CN104373287A - Reciprocating type buoyancy push crankshaft power generation device - Google Patents

Abstract

Provided is a reciprocating type buoyancy push crankshaft power generation device. Liquid is injected into a buoyancy pool, horizontal tracks are arranged on the two sides inside the buoyancy pool, and sliding gear racks are installed in the groove-shaped horizontal tracks. The top ends of center shafts at the two ends of an annular turner are arranged in the horizontal tracks in a magnetic levitation mode, and the center shafts are provided with center shaft gears meshed with the sliding gear racks. Groove-shaped turner sliding ways are formed in the annular turner, the left side and the right side of a magnetic levitation lifter are arranged in the turner sliding ways in a magnetic levitation mode, and ejection rods at the top end and the lower end of the magnetic levitation lifer penetrate through automatic locking pins in a sliding mode and are connected with crankshafts in a transmission mode. The crankshafts drive a power generator. The sliding gear racks are connected with a power input device in a transmission mode through power input gears and a transmission mechanism. The reciprocating type buoyancy push crankshaft power generation device has the advantages that the permanent magnet levitation technology and buoyancy potential energy of liquid are fully utilized, and the whole set of annular turning and lifting device is used for converting brook energy, tide energy and energy of waste water discharged by factories for generating power. The reciprocating type buoyancy push crankshaft power generation device is simple in structure, easy and convenient to operate, small in investment and low in operating cost.

Description

Reciprocating buoyancy promotes bent axle electricity generating device

Technical field

A kind of structure of specific design of the present invention is simple, stable, buoyancy potential energy reaches efficiency power generation energy conversion device by mechanical switch can be made full use of, utilize for natural energy (wastewater energy as streams, tidal energy and plant emissions).

Background technique

The current energy is the most basic driving force of All Around The World development, is the basis that the mankind depend on for existence.Energy crisis, the survival and development that threaten the mankind that the problems such as pollution are serious, all adverse consequencess brought are the fermentation of each corner in the world.Development that the energy of current solar energy, wind energy, firepower, water conservancy, nuclear energy, tidal energy is the mankind provides and ensures; but the problems such as investment is large, energy conversion efficiency is low and operating cost is high, pollution that this kind of energy has; in this case; how research improves the utilization ratio of the energy, solves energy crisis and carves just very urgent.

Summary of the invention

The invention discloses a kind of structure simple, easy and simple to handle, little investment, the reciprocating buoyancy that operating cost is low and energy conversion efficiency is high promotes bent axle electricity generating device.

Technological scheme of the present invention is: a kind of reciprocating buoyancy promotes bent axle electricity generating device, it is characterized in that: comprise buoyancy pool, annular invertor, power input device, power input gear, slide tooth bar, invertor slideway, horizontal rail, magnetic suspension lifting device, bent axle and generator, liquid is injected in described buoyancy pool, both sides in buoyancy pool respectively arrange horizontal rail, install the slide tooth bar that can slide along track in the horizontal rail of groove type; The top of the central shaft at the two ends of annular invertor is rotatably supported in horizontal rail by magnetic suspension bearing, and this central shaft is equipped with the central shaft gear engaged with this slide tooth bar; The invertor slideway of groove type is provided with in the annular frame of annular invertor, the left and right sides of magnetic suspension lifting device is suspended in invertor slideway by a magnetic levitation system, a push rod is respectively connected at the upper and lower end of this magnetic suspension lifting device, this push rod slides through the automatic lock pin be located on annular frame, and is connected with transmission of crankshaft; One end of bent axle is connected with generator drive gear; Described slide tooth bar is equipped with power input gear, and this power input gear is in transmission connection by driving mechanism and power input device; Described magnetic suspension lifting device is airtight cylinder-like structure; One group of power input device is shared by slideway rack drives many groups annular invertor in same described horizontal rail; Described slide tooth bar is arranged in the U-shaped guide rail below in described horizontal rail by the guide wheel of both sides and bottom.

