CN214499297U - Self-generating device based on wave glider - Google Patents

Abstract

The utility model relates to a from power generation facility based on wave glider, adopt brand-new kinetic energy transmission structure, use wave glider owner body (1) and wave glider body (2) along with the up-and-down motion of rivers, obtain between the two to the reciprocal pulling-up of design inelastic flexible hawser (3), and then through rack (7), and combine one-way linkage between one-way gear (9) and follow-up gear (10), realize the input of mechanical energy to mechanical generator (12), obtain the work power supply of mechanical generator (12), and then for the equipment that unrestrained glider carried provides the electric energy, the guarantee equipment that carries can last stable work.

Description

Self-generating device based on wave glider

Technical Field

The utility model relates to a from power generation facility based on wave glider belongs to wave power generation technical field.

Background

At present, wave gliders at home and abroad usually depend on a mode that solar energy is converted into electric energy, power is supplied to carrying equipment of the wave gliders, the situations that power cannot be generated at night and the power generation amount is insufficient in rainy days exist, the power supply capacity of the wave glider carrying equipment is limited, communication interruption and hydrologic information acquisition interruption can be caused in serious situations, a new wave-electricity conversion technology of the wave gliders is researched, the green energy of wave energy is fully utilized for wave-electricity conversion, and the problem that the power supply of the wave glider carrying equipment is insufficient can be effectively solved.

Utilize this ripples-electricity conversion equipment to replace the elasticity cable in traditional wave glider, wave glider motion in-process, the distance between main body and the glide body changes repeatedly, effectively collects partial wave energy, through the gear, the chain, derailleur and generator turn into the electric energy that wave glider carried on equipment, can compensate current wave glider and carry on the limitation that equipment relies on solar energy power generation simply, improve the electric energy supply ability of wave glider, make wave glider carry on equipment and can last steady operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a from power generation facility based on wave glider is provided, adopt brand-new kinetic energy transmission structure, use rivers to the fluctuation of wave glider, realize the mechanical transmission power supply, make the wave glider carry on equipment and can last stable work.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme: the utility model designs a self-generating device based on a wave glider, which is arranged between a wave glider main floating body and a square wave glider gliding body below the wave glider main floating body, and realizes power generation based on the up-and-down motion of the wave glider main floating body and the wave glider gliding body along with water flow;

the self-generating device comprises a non-elastic flexible cable, a shell, a base, an elastic telescopic piece, a rack, a shaft rod, a one-way gear, a follow-up gear, a toothed chain and a mechanical generator, wherein the base, the elastic telescopic piece, the rack, the shaft rod, the one-way gear, the follow-up gear, the toothed chain and the mechanical generator are arranged in the shell; the device comprises a shell, a wave glider main floating body and a wave glider main floating body, wherein the shell is applied in a vertical posture, the top surface of the shell is fixedly butted with the lower surface of the wave glider main floating body, an inner through hole and an outer through hole which penetrate through the shell are formed in the bottom surface of the shell, the inner diameter of the through hole is matched with the outer diameter of a non-elastic flexible cable, and the rest surfaces on the shell are sealed; the two ends of the base are fixedly connected with the inner top surface and the inner bottom surface of the butt joint shell respectively, the base is located in a vertical posture, and the position of the base, which is connected with the inner bottom surface of the butt joint shell, is in butt joint with the edge of the through hole of the bottom surface;

defining a vertical straight line position which is on the surface of one side of the through hole on the bottom surface of the shell and corresponds to the through hole as a base surface setting line; one end of the elastic expansion piece is fixedly butted with the setting line on the surface of the base, and the other end of the elastic expansion piece points to the through hole on the bottom surface of the shell along the setting line direction on the surface of the base; the other end of the elastic telescopic piece is butted with one end of the rack, the rack is arranged along the arrangement line direction of the surface of the base, the insection on the rack is back to the surface of the base, the other end of the rack is butted with one end of the inelastic flexible cable rope, and the other end of the inelastic flexible cable rope passes through the through hole on the bottom surface of the shell and then is fixedly butted with the upper surface of the glider of the wave glider; the rack moves back and forth along the direction of the setting line of the surface of the base under the pulling of the inelastic flexible cable connected with one end of the rack and the elastic restraint of the elastic expansion piece connected with the other end of the rack;

