CN101865093A - Artificial planet engine main part device - Google Patents

Artificial planet engine main part device Download PDF

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Publication number
CN101865093A
CN101865093A CN200910049553A CN200910049553A CN101865093A CN 101865093 A CN101865093 A CN 101865093A CN 200910049553 A CN200910049553 A CN 200910049553A CN 200910049553 A CN200910049553 A CN 200910049553A CN 101865093 A CN101865093 A CN 101865093A
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wheel
level type
strut
central shaft
bar
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CN200910049553A
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Chinese (zh)
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陈明
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Abstract

The invention discloses an artificial planet engine main part device. The acting force exerted by the device on the input in the operation is the acting force which can realize transverse movement traction in the reference plane direction and is smaller than the energy state required by the self circulation operation of a gravity center eccentric load bearing mechanism, and the state of the device is necessarily generated by the technical characteristics. The acting force exerted by the device on the input in the operation is the acting force with energy required by the lower part traction a little smaller than the large state of the energy required by the upper part traction, and the state of the device is generated by the technical characteristics. The device adopts the effective combination and connection of the gravity center eccentric load bearing mechanism and a lever type traction system, wherein the gravity center eccentric load bearing mechanism is formed by combining a gravity center eccentric load bearing wheel, a gravity center eccentric load bearing support frame wheel and a support wheel center shaft. The invention can adopt various embodiments, and can operate in water, land and air in the atmospheric layer.

Description

Artificial planet engine main part device
Affiliated technical field
The present invention relates to a kind of renewable sources of energy artificial object motor, under the earth attraction effect, object freely makes the free planet concept engine of straight-line, the artificial the earth of constant speed in the earth level, particularly relates to a kind of 4 two groups of kiloton earth attractions of new energy ultimate energy artificial planet engine---artificial planet engine main part device of ultra high efficiency.
Background technique
Newton's first law according to Newton's laws of motion is illustrated, if object is in static or makes the constant speed straight line motion, and so short of external force effect, it just will keep static or continue to do uniform motion in a straight line.It has described a kind of character of power: power can make object by static to the motion and static by moving to, also can make object become another kind of form by a kind of forms of motion., it is believed that before the epoch in Galileo: only object just can move under the effect of power, does not have the power object will be static.Those want to explore is the people what power makes the planet persistent movement, does not recognize that planet makes uniform motion in orbit, does not need power.
Prior art shows: universal gravitation is the source of planet movement of heavenly bodies, need not the external force effect, just can the constant speed straight line motion.Because the mankind are cognitive limited to gravitation (power that attracts each other between the object), so fail so far to produce: need not the external force effect, just can benefit for the mankind as the renewable sources of energy at earth the earth from moving the straight-line artificial the earth planet of constant speed.
Summary of the invention
Employing at present is power source with the earth attraction, need not the external force effect, need not to be subjected to the track routes constraint, can be at earth the earth level, free style constant speed linear movement, the free planet concept engine of artificial the earth---4 two groups of kiloton earth attractions of new energy ultimate energy artificial planet engine of the ultra high efficiency---technology of artificial planet engine main part device, put down in writing lessly in the document, up to the present, do not find the report of this respect technology successful case as yet.
The objective of the invention is: a kind of artificial planet engine main part device is provided.
To achieve the above object, technological scheme of the present invention is: this device be in operation to the import active force that applies be one be can laterally do the motion traction of level in-plane, less than the active force of the state of circular flow institute of center of gravity eccentric loading mechanism self energy requirement, its state is certainly led to by technical characteristics.This device is in operation and the import active force that applies is one is the small active force less than the huge state of top traction institute energy requirement of bottom traction institute energy requirement, and its state is by technical characteristics generation that this device had.This device carries out effective Composite joint by center of gravity eccentric loading system and level type trailer system; Center of gravity eccentric loading system by center of gravity eccentric loading wheel, center of gravity eccentric loading rack wheel, rack wheel central shaft, top steamboat, top steamboat central shaft, the big tie-strut of level type, big tie-strut spindle hole, down square wheel, square wheel central shaft, steamboat, bull wheel, band, weight band, weight, ramuscule strut bar, high road, roller, the combination of roller axostylus axostyle synchronously synchronously synchronously are complementary each other and link cooperation down; The level type trailer system is complementary each other to link and is cooperated by center of gravity eccentric loading wheel, center of gravity eccentric loading rack wheel, rack wheel central shaft, top steamboat central shaft, the big tie-strut of level type, big tie-strut spindle hole, following square wheel central shaft, level type draw-bar, draught wheel, draught wheel central shaft, Gao Dao, high road strut rod, low road, the little draw-bar of level type, the tractive force balance vertical configuration arm beam of steelyard, fulcrum member, two-wheel connection tractive holder combination; Two segment distances in the force of being born on the level type draw-bar, when hypomere was longer than epimere, an end of traction gear was that bottom traction institute energy requirement is small to be the huge state of top traction institute's energy requirement less than the other end.The center of gravity eccentric loading rack wheel that in center of gravity eccentric loading wheel, is provided with, rack wheel central shaft, above steamboat, above steamboat central shaft, the big tie-strut of level type, big tie-strut spindle hole, down square wheel, down the square wheel central shaft, synchronously steamboat, synchronously bull wheel, band, weight band, high road are complementary each other and link cooperation synchronously; The rack wheel central shaft that in the big tie-strut of level type, is provided with, above steamboat central shaft, big tie-strut spindle hole, square wheel central shaft, level type draw-bar, roller, roller axostylus axostyle, the little draw-bar of level type, the tractive force balance vertical configuration arm beam of steelyard, fulcrum member, two-wheel connect the tractive support and are complementary each other to link and cooperate down; The weight that is provided with in the weight band, ramuscule strut bar, little drag-line are complementary each other to link and cooperate; The center of gravity eccentric loading wheel that in the level type draw-bar, is provided with, center of gravity eccentric loading rack wheel, rack wheel central shaft, above steamboat central shaft, the big tie-strut of level type, big tie-strut spindle hole, square wheel central shaft, draught wheel, draught wheel central shaft, Gao Dao, low road, the little draw-bar of level type, the tractive force balance vertical configuration arm beam of steelyard, fulcrum member, two-wheel connect the tractive support and are complementary each other to link and cooperate down; The high road strut rod, the center of gravity eccentric loading rack wheel that are provided with at Gao Daozhong match each other; The big tie-strut of level type draw-bar or level type is being