CN106969120B - A kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system - Google Patents
A kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system Download PDFInfo
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- CN106969120B CN106969120B CN201710367031.4A CN201710367031A CN106969120B CN 106969120 B CN106969120 B CN 106969120B CN 201710367031 A CN201710367031 A CN 201710367031A CN 106969120 B CN106969120 B CN 106969120B
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- rope
- tumbler
- gear
- pendulum mass
- main shaft
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H37/00—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00
- F16H37/12—Gearings comprising primarily toothed or friction gearing, links or levers, and cams, or members of at least two of these types
- F16H37/122—Gearings comprising primarily toothed or friction gearing, links or levers, and cams, or members of at least two of these types for interconverting rotary motion and oscillating motion
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H2702/00—Combinations of two or more transmissions
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Abstract
A kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system.Though existing transmission system various structures lack the transmission mode that structure is simple, energy consumption is low and high transmission efficiency.Main shaft and terminal output shaft are set gradually on the support frame from top to bottom in the present invention, at least one first gear and at least one second gear are sleeved on main shaft, at least one flywheel and at least one lower gear are sleeved on terminal output shaft, flywheel is engaged with the first gear one-to-one correspondence, lower gear is engaged with the second gear one-to-one correspondence, the bottom of tumbler pendulum mass and main shaft are affixed, the top of tumbler pendulum mass is connected by rope with two ropes with driving pulley assembly, motor is connected with any rope with driving pulley assembly, tumbler pendulum mass is being moved back and forth in two ropes between frame body under the dropping of rope;Transmission system be different from wig-wag feature be include N root rope, N number of tumbler pendulum mass and 2N rope driving pulley assembly.
Description
Technical field
Present invention relates particularly to a kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission systems.
Background technique
Existing transmission system is generally by clutch, transmission, universal driving device, main reducing gear, differential mechanism and semiaxis
Composition.The combination multiplicity of transmission system, but transmission efficiency and transmission principle are different, and structure is relative complex and most transmission efficiency
Lowly, it consumes energy in transmission process big, directly affects transmission efficiency.Lack the transmission that structure is simple, energy consumption is low and high transmission efficiency
Mode.Such as during gear drive, although it has the peripheral speed that uses and power bracket is wide, transmission ratio is stable and work
Make high reliablity, can be realized and be driven between parallel axes, random angle concurrent aces and random angle alternating axis.But its more demanding system
It makes and installation accuracy, higher cost, while being also not suitable for being driven between remote two axis.
Summary of the invention
Though lacking that structure is simple, energy consumption is low and passes the invention aims to solve existing transmission system various structures
The high transmission mode of efficiency of movement, and then propose a kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system.
The technical solution adopted by the present invention to solve the above technical problem is:
A kind of pendulum thick stick kinetic energy equipment, including tumbler pendulum mass, main shaft, support frame, rope, motor, transmission assembly, two ropes
Rope driving pulley assembly and two rope frame bodies;
Support frame as described above and two ropes are set side by side between frame body, and two ropes are located at support frame with frame body
Two sides, each rope is with being correspondingly arranged on a rope driving pulley assembly on frame body;
The transmission assembly includes terminal output shaft, at least one flywheel, at least one lower gear, at least one is on first
Gear and at least one second gear, the main shaft and terminal output shaft are set gradually on the support frame from top to bottom, main shaft
Both ends be rotatably assorted respectively with support frame, the both ends of terminal output shaft are rotatably assorted with support frame respectively, at least one first
Gear and at least one second gear are sleeved on main shaft, at least one flywheel and at least one lower gear are sleeved on
On terminal output shaft, flywheel is engaged with the first gear one-to-one correspondence, and lower gear is engaged with the second gear one-to-one correspondence, is not fallen
The bottom of father-in-law's pendulum mass is fixedly connected with main shaft, and the top of tumbler pendulum mass is connected by rope with two ropes with driving pulley assembly
It connects, motor is connected with two ropes with any one rope in driving pulley assembly with driving pulley assembly, and tumbler pendulum mass is being restricted
It is moved back and forth in two ropes between frame body under the dropping of rope.
