CN2766058Y - Kinetic energy generator - Google Patents

Abstract

The utility model relates to an electricity generating device, particularly a kinetic-energy electricity generating device which generates a force moment by force application by utilizing temporary and mechanical residual energy and can drive an electricity generator to generate electricity. A host machine part of the kinetic-energy electricity generating device is composed of a gear rack which is connected with a power source, a gear subassembly which transmits the power of the gear rack to the electricity generator and an energy storing mechanism. A belt pulley of a linkage device is arranged in the middle of a friction pulley by a connecting shaft, and the linkage device is connected with the belt pulley by a belt. A linkage gear is arranged on one side of the belt pulley by a connecting shaft. The linkage device is arranged inside a supporting plate which is fixed to the lower side of a gear box body. The electricity generating device has the advantages that the electricity generator is driven to generate electricity by utilizing the residual energy of mechanical movements or the kinetic-energy which is generated by a moving body; the electricity generating device can replace the electricity generating modes of fuel consumption, etc. and has the advantages of no pollution, energy saving and environmental protection. The electricity generating device is a novel kinetic-energy electricity generating device which has the advantages of labor intensity mitigation of manual work, simple structure, low cost and wide application range.

Description

Kinetic-energy power generator

Technical field

The utility model relates to a kind of electricity generating device, particularly relates to a kind ofly utilizing that of short duration mechanical energy is afterburning to produce the moment energy, and after two kinds of moments can be stored, thereby at the give off energy during intermittence kinetic-energy power generator of drive generator for electricity generation of mechanical energy.

Background technique

At present, except electricity-generating method such as traditional wind energy power, hydroelectric power, solar electrical energy generation, thermal power generation, nuclear energy power generation and device, two in recent years the generation utilized the electricity generating device as kinetic energy such as lever, wave, morning and evening tides, but utilize the afterburning moment energy that produces of of short duration mechanical energy, and after two kinds of moments can be stored, thereby give off energy intermittently the time in mechanical energy and to drive the kinetic-energy power generator of generator for electricity generation, the Shang Weijian record.

Summary of the invention

The purpose of this utility model provide a kind of utilize that of short duration mechanical residual energy is afterburning and produce moment and can store after, when being subjected to external force transmission generating, thereby discharge the kinetic-energy power generator that the moment energy continues to drive generator for electricity generation during intermittence in mechanical energy, generation modes such as the alternative consume fuel of the utility model are the electricity generating devices of a kind of energy saving, environmental protection.

The purpose of this utility model is achieved through the following technical solutions:

The utility model kinetic-energy power generator is by placing host machine part and double-action part in the casing 18 to form, and described host machine part is formed main drive gear by tooth bar 9, gear assembly 2,4,5,8,10, forms stored energy mechanism by gear assembly 3,6,7; Described continuous action device is made up of friction wheel 13, belt pulley 11,12 and linked gear 4.

The belt pulley 12 of described continuous action device is installed in the centre of friction wheel 13 by coupling shaft, and is connected with belt pulley 11 by belt 17, and linked gear 14 is installed in a side of belt pulley 11 by coupling shaft; Described continuous action device is installed in the dunnage 15, and a side of dunnage 15 is equipped with connecting rod undercarriage 16, and dunnage 15 is fixed on the downside of gear housing 18.

The beneficial effects of the utility model are: utilize that the dump energy of mechanical motion or moving body produce jolt, concussion and moment anti-phase moment drive generator for electricity generation as power, the generating effect that the multi-faceted collection mode of one machine produces, can replenish the moving body energy, be pollution-free, the energy saving of generation modes such as a kind of alternative consume fuel, the electricity generating device of environmental protection, be to alleviate hand labor intensity greatly, and simple in structure, cost is low, the novel kinetic-energy power generator of applied range.