transfused to the plumbness that is the equilibrium of forces of vertical line after applying active force, two segment distances in the force of on level type draw-bar or the big tie-strut of level type, being born, when hypomere is longer than epimere, center of gravity eccentric loading wheel is in operation, behind the potential energy with center of gravity off-centre, an end of traction gear is the bottom small the other end of traction institute's energy requirement and is less than the huge state of top traction institute's energy requirement.The centre of center of gravity eccentric loading wheel and the binding of rack wheel central shaft are integrated, the centre of center of gravity eccentric loading rack wheel and the binding of rack wheel central shaft are integrated, the centre of top steamboat and the binding of top steamboat central shaft are integrated, big tie-strut spindle hole is set on the big tie-strut of level type, match with following square wheel central shaft in the centre of following square wheel, the centre of steamboat and top steamboat central shaft binding synchronously is integrated, the centre of bull wheel and rack wheel central shaft binding synchronously is integrated, band and steamboat synchronously synchronously, bull wheel matches synchronously, match with the draught wheel central shaft in the centre of draught wheel, the centre of roller and roller axostylus axostyle mobility link; The top of the big tie-strut of level type and top steamboat central shaft mobility link, big tie-strut spindle hole that is provided with on the big tie-strut of level type and rack wheel central shaft mobility link, match with following square wheel central shaft in the bottom of the big tie-strut of level type, the side at the big tie-strut of level type middle part matches with the roller axostylus axostyle, the top of level type draw-bar and the big tie-strut of level type go up that the middle part links and and center of gravity eccentric loading rack wheel on the rack wheel central shaft mobility binding that is provided with; The draught wheel central shaft that is provided with on the draught wheel matches with the bottom of level type draw-bar; The binding that is complementary each other of weight, ramuscule strut bar, little drag-line is set on the weight band; Gao Dao, high road strut rod, low road are set on the level type draw-bar; Match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel in the inboard of weight band, many fulcrum member is set on the big tie-strut of level type; The tractive force balance vertical configuration arm beam of steelyard is set on the big tie-strut of level type, the top of the tractive force balance vertical configuration arm beam of steelyard and the stage casing of the big tie-strut of level type are connected, the top of the tractive force balance vertical configuration arm beam of steelyard and rack wheel central shaft mobility link, and the following stage casing of the bottom of the tractive force balance vertical configuration arm beam of steelyard and the big tie-strut of level type links; The mutual mobility of fulcrum member that is provided with many on the big tie-strut of level type links; The fulcrum member of each that is provided with on the body of rod of the big tie-strut of level type, one side of its fulcrum member links with the body of rod mobility of the big tie-strut of level type, and the front portion of the another side of fulcrum member and the little draw-bar of level type is connected and is integrated; The level type draw-bar can be interconnected by many little draw-bar of level type and form; Many the little draw-bar of level type is set on the level type draw-bar, the draught wheel central shaft that is provided with in the top steamboat central shaft mobility binding that is provided with on the upper end of the little draw-bar of level type that level type draw-bar top is provided with and the top steamboat, the bottom of level type draw-bar and draught wheel matches; Two-wheel is set on the rack wheel central shaft connects the tractive support, two ends and rack wheel central shaft that two-wheel connects the top of tractive support link; On the bottom that two-wheel connects the tractive support and the draught wheel draught wheel central shaft being set matches; Be provided with on the level type draw-bar that head that many little draw-bars of level type are carrying out repeatedly interconnects with tail and a tail and an arrangement that interconnects after, two-wheel is set on the rack wheel central shaft connects the tractive support, two-wheel connects the binding that is complementary each other of the rear and front end on top of tractive support and rack wheel central shaft; Two-wheel connects the binding that is complementary each other of the bottom of tractive support and draught wheel central shaft; After the mobility of the tractive force balance vertical configuration arm beam of steelyard and rack wheel central shaft linked, after the power that bear power of bearing at the top of the tractive force balance vertical configuration arm beam of steelyard and bottom balanced each other, the tractive force balance vertical configuration arm beam of steelyard was the plumbness of vertical line; The big tie-strut of level type is being transfused to the plumbness that is the equilibrium of forces of vertical line after applying active force, two segment distances in the force of on the big tie-strut of level type, being born, when hypomere is longer than epimere, center of gravity eccentric loading wheel is in operation, behind the potential energy with center of gravity off-centre, the other end bottom traction institute energy requirement that promptly is traction gear is small in the huge state of the other end top traction institute's energy requirement.Many same equidistant weight ramuscule strut bar, little drag-line are set in the weight band to match each other, one end of ramuscule strut bar is connected the other end with weight and weight band mobility links, one end of little drag-line is connected the other end and ramuscule strut bar with the weight band a end links, or an end of little drag-line is connected the other end with weight and the weight band links; The top of the bottom in high road and high road strut rod links and reinforces and is integrated; The external diameter wheel face of center of gravity eccentric loading rack wheel contacts with road, the top face rollability in high road and matches, the external diameter wheel face of draught wheel contacts with road, the top face rollability in low road and matches, and the external diameter of steamboat, synchronous bull wheel matches with the inboard rollability activity of synchronous band respectively synchronously; The external diameter of roller and center of gravity eccentric loading wheel later half taken turns inboard outside diameter wall rollability and contacted and match, after the matching of roller, roller axostylus axostyle, the big tie-strut of level type, center of gravity eccentric loading wheel, rack wheel central shaft, can make later half external diameter of taking turns that center of gravity eccentric loading wheel is in operation constantly laterally direction tilt significantly, the external diameter that can make preceding half wheel that center of gravity eccentric loading wheel is in operation constantly to the inside direction tilt significantly; The external diameter of center of gravity eccentric loading wheel matches with the inboard rollability activity of weight band, and the external diameter of top steamboat matches with the inside top rollability activity of weight band, and the external diameter of following square wheel matches with the lower inside rollability activity of weight band; The mode of forming the level type draw-bar that interconnects of its little draw-bar of level type of many is: the head of the afterbody of the little draw-bar of Last level type and the little draw-bar of Next level type is connected---and tail connects with a mobility; Being that the head of the little draw-bar of Next level type and the afterbody of the little draw-bar of Last level type link---head connects with the tail mobility; The afterbody of the little draw-bar of Next level type is with the head binding of the little draw-bar of Next level type---tail connects with a mobility again.
The invention has the beneficial effects as follows: 1, simple in structure, 2, stable performance, 3, practicability is stronger, 4, easily manufactured, 5, cost is lower, 6, Environmental Safety, 7, the big output of little input, 8, be convenient to quick penetration and promotion and use.
