CN109882345B

CN109882345B - Seawater fluctuation physical stress balance power generation equipment

Info

Publication number: CN109882345B
Application number: CN201910183221.XA
Authority: CN
Inventors: 周加存
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-03-12
Filing date: 2019-03-12
Publication date: 2020-10-27
Anticipated expiration: 2039-03-12
Also published as: CN109882345A

Abstract

The invention discloses a seawater fluctuation physical stress balance power generation device, which consists of three parts: the inclined opening guide iron barrel, the fluctuation stress barrel and the stress balance power generator. The invention has low cost and convenient assembly, provides kinetic energy through seawater fluctuation, converts through the clockwork spring box, stores the kinetic energy of the seawater fluctuation through the clockwork spring box, realizes continuous balanced power generation through the balance rotating speed pendulum bob, and can realize the random control of power by adjusting the size of the balance rotating speed pendulum bob.

Description

Seawater fluctuation physical stress balance power generation equipment

Technical Field

The invention relates to seawater fluctuation physical stress balance power generation equipment, and belongs to the technical field of power generation equipment.

Background

There are many inexhaustible natural energy sources on the earth, such as wind energy, light energy, seawater wave energy and other natural energy sources. At present, most of power plants are power generation equipment manufactured by wind energy and light energy, but the power generation equipment is large in size, high in manufacturing cost and inconvenient to assemble, and once the power generation equipment is assembled, if a problem occurs or some parts are damaged and need to be maintained, the power generation equipment is inconvenient to disassemble and high in maintenance cost.

The wind power generation has the following defects: in nature, 15% -25% of the time is without wind, and when the wind is not available, the wind energy generator does not work, so that the wind energy generation cannot continuously generate electricity, and when a large amount of electricity is needed, the electricity cannot be continuously generated.

The solar power generation has the following defects: since solar power generation requires sunlight and is off-sunlight at night, it is not able to generate power 50% of the time, and it is also rare to generate power 20% -30% of the time during the day, for example, during cloudy and rainy days.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to reduce the volume of the power generation equipment and the manufacturing cost.

In order to solve the technical problem, the technical scheme of the invention is to provide seawater fluctuation physical stress balance power generation equipment which is characterized by comprising a bevel opening guide iron barrel, wherein a bevel opening is arranged at the lower end of the bevel opening guide iron barrel, a stress machine bracket is fixed at the upper end of the bevel opening guide iron barrel, a fixed general shaft and a power generator are fixed on the stress machine bracket, a power shaft is sleeved on the fixed general shaft, one end of the power shaft is fixedly connected with a power wheel, the power wheel is connected with the power generator through a belt, the other end of the power shaft penetrates through a middle plate and then is arranged in a clockwork spring box, the middle plate is fixed on the stress machine bracket, a balance rotating speed pendulum gear is arranged on the outer side of the middle of the power shaft, a balance rotating speed pendulum bob capable of swinging left and right is arranged on one side of the balance rotating speed pendulum bob gear, two clamping teeth are arranged at the upper end of the balance rotating speed pendulum bob, when the balance rotating speed pendulum bob swings arbitrarily, the middle of the two latches swings around a first pin shaft, the first pin shaft is fixed on one side of an intermediate plate, a steel plate spring fixing column is fixed on the inner wall of a spring box, a vortex spring is arranged in the spring box, one end of the vortex spring is fixed on the other end of a power shaft, the other end of the vortex spring is fixed on the steel plate spring fixing column, an external gear is arranged on the outer circumference of the spring box, a spring box non-return jacking card for preventing the spring box from reversely rotating is arranged on the outer side of the external gear, a transversely arranged pressing rod is arranged below the outermost layer of the vortex spring, one end of the pressing rod penetrates through the shell of the spring box and is connected with one end of a clockwise rotation jacking card, a third pin shaft is arranged in the middle of the clockwise rotation jacking card and is fixedly connected with the right side of the spring box, the other end of the clockwise rotation jacking card is connected with a clockwise rotation jacking wheel, a stressed chain gear is fixedly connected with one side of the, the stress chain gear is wound with a stress chain, one end of the stress chain is wound on a chain winding and unwinding wheel and fixed, the chain winding and unwinding wheel is fixedly connected with one end of an extension spring, the winding direction of the extension spring on the chain winding and unwinding wheel is opposite to that of the stress chain, the other end of the extension spring is fixed on a stress machine support, the other end of the stress chain is connected with the top of a fluctuation stress barrel, the fluctuation stress barrel is arranged in a bevel guide iron barrel, the top of the fluctuation stress barrel is sealed, the fluctuation stress barrel comprises a hollow buoyancy part at the upper part and a water injection stress part at the lower part, an exhaust pipe which penetrates through the hollow buoyancy part and is communicated with the water injection stress part is arranged on the fluctuation stress barrel, an exhaust pipe air cap is arranged at the top of the exhaust pipe, an air vent opening is arranged at the upper end of the bevel guide iron barrel and fixedly connected with a fixed pipe column, an iron plate flat.

