speedup case 8, gear speedup case power shaft 9, gear speedup case supporting bracket 10, gear speedup case output shaft is to cock wheel 11, generator 12, generator supporting seat 13, drive 14, driving-belt 15, driving wheel 16, drive motor 17, drive motor supporting bracket 18, complete machine bracing frame 19, conductor wire 20, conduction ring stand 21 is formed, wherein: conducting ring 1 is fixedly connected with one end of main shaft 2, main shaft 2 is hollow shaft and is fixedly connected with the bearing 3 being positioned at complete machine bracing frame upper end, weight 4 is fixedly connected with one end of lever 7, the other end of lever 7 is fixedly connected with gear speedup case power shaft 9 through after slideway 6, slideway supporting bracket 5 is fixedly connected with slideway 6 with main shaft 2, gear speedup case 8 is fixedly connected with gear speedup case supporting bracket 10, gear speedup case power shaft 9 and gear speedup case 8 are for being rotationally connected, gear speedup case supporting bracket 10 and main shaft 2 are for being fixedly connected with, gear speedup case output shaft to the output shaft of cock wheel 11 and generator 12 for being fixedly connected with, generator 12 and generator supporting seat 13 are for being fixedly connected with, generator supporting seat 13 and main shaft 2 are for being fixedly connected with, drive 14 and main shaft 2 are for being fixedly connected with, driving-belt 15 and drive 14 and driving wheel 16 are for being in transmission connection, the output shaft of driving wheel 16 and drive motor 17 is for being fixedly connected with, drive motor 17 and drive motor supporting bracket 18 are for being fixedly connected with, drive motor supporting bracket 18 and complete machine bracing frame 19 are for being fixedly connected with, the overcoat of complete machine bracing frame 19 and bearing 3 is for being fixedly connected with, one end of conductor wire 20 is connected with generator 12, the other end of conductor wire 20 is connected with conducting ring 1 by the centre bore of main shaft 2, conduction ring stand 21 and conducting ring 1 are for being slidably connected, conduct electricity ring stand 21 with complete machine bracing frame 19 for being fixedly connected with.

During work, switch on power, drive motor 17 rotates, and drive drive 14 to rotate by driving wheel 16 and driving-belt 15, main shaft 2 is along with rotation.The parts such as conducting ring 1, weight 4, slideway supporting bracket 5, slideway 6, lever 7, gear speedup case 8, gear speedup case supporting bracket 10, generator 12, generator supporting seat 13 are all along with main axis.

Drive motor 17 rotates the mechanical energy exported, and just overcomes the inertia force maintaining main shaft 2 and annex stable rotation, does not generate electricity.Be equivalent to lathe idle running, so the power energy that drive motor 17 consumes is low.

As shown in Figure 2, the present invention is by 3 generators 12 and 3 gear speedup cases 8, is by being placed in main shaft 2 and gear speedup case supporting bracket 10 by certain decile angle.When Fig. 2 main axis, the axle of generator 12 can not rotate, and does not generate electricity.

As shown in Figure 3, weight 4, lever 7, the output shaft of cock wheel 11 with generator 12 is connected with gear speedup case output shaft by gear speedup case power shaft 9.

As shown in Figure 4, weight 4, lever 7, be connected can swing with gear speedup case power shaft 9, alternatively weight 4 and lever 7 can move down.Composition graphs 3 is seen again; Weight 4, lever 7, with gear speedup case power shaft 9 swing time, the axle of generator 12 is driven also and then to rotate, drive the rotor turns of generator 12 and generate electricity, the energy of generating is the result of the rotor turns of the active force pushing generator 12 produced by weight 4 and lever 7, has nothing to do with the mechanical energy of the output of drive motor 17.

Realize weight 4, lever 7, can move down, obtain described power generation process as follows.

3 levers 7 are placed in 3 slideways 6 respectively, 3 slideways and corresponding 3 levers laid represented with A, B, C respectively for convenience of explanation.Slideway length is divided into 2 points, and A slideway top is A1 end is A2.B slideway top is B1 end is B2.C slideway top is C1 end is C2.