Description of drawings
The present invention is further illustrated below in conjunction with drawings and Examples.
Fig. 1 is the brief introduction schematic representation of the working principle of center of gravity eccentric loading device among artificial first embodiment of planet engine main part device of the present invention.
Fig. 2 is the brief introduction schematic representation of the working principle of the overall operation of center of gravity eccentric loading device among artificial first embodiment of planet engine main part device of the present invention.
Fig. 3 is the brief introduction schematic representation of the working principle of the weight band cycle operation among artificial first embodiment of planet engine main part device of the present invention.
Fig. 4 is the brief introduction schematic representation of the working principle of the synchronizing wheel among artificial first embodiment of planet engine main part device of the present invention, synchronous tape travel.
Fig. 5 is the roller among artificial first embodiment of planet engine main part device of the present invention, the brief introduction schematic representation that the center of gravity eccentric loading is taken turns the working principle of running.
Fig. 6 is the brief introduction schematic representation of working principle of the integral body of the big tie-strut of level type, level type draw-bar among artificial first embodiment of planet engine main part device of the present invention.
Fig. 7 is the brief introduction schematic representation of the working principle of the tractive force balance vertical configuration arm beam of steelyard among artificial first embodiment of planet engine main part device of the present invention, many mutual combined serial of the little draw-bar of level type.
Fig. 8 is the brief introduction schematic representation of the working principle among second embodiment of the artificial planet engine main part device of the present invention.
Fig. 9 is the brief introduction schematic representation of the working principle among the 3rd embodiment of the artificial planet engine main part device of the present invention.
Figure 10 is the brief introduction schematic representation of the working principle among the 4th embodiment of the artificial planet engine main part device of the present invention.
Figure 11 is the brief introduction schematic representation of the working principle among the 5th embodiment of the artificial planet engine main part device of the present invention.
Figure 12 is the brief introduction schematic representation of the working principle among the 6th embodiment of the artificial planet engine main part device of the present invention.
Figure 13 is the brief introduction schematic representation of the working principle of the artificial planet engine main part device of the present invention two-wheel work that connects the tractive support.
Among the figure: 1, center of gravity eccentric loading wheel, 2, center of gravity eccentric loading rack wheel, 3, the rack wheel central shaft, 4, the top steamboat, 5, top steamboat central shaft, 6, the big tie-strut of level type, 7, big tie-strut spindle hole, 8, following square wheel, 9, following square wheel central shaft, 10, synchronous steamboat, 11, synchronous bull wheel, 12, be with synchronously, 13, the weight band, 14, weight, 15, ramuscule strut bar, 16, little drag-line, 17, the level type draw-bar, 18, bottom traction institute energy requirement is small, 19, top traction institute energy requirement is huge, and 20, draught wheel, 21, the draught wheel central shaft, 22, high road, 23, high road strut rod, 24, low road, 25, roller, 26, the roller axostylus axostyle, 27, vertical line, 28, the little draw-bar of level type, 29, the tractive force balance vertical configuration arm beam of steelyard, 30, fulcrum member, 31, two-wheel connects the tractive support.
Embodiment
In Fig. 1, the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), matches with following square wheel central shaft (9) in the centre of following square wheel (8).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) links with the middle part of the big tie-strut of level type (6) and goes up rack wheel central shaft (3) the mobility binding that is provided with center of gravity eccentric loading rack wheel (2) and match.Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link.The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Fig. 2, Fig. 2 is identical with Fig. 1 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7), draught wheel (20), draught wheel central shaft (21), low road (24) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) is connected with rack wheel central shaft (3) and is integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), matching with following square wheel central shaft (9) in the centre of following square wheel (8), matches with draught wheel central shaft (21) in the centre of draught wheel (20).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) links with the middle part of the big tie-strut of level type (6) and goes up rack wheel central shaft (3) the mobility binding that is provided with center of gravity eccentric loading rack wheel (2) and match, and matches with draught wheel central shaft (21) in the bottom of level type draw-bar (17).Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link.The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The component that are provided with in Gao Dao (22) have high road strut rod (23), center of gravity eccentric loading rack wheel (2), the external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches, and the top of high road strut rod (23) is connected and reinforces with the bottom of Gao Dao (22) and is integrated.The external diameter wheel face of draught wheel (20) contacts with road, the top face rollability of low road (24) and matches.The draught wheel (20) that the bottom of level type draw-bar (17) is provided be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Fig. 3, Fig. 3 is substantially the same with Fig. 1, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15), little drag-line (16) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), matches with following square wheel central shaft (9) in the centre of following square wheel (8).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) reaches rack wheel central shaft (3) the mobility binding that upward is provided with center of gravity eccentric stent wheel (2) with the middle part binding of the big tie-strut of level type (6) and matches.Many same equidistant weight (14), ramuscule strut bar (15), little drag-line (16) are set in weight band (13).One end of ramuscule strut bar (15) and weight (14) link, the other end of ramuscule strut bar (15) and weight band (13) mobility link, one end of one end of little drag-line (16) and ramuscule strut bar (15) links, and the other end of little drag-line (16) and weight band (13) link; Or an end of little drag-line (16) and weight (14) binding, the other end of little drag-line (16) and weight band (13) link.The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Fig. 4, the component that are provided with in rack wheel central shaft (3) have center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), following square wheel (8), following square wheel central shaft (9), synchronous steamboat (10), synchronous bull wheel (11), be with synchronously (12), weight band (13) matches each other, the component that are provided with in the steamboat central shaft (5) have top steamboat (4) up, the big tie-strut of level type (6), synchronous steamboat (10), be with synchronously (12), weight band (13) matches each other, go up the component that are provided with at following square wheel central shaft (9) the big tie-strut of level type (6) is arranged, following square wheel (8), weight band (13) matches each other, and the component that are provided with in synchronous bull wheel (11) have synchronous steamboat (10), band (12) matches each other synchronously.Going up the component that are provided with at the big tie-strut of level type (6) has rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), following square wheel central shaft (9) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, and the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated.The centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), the centre of following square wheel (8) is integrated with following square wheel central shaft (9) binding, the centre of steamboat (10) and top steamboat central shaft (5) binding synchronously is integrated, and the centre of bull wheel (11) and rack wheel central shaft (3) binding synchronously is integrated.The top of the big tie-strut of level type (6) and top steamboat (4) are gone up top steamboat central shaft (5) mobility that is provided with and are linked, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter of steamboat (10) matches with the upper inner rollability activity of band (12) synchronously synchronously, and the external diameter of bull wheel (11) matches with the inboard rollability activity of band (12) synchronously synchronously.