the shaft lever is fixedly arranged on one side, facing the through hole in the bottom surface of the shell, of the base, the straight line where the shaft lever is located is parallel to the surface of the base and is perpendicular to the straight line where the rack is located, and the shaft lever freely rotates; the one-way gear is fixedly sleeved on the shaft lever, and peripheral insections of the one-way gear are occluded with insections on the rack; the follow-up gear is fixedly sleeved on the shaft lever, the follow-up gear rotates along with the rotation of the shaft lever, and the insections on the periphery of the follow-up gear are matched with the tooth holes on the toothed chain; the surface of the mechanical generator where the gear for inputting kinetic energy is located is coplanar with the surface of the follow-up gear, the toothed chain is sleeved on peripheral toothed patterns of the follow-up gear and peripheral toothed patterns of the gear on the mechanical generator, and the toothed chain is used for linking the follow-up gear with the gear on the mechanical generator.

As an optimal technical solution of the utility model: the limiting part is arranged on the base surface setting line and located between the rack and the shell bottom surface through hole, and the limiting part is used for limiting the movement of the rack towards the shell bottom surface through hole.

As an optimal technical solution of the utility model: the waterproof sealing belt is arranged at a through hole on the outer bottom surface of the shell and wraps the periphery of the inelastic flexible cable.

As an optimal technical solution of the utility model: the elastic expansion piece is a spring.

A from power generation facility based on wave glider, technical scheme compares with prior art more than adopting, has following technological effect:

the utility model discloses a from power generation facility based on wave glider, adopt brand-new kinetic energy transmission structure, use wave glider owner body and wave glider gliding body along with the up-and-down motion of rivers, obtain between the two to the reciprocal pulling-up of design inelastic flexible cable rope, and then through the rack, and combine the one-way linkage between one-way gear and the follow-up gear, realize the input of mechanical energy to mechanical generator, obtain mechanical generator's work power supply, and then provide the electric energy for wave glider equipment of carrying, the guarantee equipment of carrying can last stable work.

Drawings

FIG. 1 is a schematic structural view of the wave glider of the present invention;

fig. 2 is the utility model discloses a from power generation facility's structure schematic diagram based on wave glider.

The wave glider comprises a wave glider main floating body 1, a wave glider gliding body 2, an inelastic flexible cable 3, a shell 4, a base 5, an elastic telescopic piece 6, a rack 7, a shaft rod 8, a one-way gear 9, a follow-up gear 10, a toothed chain 11, a mechanical generator 12, a limiting piece 13 and a waterproof sealing belt 14.

Detailed Description

The following description will be provided to further explain embodiments of the present invention in detail with reference to the accompanying drawings.

The utility model discloses a from power generation facility based on wave glider, as shown in FIG. 1 for the setting is in wave glider owner body 1 rather than between the wave glider body 2 of square wave glider down, and realizes the electricity generation along with the up-and-down motion of rivers based on wave glider owner body 1 and wave glider body 2 of gliding.

In practical application, as shown in fig. 2, the self-generating device includes the inelastic flexible cable 3, the housing 4, and the base 5, the elastic expansion member 6, the rack 7, the shaft 8, the one-way gear 9, the follower gear 10, the toothed chain 11, and the mechanical generator 12 which are disposed inside the housing 4; wherein, the shell 4 is applied in a vertical posture, the top surface of the shell 4 is fixedly butted with the lower surface of the wave glider main floating body 1, the bottom surface of the shell 4 is provided with an inner through hole and an outer through hole which penetrate through the bottom surface, the inner diameter of the through hole is adapted to the outer diameter of the non-elastic flexible cable 3, and the rest surfaces on the shell 4 are sealed; the two ends of the base 5 are fixedly connected with the inner top surface and the inner bottom surface of the butt joint shell 4 respectively, the base 5 is located in a vertical posture, and the position of the base 5, which is connected with the inner bottom surface of the butt joint shell 4, is connected with the edge of the through hole of the bottom surface.