A kind of pendulum thick stick kinetic energy transmission system, including N number of main shaft, support frame, motor, transmission assembly, two rope frame bodies,
N root rope, N number of tumbler pendulum mass and 2N rope driving pulley assembly;
Support frame as described above and two ropes are set side by side between frame body, and two ropes are located at support frame with frame body
Two sides, each rope is with being set side by side with N number of rope driving pulley assembly on frame body;
The transmission assembly includes terminal output shaft, at least one flywheel, at least one lower gear, at least one is on first
Gear and at least one second gear, the center line of N number of main shaft are located at same straight line, main shaft be located at terminal output shaft it
On, main shaft and terminal output shaft are respectively provided on the support frame, and the both ends of main shaft are rotatably assorted with support frame respectively, terminal output shaft
Both ends be rotatably assorted respectively with support frame, at least one first gear and at least one second gear are sleeved on main shaft
On, at least one flywheel and at least one lower gear are sleeved on terminal output shaft, and flywheel and the first gear correspond
Engagement, lower gear are engaged with the second gear one-to-one correspondence;
N number of tumbler pendulum mass is set gradually along the length direction of main shaft, and tumbler pendulum mass (1) and main shaft (2) correspond,
The bottom of tumbler pendulum mass is fixedly connected with main shaft, and each tumbler pendulum mass is correspondingly arranged there are two rope driving pulley assembly,
Each tumbler pendulum mass is correspondingly arranged on a rope, and each tumbler pendulum mass is passed by its corresponding rope and two ropes
Drive wheel assemblies are connected, and each tumbler pendulum mass is by its corresponding rope in two ropes with making reciprocal beat between frame body
Movement, motor are connected with 2N rope with driving pulley assembly.
The present invention compared with prior art the utility model has the advantages that
One, two scenario-frames of the invention are simple and reasonable, transmit the process of energy simply and energy consumption is low.In scheme one
Pass through tumbler pendulum mass, main shaft, support frame, rope, motor, transmission assembly, two rope driving pulley assemblies and two ropes
It can be ensured to reach higher transmission efficiency with the mutual cooperation between frame body.In scheme two by main shaft, support frame, motor,
It is mutual between transmission assembly, two rope frame bodies, N root rope, N number of tumbler pendulum mass and 2N rope driving pulley assembly
Cooperation can ensure to reach higher transmission efficiency.
Two, the tumbler pendulum mass in the present invention is that a center of gravity is very low, bottom is arc-shaped structure when tumbler pendulum mass
When static, line of gravity is just overlapped with supporting-point and when tumbler pendulum mass swings to a rope frame body, with fulcrum
Variation, center of gravity is biased to the other side and promotes tumbler to be swung to a rope with frame body to generate the torque to the other side.
Rope also functions to the effect for effectively guiding and pulling, and is passed by the torque that tumbler pendulum mass drives main shaft to generate eventually by flywheel
Pass terminal output shaft.
Three, energy-saving and emission-reduction of the present invention, the low and transmission efficiency that consumes energy is high, is suitable for promoting the use of, saves manpower, be suitable for wide people
Dilute and open job site area uses.
Four, tumbler pendulum mass is swung back and forth using center of gravity and gravity in the present invention, and using the contact point with main shaft as " thick stick
The fulcrum of bar ", tumbler pendulum mass is long, major axis diameter is short." pendulum " and " thick stick " of the invention combination can input defeated while low-force
Biggish torsion out.
Detailed description of the invention
Fig. 1 is schematic view of the front view of the invention, the position that expression tumbler pendulum mass 1 is not swung at A in figure, B
Place indicates the extreme position of 1 beat of tumbler pendulum mass;
Fig. 2 is the schematic view of the front view of tumbler pendulum mass 1;
Fig. 3 be tumbler pendulum mass 1 in scheme one, main shaft 2, between support frame 3 and transmission assembly connection relationship three-dimensional knot
Structure schematic diagram;
Fig. 4 be tumbler pendulum mass 1 in scheme two, main shaft 2, between support frame 3 and transmission assembly connection relationship three-dimensional knot
Structure schematic diagram;
Fig. 5 is the stereochemical structure signal of connection relationship between motor 6, rope driving pulley assembly 5 and rope frame body 7
Figure.