In Fig. 5, Fig. 5 is identical with Fig. 4 major part, component are set in rack wheel central shaft (3) has center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), the big tie-strut of level type (6), big tie-strut spindle hole (7), synchronous bull wheel (11) to match each other, and the component that are provided with in the big tie-strut of level type (6) have center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), big tie-strut spindle hole (7), roller (25), roller axostylus axostyle (26) to match each other.Big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), the centre and rack wheel central shaft (3) binding of bull wheel (11) synchronously are integrated, and big tie-strut spindle hole (7) links with rack wheel central shaft (3) mobility.Component in the side setting at the middle part of the big tie-strut of level type (6) have roller (25), roller axostylus axostyle (26) to match, the centre of roller (25) and roller axostylus axostyle (26) mobility link, and the side at the middle part of the big tie-strut of level type (6) is provided with roller axostylus axostyle (26), roller (25) matches each other.The external diameter wheel face of roller (25) contact with the inboard outside diameter wall rollability of center of gravity eccentric loading wheel (1) match after, can make later half external diameter of taking turns that center of gravity eccentric loading wheel (1) is in operation constantly laterally direction tilt significantly, the external diameter that can make preceding half wheel that center of gravity eccentric loading wheel (1) is in operation constantly to the inside direction tilt significantly.
In Fig. 6, the component that are provided with in level type draw-bar (17) have center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), square wheel central shaft (9), draught wheel (20), draught wheel central shaft (21), high road (22), low road (24) match each other down.Big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), the top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, matching with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6), big tie-strut spindle hole (7) is set on the big tie-strut of level type (6) links with rack wheel central shaft (3) mobility.The middle part of the top of level type draw-bar (17) and the big tie-strut of level type (6) links and links with rack wheel central shaft (3) mobility, matches with draught wheel central shaft (21) in the bottom of level type draw-bar (17).Match with the draught wheel central shaft (21) of setting in the centre of draught wheel (20), the external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The external diameter wheel face of draught wheel (20) contacts with road, the top face rollability of low road (24) and matches.The draught wheel (20) that the bottom of level type draw-bar (17) is provided with is after being transfused to active force, and level type draw-bar (17) is the plumbness of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Fig. 7, Fig. 7 is identical with Fig. 6 major part, and going up the component that are provided with at the big tie-strut of level type (6) has rack wheel central shaft (3), top steamboat central shaft (5), following square wheel central shaft (9) to match each other.Many the little draw-bar of level type (28) is set on level type draw-bar (17), many fulcrum member (30) is set on the tractive force balance vertical configuration arm beam of steelyard (29).Rack wheel central shaft (3) matches with the middle part of the big tie-strut of level type (6), the little draw-bar of level type (28), the tractive force balance vertical configuration arm beam of steelyard (29) that level type draw-bar (17) top is provided with and the mutual mobility binding of fulcrum member (30) that is provided with on the top of the tractive force balance vertical configuration arm beam of steelyard (29).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, and match with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).One side of fulcrum member (30) and the tractive force balance vertical configuration arm beam of steelyard (29) mobility link, and the front portion binding of the opposite side of fulcrum member (30) and the little draw-bar of level type (28) is integrated.Match with draught wheel central shaft (21) in the bottom of level type draw-bar (17), many fulcrum member (30) is set on the body of rod of the tractive force balance vertical configuration arm beam of steelyard (29), many fulcrum member (30) mobility binding each other is set on the tractive force balance vertical configuration arm beam of steelyard (29).The fulcrum member (30) of each that is provided with on the body of rod of the tractive force balance vertical configuration arm beam of steelyard (29), the body of rod mobility of one side of its fulcrum member (30) and the tractive force balance vertical configuration arm beam of steelyard (29) links, and the front portion of the opposite side of fulcrum member (30) and the little draw-bar of level type (28) is connected and is integrated.The top of level type draw-bar (17) is made up of the mutual connect in series of many little draw-bar of level type (28); The mode of forming level type draw-bar (17) that interconnects of its little draw-bar of level type (28) of many is: the head of the afterbody of the little draw-bar of Last level type (28) and the little draw-bar of Next level type (28) is connected---and tail connects with a mobility; Being that the head of the little draw-bar of Next level type (28) and the afterbody of the little draw-bar of Last level type (28) link---head connects with the tail mobility; The afterbody of the little draw-bar of Next level type (28) is with the head binding of the little draw-bar of Next level type (28)---tail connects with a mobility again.The force of being born on the level type draw-bar (17) is: the pulling force of the tractive force that bear on top is huge, and the pulling force of the tractive force that bear the bottom is less.Many the little draw-bar of level type (28) is set on level type draw-bar (17), and its mutual tail and head a mobility mutually link or head and the mutual mobility binding of tail.After the tractive force pulling force that bear tractive force pulling force that bears at the top of the tractive force balance vertical configuration arm beam of steelyard (29) and bottom balanced each other, the tractive force balance vertical configuration arm beam of steelyard (29) and level type draw-bar (17) were the plumbness of the equilibrium of forces of vertical line (27).Be provided with on the level type draw-bar (17) that head that many little draw-bars of level type (28) are carrying out repeatedly interconnects with tail and a tail and an arrangement that interconnects after, many fulcrum member (30) are being set on the tractive force balance vertical configuration arm beam of steelyard (29) after linking each other, the closing of its comprehensive tractive force pulling force with many little draw-bars of level type (28)
In Fig. 8, Fig. 8 is identical with Fig. 3 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15), little drag-line (16) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), matches with following square wheel central shaft (9) in the centre of following square wheel (8).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).Top and the middle part binding of the big tie-strut of level type (6) and rack wheel central shaft (3) the mobility binding that upward is provided with center of gravity eccentric loading rack wheel (2) at level type draw-bar (17).Many same equidistant weight (14), ramuscule strut bar (15), little drag-line (16) are set on weight band (13).One end of ramuscule strut bar (15) and weight (14) link, the other end of ramuscule strut bar (15) and weight band (13) mobility link, one end of one end of little drag-line (16) and ramuscule strut bar (15) links, and the other end of little drag-line (16) and weight band (13) link; Or an end of little drag-line (16) and weight (14) binding, the other end of little drag-line (16) and weight band (13) link.The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Fig. 9, Fig. 9 is identical with Fig. 8 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15), little drag-line (16) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), match with following square wheel central shaft (9) in the centre of following square wheel (8), the top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).Many same equidistant weight (14), ramuscule strut bar (15), little drag-line (16) are set in weight band (13).Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link.The end that one end of little drag-line (16) and weight band (13) link the other end and ramuscule strut bar (15) links; Or an end of little drag-line (16) links with weight (14) the binding the other end and weight band (13).The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of the big tie-strut of level type (6) be transfused to apply active force after, the big tie-strut of level type (6) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of on the big tie-strut of level type (6), being born, when hypomere is longer than epimere, promptly be the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Figure 10, Figure 10 is identical with Fig. 8 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), matches with following square wheel central shaft (9) in the centre of following square wheel (8).