Described magnetic levitation system is made up of static magnet and moving magnet, static magnet is fixed on two relative inner of the groove of invertor slideway, moving magnet is located at the left and right sides of magnetic suspension lifting device, and between static magnet, static magnet and moving magnet corresponding surface magnetic are repelled each other; In the left and right sides of magnetic suspension lifting device, positioning wheel is housed.

Described automatic lock pin is made up of electromagnetic coil and lock pin bar, and lock pin bar slides and is located in the skeleton of electromagnetic coil axis; Described push rod is provided with the lockhole of answering with lock pin pole pair.

Described push rod top is connected with described transmission of crankshaft by fork pawl, and this fork pawl is U-shaped, pitches the hinged with push rod of pawl, between fork pawl, be provided with extension spring; Spacing spring is provided with at the root of push rod.

Described magnetic suspension bearing is made up of cartridge housing, bearing static magnet and bearing moving magnet, inner peripheral surface in the cartridge housing of cylindrical shape arranges bearing static magnet, be provided with bearing moving magnet at the outer circumferential face of described central shaft, the magnetic of bearing static magnet and bearing moving magnet is repelled each other.

Driving mechanism between described power input gear and power input device is chain drive, and be made up of drive sprocket, chain and driven sprocket, driven sprocket is coaxially connected with power input gear, and drive sprocket is supported on above described buoyancy pool.

Described power input device comprises driving plate, link arm and Returnning spring, and the two ends of link arm are connected with described drive sprocket and driving plate respectively, Returnning spring be connected to link arm and buoyancy pool above between.

Described power input device comprises powered support, lever, magnetic suspension coaster, sebific duct, counterweight tooth bar and drives speed change gear, the bottom of powered support is connected to above described buoyancy pool, counterweight tooth bar slides and is longitudinally arranged in the chute on one side of powered support, drive speed change gear to be coaxially connected with described drive sprocket, and be meshed with counterweight tooth bar; The fulcrum of lever is connected to the top of powered support, one end of lever and the top of counterweight tooth bar hinged; Lever is slidably installed magnetic suspension coaster, is provided with level cavity, in level cavity, is provided with sebific duct in lever, injects a semiliquid in this sebific duct.

Described magnetic suspension coaster comprises shell, counterweight, coaster static magnet and coaster moving magnet, frame is provided with the rectangular case of reducing below being, top in frame is provided with counterweight, below below counterweight and in frame, coaster moving magnet is respectively housed, is provided with and the coaster static magnet that repel each other corresponding with this coaster moving magnet in the above and below of described lever; Positioning roller is equipped with in both sides in frame; Counterweight is liquid or solid.

Helium is injected in described magnetic suspension lifting device.

Advantage of the present invention is: make full use of permanent magnetic suspension technology and liquid buoyancy potential energy, by the wastewater energy of the annular turnover elevating appts of a complete set to streams, tidal energy and plant emissions be converted to there is enormous impact power mechanical energy energy for generating, there is structure simple, easy and simple to handle, little investment, the feature that operating cost is low and energy conversion efficiency is high.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention;

Fig. 2 is A direction view in Fig. 1 (structural representation that invertor and track combine);

Fig. 3 is the B-B sectional view (structural representation of longitudinal flux suspension guide) of Fig. 2;

Fig. 4 is the many groups of structural representations combinationally used of the present invention;

Fig. 5 is the structural representation of Power output bent axle of the present invention;

Fig. 6 is the cross section structure schematic diagram of slide tooth bar of the present invention wheel and U-shaped slide rail;

Fig. 7 is the C-C sectional view of Fig. 6;

Fig. 8 is the structural representation of magnetic suspension lifting device of the present invention;

Fig. 9 is the structural representation of another power input device of the present invention;

Figure 10 is the D-D sectional view (structural drawing of magnetic suspension coaster) of Fig. 9.

