CN105134749A - Three-structure-integrated eccentric shaft - Google Patents
Three-structure-integrated eccentric shaft Download PDFInfo
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- CN105134749A CN105134749A CN201510511655.XA CN201510511655A CN105134749A CN 105134749 A CN105134749 A CN 105134749A CN 201510511655 A CN201510511655 A CN 201510511655A CN 105134749 A CN105134749 A CN 105134749A
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Abstract
The invention discloses a three-structure-integrated eccentric shaft which comprises a rotary shaft and eccentric bodies. The three eccentric bodies are arranged in the same axis direction. The phase difference between two adjacent eccentric bodies in the circumferential direction is 120 degrees. The structure formed when the middle eccentric body is located at the upper portion, the near eccentric body is located at the lower left portion, and the far eccentric body is located at the lower right portion is defined as an alpha-type eccentric set. The structure formed when the middle eccentric body is located at the upper portion, the near eccentric body is located at the lower right portion, and the far eccentric body is located at the lower left portion is defined as a beta-type eccentric set. On the rotary shaft, the alpha-type eccentric set and the beta-type eccentric set are arranged alternately, and the phase difference between the eccentric body in the middle of the alpha-type eccentric set and the adjacent eccentric body in the middle of the beta-type eccentric set is 180 degrees. The three-structure integrated eccentric shaft is adopted in a volume-type variable critical fluid mechanism so that the live volume of the unit volume and weight can be effectively increased and efficiency can be improved.
Description
Technical field
The present invention relates to heat energy and dynamic field, especially a kind of three structure one eccentric shafts.
Background technique
Can not the local equilibrium problem with the running shaft of multiple eccentric body balanced be insoluble, therefore need to invent a kind of Novel balance eccentric shaft.
Summary of the invention
In order to solve the problem, the technological scheme that the present invention proposes is as follows:
Scheme 1: a kind of three structure one eccentric shafts, comprise unit rotating shaft, described unit rotating shaft is provided with three eccentric bodies, these three described eccentric bodies are in diverse location in the axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree, and the described unit rotating shaft being provided with three described eccentric bodies is defined as unit eccentric shaft; When middle described eccentric body is in top, described eccentric body is nearby in left bottom, described eccentric body is at a distance in lower right, then described unit eccentric shaft is defined as α type unit eccentric shaft, when middle described eccentric body is in top, described eccentric body is nearby in lower right, and described eccentric body is at a distance in left bottom, then described unit eccentric shaft is defined as β type unit eccentric shaft; Described α type unit eccentric shaft and described β type unit eccentric shaft coaxial line are alternately connected and arrange and phase difference between the described eccentric body of the centre of the described eccentric body of the centre of described α type unit eccentric shaft and described β type unit eccentric shaft adjacent with it deposits inclined 180 degree.
Scheme 2: a kind of three structure one eccentric shafts, comprise rotating shaft and eccentric body, arrange three described eccentric bodies by same axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree; When middle described eccentric body is in top, described eccentric body is nearby in left bottom, it is the eccentric group of α type that described eccentric body is at a distance in bottom-right organization definition, when middle described eccentric body is in top, described eccentric body is nearby in lower right, and the organization definition that described eccentric body is at a distance in left bottom is the eccentric group of β type; In described rotating shaft, described α type bias group and the eccentric group of described β type are arranged alternately, and the phase difference between the described eccentric body of the described eccentric body of the centre of described α type bias group and the centre of described β type bias group adjacent with it deposits inclined 180 degree.
Scheme 3: on the basis of scheme 1 or 2, the eccentric body on make described eccentric body be set to further eccentric shaft that volume type becomes in boundary hydraulic mechanism.
In the present invention, so-calledly deposit inclined X degree and refer to X to be benchmark, (X-45) scope between degree to (X+45) degree, such as, the phase difference of A and B is deposited inclined X degree and is referred to that the scope of the phase difference of the phase place of A and the phase place of B is between (X-45) spends and to spend to (X+45).