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) links with the middle part of the big tie-strut of level type (6) and goes up rack wheel central shaft (3) the mobility binding that is provided with center of gravity eccentric loading rack wheel (2) and match.Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link.Go up drawing of setting is provided with many on the type support trundles at the big tie-strut of level type (6), the external diameter of trundle contacts the activity binding with the inboard rollability of weight band (13) and matches under the drive of the sliding rotation of weight band (13).The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Figure 11, Figure 11 is identical with Fig. 1 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), top steamboat central shaft (5), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), match with following square wheel central shaft (9) in the centre of following square wheel (8), the top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) links with the middle part of the big tie-strut of level type (6) and goes up rack wheel central shaft (3) the mobility binding that is provided with center of gravity eccentric loading rack wheel (2) and match.Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link.The inside top of weight band (13) matches with the external diameter rollability activity of top steamboat (4), match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Figure 12, Figure 12 is identical with Figure 11 major part, and the component that are provided with in center of gravity eccentric loading wheel (1) have center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7), match each other in square wheel (8), following square wheel central shaft (9), weight band (13), high road (22) down.The component that are provided with in the big tie-strut of level type (6) have rack wheel central shaft (3), big tie-strut spindle hole (7), square wheel central shaft (9) matches each other down.The component that are provided with in weight band (13) have weight (14), ramuscule strut bar (15), little drag-line (16) to match each other.The component that are provided with in level type draw-bar (17) have rack wheel central shaft (3), the big tie-strut of level type (6), big tie-strut spindle hole (7) to match each other.The centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), match with following square wheel central shaft (9) in the centre of following square wheel (8), the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is connected with rack wheel central shaft (3) mobility, matches with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).The top of level type draw-bar (17) reaches rack wheel central shaft (3) the mobility binding that upward is provided with center of gravity eccentric stent wheel (2) with the binding of the big tie-strut of level type (6) top and matches.Many same equidistant weight (14), ramuscule strut bar (15), little drag-line (16) are set in weight band (13).Weight band (13) links with an end mobility of ramuscule strut bar (15), and the other end of ramuscule strut bar (15) and weight (14) link; The end that one end of little drag-line (16) and weight band (13) link the other end and ramuscule strut bar (15) links; Or an end of little drag-line (16) links with weight (14) the binding the other end and weight band (13).The upper inner of weight band (13) matches with the external diameter rollability activity of center of gravity eccentric loading wheel (1), and the lower inside of weight band (13) matches with the external diameter rollability activity of following square wheel (8).The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with the road face rollability on the top of Gao Dao (22) and matches.The bottom of level type draw-bar (17) be transfused to apply active force after, level type draw-bar (17) is the plumbness of the equilibrium of forces of vertical line (27).Center of gravity eccentric loading wheel (1) is in operation, behind potential energy with center of gravity off-centre, two segment distances in the force of being born on level type draw-bar (17) when hypomere is longer than epimere, promptly are the state of bottom traction institute's energy requirement small (18) less than top traction institute's energy requirement huge (19).
In Figure 13, Figure 13 is identical with Fig. 7 major part, and going up the component that are provided with at the big tie-strut of level type (6) has rack wheel central shaft (3), top steamboat central shaft (5), following square wheel central shaft (9) to match each other.Many the little draw-bar of level type (28) is set on level type draw-bar (17), many fulcrum member (30) is set on the tractive force balance vertical configuration arm beam of steelyard (29).Rack wheel central shaft (3) matches with the middle part of the big tie-strut of level type (6), the little draw-bar of level type (28), the tractive force balance vertical configuration arm beam of steelyard (29) that level type draw-bar (17) top is provided with and the mutual mobility binding of fulcrum member (30) that is provided with on the top of the tractive force balance vertical configuration arm beam of steelyard (29).The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, and match with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6).One side of fulcrum member (30) and the tractive force balance vertical configuration arm beam of steelyard (29) mobility link, and the front portion binding of the opposite side of fulcrum member (30) and the little draw-bar of level type (28) is integrated.Match with draught wheel central shaft (21) in the bottom of level type draw-bar (17), many fulcrum member (30) is set on the body of rod of the tractive force balance vertical configuration arm beam of steelyard (29), many fulcrum member (30) mobility binding each other is set on the tractive force balance vertical configuration arm beam of steelyard (29).The fulcrum member (30) of each that is provided with on the body of rod of the tractive force balance vertical configuration arm beam of steelyard (29), the body of rod mobility of one side of its fulcrum member (30) and the tractive force balance vertical configuration arm beam of steelyard (29) links, and the front portion of the opposite side of fulcrum member (30) and the little draw-bar of level type (28) is connected and is integrated.The top of level type draw-bar (17) is made up of the mutual connect in series of many little draw-bar of level type (28); The mode of forming level type draw-bar (17) that interconnects of its little draw-bar of level type (28) of many is: the head of the afterbody of the little draw-bar of Last level type (28) and the little draw-bar of Next level type (28) is connected---and tail connects with a mobility; Being that the head of the little draw-bar of Next level type (28) and the afterbody of the little draw-bar of Last level type (28) link---head connects with the tail mobility; The afterbody of the little draw-bar of Next level type (28) is with the head binding of the little draw-bar of Next level type (28)---tail connects with a mobility again.Two-wheel is set on two rack wheel central shafts (3) connects tractive support (31), connect at two-wheel tractive support (31) top two ends respectively with connections that be complementary each other of former and later two rack wheel central shaft (3), the connecting state that is complementary that can do to draw each other with former and later two draught wheel central shaft (21) respectively in two lower end of two-wheel connection tractive support (31).The force of being born on the level type draw-bar (17) is: the pulling force of the tractive force that bear on top is huge, and the pulling force of the tractive force that bear the bottom is less.Many the little draw-bar of level type (28) is set on level type draw-bar (17), and its mutual tail and head a mobility mutually link or head and the mutual mobility binding of tail.After the tractive force pulling force that bear tractive force pulling force that bears at the top of the tractive force balance vertical configuration arm beam of steelyard (29) and bottom balanced each other, the tractive force balance vertical configuration arm beam of steelyard (29) and level type draw-bar (17) were the plumbness of the equilibrium of forces of vertical line (27).Be provided with on the level type draw-bar (17) that head that many little draw-bars of level type (28) are carrying out repeatedly interconnects with tail and a tail and an arrangement that interconnects after, many fulcrum member (30) are being set on the tractive force balance vertical configuration arm beam of steelyard (29) after linking each other with many little draw-bars of level type (28), its comprehensive tractive force pulling force make a concerted effort be: can present the purpose of bottom traction institute's energy requirement small (18) less than the state of top traction institute's energy requirement huge (19).