Preferably, the lower end of the bevel guide iron barrel is arranged in seawater, and the upper end of the bevel guide iron barrel is positioned above the sea surface.

Preferably, air is arranged in the hollow buoyancy part, and seawater communicated with the bevel connection guide iron barrel is arranged in the water injection stress part.

Preferably, the inner wall of the bevel guide iron barrel is provided with a guide rail single sheet, the guide rail single sheet is provided with a guide double sheet capable of freely sliding up and down, and the guide double sheet is fixed on the outer wall of the fluctuation stress barrel.

Preferably, the inner wall of the bevel guide iron barrel is provided with at least two guide rail single sheets, and each guide rail single sheet is provided with at least two guide double sheets.

Preferably, a second pin shaft is fixed on the other side of the middle plate and connected with one end of the spring box non-return top clamp, and the external gear is clamped with one end of the spring box non-return top clamp for preventing the spring box from reversely rotating.

Preferably, the direction of preventing the clockwork box from reversely rotating by the non-return jacking clamp of the clockwork box is opposite to the direction of preventing the clockwork box from reversely rotating by the clockwise rotating jacking gear.

Preferably, limiting springs are arranged between the spring box non-return jacking clamp and the second pin shaft and between the clockwise rotation jacking tooth clamp and the third pin shaft.

Compared with the prior art, the invention has the advantages of low manufacturing cost and convenient assembly, provides kinetic energy through seawater fluctuation, converts through the clockwork box, stores the kinetic energy of the seawater fluctuation through the clockwork box, realizes continuous balanced power generation through the pendulum with balanced rotating speed, and can realize the arbitrary control of power by adjusting the size of the pendulum with balanced rotating speed, the length of the pendulum swing arm and the diameter of the power wheel.

Drawings

FIG. 1 is a schematic structural diagram of a seawater fluctuation physical stress balance power generation device;

FIG. 2 is a partial schematic view of a right side view of a seawater fluctuation physical stress balance power generation plant;

FIG. 3 is a partial schematic view of a left side view of a seawater fluctuation physical stress balance power generation plant;

fig. 4 is a partial schematic view of an upper side view of a seawater fluctuation physical stress balance power generation device.

Detailed Description

In order to make the invention more comprehensible, preferred embodiments are described in detail below with reference to the accompanying drawings.

The invention relates to a power generating device which utilizes the physical stress energy of seawater fluctuation to run in a balanced way, the rotating speed of the power generating device can be adjusted, and the power generating device can generate power in groups and can form a large-scale power plant in groups.