In the present invention, so-called " volume type become boundary hydraulic mechanism " refers to the volume type hydraulic mechanism that surface that all fluids enter the movement parts in district and fluid flow out the different and movement parts in the surface of the movement parts in district and rotate, that is, so-called " volume type becomes boundary's hydraulic mechanism " is all the volume type hydraulic mechanism being formed volume-variation by rotating motion part, such as, sliding vane pump, sliding vane mechanism (such as, sliding-vane compressor or sliding vane type expander), eccentric rotor mechanism (such as, eccentric rotor compressor or eccentric rotor decompressor), liquid-ring mechanism (such as, liquid-piston compressor or liquid-ring decompressor), roots-type mechanism (such as, Roots Compressor or roots-type decompressor), screw-type mechanism (such as, screw compressor or screw type expansion machine), rotary-piston type mechanism (such as, rolling piston compressor or rotary-piston type decompressor), rolling-piston-type mechanism (such as, rolling piston compressor or rolling-piston-type decompressor), swing-rotor type mechanism (such as, swinging rotor type compressor or swing-rotor type decompressor), single active chamber sliding vane mechanism (such as, single active chamber sliding-vane compressor or single active chamber sliding vane type expander), Double working chamber slide sheet type mechanism (such as, Dual-cavity sliding vane type compressor or Double working chamber slide sheet type decompressor), penetration slipping sheet formula mechanism (such as, penetration slipping sheet formula compressor or penetration slipping sheet formula decompressor), gear fluids mechanism (such as, gear compressor or gear decompressor) and Zhuan Gang rolling piston mechanism is (such as, turn cylinder rolling piston compressor or turn cylinder rolling piston expander) etc.Described volume type becomes boundary's hydraulic mechanism and optionally selects to comprise cylinder, slider and cylinder inner rotary body, and complements each other to form the mechanism of volume-variation by described cylinder, described slider and described cylinder inner rotary body three.
In the present invention, according to the known technology of heat energy and dynamic field, necessary parts, unit or system etc. should be set in the place of necessity.
The present inventor thinks, momentum conservation law and law of conservation of angular momentum incorrect, such as hang in skyborne box at one and set up a jet pipe, spray from east to west, the working medium of jet pipe ejection hits an impeller on the inwall of box west side, at this moment impeller can rotate, and whole box can move eastwards, for box, any effect is not implemented to it in outside, all things all occur in cassette interior, and therefore momentum conservation law is incorrect; The disk that two identical in quality, shape is identical is had to be suspended in the air, two disks are adjacent and can rotate according to the axle center of oneself, two disks are rotated with same speed round about, the moment of momentum of a disk is+A, the moment of momentum of another disk is-A, the momentum of the system be made up of two disks is like this zero, the external world almost can make one of them disk overturn with zero cost, the moment of momentum of the system that such two disks are formed then or be+2A,-2A, moment of momentum non-conservation as can be seen here.
The present inventor thinks, the essence of Corioliseffect is formed because of moment of momentum non-conservation.
The present inventor thinks, another example of moment of momentum non-conservation is: when a people is from the heart far away of a rotating disc to nearly heart place walking, the rotation function of system can be made to increase, but when this person jumps to the heart place far away of rotating disc from the nearly heart of rotating disc, the rotating speed of rotating disc can reduce, but because intrasystem rotation function is larger, the rotating speed of rotating disc can not be reduced to original state, and should be that (namely this person is by when starting to nearly heart place walking at original rotating speed, the rotating speed of rotating disc) and this person reaches the described nearly heart place time rotating disc rotating speed between certain rotating speed, the moment of momentum of such system just adds.
The present inventor thinks, celestial body mutually moves and certainly leads to gravitational interaction, gravitational interaction certainly leads to flow of matter and/or object deformation, because flow of matter and object deformation are irreversible process, namely the process producing heat is, therefore the flow of matter under gravity field effect and object deformation certainly lead to heat, the heat that this form produces must consume the kinetic energy of celestial body, As time goes on, through very long process, it cognition loses kinetic energy gradually, merging (or mutually engulfing) is mutually known from experience in final sky, final universe forms a particle, the temperature and pressure of this particle all can acutely rise, thus form violent blast (also can cause chemical reaction and nuclear reaction because temperature and pressure acutely rises), blast forms celestial bodies motion state again, even if celestial body has kinetic energy, mutual relative movement and interaction is again formed between celestial body, enter next circulation.Therefore can think that the existence in universe is a thermodynamic cyclic process with development in fact.The essence of this process can be summarised as simple, understandablely " you invite me, and I just necessarily engulfs you ", and as can be seen here, its final final result of main body that there is alternating action is exactly mutually engulf, mutually merge.