Show according to the explanation of Fig. 1 to Figure 13, artificial planet engine be actually one forever all automatic cycle keeping half side real ball, half side empty ball, that be not subjected to the track routes constraint, at the big ground level of the earth, forever keeping constantly from move constant speed straight line motion state, the eccentric circular form load-carrying of center of gravity system and device.Weight and light (heavy more power is big more), all welcome design and manufacturings of big and little, the quality of its volume, just as: the big and small motor of the prior art.Introduce the dense matter on a kind of supernova on the encyclopedia of nineteen ninety-five: this ultra dense material of a little spoon is on earth with heavy 50,000,000,000 tons.The same moved further input minimum (four liang of pressures are very heavy) of artificial planet engine is with advantage of moved further output huge (4 two groups of kilotons), and the utilization of the potential energy of its perpetuity goes out tens thousand of times than the useful horsepower of nuclear energy power generation is taller.Reduce discharging 50% carbon dioxide for 45,000,000,000,000 dollars according to International Energy Agency new departure in 2008, clean energy resource is efficiently suddenly expected in the whole world.
The difference of the motion of artificial planet engine and celestial body planet: the celestial body planet is former to mean " tramp " who goes around.It is the celestial body (except comet, meteor or the satellite) of making revolution motion around the sun or other fixed stars.Known nine major planets that revolve around the sun and move: Mercury, Venus, the earth, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto.Every cubic centimetre 150 of the density of sun gram, the earth are that 5.517 grams, the moon are 3.34 grams, by the density difference: the moon under the graviational interaction control of the earth, on orbit around the revolution of the earth; The earth revolves around the sun on orbit under the graviational interaction control of the sun.The celestial body planet does not need power do the uniform motion in a straight line revolution on certain orbit.
The fan of the motion of artificial planet under no external force effect? 1, because being one, four liang of pressure kiloton vertical configuration " steelyard type " trailer systems only imported four liang of pulling force of tail end, and there is not the device in debt of input front end kiloton pulling force, the same moved further that it is badly in need of constantly continuing is imported the kiloton pulling force, can nonvolatilly keep four liang of states of pressing " steelyard type " trailer system vertical configuration equilibrium of forces of kilotons.2, because the eccentric circular form load-carrying of center of gravity system is a device in debt that does not have input to be used to destroy the required kiloton pulling force of gravity balance, the same moved further that it is badly in need of constantly continuing is imported collapsing force kiloton pulling force, can nonvolatilly keep the unbalanced state of center of gravity that the eccentric circular form load-carrying of center of gravity system is presented.3, the two in debt states that presented in sum are: promptly four liang press in kiloton " steelyard type " trailer system front end kiloton pulling force in debt then undertaken effectively fully compensating by the kiloton pulling force of the institute's (power of required destruction gravity balance) in debt in the eccentric circular form load-carrying of the center of gravity system.Just equal: with four liang press in the kiloton kiloton pulling force in debt, be translated into and destroy the required kiloton pulling force of load-carrying system gravity balance (i.e. 4 two groups of kilotons), consequently: only imported four liang of pulling force of tail end, but can reach the effect of the kiloton pulling force of the gravity balance required input of destroying the eccentric circulation load-carrying of center of gravity system.The unbalanced state of permanent center of gravity of artificial planet engine is due to the effect of 4 two groups of kilotons, not needs any external force effect.For example: difficulty holds up two overlapping tops of raw egg come in the plane, is because the difficulty of perpendicular two raw eggs in top is bigger in the plane, than the perpendicular raw egg in difficult top, but is very easy to fall down.Two overlapping tops are perpendicular that successful raw egg is as easy as rolling off a log to fall down automatically, not needs power (external force effect).
Four liang of mechanism that are converted into the synchronous vertical movement tractive force of (four liang traction kiloton same moved further) kiloton under no external force effect: 1. four liang be converted into (level shape) very heavy.The gravity at very heavy its two ends of thrust balancing device with four liang on the steelyard, the vertical very heavy gravity of front end and vertical four liang of gravity of tail end all are subjected to the effect of gravitational vertical freely falling body.In the difference of the moment by the stress action spot on the lever machinery of steelyard, on the ratio of two sections the distance at 3 two ends, when the length of back segment was the length thousandfold of leading portion, then four of tail end liang of gravity had also just correspondingly increased thousandfold.In four liang of vertical gravity of the very heavy vertical gravity of leading portion, fulcrum, rear, after this power of 3 obtained horizontal equilibrium of forces, four liang just be equal to very naturally for very heavy (at equidistant two ends of fulcrum respectively for very heavy) so.Because the power at the two ends of the fulcrum of horizontal equilibrium of forces must equate, press the very heavy state of rest level shape, equilibrium of forces can keep several trillion years for this four liang, and without any need for external force help.