The invention relates to seawater fluctuation physical stress balance power generation equipment, which comprises an inclined opening guide iron barrel 4, wherein the lower end of the inclined opening guide iron barrel 4 is arranged in seawater, and the upper end of the inclined opening guide iron barrel 4 is positioned above the sea surface, as shown in figures 1-4. The lower end of the bevel guide iron drum 4 is provided with a bevel, the upper end of the bevel guide iron drum 4 is fixed with a stress machine support 15, the stress machine support 15 is provided with a fixed total shaft 16 and a generator 19, the fixed total shaft 16 is sleeved with a power shaft, one end of the power shaft is fixedly connected with a power wheel 11, the power wheel 11 is connected with the generator 19 through a belt, the other end of the power shaft penetrates through an intermediate plate 25 and is arranged in a clockwork spring box 13, the intermediate plate 25 is fixed on the stress machine support 15, the outer side of the middle of the power shaft is provided with a balance rotating speed pendulum gear, one side of the balance rotating speed pendulum gear is provided with a balance rotating speed pendulum 12 capable of swinging left and right, the upper end of the balance rotating speed pendulum 12 is provided with two clamping teeth, when the balance rotating speed pendulum 12 swings randomly, only one clamping tooth is meshed with the balance rotating speed pendulum gear, the middle of the two clamping teeth swings around a first pin shaft, the first pin shaft, a second pin shaft is fixed on the other side of the intermediate plate 25 and is connected with one end of the spring box non-return top clip 18, a steel plate spring fixing column 22 is fixed on the inner wall of the spring box 13, a vortex spring is arranged in the spring box 13, one end of the vortex spring is fixed on the other end of the power shaft, the other end of the vortex spring is fixed on the steel plate spring fixing column 22, an external gear is arranged on the outer circumference of the spring box 13 and is clamped with one end of the spring box non-return top clip 18 for preventing the spring box 13 from reversely rotating, a transversely arranged pressing rod is arranged below the outmost layer of the vortex spring, one end of the pressing rod penetrates through the shell of the spring box 13 and is connected with one end of the clockwise rotation top tooth clip 17, a third pin shaft is arranged in the middle of the clockwise rotation top tooth clip 17 and is fixedly connected with the right side of the spring box 13, the other end of the clockwise rotation top tooth clip 17 is clamped with the clockwise rotation top tooth clip, the front top gear and the stressed chain gear 14 are both sleeved on the fixed general shaft 16, a stressed chain 10 is wound on the stressed chain gear 14, one end of the stressed chain 10 is wound on a chain winding and unwinding wheel 23 to be fixed, the chain winding and unwinding wheel 23 is fixedly connected with one end of an extension spring 26, the winding direction of the extension spring 26 on the chain winding and unwinding wheel 23 is opposite to the winding direction of the stressed chain 10, the other end of the extension spring 26 is fixed on a stressed machine support 15, the other end of the stressed chain 10 is connected with the top of a fluctuation stressed barrel 24, the fluctuation stressed barrel 24 is arranged in an inclined opening guide iron barrel 4, two guide rail single sheets 3 are arranged on the inner wall of the inclined opening guide iron barrel 4, two guide double sheets 8 capable of freely sliding up and down are arranged on each guide rail single sheet 3, and the guide double sheets 8 are fixed on the outer wall of the fluctuation. The top end of the fluctuation stress barrel 24 is sealed, the fluctuation stress barrel 24 comprises a hollow buoyancy part 6 at the upper part and a water injection stress part 5 at the lower part, air is arranged in the hollow buoyancy part 6, and seawater communicated with the bevel guide iron barrel 4 is arranged in the water injection stress part 5. The fluctuation stress barrel 24 is provided with an exhaust pipe 7 which penetrates through the hollow buoyancy part 6 to be communicated with the water injection stress part 5, the top of the exhaust pipe 7 is provided with an exhaust pipe air cap 9, the upper end of the bevel guide iron barrel 4 is provided with an air vent, the bevel guide iron barrel 4 is fixedly connected with the fixed pipe column 2, and the bottom of the fixed pipe column 2 is provided with an iron plate flat foot 1.

The direction in which the spring box non-return ejector 18 prevents the spring box 13 from rotating in the reverse direction is opposite to the direction in which the clockwise rotation ejector tooth 17 prevents the clockwise rotation of the ejector gear. Limiting springs are arranged between the spring box non-return jacking clamp 18 and the second pin shaft and between the clockwise rotation jacking tooth clamp 17 and the third pin shaft.

The upper end of the chute guide iron drum 4 must be above the maximum tide level 20 and the lower end of the chute guide iron drum 4 must be below the minimum tide level 21.

The seawater fluctuation physical stress balance power generation equipment comprises three parts: the bevel guide iron barrel 4, the fluctuation stress barrel 24 and the stress balance power generator.

(1) Bevel guide iron bucket

The bevel connection at the lower end of the bevel connection guiding iron bucket 4 can increase the seawater contact area, can increase the vertical fluctuation height of the fluctuation stress bucket 24, can be used for distinguishing the seawater fluctuation direction, the bevel connection guiding iron bucket 4 is fixedly installed at the bottom of the sea floor by two fixing tubular columns 2 with iron plate flat feet 1, and two guiding track single pieces 3 are installed in the bevel connection guiding iron bucket 4.

(2) Wave force barrel

The upper part of the wave motion force-bearing barrel 24 is a hollow buoyancy part 6, and the lower part is a water injection force-bearing part 5.

When the sea wave comes, the fluctuation stress barrel 24 is pushed upwards by the buoyancy of the hollow buoyancy part 6; when the wave is removed, the gravity of the full water in the water injection stress part 5 drives the fluctuation stress barrel 24 to fall back, and the stress chain 10 is pulled.