The present inventor thinks according to thermodynamic (al) basic principle and on the observation of universe phenomenon: under the prerequisite affected not having external factor, and heat absolutely can not convert other any type of energy or material to.Only set forth in conventional heat second law under the prerequisite not having external factor to affect, heat can not absolutely be changed successfully, and this law is correct, but is unilateral.With popular language, heat can be defined as the minimum form of energy, or be the rubbish in universe referred to as this.By analysis, the present inventor also thinks: the growing process of any biology (animal, plant, microorganism, virus and bacterium) is all heat release.By analysis, the present inventor also thinks: any one process or any one circulation (are not limited to thermodynamic process, such as chemical reaction process, biochemical reaction process, photochemical reaction process, biological growth process, growing process are all included) its maximum acting ability conservation, the present inventor thinks does not have photosynthetic growing process can not improve its acting ability, that is, the acting ability of bean sprouts is the acting ability sum that impossible add its nutrient absorbed higher than the acting ability of bean or pea; Why the acting ability of one tree wood is greater than the acting ability of sapling, is because sunlight take part in by the growing process of sapling to trees with photosynthetic form.
The present inventor thinks: the basic logic of heat engine work be restrain-be heated-disperse.So-called convergence is the increase process of the density of working medium, and such as condensation, compression all belong to convergence process, and under same pressure, the working medium degree of convergence that temperature is low is large; It is exactly the endothermic process of working medium that what is called is heated; What is called disperses the process referring to that the density of working medium reduces, such as, expand or spray.Any one disperses the reduction that process all can form acting ability, and such as, the acting ability of the air of gaseous state will well below the acting ability of liquid air; The heat that methanol plus water adds moderate temperature generates carbon monoxide and hydrogen, although the carbon monoxide generated and the ignition heat of hydrogen are greater than the ignition heat about 20% of methyl alcohol, but the ratio that its acting ability is greater than the acting ability of methyl alcohol is then very little, although its reason is that this process has inhaled the heat of about 20%, the degree of divergence of resultant carbon monoxide and hydrogen is far longer than methyl alcohol.Therefore, utilizing the not high physochlaina infudibularis of temperature to add chemical reaction is the acting ability having no idea effectively to improve resultant.
As everyone knows, in economics, all authorized the Nobel Prize to the research of information asymmetry and information symmetrical, visible both parties have Determines transaction success or failure, the fairness of transaction and the profit of transaction of information.The essence of transaction is information trading in fact.For the present inventor thinks, patent has information zero symmetry properties, and namely the true value of both parties to patent is all known little about it.Patent information zero symmetric properties, if do not cracked, operation is difficult to realize.Information zero symmetry properties of patent determines science and the complexity of patent operation.In general goods transaction, information asymmetry is conducive to promoting transaction, improves profit.And for patent, then completely different, patent needs technical solution problem, the value of patent is known very soon in patent exploitation, so patent must be out-and-out, information zero is symmetrical and information asymmetry is inevitable all can seriously hinder patent operation, solution patent information zero AXIALLY SYMMETRIC PROBLEMS, makes both parties' information symmetrical on high level be the basic work of patent operation enterprise.
Beneficial effect of the present invention is as follows: three structure one eccentric shafts disclosed in the present invention can form the space of more wobbler action under the prerequisite of identical weight, same volume, becoming in boundary's hydraulic mechanism at volume type adopts three structure one eccentric shafts disclosed in this invention effectively can improve the volume alive of per unit volume and unit weight, and then raises the efficiency.
Accompanying drawing explanation
Fig. 1: described unit eccentric shaft is the structural representation of α type unit eccentric shaft;
The left view of Fig. 2: Fig. 1;
Fig. 3: described unit eccentric shaft is the structural representation of β type unit eccentric shaft;
The left view of Fig. 4: Fig. 3;
Fig. 5: the structural representation of embodiment 1;
Fig. 6: described unit eccentric shaft is the structural representation of α type bias group;
The left view of Fig. 7: Fig. 6;
Fig. 8: described unit eccentric shaft is the structural representation of β type bias group;
The left view of Fig. 9: Fig. 8;
Figure 10: the structural representation of embodiment 2;
Embodiment
Embodiment 1
A kind of three structure one eccentric shafts, as shown in Figure 5, comprise unit rotating shaft, described unit rotating shaft is provided with three eccentric bodies, these three described eccentric bodies are in diverse location in the axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree, and the described unit rotating shaft being provided with three described eccentric bodies is defined as unit eccentric shaft; When middle described eccentric body 21 is in top, described eccentric body 22 is nearby in left bottom, described eccentric body 23 is at a distance in lower right, then described unit eccentric shaft is defined as α type unit eccentric shaft 31 (as depicted in figs. 1 and 2), when middle described eccentric body 21 is in top, described eccentric body 22 is nearby in lower right, described eccentric body 23 is at a distance in left bottom, then described unit eccentric shaft is defined as β type unit eccentric shaft (as shown in Figure 3 and Figure 4); Described α type unit eccentric shaft 31 and described β type unit eccentric shaft 32 coaxial line are alternately connected and arrange and phase difference between the described eccentric body of the centre of the described eccentric body of the centre of described α type unit eccentric shaft 31 and described β type unit eccentric shaft 32 adjacent with it deposits inclined 180 degree.