Defining the position of a vertical straight line which is on the surface of one side of the through hole on the bottom surface of the shell 4, which faces the base 5, and passes through the through hole as a surface setting line of the base 5; one end of the elastic expansion piece 6 is fixedly butted with a setting line on the surface of the base 5, and the other end of the elastic expansion piece 6 points to the through hole on the bottom surface of the shell 4 along the setting line direction on the surface of the base 5; the other end of the elastic expansion piece 6 is butted with one end of the rack 7, the rack 7 is arranged along the surface arrangement line direction of the base 5, the insection on the rack 7 is back to the surface of the base 5, the other end of the rack 7 is butted with one end of the inelastic flexible cable 3, and the other end of the inelastic flexible cable 3 passes through a through hole on the bottom surface of the shell 4 and then is fixedly butted with the upper surface of the glider 2 of the wave glider; the rack 7 moves back and forth along the direction of the setting line on the surface of the base 5 under the pulling of the non-elastic flexible cable 3 connected with one end and the elastic restraint of the elastic expansion piece 6 connected with the other end.

The shaft lever 8 is fixedly arranged on one side, facing the through hole in the bottom surface of the shell 4, of the base 5, the straight line of the shaft lever 8 is parallel to the surface of the base 5 and is vertical to the straight line of the rack 7, and the shaft lever 8 freely rotates; the one-way gear 9 is fixedly sleeved on the shaft lever 8, and peripheral insections of the one-way gear 9 are occluded with insections on the rack 7; the follow-up gear 10 is fixedly sleeved on the shaft lever 8, the follow-up gear 10 rotates along with the rotation of the shaft lever 8, and the insections on the periphery of the follow-up gear 10 are matched with the tooth holes on the toothed chain 11; the surface of the mechanical generator 12 where the gear for inputting kinetic energy is located is coplanar with the surface of the follow-up gear 10, the toothed chain 11 is simultaneously sleeved on the peripheral insections of the follow-up gear 10 and the peripheral insections of the gear on the mechanical generator 12, and the toothed chain 11 is used for linking the follow-up gear 10 and the gear on the mechanical generator 12.

In the middle of the practical application, based on above-mentioned project organization technical scheme, the utility model discloses further add locating part 13, locating part 13 sets up on 5 surfaces of base set up the line, and locating part 13 is located between rack 7 and the 4 bottom surfaces through-hole of casing, and locating part 13 is used for carrying on spacingly to the removal of rack 7 to 4 bottom surfaces through-hole directions of casing, avoids breaking away from of rack 7 and one-way gear 9. And a waterproof sealing belt 14 which is arranged at a through hole position on the outer bottom surface of the shell 4 and wraps the periphery of the inelastic flexible mooring rope 3 is additionally arranged for the object 4. So can obtain effectual water-proof effects, avoid the inflow of rivers in the casing 4.

The self-generating device based on the wave glider is applied to practice, and a spring is specifically designed for the elastic expansion piece 6, namely one end of the spring is fixedly butted on a surface setting line of the base 5, and the other end of the spring is butted with one end of the rack 7; in the practical use of the wave glider, under the action of waves, the wave glider main floating body 1 and the wave glider gliding body 2 move up and down along with water flow, namely, the distance between the wave glider main floating body 1 and the wave glider gliding body 2 is stretched or shortened in a reciprocating mode, namely, the non-elastic flexible mooring rope 3 is stretched in a reciprocating mode, further the rack 7 is stretched, and meanwhile under the action of a spring, the rack 7 moves back and forth along the direction of the arrangement line on the surface of the base 5; the movement of the rack 7 drives the one-way gear 9 to work, due to the one-way rotation characteristic of the one-way gear 9, the back and forth movement of the rack 7 only drives the shaft lever 8 to rotate in one direction through the one-way gear 9, and then the follow-up gear 10 is driven to rotate in one direction, and under the linkage of the toothed chain 11, the gear on the mechanical generator 12 is driven to rotate, so that the mechanical generation of the mechanical generator 12 is realized, and electric energy is provided for equipment carried by the wave glider.

According to the technical scheme, the self-generating device based on the wave glider is designed, a brand-new kinetic energy transmission structure is adopted, the wave glider main floating body 1 and the wave glider gliding body 2 move up and down along with water flow, reciprocating pulling up of the designed inelastic flexible mooring rope 3 is obtained between the wave glider main floating body 1 and the wave glider gliding body 2, then the rack 7 is used, unidirectional linkage between the one-way gear 9 and the following gear 10 is combined, mechanical energy input is achieved for the mechanical generator 12, working power supply of the mechanical generator 12 is obtained, electric energy is further provided for equipment carried by the wave glider, and continuous and stable work of the carried equipment is guaranteed.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (4)