2. four liang are converted into (vertical configuration) kiloton.The pulling force of the level tractive force on the top on the huge outstanding vertical configuration equilibrium of forces system and device of tractive force is kiloton (promptly making the tractive force pulling force of center of gravity off-centre), and the pulling force of the level tractive force of the bottom on the huge outstanding vertical configuration equilibrium of forces system and device of tractive force is four liang (4 two groups of kilotons of the pulling force on top and the pulling force of bottom differ 5,000,000 times).On this system and device by many lever machinery structures being set under its mutual connection effect, after the chain effect of the mutual series connection of many fulcrums and moment difference, just the power of bottom is amplified automatically and transformed tens thousand of times to becoming hundred million times (change the ratio of 3 two segment distances, can change the size of power).So four liang of pulling force of the level tractive force of bottom are by the moment difference of many levers and fulcrum mutually under the interconnected lock effect, are also just amplified automatically altogether by addition accumulation one by one accordingly and transformed tens thousand of times to becoming hundred million times.Four liang of level pulling force in the kiloton level pulling force on top, fulcrum (center axis point), bottom, obtain the equilibrium of forces state of " steelyard type " of vertical configuration in this power of 3 after, four liang of pulling force just have been equal to very naturally for kiloton pulling force (the equidistant two ends at fulcrum respectively are kiloton) so.Because the power at the two ends of the fulcrum of vertical configuration equilibrium of forces must equate, this four liang of state of rest of pressing kiloton, power is at the two ends of fulcrum: reach tens thousand of times to becoming hundred million times in the hypomere and the moment difference of epimere, behind vertical configuration, equilibrium of forces, the static state that has formed four liang of pressure kilotons, this state just can be kept forevermore automatically, not needs any external force effect to help.Because the kiloton pulling force on top is an external force active force pulling force of making the center of gravity off-centre of the eccentric circular form load-carrying wheel of center of gravity, as long as behind four liang of minimum pulling force (pressing kiloton for four liang) of eternal persistency with moved further traction input bottom, the eccentric circular form load-carrying wheel of center of gravity will continue to be moved in synchronization pulling motion automatically forever and go down, and the simultaneously eternal huge running power that discharges the kiloton pulling force automatically with the moved further traction that is constantly continuing.

Claims (6)

1. artificial planet engine main part device, it is characterized in that: this device be in operation to the import active force that applies be one be can laterally do the motion traction of level in-plane, less than the active force of the state of circular flow institute of center of gravity eccentric loading mechanism self energy requirement, its state is certainly led to by technical characteristics.
2. artificial planet engine main part device according to claim 1, it is characterized in that: it is an active force that is bottom traction institute's energy requirement small (18) less than the state of top traction institute's energy requirement huge (19) that this device is in operation to the import active force that applies, and its state is produced by the technical characteristics that this device had.
3. artificial planet engine main part device according to claim 2 is characterized in that: this device carries out effective Composite joint by center of gravity eccentric loading system and level type trailer system; Center of gravity eccentric loading system is by center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), following square wheel (8), following square wheel central shaft (9), synchronous steamboat (10), synchronous bull wheel (11), be with synchronously (12), weight band (13), weight (14), ramuscule strut bar (15), high road (22), roller (25), roller axostylus axostyle (26) combination is complementary each other to link and cooperates; The level type trailer system is by center of gravity eccentric loading wheel (1), center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), following square wheel central shaft (9), level type draw-bar (17), draught wheel (20), draught wheel central shaft (21), high road (22), high road strut rod (23), low road (24), the little draw-bar of level type (28), the tractive force balance vertical configuration arm beam of steelyard (29), fulcrum member (30), two-wheel connects tractive support (31) and makes up the binding cooperation that is complementary each other; Two segment distances in the force of being born on level type draw-bar (17), when hypomere was longer than epimere, an end of traction gear was bottom traction institute's energy requirement small (18) is top traction institute's energy requirement huge (19) less than the other end state.
4. artificial planet engine main part device according to claim 3 is characterized in that: the center of gravity eccentric loading rack wheel (2) that in center of gravity eccentric loading wheel (1), is provided with, rack wheel central shaft (3), top steamboat (4), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), down square wheel (8), down square wheel central shaft (9), synchronously steamboat (10), synchronously bull wheel (11), band (12), weight band (13), high road (22) are complementary each other and link cooperation synchronously; The rack wheel central shaft (3) that is provided with in the big tie-strut of level type (6), top steamboat central shaft (5), big tie-strut spindle hole (7), following square wheel central shaft (9), level type draw-bar (17), roller (25), roller axostylus axostyle (26), the little draw-bar of level type (28), the tractive force balance vertical configuration arm beam of steelyard (29), fulcrum member (30), two-wheel connection tractive support (31) are complementary each other to link and cooperate; Weight (14), ramuscule strut bar (15), the little drag-line (16) that is provided with in weight band (13) is complementary each other to link and cooperates; The center of gravity eccentric loading wheel (1) that in level type draw-bar (17), is provided with, center of gravity eccentric loading rack wheel (2), rack wheel central shaft (3), top steamboat central shaft (5), the big tie-strut of level type (6), big tie-strut spindle hole (7), following square wheel central shaft (9), draught wheel (20), draught wheel central shaft (21), high road (22), low road (24), the little draw-bar of level type (28), the tractive force balance vertical configuration arm beam of steelyard (29), fulcrum member (30), two-wheel connection tractive support (31) is complementary each other to link and cooperates; The high road strut rod (23), the center of gravity eccentric loading rack wheel (2) that are provided with in Gao Dao (22) match each other; Level type draw-bar (17) or the big tie-strut of level type (6) are being transfused to the plumbness that is the equilibrium of forces of vertical line (27) after applying active force, two segment distances in the force of on level type draw-bar (17) or the big tie-strut of level type (6), being born, when hypomere is longer than epimere, center of gravity eccentric loading wheel (1) is in operation, behind the potential energy with center of gravity off-centre, an end of traction gear is bottom traction institute's energy requirement small (18) the other end and is the state that draws institute's energy requirement huge (19) less than top.