Specific embodiment
Specific embodiment 1: illustrating present embodiment, present embodiment tumbler pendulum in conjunction with Fig. 1, Fig. 2, Fig. 3 and Fig. 5
Body 1, main shaft 2, support frame 3, rope 4, motor 6, transmission assembly, two ropes driving pulley assembly 5 and two rope frame bodies
7;
Support frame as described above 3 and two ropes are set side by side between frame body 7, and two rope frame bodies 7 are located at support
The two sides of frame 3, each rope is with being correspondingly arranged on a rope driving pulley assembly 5 on frame body 7;
The transmission assembly include terminal output shaft 10, at least one flywheel 9, at least one lower gear 12, at least one
First gear 13 and at least one second gear 14, the main shaft 2 and terminal output shaft 10 are successively set on from top to bottom
On support frame 3, the both ends of main shaft 2 are rotatably assorted with support frame 3 respectively, the both ends of terminal output shaft 10 respectively with 3 turns of support frame
Dynamic cooperation, at least one the first gear 13 and at least one second gear 14 are sleeved on main shaft 2, at least one flywheel
9 are sleeved on terminal output shaft 10 at least one lower gear 12, and flywheel 9 is engaged with the first gear 13 one-to-one correspondence, under
Gear 12 is engaged with the second gear 14 one-to-one correspondence, and the bottom of tumbler pendulum mass 1 is fixedly connected with main shaft 2, tumbler pendulum mass 1
Top be connected with two rope driving pulley assemblies 5 by rope 4, motor 6 and two ropes are in driving pulley assembly 5
Rope driving pulley assembly 5 of anticipating is connected, tumbler pendulum mass 1 under the dropping of rope 4 in two ropes between frame body 7
It moves back and forth.
Tumbler pendulum mass lower half portion is hemispherical in present embodiment figure, and top half is cone.Tumbler pendulum mass
It can be with sheet.
Flywheel 9 is existing product in the present invention, and working principle is identical as the working principle of existing product, and flywheel 9 is set with
On main shaft 2.
Motor 6 is also connected with battery 16 and control cabinet 17 in the present invention.
The bottom of tumbler pendulum mass 1 is welded on main shaft 2 in the present invention.It is solid that the top of tumbler pendulum mass 1 is machined with rope
Determine hole 8, rope 4 passes through rope fastening hole 8, and the middle part fixation of rope 4 is locked at rope fastening hole 8.Tumbler pendulum mass 1 pinpoints
It is connected on rope 4, the position that tumbler pendulum mass 1 is fixed on rope 4 is motionless, top the dragging in rope 4 of tumbler pendulum mass 1
Drag lower movement.
Specific embodiment 2: embodiment is described with reference to Fig. 3, support frame 3 includes support base in present embodiment
3-1, intermediate supports column 3-2 and two edge columns 3-3, the support base 3-1 are horizontally disposed, and two edge column 3-3 are vertical
It is disposed in parallel on support base 3-1, intermediate supports column 3-2 is vertically arranged between two edge column 3-3, and intermediate supports are vertical
The bottom of column 3-2 is fixedly connected on support base 3-1, and the top of intermediate supports column 3-2 is matched with the outer wall sliding of main shaft 2
It closes, is successively machined with upper installing hole and lower mounting hole from top to bottom on each edge column 3-3, the both ends of main shaft 2 are each passed through two
A upper installing hole, the both ends of terminal output shaft 10 are each passed through two lower mounting holes.
The both ends of main shaft 2 are respectively set with bearing in present embodiment, and the both ends of main shaft 2 pass through two upper installations by bearing
Effectively connection is realized in hole.Similarly in the connection relationship of terminal output shaft 10 and two lower mounting holes.
The structure setting of support frame 3 is simple, by cooperating between intermediate supports column 3-2 and two edge column 3-3
The effect of bikini positioning support is played to main shaft 2, support effect is stable and lasting.Intermediate supports column 3-2 setting is not being fallen
The underface of father-in-law's pendulum mass 1 can play the effect of support tumbler pendulum mass 1 indirectly.Other unmentioned contents and specific implementation
Mode one is identical.
Specific embodiment 3: embodiment is described with reference to Fig. 3, lower gear 12 and the second gear in present embodiment
Accessory drive gear 15 is provided between 14, lower gear 12 is meshed by accessory drive gear 15 with the second gear 14.This
The effect of auxiliary transmission is played in the setting of accessory drive gear 15 in embodiment.Other unmentioned contents and specific embodiment party
Formula one or two is identical.