Description of drawings

The utility model has following accompanying drawing:

Fig. 1 is the utility model host machine part and double-action part linkage structure schematic representation;

Fig. 2 is the utility model tooth bar 9 positive stressed transmission schematic representation;

Fig. 3 is the stressed transmission schematic representation of the utility model tooth bar 9 reverse side;

Fig. 4 is the utility model tooth bar 9 main schematic representation of looking;

Fig. 5 is the utility model tooth bar 9 schematic top plan view;

Fig. 6 is the utility model tooth bar 9A-A cross-sectional schematic;

Fig. 7 is the directed power-assist gear of the utility model 10 sectional structure schematic representation;

Fig. 8 is directed flywheel gear 2 cross-sectional schematic of the utility model;

Fig. 9 is the structural representation of the utility model flywheel gear 7;

Figure 10 is the utility model continuous action device structural representation;

Figure 11 is the utility model gear housing 1 main schematic representation of looking;

Figure 12 is the utility model gear housing 1 schematic top plan view;

Figure 13 looks schematic representation for the utility model gear housing 1 right side;

Figure 14 is the utility model gear housing 1B-B cross-sectional schematic.

Among the figure: 1. generator; 2. directed flywheel gear; 3. power-assist gear; 4. driven turriform gear; 5. turriform gear initiatively; 6. power-assist gear; 7. balance flywheel gear; 8. turriform gear initiatively; 9. the two-sided tooth bar of I shape; 10. directed power-assist turriform gear; 11. belt pulley; 12. belt pulley; 13. friction wheel; 14. linked gear; 15. dunnage; 16. connecting rod undercarriage; 17. belt; 18. main frame casing; 19. continuous action device shell; 20. main frame casing support ear; 21. mainframe box internal partition upper sliding shaft hole; 22. mainframe box internal partition lower sliding shaft hole; 23. the two-sided rack slide mouth of host housing; 24. two-sided tooth bar fork-shaped positioning plate in the main frame casing.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples:

Embodiment 1.

As shown in Figure 1, the utility model kinetic-energy power generator is made up of host machine part and continuous action device.Main drive gear when the tooth bar 9 that host machine part as shown in Figure 2 is made of tooth bar 9, gear assembly 8,10,4,2 is subjected to downward active force Figure 3 shows that the main drive gear when tooth bar 9 that host machine part is made of tooth bar 9, gear assembly 5,10,4,2 is subjected to upwards active force; Constitute stored energy mechanism by gear assembly 3,6,7; Described continuous action device is made up of friction wheel 13, belt pulley 11,12 and linked gear 4.

As Fig. 4, Fig. 5, shown in Figure 6, the tooth bar 9 of described main drive gear is a double cog, as Fig. 2, Fig. 3, Figure 11, Figure 12, shown in Figure 13, the I-shaped slideway mouth 23 that casing 18 is stretched out in tooth bar 9 upper end portions connects power source, the underpart is plugged in the fork groove of the positioning plate 24 that is fixed on casing 18 bottoms, the pinion of tooth bar 9 front teeth and turriform gear 8, the pinion of the gearwheel of turriform gear 8 and directed power-assist turriform gear 10, the gearwheel of directed power- assist turriform gear 10 and 4 engagements of driven turriform gear, driven turriform gear 4 is connected with directed flywheel gear 2 by transmission shaft, and directed flywheel gear 2 is given generator 1 by transmission shaft with power transmission; The reverse side tooth of described tooth bar 9 and the pinion of turriform gear 5, the pinion of the gearwheel of turriform gear 5 and directed power-assist turriform gear 10, the gearwheel of directed power-assist turriform gear 10 and the pinion of driven turriform gear 4, driven turriform gear 4 is connected with directed flywheel gear 2 by transmission shaft, and directed flywheel gear is transferred to generator 1 by transmission shaft with dynamic torque; Described stored energy mechanism is: the gearwheel of driven turriform gear 4 and 3 engagements of power-assist gear, power-assist gear 3 is connected with power-assist gear 6 by transmission shaft, power- assist gear 6 and 7 engagements of balance flywheel gear.

As Fig. 2, Fig. 3, Figure 12, Figure 13, shown in Figure 14, the coupling shaft of described turriform gear 8 is installed in the long sliding hole 21 of gearbox wall upper end, and the coupling shaft of turriform gear 5 is installed in the long sliding hole 22 of gearbox wall lower end; As shown in Figure 8, the center of described directed flywheel gear 2 is equipped with ratchet mechanism, and as shown in Figure 7, the center of directed power-assist turriform gear 10 is equipped with ratchet mechanism; As shown in Figure 9, the small end of described balance turriform flywheel gear 7 is a gear, and big end is the balance flywheel.