1. A self-generating device based on a wave glider is arranged between a wave glider main floating body (1) and a square wave glider gliding body (2) below the wave glider main floating body, and power generation is realized based on the up-and-down movement of the wave glider main floating body (1) and the wave glider gliding body (2) along with water flow;

the method is characterized in that: the self-generating device comprises a non-elastic flexible cable (3), a shell (4), a base (5), an elastic telescopic piece (6), a rack (7), a shaft rod (8), a one-way gear (9), a follow-up gear (10), a toothed chain (11) and a mechanical generator (12), wherein the base (5), the elastic telescopic piece, the rack (7), the shaft rod (8), the one-way gear (9), the follow-up gear (10) and the toothed chain are arranged in the shell (4); the wave glider is characterized in that the shell (4) is applied in a vertical posture, the top surface of the shell (4) is fixedly butted with the lower surface of the wave glider main floating body (1), an inner through hole and an outer through hole which penetrate through the bottom surface of the shell (4) are formed in the bottom surface of the shell (4), the inner diameter of the through hole is matched with the outer diameter of the non-elastic flexible cable (3), and the rest surfaces on the shell (4) are sealed; the two ends of the base (5) are respectively fixedly connected with the inner top surface and the inner bottom surface of the butt joint shell (4), the base (5) is located in a vertical posture, and the position of the base (5) connected with the inner bottom surface of the butt joint shell (4) is connected with the edge of the through hole of the bottom surface in a butt joint mode;

defining a vertical straight line position which is on the surface of one side of the through hole on the bottom surface of the shell (4) on the base (5) and corresponds to the through hole as a setting line on the surface of the base (5); one end of the elastic expansion piece (6) is fixedly butted with a setting line on the surface of the base (5), and the other end of the elastic expansion piece (6) points to the through hole on the bottom surface of the shell (4) along the setting line direction on the surface of the base (5); the other end of the elastic telescopic piece (6) is in butt joint with one end of the rack (7), the rack (7) is arranged along the surface arrangement line direction of the base (5), the insection on the rack (7) is back to the surface of the base (5), the other end of the rack (7) is in butt joint with one end of the inelastic flexible cable (3), and the other end of the inelastic flexible cable (3) passes through a through hole in the bottom surface of the shell (4) and then is fixedly in butt joint with the upper surface of the wave glider (2); the rack (7) moves back and forth along the direction of the setting line on the surface of the base (5) under the pulling of the inelastic flexible cable (3) connected with one end of the rack and the elastic restraint of the elastic expansion piece (6) connected with the other end of the rack;

the shaft lever (8) is fixedly arranged on one side, facing the through hole in the bottom surface of the shell (4), of the base (5), the straight line where the shaft lever (8) is located is parallel to the surface of the base (5) and is perpendicular to the straight line where the rack (7) is located, and the shaft lever (8) freely rotates; the one-way gear (9) is fixedly sleeved on the shaft lever (8), and peripheral insections of the one-way gear (9) are occluded with insections on the rack (7); the follow-up gear (10) is fixedly sleeved on the shaft lever (8), the follow-up gear (10) rotates along with the rotation of the shaft lever (8), and the insections on the periphery of the follow-up gear (10) are matched with the tooth holes on the toothed chain (11); the surface of the mechanical generator (12) where the gear for inputting kinetic energy is located and the surface of the follow-up gear (10) are coplanar, the toothed chain (11) is sleeved on the peripheral toothed line of the follow-up gear (10) and the peripheral toothed line of the gear on the mechanical generator (12), and the toothed chain (11) is used for linking the follow-up gear (10) and the gear on the mechanical generator (12).

2. A wave glider based self-generating device according to claim 1, characterized in that: the gear rack is characterized by further comprising a limiting piece (13), the limiting piece (13) is arranged on a surface arrangement line of the base (5), the limiting piece (13) is located between the gear rack (7) and the through hole in the bottom surface of the shell (4), and the limiting piece (13) is used for limiting the movement of the gear rack (7) towards the through hole in the bottom surface of the shell (4).

3. A wave glider based self-generating device according to claim 1, characterized in that: the anti-theft device also comprises a waterproof sealing belt (14) which is arranged at the position of the through hole on the outer bottom surface of the shell (4) and wraps the periphery of the inelastic flexible mooring rope (3).

4. A wave glider based self-generating device according to claim 1, characterized in that: the elastic expansion piece (6) is a spring.

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