Specific embodiment 4: illustrating present embodiment, each rope transmission in present embodiment in conjunction with Fig. 1 and Fig. 5
Wheel assembly 5 include upper driving wheel 5-1, lower driving wheel 5-2, winch 5-3 and conveyer belt 5-4, the upper driving wheel 5-1 and under pass
Driving wheel 5-2 is successively set on from top to bottom in rope frame body 7, and transmission is provided between upper driving wheel 5-1 and lower driving wheel 5-2
Band 5-4, winch 5-3 and upper driving wheel 5-1 is coaxially connected, and winch 5-3 is connected with rope 4, two rope driving wheels
Any one lower driving wheel 5-2 is sleeved on the output shaft of motor 6 in component 5.
Rope frame body 7 is hollow frame body in present embodiment, and upper driving wheel 5-1 and lower driving wheel 5-2 are fixedly mounted on
The inside of rope frame body 7, the course of work and existing transmission between upper driving wheel 5-1, lower driving wheel 5-2 and conveyer belt 5-4
The course of work of part is identical.The power resources of each rope driving pulley assembly 5 are in motor 6.
Winch 5-3 and upper driving wheel 5-1 is coaxially disposed, and the setting of winch 5-3 is for winding rope 4.Other are not mentioned
And content be the same as the specific implementation mode 3.
Specific embodiment 5: embodiment is described with reference to Fig. 1, the top of each rope frame body 7 in present embodiment
Portion is machined with the booster type protrusion 11 being arranged towards tumbler pendulum mass 1.
The setting of booster type protrusion 11 can be realized effectively for cooperating the top of tumbler pendulum mass 1 in present embodiment
Tumbler pendulum mass 1 pushes away power-assisted effect extreme position, provides a movement tendency to tumbler pendulum mass 1 opposite dynamic
Power provides anti-power-assisted by way of principle, other principles or the spring auxiliary that homopolar magnet mutually repels for tumbler pendulum mass 1,
The top of tumbler pendulum mass 1 can effectively be flicked, it is ensured that 1 iterative motion of tumbler pendulum mass in the present invention.Booster type simultaneously
Protrusion 11 can also be equipped with buffer layer, provide protective effect to the top of tumbler pendulum mass 1, it is ensured that tumbler pendulum mass 1
Service life effective extension, reduce the abrasion loss that occurs in knockout process.Other unmentioned contents and specific embodiment party
Formula four is identical.
Specific embodiment 6: embodiment is described with reference to Fig. 1, one end of rope 4 is arranged two in present embodiment
A rope on a rope driving pulley assembly 5 in driving pulley assembly 5, put across tumbler by the other end of rope 4
The top of body 1 is connected with rope driving pulley assembly 5 described in another.Other unmentioned contents and specific embodiment
One, two or five is identical.
Specific embodiment 7: illustrating that present embodiment, present embodiment include N number of master in conjunction with Fig. 1, Fig. 2, Fig. 4 and Fig. 5
Axis 2, support frame 3, motor 6, transmission assembly, two rope frame bodies 7, N root rope 4, N number of tumbler pendulum mass 1 and 2N rope
With driving pulley assembly 5;
Support frame as described above 3 and two ropes are set side by side between frame body 7, and two rope frame bodies 7 are located at support
The two sides of frame 3, each rope is with being set side by side with N number of rope driving pulley assembly 5 on frame body 7;
The transmission assembly include terminal output shaft 10, at least one flywheel 9, at least one lower gear 12, at least one
First gear 13 and at least one second gear 14, the center line of N number of main shaft 2 are located at same straight line, and main shaft 2 is located at
On terminal output shaft 10, main shaft 2 and terminal output shaft 10 are arranged on support frame 3, the both ends of main shaft 2 respectively with support frame
3 are rotatably assorted, and the both ends of terminal output shaft 10 are rotatably assorted with support frame 3 respectively, at least one first gear 13 and at least
One the second gear 14 is sleeved on main shaft 2, and it is defeated that at least one flywheel 9 and at least one lower gear 12 are sleeved on terminal
On shaft 10, flywheel 9 is engaged with the first gear 13 one-to-one correspondence, and lower gear 12 is engaged with the second gear 14 one-to-one correspondence;
N number of tumbler pendulum mass 1 is set gradually along the length direction of main shaft 2, and tumbler pendulum mass 1 and main shaft 2 correspond, no
The bottom of the pendulum mass of falling father-in-law 1 is fixedly connected with main shaft 2, and each tumbler pendulum mass 1 is correspondingly arranged there are two rope driving pulley assembly
5, each tumbler pendulum mass 1 is correspondingly arranged on a rope 4, and each tumbler pendulum mass 1 passes through its corresponding rope 4 and two ropes
Rope driving pulley assembly 5 is connected, and each tumbler pendulum mass 1 is made between two rope frame bodies 7 by its corresponding rope 4
Reciprocal beat movement, motor 6 are connected with 2N rope driving pulley assembly 5 out.