Mark in figure: 1-buoyancy pool, 2-horizontal rail, 3-annular invertor, 4-magnetic suspension lifting device, 5-central shaft, 6-magnetic suspension bearing, 7-central shaft gear, 8-slide tooth bar, 9-U-shaped slide rail, 10-power input gear, 11-chain, 12-drive sprocket, 13-bent axle, 14-fork pawl, 141-extension spring, 15-push rod, 16-lock pin automatically, 17-invertor slideway, 171-static magnet, 18-moving magnet, 19-bearing moving magnet, 20-bearing static magnet, 21-positioning wheel, 22-variable-speed motor, 23-wheel disc, 24-generator, 25-bearing, 26-coupling, 27-manipulation case, 28-spacing spring, 29-lever, 30-magnetic suspension coaster, 31-sebific duct, 32-counterweight tooth bar, 33-speed change gear, 34-coaster static magnet, 35-coaster moving magnet, 36-positioning roller, 37-chute, 39-counterweight, 40-guide wheel, 41-driving plate, 42-link arm, 43-Returnning spring, 44-powered support.

Embodiment

As shown in Fig. 1-Figure 10, a kind of reciprocating buoyancy of the present invention promotes bent axle electricity generating device, comprise buoyancy pool 1, annular invertor 3, power input device P, power input gear 10, slide tooth bar 8, invertor slideway 17, horizontal rail 2, magnetic suspension lifting device 4, bent axle 13 and generator 24, liquid is injected in buoyancy pool 1, both sides in buoyancy pool 1 respectively arrange horizontal rail 2, install the slide tooth bar 8 that can slide along track in the horizontal rail 2 of groove type.The top of the central shaft 5 at the two ends of annular invertor 3 is rotatably supported in horizontal rail 2 by magnetic suspension bearing 6, and this central shaft 5 is equipped with the central shaft gear 7 engaged with this slide tooth bar 8.The invertor slideway 17 of groove type is provided with in the annular frame of annular invertor 3, the left and right sides of magnetic suspension lifting device 4 is suspended in invertor slideway 17 by a magnetic levitation system, a push rod 15 is respectively connected at the upper and lower end of this magnetic suspension lifting device 4, this push rod 15 slides through the automatic lock pin 16 be located on annular frame, and is in transmission connection with bent axle 13.One end (or two ends) of bent axle 13 is coaxially connected with generator 24 or is in transmission connection.Described slide tooth bar 8 is equipped with the power input gear 10 be engaged with, and this power input gear 10 is connected with power input device transmission P by driving mechanism.Described magnetic suspension lifting device 4 is airtight cylinder-like structure, and two ends can be bullet shape or other shapes.

See Fig. 2 and Fig. 3, described magnetic levitation system is made up of static magnet 171 and moving magnet 18, static magnet 171 is fixed on two relative inner of (V-arrangement) groove of invertor slideway 17, moving magnet 18 is located at the left and right sides of magnetic suspension lifting device 4, and between the static magnet 171 of both sides, static magnet 171 and moving magnet 18 corresponding surface magnetic are repelled each other; In the left and right sides of magnetic suspension lifting device 4, positioning wheel 21 is housed.Magnetic levitation system can reduce noise when magnetic suspension lifting device 4 is elevated and surface friction drag, also can adopt the method for complete wheeled slip as required.

Described automatic lock pin 16 is made up of electromagnetic coil and lock pin bar, and the slip of lock pin bar is located at the skeleton interior (electromagnet structure) of electromagnetic coil axis; Described push rod 15 is provided with the lockhole of answering with lock pin pole pair.Automatic lock pin 16 coordinates with magnetic suspension lifting device 4 push rod to be changed for controlling magnetic suspension lifting device 4 integral elevating.Described lock pin 16 adopts magnetic quantity transducer localization method to open and close.

See Fig. 8, the top of described push rod 15 is in transmission connection with described bent axle 13 by fork pawl 14, and this fork pawl 14 is U-shaped, hinged with push rod 15, between fork pawl 14 liang fork, be provided with extension spring 141; Be provided with axle at the root of push rod 15 to crouch and spacing spring 28, movable for limiting push rod 15.