If there is the air in the water injection atress portion 5, when the wave was clapped, through the ascending effect of sea water for the air in the water injection atress portion 5 is arranged clearly to the blast pipe 7 that communicates water injection atress portion 5, and the blast pipe air cap 9 of 7 upper mouths of blast pipes is closed, does not have the air in the water injection atress portion 5.

(3) Stress balance power generator

A stress machine support 15 is installed at the top of an inclined opening guide iron barrel 4, a stress chain 10 is wound on a stress chain gear 14, one side of the stress chain gear 14 is fixedly connected with a forward-jacking gear, the forward-jacking gear and the stress chain gear 4 are both sleeved on a fixed general shaft 16, the forward-jacking gear is connected with a forward-rotating jacking tooth clamp 17 on a clockwork spring box 13, when seawater fluctuates and returns, a fluctuation stress barrel 24 is full of water and descends to form a stress process, when the seawater fluctuates and descends, the stress chain 10 drives the forward-rotating gear, the forward-rotating jacking tooth clamp 17 clamps and drives the clockwork spring box 13 to run, a clockwork spring (namely a vortex spring) in the clockwork spring box 13 is stressed, the clockwork spring forward-rotating jacking tooth clamp 17 is pressed after the seawater is full of force to stop the stress, the clock.

The working process of the invention is as follows:

the invention is firstly inserted into the sea floor, when the sea water falls back after fluctuating, the fluctuating stress barrel 24 is driven to descend, the fluctuating stress barrel 24 pulls the stress chain 10 downwards, the chain winding and unwinding wheel 23 wound with the stress chain 10 rotates anticlockwise as shown in figure 2, so that the stretching spring 26 wound on the chain winding and unwinding wheel 23 is stretched, the stress chain 10 drives the stress chain gear 14 to rotate anticlockwise, the clockwise top gear and the stress chain gear 14 rotate simultaneously, the clockwise top gear 17 is clamped on the clockwise top gear, the clockwise top gear drives the clockwork box 13 to rotate together, when the clockwork box 13 rotates to a certain degree, the outermost layer of the volute spring presses a pressing rod downwards, under the action of a third pin shaft, the other end of the clockwise top gear 17 is separated from the clockwise top gear, the clockwork box 13 is not influenced by the stress chain 10 any more, and the clockwork box 13 is prevented from being damaged due to overlarge stress. The vortex spring releases the previous force through the power shaft, namely the power shaft rotates, and simultaneously the balance rotating speed pendulum gear fixed on the outer side of the middle of the power shaft rotates, the balance rotating speed pendulum gear only can rotate at a constant speed due to the action of the upper clamping tooth and the lower clamping tooth of the balance rotating speed pendulum 12, so that the power wheel 11 at the other end of the power shaft is driven to rotate at a constant speed, and the power wheel 11 drives the generator 19 to rotate through a belt and generate electricity.

When the releasing force of the vortex spring reaches a certain degree, namely the releasing force is smaller than the torsion of the limiting spring on the third pin shaft, the other end of the clockwise rotation top tooth clamp 17 is downward under the action of the torsion of the limiting spring and is meshed with the clockwise rotation top tooth again.

When the seawater fluctuates and upwells, the fluctuation stress barrel 24 rises, and the tension spring 26 contracts due to no pull-down action of the fluctuation stress barrel 24, so that the stress chain gear 14 rotates clockwise, and the stress chain 10 is wound on the stress chain gear 14 again.