There are many modes that motor 6 is connected with 2N rope driving pulley assembly 5 in the present invention, and motor 6 includes one
Motor monomer or multiple motors, when motor 6 includes multiple motor monomers, the opposite rope of every two is total with driving pulley assembly 5
With a motor monomer;When motor 6 includes a motor monomer, motor monomer is only with 2N rope in driving pulley assembly 5
Any one rope driving pulley assembly 5 be connected, in N number of rope driving pulley assembly 5 of the same rope on frame body 7
Between be connected by horizontal conveying belt, i.e. 2N rope with driving pulley assembly 5 share a motor monomer.Electricity in the present invention
Machine 6 is also connected with battery 16 and control cabinet 17.
The top of each tumbler pendulum mass 1 is machined with rope fastening hole 8 in the present invention, and each tumbler pendulum mass 1 is corresponding
Rope 4 passes through rope fastening hole 8, and the corresponding rope 4 of each tumbler pendulum mass 1 and the top of the tumbler pendulum mass 1 are mutually locked.
The fixed point of tumbler pendulum mass 1 is connected on rope 4, and the position that tumbler pendulum mass 1 is fixed on rope 4 is motionless, does not fall
The top of father-in-law's pendulum mass 1 moves under the dragging of rope 4.
The rope transmission of one end of rope 4 is arranged in two rope driving pulley assemblies 5 in the present invention one
On wheel assembly 5, the top that the other end of rope 4 passes through tumbler pendulum mass 1 is connected with rope driving pulley assembly 5 described in another
It connects.
Specific embodiment 8: embodiment is described with reference to Fig. 4, support frame 3 includes support base in present embodiment
3-1, N number of intermediate supports column 3-2 and two edge columns 3-3, the support base 3-1 are horizontally disposed, and two edge column 3-3 are perpendicular
Directly it is disposed in parallel on support base 3-1, N number of intermediate supports column 3-2 is disposed in parallel in vertically between two edge column 3-3,
Intermediate supports column 3-2 is arranged in a one-to-one correspondence with tumbler pendulum mass 1, and each intermediate supports column 3-2 is in its and corresponding does not fall
The bottom of the underface of father-in-law's pendulum mass 1, each intermediate supports column 3-2 is fixedly connected on support base 3-1, each intermediate supports
The top of column 3-2 and the outer wall of main shaft 2 are slidably matched, and are successively machined with upper installing hole from top to bottom on each edge column 3-3
With lower mounting hole, the both ends of main shaft 2 are each passed through two upper installing holes, and the both ends of terminal output shaft 10, which are each passed through under two, pacifies
Fill hole.
The both ends of main shaft 2 are respectively set with bearing in present embodiment, and the both ends of main shaft 2 pass through two upper installations by bearing
Effectively connection is realized in hole.Similarly in the connection relationship of terminal output shaft 10 and two lower mounting holes.
The structure setting of support frame 3 is simple, by cooperating between intermediate supports column 3-2 and two edge column 3-3
The effect of bikini positioning support is played to main shaft 2, support effect is stable and lasting.Intermediate supports column 3-2 setting is not being fallen
The underface of father-in-law's pendulum mass 1 can play the effect of support tumbler pendulum mass 1 indirectly.
Support frame 3 further includes at least one side column auxiliary support bar 3-4, side column auxiliary support bar 3-4 and intermediate branch
Support column 3-2 is disposed alternately between two edge column 3-3, side column auxiliary support bar 3-4 be in two tumbler pendulum masses 1 it
Between.Other unmentioned contents are identical as specific embodiment seven.