Described magnetic suspension bearing 6 is made up of cartridge housing, bearing static magnet 20 and bearing moving magnet 19, inner peripheral surface in the cartridge housing of cylindrical shape arranges bearing static magnet 20, be provided with bearing moving magnet 19 at the outer circumferential face of described central shaft, bearing static magnet 20 repels each other with the opposing side magnetic of bearing moving magnet 19.

Driving mechanism between described power input gear 10 and power input device P is that chain drive (is generally Multi-stage transmission, also gear train can be adopted), be made up of drive sprocket 12, chain 11 and driven sprocket, driven sprocket is coaxially connected with power input gear 10, and drive sprocket 12 is supported on above described buoyancy pool 1 (see Fig. 1).

One of embodiment of described power input device: comprise driving plate 41, link arm 42 and Returnning spring 43, the two ends of link arm 42 are connected with described drive sprocket and driving plate 41 respectively, Returnning spring 43 be connected to link arm 42 and buoyancy pool above between (see Fig. 1).

Described power input device embodiment two see Fig. 9 and Figure 10, comprise powered support 44, lever 29, magnetic suspension coaster 30, sebific duct 31, counterweight tooth bar 32 and drive speed change gear 33, the bottom of the powered support 44 of U-shaped is connected to above described buoyancy pool, counterweight tooth bar 32 slides and is longitudinally arranged in the chute 37 on one side of powered support 44, drive speed change gear 3 to be coaxially connected with described drive sprocket, and be meshed with counterweight tooth bar 32; The fulcrum of lever 29 is connected to the top of powered support 44 another side, one end of lever 29 and the top of counterweight tooth bar 32 hinged; Lever 29 is slidably installed magnetic suspension coaster 30, in lever 29, be provided with level cavity, is provided with sebific duct 31 in level cavity, in this sebific duct 31, inject a semiliquid.Lever 29 is arc line shaped or lineal shape.

Described magnetic suspension coaster 30 comprises shell, counterweight 39, coaster static magnet 34 and coaster moving magnet 35, frame is provided with the rectangular case of reducing below being, top in frame is provided with counterweight 39, below below counterweight 39 and in frame, coaster moving magnet 35 is respectively housed, is provided with and the coaster static magnet 34 that repel each other corresponding with this coaster moving magnet 35 in the above and below of described lever 29; Positioning roller 36 is equipped with in both sides in frame; Counterweight 39 is liquid or solid.

See Fig. 6 and Fig. 7, described slide tooth bar 8 is arranged in the U-shaped guide rail 9 below in described horizontal rail 2, for sliding stability and reduction friction by the guide wheel 40 of both sides and bottom.

See Fig. 4 and Fig. 5, share one group of power input device P in same described horizontal rail 2 and drive the annular invertor 3(of many groups to comprise relevant parts such as magnetic suspension lifting device 4 grade) do work simultaneously.Adopt bearing 25 and shaft joint 26 to be connected by many suites axle 13 and form the staggered acting of one main shaft on the same axis, continue to rotate, form power generation system by variable-speed motor 22, wheel disc 23, generator 24.

Lever 29 is driven to move up and down by one group or two groups of coasters 30 automatic displacement on the track of lever 29, make liquid in sebific duct 31 constantly flow and change direction simultaneously, the weight of quick increase lever 29 one end, make its fast lifting, connecting counterweight tooth bar 32 in one end of lever 29 adopts Magnetic suspension form spacing in fixing chute 37, drive speed change gear 33 to rotate, then drive the power input gear 10 in buoyancy pool 1 to complete power input by chain drive.