As Fig. 1, shown in Figure 10, the belt pulley 12 of described continuous action device is installed in the centre of friction wheel 13 by coupling shaft, and is connected with belt pulley 11 by belt 17, and linked gear 14 is installed in a side of belt pulley 11 by coupling shaft; Described continuous action device is installed in the dunnage 15, and a side of dunnage 15 is equipped with connecting rod undercarriage 16, and dunnage 15 is fixed on the downside of gear-box.

The utility model kinetic-energy power generator is work like this: as shown in Figure 1 and Figure 2, mainframe box 18 is fixed on automobile bodies below vibration damper steel plate car one side by main frame casing support ear 20, vibration damper steel plate is connected with bearing pin with the upper end portion of tooth bar 9.When tooth bar 9 is subjected to the downward active force of postive direction, the front of tooth bar 9 and initiatively turriform gear 8 engagements, owing to be subjected to downward active force, initiatively the slide-bar of turriform gear 8 slides from the last hole of long sliding hole 21 and directed power-assist turriform gear 10 engagements, directed power-assist turriform gear 10 and driven turriform gear 4 engagements, by driven turriform gear 4 respectively transmission of power to directed flywheel gear 2 and power-assist gear 3, directed flywheel gear 2 is transferred to generator 1 acting to dynamic torque.Simultaneously power-assist gear 3 stores up power with power by the balance turriform flywheel gear 7 that power-assist gear 6 is delivered to the power-assist gear engagement, when the active force that is subjected to postive direction when tooth bar 9 stops, again by balance flywheel gear 7 with the inertia force torque feedback stored up to generator 1, supply generator 1 continuous running acting.When tooth bar 9 fronts were subjected to the active force of postive direction, initiatively turriform gear 5 was because of being subjected to the idle position that tooth bar 9 reverse side adverse effect power slide-bars slide to lower end, 22 times holes of slide opening, pylon generating gear 10 and initiatively turriform gear 5 disengagements.

As shown in Figure 3, when tooth bar 9 is subjected to reciprocal active force (making progress), initiatively turriform gear 5 engagements of the reverse side of tooth .9, initiatively the slide-bar of turriform gear 5 moves to upper end and 10 engagements of pylon generating gear from lower end, 22 times holes of slide opening, directed power-assist turriform gear 10 and driven turriform gear 4 engagements, by driven turriform gear 4 respectively transmission of power to directed flywheel gear 2 and power-assist gear 3, directed flywheel gear 2 is transferred to generator 1 acting to dynamic torque.Simultaneously power-assist gear 3 stores up power with power by the balance turriform flywheel gear 7 that power-assist gear 6 is delivered to the power-assist gear engagement, when tooth bar 9 is subjected to reciprocal active force and stops, again by balance flywheel gear 7 with the inertia force torque feedback stored up to generator 1, supply generator 1 continuous running acting.When tooth bar 9 reverse side were subjected to reciprocal active force, initiatively turriform gear 8 was because of being subjected to the idle position that tooth bar 9 front adverse effect power slide-bars slide to upper end, hole on the slide opening 21, pylon generating gear 10 and initiatively turriform gear 8 disengagements.

As Fig. 1, shown in Figure 10, the working procedure of described continuous action device is: stir connecting rod undercarriage 16, friction wheel 13 leans on mutually with just at the volley driving wheel, the rotating power of friction wheel 13 drives belt pulley 12 runnings, rotating power is passed to the belt pulley 11 of the other end by drivign belt 17, linked gear 14 has driven directed flywheel gear 2 runnings of meshing with linked gear 14 with changeing, and by transmission shaft dynamic torque is transferred to generator 1 acting.When pushing connecting rod undercarriage 16 aside, friction wheel 13 is thrown off with driving wheel.Owing to detent mechanism is housed in the directed flywheel gear 2, influence generator 1 normal operation in the time of can preventing from reverse because of driving wheel.

Embodiment 2.