Specific embodiment 9: illustrating present embodiment, each rope transmission in present embodiment in conjunction with Fig. 1 and Fig. 5
Wheel assembly 5 include upper driving wheel 5-1, lower driving wheel 5-2, winch 5-3 and conveyer belt 5-4, the upper driving wheel 5-1 and under pass
Driving wheel 5-2 is successively set on from top to bottom in rope frame body 7, and transmission is provided between upper driving wheel 5-1 and lower driving wheel 5-2
Band 5-4, winch 5-3 and upper driving wheel 5-1 is coaxially connected, and winch 5-3 corresponding rope 4 is connected.
Rope frame body 7 is hollow frame body in present embodiment, and upper driving wheel 5-1 and lower driving wheel 5-2 are fixedly mounted on
The inside of rope frame body 7, the course of work and existing transmission between upper driving wheel 5-1, lower driving wheel 5-2 and conveyer belt 5-4
The course of work of part is identical.The power resources of each rope driving pulley assembly 5 are in motor 6.Lower driving wheel 5-2 is sleeved on motor
On 6 output shaft.
Winch 5-3 and upper driving wheel 5-1 is coaxially disposed, and the setting of winch 5-3 is for winding rope 4.Other are not mentioned
And content it is identical as specific embodiment seven or eight.
Specific embodiment 10: embodiment is described with reference to Fig. 1, the top of each rope frame body 7 in present embodiment
Portion is machined with the booster type protrusion 11 being arranged towards tumbler pendulum mass 1.
The setting of booster type protrusion 11 can be realized effectively for cooperating the top of tumbler pendulum mass 1 in present embodiment
Power-assisted effect is pushed away in extreme position to N number of tumbler pendulum mass 1, provide one it is opposite to the movement tendency of tumbler pendulum mass 1
Power, provided by way of principle, other principles or spring that homopolar magnet mutually repels auxiliary for each tumbler pendulum mass 1
Anti- power-assisted can effectively flick the top of tumbler pendulum mass 1, it is ensured that 1 iterative motion of tumbler pendulum mass in the present invention.Simultaneously
Booster type protrusion 11 can also be equipped with buffer layer, provide protective effect to the top of N number of tumbler pendulum mass 1, it is ensured that N number of
Effective extension of the service life of tumbler pendulum mass 1 reduces the abrasion loss occurred in knockout process.Other unmentioned contents with
Specific embodiment nine is identical.
The course of work:
The course of work of scheme one: starting motor 6 is connected to the motor the rope driving pulley assembly 5 connect with running rope
Rope frame body 7 where rope 4 towards the rope driving pulley assembly 5 is wound, the bottom and master due to tumbler pendulum mass 1
Axis 2 is fixedly connected, and rope 4 drives the top of tumbler pendulum mass 1 to carry out beat, so that tumbler pendulum mass 1 be made integrally to drive main shaft 2
It moves synchronously, when the top of tumbler pendulum mass 1 collides the top of rope frame body 7, motor 6 is inverted, because of tumbler pendulum mass 1
Own characteristic and motor 6 are driven reverse under the action of power, and the top of tumbler pendulum mass 1 is under the dragging of rope 4 towards another
A rope is moved with frame body 7, and motion process and the above process are similarly.Tumbler pendulum mass 1 moves the torque for generating it to main shaft 2
It is passed by transmission assembly, is used for other equipment.
The course of work of scheme two: the course of work and scheme one of scheme two similarly, are a difference in that N number of tumbler pendulum mass
1 is moved by corresponding 2 ropes with the independent beat that driving pulley assembly 5 is independent of each other, N number of tumbler pendulum mass 1
The torque for driving main shaft 2 to generate passes to other eventually by terminal output shaft 10 by the cooperation of each wheel body in transmission assembly
Equipment uses.