The present invention operationally, liquid is injected in buoyancy pool 1, because the magnetic suspension lifting device 4 in annular invertor 3 is cavity (inside can be filled with light gas), in buoyancy pool 1 liquid (as water) buoyancy effect under, the magnetic suspension lifting device 4 of state of rest is positioned at the top (water surface), and push rod 15 is locked by automatic lock pin 16; When the current in the external world or tide generating forces act on above the driving plate 41 of power input device P off and on (such as utilize and stop off and on and discharge above water impact driving plate 41), link arm 42 is driven to swing up and down, drive drive sprocket 12 reciprocating rotation several angle, drive slide tooth bar 8 synchronous reciprocating ground straight line motion by driving mechanism and power input gear 10, slide tooth bar 8 drives annular invertor 3 reciprocating rotation half cycle (this requirement of distance compound slide tooth bar 8 being moved by the velocity ratio controlling driving mechanism); At first, after annular invertor 3 rotates 180 degree under slide tooth bar 8 drives, when magnetic suspension lifting device 4 turns to bottom, automatic lock pin 16 is opened automatically, and the push rod 15 on magnetic suspension lifting device 4 pitches that pawl 14 is up encircles the several angle and the rod journal promoting bent axle 13 moves upward; After magnetic suspension lifting device 4 fault offset, fork pawl 14 departs from bent axle 13, and lock pin 16 is closed automatically, with above-mentioned method, when annular invertor 3 drives magnetic suspension lifting device 4 back and forth to carry out the rotation of 180 degree, makes fork pawl 14 continue to promote bent axle 13 and rotates.This pattern can be set up in parallel many groups and be cross-linked on the same axis, namely forms lasting, stable outputting power (with the similar of multi-cylinder engine).

The upset of annular invertor 3 of the present invention and automatic lock pin 16 control to adopt position transducer and single-chip microcomputer or PLC to carry out controlling (belonging to routine techniques).Press enable switch can bring into operation, overall operation is by operation bench 27 intelligentized control method.

Feature of the present invention is, drive the annular invertor 3(of many groups to comprise relevant parts such as magnetic suspension lifting device 4 grade by sharing one group of power input device P in horizontal rail 2) simultaneously driving crank 13 to do work generating (identical with bent shaft design with the multi-cylinder of internal-combustion engine), magnetic suspension lifting device 4 turns to lower dead center (minimum point) on annular invertor 3, accumulate buoyancy potential energy gradually, and arrive after bottom dead center, release opened by automatic lock pin 16, magnetic suspension lifting device 4 sharply rises under the effect of buoyancy, produce enormous impact power upwards, drive the fork pawl 14 on push rod 15 top to rise and combine with the rod journal (now turning over lower dead center several years angle) of the bent axle 13 turning to corresponding position and promote the latter and upwards rotate the angle spent 90 more.Each magnetic suspension lifting device 4 acts on the rod journal of the bent axle 13 of different amount successively, realizes the continuous running of bent axle.This device is utilized to be utilizable electric power by scattered natural transformation of energy.And scattered natural energy (as current and factory sewage) can not continuous driving crank running generating.

Claims (10)

1. a reciprocating buoyancy promotes bent axle electricity generating device, it is characterized in that: comprise buoyancy pool, annular invertor, power input device, power input gear, slide tooth bar, invertor slideway, horizontal rail, magnetic suspension lifting device, bent axle and generator, liquid is injected in described buoyancy pool, both sides in buoyancy pool respectively arrange horizontal rail, install the slide tooth bar that can slide along track in the horizontal rail of groove type; The top of the central shaft at the two ends of annular invertor is rotatably supported in horizontal rail by magnetic suspension bearing, and this central shaft is equipped with the central shaft gear engaged with this slide tooth bar; The invertor slideway of groove type is provided with in the annular frame of annular invertor, the left and right sides of magnetic suspension lifting device is suspended in invertor slideway by a magnetic levitation system, a push rod is respectively connected at the upper and lower end of this magnetic suspension lifting device, this push rod slides through the automatic lock pin be located on annular frame, and is connected with transmission of crankshaft; One end of bent axle is connected with generator drive gear; Described slide tooth bar is equipped with power input gear, and this power input gear is in transmission connection by driving mechanism and power input device; Described magnetic suspension lifting device is airtight cylinder-like structure; One group of power input device is shared by slideway rack drives many groups annular invertor in same described horizontal rail; Described slide tooth bar is arranged in the U-shaped guide rail below in described horizontal rail by the guide wheel of both sides and bottom.