As shown in Figure 6, main shaft 2 is pressed direction shown in arrow rotates, and in rotation moment (being set as 0 °), by the effect of motional inertia, lever A occupies in A1 position, drops on the position of B2, drop on the position of C1 under lever C under lever B.(B, C two electrical power generators).

As shown in Figure 7, when main shaft 2 rotates to 90 °, lever A drops to A2 by weight power by A1.Lever B slips down to the position of B1 by the position of B2, lever C invariant position.This step can see that A lever and B lever move down by the effect of weight power, and generator produces power generation process.(A, B two electrical power generators).

As shown in Figure 8, when main shaft 2 rotates to 180 °, lever C drops to C2 point by C1, and lever C produces displacement generation machine and produces power generation process.It is motionless that lever A occupies A2 position, and it is motionless that lever B occupies B1 position, can see having two generators not generate electricity in this step.(only having C mono-generating).

As shown in Figure 9, when main shaft 2 rotates to 270 °, lever B drops to B2 point by B1, and lever A drops to the position of A1 by A2 position.The position that lever C still occupies C2 is motionless.Can see having two levers to there occurs displacement in this step, a lever does not move, and orders about 2 generators and produces power generation process.Turn the position that 90 ° are just got back to Fig. 6 again.(A, B two electrical power generators).

As shown in Figure 10, main shaft 2 is pressed direction shown in arrow rotates, and in rotation moment (being set as 0 °), by the effect of motional inertia, lever B occupies in B1 position, drops on the position of C2, drop on the position of A1 under lever A under lever C.(C, A two electrical power generators).

As shown in figure 11, when main shaft rotates to 90 °, lever B drops to B2 by weight power by B1.Lever C slips down to the position of C1 by the position of C2, lever A invariant position.This step can see that B lever and C lever move down by the effect of weight power, and generator produces power generation process.Lever A invariant position, can not generate electricity.(B, C two electrical power generators).

As shown in figure 12, when main shaft rotates to 180 °, lever A drops to A2 point by A1, and lever A produces displacement generation machine and produces power generation process.It is motionless that lever B occupies B2 position, and it is motionless that lever C occupies C1 position, can see having two generators not generate electricity in this step.(only having A mono-generating).

As shown in figure 13, when main shaft 2 rotates to 270 °, lever A drops to A2 point by A1, and lever B drops to the position of B1 by B2 position.The position that lever C still occupies C2 is motionless.Can see having two levers to there occurs displacement in this step, a lever does not move, and orders about 2 generators and produces power generation process.Turn the position that 90 ° are just got back to Figure 10 again.(A, B two electrical power generators).

As shown in figure 14, main shaft 2 is pressed direction shown in arrow rotates, and in rotation moment (being set as 0 °), by the effect of motional inertia, lever C occupies in C1 position, and drop on the position of A2 under lever A, lever B is by the position dropping on B1 under B2.(A, B two electrical power generators).

As shown in figure 15, when main shaft rotates to 90 °, lever C drops to C2 by weight power by C1.Lever A slips down to the position of A1 by the position of A2, lever B invariant position.This step can see that A lever and C lever move down by the effect of weight power, and generator produces power generation process.Lever B invariant position, can not generate electricity.(C, A two electrical power generators).

As shown in figure 16, when main shaft 2 rotates to 180 °, lever B drops to B2 point by B1, and lever B produces displacement generation machine and produces power generation process.It is motionless that lever C occupies C2 position, and it is motionless that lever A occupies A1 position, can see having two generators not generate electricity in this step.(only having B mono-generating).

As shown in figure 17, when main shaft 2 rotates to 270 °, lever A drops to A2 point by A1, and lever C drops to the position of C1 by C2 position.The position that lever B still occupies B2 is motionless.Can see having two levers to there occurs displacement in this step, a lever does not move, and orders about 2 generators and produces power generation process.Turn the position that 90 ° are just got back to Figure 14 again.(A, C two electrical power generators).