Claims (10)
1. a kind of pendulum thick stick kinetic energy equipment, it is characterised in that: including tumbler pendulum mass (1), main shaft (2), support frame (3), rope
(4), motor (6), transmission assembly, two ropes driving pulley assembly (5) and two rope frame bodies (7);
Support frame as described above (3) and two ropes are set side by side between frame body (7), and two ropes are located at branch with frame body (7)
The two sides of support (3), each rope is with being correspondingly arranged on a rope driving pulley assembly (5) on frame body (7);
The transmission assembly includes terminal output shaft (10), at least one flywheel (9), at least one lower gear (12), at least one
A first gear (13) and at least one second gear (14), the main shaft (2) and terminal output shaft (10) are from top to bottom
It is successively set on support frame (3), main shaft (2) is rotatably assorted with support frame (3), and terminal output shaft (10) and support frame (3) turn
Dynamic cooperation, at least one first gear (13) and at least one second gear (14) are sleeved on main shaft (2), and at least one
A flywheel (9) and at least one lower gear (12) are sleeved on terminal output shaft (10), flywheel (9) and the first gear (13)
Engagement is corresponded, lower gear (12) is corresponded with the second gear (14) and engaged, the bottom of tumbler pendulum mass (1) and main shaft
(2) it is fixedly connected, the top of tumbler pendulum mass (1) is connected by rope (4) with two ropes with driving pulley assembly (5), electricity
Machine (6) is connected with two ropes with any one rope in driving pulley assembly (5) with driving pulley assembly (5), tumbler pendulum mass
(1) it is being moved back and forth in two ropes between frame body (7) under the dropping of rope (4).
2. a kind of pendulum thick stick kinetic energy equipment according to claim 1, it is characterised in that: support frame (3) includes support base (3-
1), intermediate supports column (3-2) and two edge columns (3-3), the support base (3-1) is horizontally disposed, two edge column (3-
3) be disposed in parallel in vertically on support base (3-1), intermediate supports column (3-2) be vertically arranged in two edge columns (3-3) it
Between, the bottom of intermediate supports column (3-2) is fixedly connected on support base (3-1), the top of intermediate supports column (3-2) with
The outer wall of main shaft (2) is slidably matched, and is successively machined with upper installing hole and lower mounting hole from top to bottom on each edge column (3-3),
The both ends of main shaft (2) are each passed through two upper installing holes, and the both ends of terminal output shaft (10) are each passed through two lower mounting holes.
3. a kind of pendulum thick stick kinetic energy equipment according to claim 1 or 2, it is characterised in that: tooth on lower gear (12) and second
It is provided with accessory drive gear (15) between wheel (14), lower gear (12) passes through accessory drive gear (15) and the second gear
(14) it is meshed.
4. a kind of pendulum thick stick kinetic energy equipment according to claim 3, it is characterised in that: each rope is with driving pulley assembly (5)
Including upper driving wheel (5-1), lower driving wheel (5-2), winch (5-3) and conveyer belt (5-4), the upper driving wheel (5-1) and
Lower driving wheel (5-2) is successively set on from top to bottom in rope frame body (7), upper driving wheel (5-1) and lower driving wheel (5-2) it
Between be provided with conveyer belt (5-4), winch (5-3) and upper driving wheel (5-1) are coaxially connected, winch (5-3) and rope (4) phase
Connection, two ropes are sleeved on the output shaft of motor (6) with any one lower driving wheel (5-2) in driving pulley assembly (5).
5. a kind of pendulum thick stick kinetic energy equipment according to claim 4, it is characterised in that: the top of each rope frame body (7)
It is machined with raised (11) towards the booster type of tumbler pendulum mass (1) setting.
6. a kind of according to claim 1, pendulum thick stick kinetic energy equipment described in 2 or 5, it is characterised in that: one end setting of rope (4) exists
With on a rope driving pulley assembly (5) in driving pulley assembly (5), the other end of rope (4) passes through two ropes
The top of tumbler pendulum mass (1) is connected with rope described in another with driving pulley assembly (5).