Claims

1. A seawater fluctuation physical stress balance power generation device is characterized by comprising an inclined opening guide iron barrel (4), wherein an inclined opening is formed in the lower end of the inclined opening guide iron barrel (4), a stress machine support (15) is fixed to the upper end of the inclined opening guide iron barrel (4), a fixed general shaft (16) and a power generator (19) are fixed to the stress machine support (15), a power shaft is sleeved on the fixed general shaft (16), one end of the power shaft is fixedly connected with a power wheel (11), the power wheel (11) is connected with the power generator (19) through a belt, the other end of the power shaft penetrates through an intermediate plate (25) and then is arranged in a clockwork spring box (13), the intermediate plate (25) is fixed to the stress machine support (15), a balance rotating speed pendulum gear is arranged on the outer side in the middle of the power shaft, a balance rotating speed pendulum (12) capable of swinging left and right is arranged on one side of the balance rotating speed pendulum gear, two clamping teeth are arranged at the upper end of the balance rotating, when the balance rotating speed pendulum bob (12) swings randomly, only one latch tooth is meshed with the balance rotating speed pendulum bob gear, the middle of the two latch teeth swings around a first pin shaft which is fixed on one side of a middle plate (25), a steel plate spring fixing column (22) is fixed on the inner wall of a spring box (13), a vortex spring is arranged in the spring box (13), one end of the vortex spring is fixed on the other end of a power shaft, the other end of the vortex spring is fixed on the steel plate spring fixing column (22), an outer gear is arranged on the outer circumference of the spring box (13), a spring box jacking clamp (18) for preventing the spring box (13) from reversely rotating is arranged on the outer side of the outer gear, a transversely arranged pressing rod is arranged below the outermost layer of the vortex spring, one end of the pressing rod penetrates through the shell of the spring box (13) and is connected with one end of a clockwise rotation jacking clamp (17), a third pin shaft is arranged in the middle of the clockwise rotation jacking clamp (17), the third pin shaft is fixedly connected with the right side of the clockwork box (13), the other end of the clockwise rotating jacking tooth clamp (17) is connected with the clockwise jacking gear in a clamping manner, one side of the clockwise jacking gear is fixedly connected with a stressed chain gear (14), the clockwise jacking gear and the stressed chain gear (14) are both sleeved on the fixed general shaft (16), a stressed chain (10) is wound on the stressed chain gear (14), one end of the stressed chain (10) is wound on a chain winding and unwinding wheel (23) for fixation, the chain winding and unwinding wheel (23) is fixedly connected with one end of an extension spring (26), the winding direction of the extension spring (26) on the chain winding and unwinding wheel (23) is opposite to the winding direction of the stressed chain (10), the other end of the extension spring (26) is fixed on a stressed machine support (15), the other end of the stressed chain (10) is connected with the top of a fluctuation stressed barrel (24), the fluctuation stressed barrel (24) is arranged in the bevel guide iron barrel (4), the top end of the fluctuation stress barrel (24) is sealed, the fluctuation stress barrel (24) comprises a hollow buoyancy part (6) at the upper part and a water injection stress part (5) at the lower part, an exhaust pipe (7) which penetrates through the hollow buoyancy part (6) and is communicated with the water injection stress part (5) is arranged on the fluctuation stress barrel (24), an exhaust pipe air cap (9) is arranged at the top of the exhaust pipe (7), a ventilation opening is arranged at the upper end of the bevel guide iron barrel (4), the bevel guide iron barrel (4) is fixedly connected with the fixed pipe column (2), an iron plate flat foot (1) is arranged at the bottom of the fixed pipe column (2), and the lower end of the fixed pipe column (2) penetrates through the iron plate flat foot (1; the lower end of the bevel guide iron barrel (4) is arranged in seawater, and the upper end of the bevel guide iron barrel (4) is positioned above the sea surface; air is arranged in the hollow buoyancy part (6), and seawater communicated with the bevel opening guide iron barrel (4) is arranged in the water injection stress part (5); the inner wall of the bevel guide iron barrel (4) is provided with a guide rail single sheet (3), the guide rail single sheet (3) is provided with a guide double sheet (8) capable of freely sliding up and down, and the guide double sheet (8) is fixed on the outer wall of the fluctuation stress barrel (24).

2. The seawater fluctuation physical stress balance power generation equipment as claimed in claim 1, wherein the inner wall of the beveled guide iron barrel (4) is provided with at least two guide rail single sheets (3), and each guide rail single sheet (3) is provided with at least two guide double sheets (8).

3. A seawater fluctuation physical stress balance power generation device as claimed in claim 1, wherein the other side of the middle plate (25) is fixed with a second pin shaft, the second pin shaft is connected with one end of the spring box non-return top clip (18), and the external gear is clamped with one end of the spring box non-return top clip (18) which prevents the spring box (13) from reversely rotating.

4. A seawater fluctuation physical stress balance power generation facility as claimed in claim 1 or 3, wherein the direction of the wind spring box backstop top clip (18) preventing the wind spring box (13) from reversely rotating is opposite to the direction of the clockwise rotation top tooth clip (17) preventing the clockwise rotation top gear from reversely rotating.

5. The seawater fluctuation physical stress balance power generation equipment as claimed in claim 1 or 3, wherein limiting springs are arranged between the spring box backstop jacking clamp (18) and the second pin shaft and between the clockwise rotation jacking tooth clamp (17) and the third pin shaft.