If; Lever is that positive direction rotates by position 1 generator that to slide to position 2, be then then opposite spin when lever is slided to position 1 by position 2.

When the rotation of main shaft 2 low-speed stable, three generators 12 generate electricity in turn with regard to batch (-type).The electricity sent imports conducting ring 1 through conductor wire 20, and electric energy is derived by conducting electricity ring stand 21.Three generators in turn energy output sum equal gross generation.

Generator 12 power consumed that generates electricity is the active force produced by lever 7 and weight 4, and generated output and lever 7 and weight 4 have direct relation, are not related with drive motor 17 power.

The weight of the mechanicals efforts of generator 12 to the length of lever 7 and weight 4 is directly proportional.

That is: weight (weight kilogram) × lever (length meter)=active force (kg/m) (see figure 4).

Because lever 7 and main shaft are parallel by putting, the change in torque that lever 7 produces when swinging is little, because three levers are equidistant each other and symmetrical with main shaft 2, so the uneven moment of torsion produced is little, is conducive to the power output reducing drive motor 17.

Claims (4)

1. the generator of a lever and weight driving, it is characterized in that by conducting ring (1), main shaft (2), bearing (3), weight (4), slideway supporting bracket (5), slideway (6), lever (7), gear speedup case (8), gear speedup case power shaft (9), gear speedup case supporting bracket (10), gear speedup case output shaft is to cock wheel (11), generator (12), generator supporting seat (13), drive (14), driving-belt (15), driving wheel (16), drive motor (17), drive motor supporting bracket (18), complete machine bracing frame (19), conductor wire (20), conduction ring stand (21) is formed, wherein:

Described conducting ring (1) is fixedly connected with one end of main shaft (2);

Described main shaft (2) is for hollow shaft and be fixedly connected with the bearing (3) being positioned at complete machine bracing frame upper end;

Described weight (4) is fixedly connected with one end of lever (7);

The other end of described lever (7) is fixedly connected with gear speedup case power shaft (9) afterwards through slideway (6);

Described slideway supporting bracket (5) is fixedly connected with slideway (6) with main shaft (2);

Described gear speedup case (8) is fixedly connected with gear speedup case supporting bracket (10);

Described gear speedup case power shaft (9) and gear speedup case (8) are for being rotationally connected;

Described gear speedup case supporting bracket (10) and main shaft (2) are for being fixedly connected with;

Described gear speedup case output shaft to the output shaft of cock wheel (11) and generator (12) for being fixedly connected with;

Described generator (12) and generator supporting seat (13) are for being fixedly connected with;

Described generator supporting seat (13) and main shaft (2) are for being fixedly connected with;

Described drive (14) and main shaft (2) are for being fixedly connected with;

Described driving-belt (15) and drive (14) and driving wheel (16) are for being in transmission connection;

The output shaft of described driving wheel (16) and drive motor (17) is for being fixedly connected with;

Described drive motor (17) and drive motor supporting bracket (18) are for being fixedly connected with;

Described drive motor supporting bracket (18) and complete machine bracing frame (19) are for being fixedly connected with;

The overcoat of described complete machine bracing frame (19) and bearing (3) is for being fixedly connected with;

One end of described conductor wire (20) is connected with generator (12), and the other end of conductor wire (20) is connected with conducting ring (1) by the centre bore of main shaft (2);

Described conduction ring stand (21) and conducting ring (1), for being slidably connected, conduct electricity ring stand (21) with complete machine bracing frame (19) for being fixedly connected with.

2. the generator of a kind of lever according to claim 1 and weight driving, is characterized in that described generator (12) is 3, is arranged on main shaft (2) by certain decile angle.

3. the generator of a kind of lever according to claim 1 and weight driving, is characterized in that described gear speedup case (8) is 3, is arranged in gear speedup case supporting bracket 10 by certain decile angle.

4. the generator of a kind of lever according to claim 1 and weight driving, is characterized in that described lever (7) is 3, is placed in respectively in 3 slideways (6).