2. reciprocating buoyancy according to claim 1 promotes bent axle electricity generating device, it is characterized in that: described magnetic levitation system is made up of static magnet and moving magnet, static magnet is fixed on two relative inner of the groove of invertor slideway, moving magnet is located at the left and right sides of magnetic suspension lifting device, and between static magnet, static magnet and moving magnet corresponding surface magnetic are repelled each other; In the left and right sides of magnetic suspension lifting device, positioning wheel is housed.

3. reciprocating buoyancy according to claim 1 promotes bent axle electricity generating device, it is characterized in that: described automatic lock pin is made up of electromagnetic coil and lock pin bar, and lock pin bar slides and is located in the skeleton of electromagnetic coil axis; Described push rod is provided with the lockhole of answering with lock pin pole pair.

4. reciprocating buoyancy according to claim 1 promotes bent axle electricity generating device, it is characterized in that: described push rod top is connected with described transmission of crankshaft by fork pawl, and this fork pawl is U-shaped, pitches the hinged with push rod of pawl, between fork pawl, be provided with extension spring; Spacing spring is provided with at the root of push rod.

5. reciprocating buoyancy according to claim 1 promotes bent axle electricity generating device, it is characterized in that: described magnetic suspension bearing is made up of cartridge housing, bearing static magnet and bearing moving magnet, inner peripheral surface in the cartridge housing of cylindrical shape arranges bearing static magnet, be provided with bearing moving magnet at the outer circumferential face of described central shaft, the magnetic of bearing static magnet and bearing moving magnet is repelled each other.

6. reciprocating buoyancy according to claim 1 promotes bent axle electricity generating device, it is characterized in that: the driving mechanism between described power input gear and power input device is chain drive, be made up of drive sprocket, chain and driven sprocket, driven sprocket is coaxially connected with power input gear, and drive sprocket is supported on above described buoyancy pool.

7. reciprocating buoyancy according to claim 6 promotes bent axle electricity generating device, it is characterized in that: described power input device comprises driving plate, link arm and Returnning spring, the two ends of link arm are connected with described drive sprocket and driving plate respectively, Returnning spring be connected to link arm and buoyancy pool above between.

8. reciprocating buoyancy according to claim 6 promotes bent axle electricity generating device, it is characterized in that: described power input device comprises powered support, lever, magnetic suspension coaster, sebific duct, counterweight tooth bar and drives speed change gear, the bottom of powered support is connected to above described buoyancy pool, counterweight tooth bar slides and is longitudinally arranged in the chute on one side of powered support, drive speed change gear to be coaxially connected with described drive sprocket, and be meshed with counterweight tooth bar; The fulcrum of lever is connected to the top of powered support, one end of lever and the top of counterweight tooth bar hinged; Lever is slidably installed magnetic suspension coaster, is provided with level cavity, in level cavity, is provided with sebific duct in lever, injects a semiliquid in this sebific duct.

9. reciprocating buoyancy according to claim 8 promotes bent axle electricity generating device, it is characterized in that: described magnetic suspension coaster comprises shell, counterweight, coaster static magnet and coaster moving magnet, frame is provided with the rectangular case of reducing below being, top in frame is provided with counterweight, below below counterweight and in frame, coaster moving magnet is respectively housed, is provided with and the coaster static magnet that repel each other corresponding with this coaster moving magnet in the above and below of described lever; Positioning roller is equipped with in both sides in frame; Counterweight is liquid or solid.

10. reciprocating buoyancy according to claim 8 promotes bent axle electricity generating device, it is characterized in that: inject helium in described magnetic suspension lifting device.