5. artificial planet engine main part device according to claim 4, it is characterized in that: the centre of center of gravity eccentric loading wheel (1) and rack wheel central shaft (3) binding are integrated, the centre of center of gravity eccentric loading rack wheel (2) and rack wheel central shaft (3) binding are integrated, the centre of top steamboat (4) and top steamboat central shaft (5) binding are integrated, big tie-strut spindle hole (7) is set on the big tie-strut of level type (6), match with following square wheel central shaft (9) in the centre of following square wheel (8), the centre of steamboat (10) and top steamboat central shaft (5) binding synchronously is integrated, the centre of bull wheel (11) and rack wheel central shaft (3) binding synchronously is integrated, band (12) and steamboat (10) synchronously synchronously, bull wheel (11) matches synchronously, match with draught wheel central shaft (21) in the centre of draught wheel (20), the centre of roller (25) and roller axostylus axostyle (26) mobility link; The top of the big tie-strut of level type (6) and top steamboat central shaft (5) mobility link, the big tie-strut of level type (6) is gone up the big tie-strut spindle hole (7) that is provided with and is linked with rack wheel central shaft (3) mobility, match with following square wheel central shaft (9) in the bottom of the big tie-strut of level type (6), the side at the big tie-strut of level type (6) middle part matches with roller axostylus axostyle (26), the upward middle part binding of the top of level type draw-bar (17) and the big tie-strut of level type (6) and rack wheel central shaft (3) the mobility binding that upward is provided with center of gravity eccentric loading rack wheel (2); Draught wheel (20) is gone up the draught wheel central shaft (21) that is provided with and is matched with the bottom of level type draw-bar (17); The binding that is complementary each other of weight (14), ramuscule strut bar (15), little drag-line (16) is set on weight band (13); High road (22), high road strut rod (23), low road (24) are set on level type draw-bar (17); Match with the external diameter rollability activity of preceding half wheel of center of gravity eccentric loading wheel (1) in the inboard of weight band (13), many fulcrum member (30) is set on the big tie-strut of level type (6); The tractive force balance vertical configuration arm beam of steelyard (29) is set on the big tie-strut of level type (6), the stage casing of the top of the tractive force balance vertical configuration arm beam of steelyard (29) and the big tie-strut of level type (6) is connected, the top of the tractive force balance vertical configuration arm beam of steelyard (29) and rack wheel central shaft (3) mobility link, and the following stage casing of the bottom of the tractive force balance vertical configuration arm beam of steelyard (29) and the big tie-strut of level type (6) links; Many fulcrum member (30) mobility binding each other is set on the big tie-strut of level type (6); The fulcrum member (30) of each that is provided with on the body of rod of the big tie-strut of level type (6), one side of its fulcrum member (30) links with the body of rod mobility of the big tie-strut of level type (6), and the front portion of the another side of fulcrum member (30) and the little draw-bar of level type (28) is connected and is integrated; Level type draw-bar (17) can be interconnected by many little draw-bar of level type (28) and form; Many the little draw-bar of level type (28) is set on level type draw-bar (17), the upper end of the little draw-bar of level type (28) that level type draw-bar (17) top is provided with and top steamboat (4) are gone up top steamboat central shaft (5) mobility that is provided with and are linked, and the bottom of level type draw-bar (17) is gone up the draught wheel central shaft (21) that is provided with draught wheel (20) and matched; Two-wheel is set on rack wheel central shaft (3) connects tractive support (31), two ends and rack wheel central shaft (3) that two-wheel connects the top of tractive support (31) link; On the bottom that two-wheel connects tractive support (31) and the draught wheel (20) draught wheel central shaft (21) being set matches; Be provided with on the level type draw-bar (17) that head that many little draw-bars of level type (28) are carrying out repeatedly interconnects with tail and a tail and an arrangement that interconnects after, two-wheel is set on two rack wheel central shafts (3) connects tractive support (31), two-wheel connect tractive support (31) top the rear and front end respectively with the binding that is complementary each other of former and later two rack wheel central shaft (3); The connecting state that is complementary that two the lower end that two-wheel connects tractive support (31) can be done to draw with former and later two draught wheel central shaft (21) respectively each other; After the mobility of the tractive force balance vertical configuration arm beam of steelyard (29) and rack wheel central shaft (3) links, after the power that bear power of bearing at the top of the tractive force balance vertical configuration arm beam of steelyard (29) and bottom balanced each other, the tractive force balance vertical configuration arm beam of steelyard (29) was the plumbness of vertical line (27); The big tie-strut of level type (6) is being transfused to the plumbness that is the equilibrium of forces of vertical line (27) after applying active force, two segment distances in the force of on the big tie-strut of level type (6), being born, when hypomere is longer than epimere, center of gravity eccentric loading wheel (1) is in operation, behind potential energy, promptly be the state of the other end bottom traction institute's energy requirement small (18) of traction gear less than the other end top traction institute's energy requirement huge (19) with center of gravity off-centre.
6. according to claim 4 or the described artificial planet engine main part device of claim 5, it is characterized in that: many same equidistant weights (14) are set in weight band (13), ramuscule strut bar (15), little drag-line (16) matches each other, one end of ramuscule strut bar (15) is connected the other end with weight (14) and weight band (13) mobility links, one end of little drag-line (16) is connected the other end and ramuscule strut bar (15) with weight band (13) a end links, or an end of little drag-line (16) is connected the binding of the other end and weight band (13) with weight (14); The top of the bottom in high road (22) and high road strut rod (23) links and reinforces and is integrated; The external diameter wheel face of center of gravity eccentric loading rack wheel (2) contacts with road, the top face rollability of Gao Dao (22) and matches, the external diameter wheel face of draught wheel (20) contacts with road, the top face rollability of low road (24) and matches, and the external diameter of steamboat (10), synchronous bull wheel (11) matches with the inboard rollability activity of synchronous band (12) respectively synchronously; The external diameter of roller (25) and center of gravity eccentric loading wheel (1) later half taken turns inboard outside diameter wall rollability and contacted and match, after roller (25), roller axostylus axostyle (26), the big tie-strut of level type (6), center of gravity eccentric loading are taken turns matching of (1), rack wheel central shaft (3), can make later half external diameter of taking turns that center of gravity eccentric loading wheel (1) is in operation constantly laterally direction tilt significantly, the external diameter that can make preceding half wheel that center of gravity eccentric loading wheel (1) is in operation constantly to the inside direction tilt significantly; The external diameter of center of gravity eccentric loading wheel (1) matches with the inboard rollability activity of weight band (13), the external diameter of top steamboat (4) matches with the inside top rollability activity of weight band (13), and the external diameter of following square wheel (8) matches with the lower inside rollability activity of weight band (13); The mode of forming level type draw-bar (17) that interconnects of its little draw-bar of level type (28) of many is: the head of the afterbody of the little draw-bar of Last level type (28) and the little draw-bar of Next level type (28) is connected---and tail connects with a mobility; Being that the head of the little draw-bar of Next level type (28) and the afterbody of the little draw-bar of Last level type (28) link---head connects with the tail mobility; The afterbody of the little draw-bar of Next level type (28) is with the head binding of the little draw-bar of Next level type (28)---tail connects with a mobility again.
CN200910049553A 2009-04-17 2009-04-17 Artificial planet engine main part device Pending CN101865093A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113153678A (en) * 2021-03-08 2021-07-23 陈明 Main body device of strong-rotation acting force-bearing machine with single-side extreme-weight and light-side
CN113931813A (en) * 2020-07-14 2022-01-14 暴玉坤 Gravity combined generator set

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113931813A (en) * 2020-07-14 2022-01-14 暴玉坤 Gravity combined generator set
CN113153678A (en) * 2021-03-08 2021-07-23 陈明 Main body device of strong-rotation acting force-bearing machine with single-side extreme-weight and light-side

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