Embodiment 2
A kind of three structure one eccentric shafts, as shown in Figure 10, comprise rotating shaft and eccentric body, arrange three described eccentric bodies by same axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree; When middle described eccentric body 21 is in top, described eccentric body 22 is nearby in left bottom, it is α type bias 33 (as shown in Figure 6 and Figure 7) of group that described eccentric body 23 is at a distance in bottom-right organization definition, when middle described eccentric body 21 is in top, described eccentric body 22 is nearby in lower right, and the organization definition that described eccentric body 23 is at a distance in left bottom is β type bias 34 (as shown in Figure 8 and Figure 9) of group; In described rotating shaft, described α type bias group 33 and described β type bias group 34 are arranged alternately, and the phase difference between the described eccentric body of the described eccentric body of the centre of described α type bias group 33 and the centre of described β type bias group 34 adjacent with it deposits inclined 180 degree.
Embodiment 3
A kind of three structures one eccentric shafts, on the basis of embodiment 1, the eccentric body on make described eccentric body be set to further eccentric shaft that volume type becomes in boundary's hydraulic mechanism.
As disposable mode of execution, the eccentric body on embodiment 2 also can optionally select to make described eccentric body to be set to further eccentric shaft that volume type becomes in boundary's hydraulic mechanism.
As disposable mode of execution, all embodiments of the present invention all optionally select to make the phase place between described two adjacent eccentric bodies to be set to 120 °, 135 °, 150 ° or be set to 160 °.
Obviously, the invention is not restricted to above embodiment, according to known technology and the technological scheme disclosed in this invention of related domain, can to derive or association goes out many flexible programs, all these flexible programs, also should think protection scope of the present invention.
Claims (3)
1. a structure one eccentric shaft, comprise unit rotating shaft, it is characterized in that: described unit rotating shaft is provided with three eccentric bodies, these three described eccentric bodies are in diverse location in the axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree, and the described unit rotating shaft being provided with three described eccentric bodies is defined as unit eccentric shaft; When middle described eccentric body (21) is in top, described eccentric body (22) is nearby in left bottom, described eccentric body (23) is at a distance in lower right, then described unit eccentric shaft is defined as α type unit eccentric shaft (31), when middle described eccentric body (21) is in top, described eccentric body (22) is nearby in lower right, described eccentric body (23) is at a distance in left bottom, then described unit eccentric shaft is defined as β type unit eccentric shaft; Described α type unit eccentric shaft (31) and described β type unit eccentric shaft (32) coaxial line are alternately connected and arrange and phase difference between the described eccentric body of the centre of the described eccentric body of the centre of described α type unit eccentric shaft (31) and described β type unit eccentric shaft (32) adjacent with it deposits inclined 180 degree.
2. three structure one eccentric shafts, comprise rotating shaft and eccentric body, it is characterized in that: arrange three described eccentric bodies by same axial direction, adjacent two described eccentric bodies phase difference in the circumferential deposits inclined 120 degree; When middle described eccentric body (21) is in top, described eccentric body (22) is nearby in left bottom, it is the eccentric group (33) of α type that described eccentric body (23) is at a distance in bottom-right organization definition, when middle described eccentric body (21) is in top, described eccentric body (22) is nearby in lower right, and the organization definition that described eccentric body (23) is at a distance in left bottom is the eccentric group (34) of β type; In described rotating shaft, the eccentric group (33) of described α type and the eccentric group (34) of described β type are arranged alternately, and the phase difference between the described eccentric body of the described eccentric body of the centre of the eccentric group (33) of described α type and the centre of the eccentric group (34) of described β type adjacent with it deposits inclined 180 degree.