7. a kind of pendulum thick stick kinetic energy transmission system, it is characterised in that: including N number of main shaft (2), support frame (3), motor (6), transmission group
Part, two ropes frame body (7), N root rope (4), N number of tumbler pendulum mass (1) and 2N rope driving pulley assembly (5);
Support frame as described above (3) and two ropes are set side by side between frame body (7), and two ropes are located at branch with frame body (7)
The two sides of support (3), each rope is with being set side by side with N number of rope driving pulley assembly (5) on frame body (7);
The transmission assembly includes terminal output shaft (10), at least one flywheel (9), at least one lower gear (12), at least one
The center line of a first gear (13) and at least one second gear (14), N number of main shaft (2) is located at same straight line,
Main shaft (2) is located on terminal output shaft (10), and main shaft (2) and terminal output shaft (10) are arranged on support frame (3), main shaft
(2) both ends are rotatably assorted with support frame (3) respectively, and the both ends of terminal output shaft (10) are rotatably assorted with support frame (3) respectively,
At least one first gear (13) and at least one second gear (14) are sleeved on main shaft (2), at least one flywheel
(9) it is sleeved on terminal output shaft (10) at least one lower gear (12), flywheel (9) and the first gear (13) one are a pair of
It should engage, lower gear (12) is corresponded with the second gear (14) and engaged;
N number of tumbler pendulum mass (1) sets gradually along the length direction of main shaft (2), and tumbler pendulum mass (1) and main shaft (2) one are a pair of
Answer, the bottom of tumbler pendulum mass (1) is fixedly connected with main shaft (2), each tumbler pendulum mass (1) be correspondingly arranged there are two rope use
Driving pulley assembly (5), each tumbler pendulum mass (1) are correspondingly arranged on a rope (4), and each tumbler pendulum mass (1) passes through it
Corresponding rope (4) is connected with two ropes with driving pulley assembly (5), and each tumbler pendulum mass (1) passes through its corresponding rope
Rope (4) is moved in two ropes with reciprocal beat is made between frame body (7), and motor (6) and 2N rope are with driving pulley assembly (5)
It is connected.
8. a kind of pendulum thick stick kinetic energy transmission system according to claim 7, it is characterised in that: support frame (3) packet support base
(3-1), N number of intermediate supports column (3-2) and two edge columns (3-3), the support base (3-1) is horizontally disposed, two sides
Column (3-3) is disposed in parallel in vertically on support base (3-1), and N number of intermediate supports column (3-2) is disposed in parallel in two vertically
Between edge column (3-3), intermediate supports column (3-2) is arranged in a one-to-one correspondence with tumbler pendulum mass (1), each intermediate supports column
(3-2) is in the underface of its corresponding tumbler pendulum mass (1), and the bottom of each intermediate supports column (3-2) is fixedly connected on
In support base (3-1), the top of each intermediate supports column (3-2) and the outer wall of main shaft (2) are slidably matched, each edge column
Upper installing hole and lower mounting hole are successively machined on (3-3) from top to bottom, the both ends of main shaft (2) are each passed through two upper installations
Hole, the both ends of terminal output shaft (10) are each passed through two lower mounting holes.
9. a kind of pendulum thick stick kinetic energy transmission system according to claim 7 or 8, it is characterised in that: each rope driving wheel
Component (5) includes upper driving wheel (5-1), lower driving wheel (5-2), winch (5-3) and conveyer belt (5-4), the upper driving wheel
(5-1) and lower driving wheel (5-2) are successively set on from top to bottom in rope frame body (7), upper driving wheel (5-1) and lower driving wheel
Be provided between (5-2) conveyer belt (5-4), winch (5-3) and upper driving wheel (5-1) are coaxially connected, winch (5-3) and its
Corresponding rope (4) is connected.
10. a kind of pendulum thick stick kinetic energy transmission system according to claim 9, it is characterised in that: each rope frame body (7)
Top is machined with raised (11) towards the booster type of tumbler pendulum mass (1) setting.
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CN201710367031.4A CN106969120B (en) | 2017-05-23 | 2017-05-23 | A kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system |
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CN201710367031.4A CN106969120B (en) | 2017-05-23 | 2017-05-23 | A kind of pendulum thick stick kinetic energy equipment and pendulum thick stick kinetic energy transmission system |
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CN106969120B true CN106969120B (en) | 2019-03-15 |
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CN2854217Y (en) * | 2005-12-06 | 2007-01-03 | 东南大学 | Constant speed control device of engine |
CN101029561B (en) * | 2007-03-12 | 2010-05-19 | 河北华北石油荣盛机械制造有限公司 | Front reversal beam pumping unit |
CN101387192B (en) * | 2007-09-11 | 2011-11-30 | 张保国 | Swinging dynamic balancing synergistic energy-saving oil pumping machine |
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