Mainframe box 18 is fixed on shelf below rear wheel one side behind the bicycle, one end of bicycle saddle and tooth bar 9 is linked together, and the vertical motion power up and down that produces in the time of just can finishing bicycle and jolt on ground is collected by the generating of the utility model kinetic-energy power generator.

Embodiment 3.

The continuous action device of the utility model kinetic-energy power generator is installed in position between new type electric bicycle below-seat brake frame and the wheel, when needing brake, earlier friction wheel 13 is leaned against wheel surface, the anti-phase moment of brake moment generation can be collected, be passed to directed flywheel gear 2 through linked gear 14, collect in the lump with the moment that 18 tooth bars 9 of mainframe box among the embodiment 2 are collected, generate electricity by the utility model kinetic-energy power generator.

Embodiment 4.

At the damping device position of electric motorcycle design one cover linkage mechanism, link together with the tooth bar 9 of the utility model kinetic-energy power generator, but the move toward one another power that produces when just motorcycle jolts on ground is collected by the generating of the utility model kinetic-energy power generator.

Embodiment 5.

At the brake bell position of electric motorcycle design one cover flexible axle core driving mechanism, touch mutually together with the directed flywheel gear 2 of the utility model kinetic-energy power generator, when needing brake, the anti-phase moment that will produce moment is earlier collected, collect in the lump with the moment that 18 tooth bars 9 of mainframe box among the embodiment 4 are collected, generate electricity by the utility model kinetic-energy power generator.

Claims (3)

1, a kind of kinetic-energy power generator, comprise the host machine part and the double-action part that place in the casing (18), it is characterized in that: described host machine part comprises by tooth bar (9), gear assembly (2), (4), (5), (8), (10) forms main drive gear, forms stored energy mechanism by gear assembly (3), (6), (7); Described double-action part is made up of belt pulley (11), (12), friction wheel (13) and linked gear (14); The tooth bar of described host machine part (9) is a double cog, the I-shaped slideway mouth of two-sided tooth bar (23) that casing (18) is stretched out in its upper end portion connects power source, the underpart is plugged in the fork groove of the two-sided tooth bar fork-shaped positioning plate (24) that is fixed on casing (18) bottom, the pinion of tooth bar (9) front teeth and turriform gear (8), the pinion of the gearwheel of turriform gear (8) and directed power-assist turriform gear (10), the gearwheel of directed power-assist turriform gear (10) and driven turriform gear (4) engagement, driven turriform gear (4) is connected with directed flywheel gear (2) by transmission shaft, and directed flywheel gear (2) is given generator (1) by transmission shaft with power transmission; The pinion of the reverse side tooth of described tooth bar (9) and turriform gear (5), the pinion of the gearwheel of turriform gear (5) and directed power-assist turriform gear (10), the gearwheel of directed power-assist turriform gear (10) and the pinion of driven turriform gear (4), driven turriform gear (4) is connected with directed flywheel gear (2) by transmission shaft, and directed flywheel gear (2) arrives generator by transmission shaft with power transmission; The gearwheel of driven turriform gear (4) and power-assist gear (3) engagement, power-assist gear (3) is connected with power-assist gear (6) by transmission shaft, power-assist gear (6) and balance turriform flywheel gear (7) engagement.

2, kinetic-energy power generator according to claim 1, it is characterized in that: the coupling shaft of described turriform gear (8) is installed in the long sliding hole (21) of gearbox wall upper end, and the coupling shaft of turriform gear (5) is installed in the long sliding hole (22) of gearbox wall lower end; Ratchet mechanism is equipped with at the center of described directed flywheel gear (2), and ratchet mechanism is equipped with at the center of directed power-assist turriform gear (10); The small end of described balance turriform flywheel gear (7) is a gear, and big end is the balance flywheel.

3, kinetic-energy power generator according to claim 1, it is characterized in that: the belt pulley of described double-action part (12) is installed in the centre of friction wheel (13) by coupling shaft, and be connected with belt pulley (11) by belt (17), linked gear (14) is installed in a side of belt pulley (11) by coupling shaft; Described double-action part is installed in the dunnage (15), and a side of dunnage (15) is equipped with connecting rod undercarriage (16), and dunnage (15) is fixed on the downside of gear housing (18).

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