3. three structures one eccentric shafts as claimed in claim 1 or 2, is characterized in that: described eccentric body is set to the eccentric body on eccentric shaft that volume type becomes in boundary hydraulic mechanism.
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CN201510511655.XA CN105134749B (en) | 2014-08-25 | 2015-08-19 | Three structure one eccentric shafts |
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CN201410422407 | 2014-08-25 | ||
CN201510511655.XA CN105134749B (en) | 2014-08-25 | 2015-08-19 | Three structure one eccentric shafts |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107543749A (en) * | 2016-06-29 | 2018-01-05 | 广州康昕瑞基因健康科技有限公司 | Blending instrument |
CN109686197A (en) * | 2018-12-28 | 2019-04-26 | 合肥磐石自动化科技有限公司 | A kind of energy conversion interaction tower science popularization device |
DE102022116197A1 (en) | 2022-06-29 | 2024-01-04 | Schaeffler Technologies AG & Co. KG | Orbital piston compressor with circumferentially offset cylinder assemblies and shaft-integrated bearing seats |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1299011A (en) * | 2000-09-30 | 2001-06-13 | 上海日立电器有限公司 | Multi-cylinder compressor and method for manufacturing accentric shaft |
DE10218922A1 (en) * | 2002-04-27 | 2002-11-07 | Christian Puchas | Crankshaft for ten-cylinder 100-120 degree V-engine has crank offset of respective crank pins in crank throws in direct dependence upon V-angle and derived from mathematical expression |
CN202001281U (en) * | 2011-03-06 | 2011-10-05 | 宁波祥瑞机械有限公司 | Eccentric shaft for water pump |
CN202545542U (en) * | 2012-03-30 | 2012-11-21 | 湖州鼎盛机械制造有限公司 | Engine crankshaft |
CN103727032A (en) * | 2013-12-16 | 2014-04-16 | 西安交通大学 | Low-back-pressure non-lubricating-oil rolling piston type refrigeration compressor |
CN103807174A (en) * | 2014-03-10 | 2014-05-21 | 吴月广 | Three-cylindrical rolling rotor type compressor |
-
2015
- 2015-08-19 CN CN201510511655.XA patent/CN105134749B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1299011A (en) * | 2000-09-30 | 2001-06-13 | 上海日立电器有限公司 | Multi-cylinder compressor and method for manufacturing accentric shaft |
DE10218922A1 (en) * | 2002-04-27 | 2002-11-07 | Christian Puchas | Crankshaft for ten-cylinder 100-120 degree V-engine has crank offset of respective crank pins in crank throws in direct dependence upon V-angle and derived from mathematical expression |
CN202001281U (en) * | 2011-03-06 | 2011-10-05 | 宁波祥瑞机械有限公司 | Eccentric shaft for water pump |
CN202545542U (en) * | 2012-03-30 | 2012-11-21 | 湖州鼎盛机械制造有限公司 | Engine crankshaft |
CN103727032A (en) * | 2013-12-16 | 2014-04-16 | 西安交通大学 | Low-back-pressure non-lubricating-oil rolling piston type refrigeration compressor |
CN103807174A (en) * | 2014-03-10 | 2014-05-21 | 吴月广 | Three-cylindrical rolling rotor type compressor |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107543749A (en) * | 2016-06-29 | 2018-01-05 | 广州康昕瑞基因健康科技有限公司 | Blending instrument |
CN109686197A (en) * | 2018-12-28 | 2019-04-26 | 合肥磐石自动化科技有限公司 | A kind of energy conversion interaction tower science popularization device |
DE102022116197A1 (en) | 2022-06-29 | 2024-01-04 | Schaeffler Technologies AG & Co. KG | Orbital piston compressor with circumferentially offset cylinder assemblies and shaft-integrated bearing seats |
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Effective date of registration: 20201023 Address after: Weier Road, automobile and motorcycle industrial zone, Yucheng street, Yuhuan City, Taizhou City, Zhejiang Province Patentee after: Yuhuan Tongli Auto Parts Co., Ltd Address before: 100101, Beijing, Chaoyang District Beiyuan Road, No. 168, Sheng Sheng building, 24 floor Patentee before: MOLECULE POWER BEIJING TECH Co. |