CN105863738A - Radial compensating mechanism and device applying same - Google Patents

Abstract

The invention discloses a radial compensating mechanism, which comprises a drive shaft and a sleeving structure body, wherein the sleeving structure body is arranged outside the drive shaft in a sleeving and rotating way; a rotating axis of the sleeving structure body and an axis of the drive shaft are arranged in a non-collinear way; the drive shaft is arranged to be a non-eccentric shaft type drive shaft. The invention furthermore comprises a device applying the radial compensating mechanism. According to the radial compensating mechanism disclosed by the invention, the radial compensating can be satisfied, meanwhile, the friction loss is effectively reduced, the efficiency is improved, the service life is prolonged, and the reliability of the device applying the radial compensating mechanism is effectively improved.

Description

Radial compensating mechanism and device thereof

Technical field

The present invention relates to heat energy and dynamic field, be specifically related to radial compensating mechanism and apply its device.

Background technology

Either hydraulic mechanism or some control device be required for radial compensation, although have radial compensation fluid The corresponding mechanism such as mechanism occurs, but the angle of friction of these mechanisms is less causes bigger friction loss, because of This needs invent a kind of novel radial compensating mechanism and apply its device.

Summary of the invention

In order to solve the problems referred to above, the technical scheme that the present invention proposes is as follows:

Scheme 1: a kind of radial compensating mechanism, including drive shaft and sleeve structure body, described sleeve structure body Set turn is arranged on outside described drive shaft, and the pivot center of described sleeve structure body is non-with the axis of described drive shaft Conllinear is arranged, and described drive shaft is set to non-eccentricity shaft type drive shaft.

Scheme 2: a kind of radial compensating mechanism, including drive shaft and sleeve structure body, described sleeve structure body Set turn is arranged on outside described drive shaft, and described axis A is arranged with the rotation axis non-colinear of described drive shaft, Described sleeve structure body is rotated by described axis A and arranges, and described drive shaft is set to eccentric shaft, described axis A Arrange with the centrage non-colinear of the eccentric part of described eccentric shaft.

Scheme 3: a kind of radial compensating mechanism, including drive shaft and sleeve structure body, described sleeve structure body Set turn is arranged on outside described drive shaft, arranges axis A, described axis A and drive with described in described drive shaft The rotation axis non-colinear of moving axis is arranged, and described sleeve structure body is rotated by described axis A and arranges, described in drive Moving axis is set to eccentric shaft, and described axis A is arranged with the centrage non-colinear of the eccentric part of described eccentric shaft.

Scheme 4: the device of radial compensating mechanism described in either a program in a kind of application scheme 1 to 3, described Radial compensating mechanism is arranged in cylinder, and is equipped with the medial surface of described cylinder.

Scheme 5: the device of radial compensating mechanism described in either a program in a kind of application scheme 1 to 3, in institute State the installing of radial compensating mechanism overcoat and put working medium movement parts.

Scheme 6: on the basis of scheme 5, makes described working medium movement parts be set to three-apexed rotor fluid further Mechanism, rotary polygonal piston engine, two-angle rotor hydraulic mechanism, two-angle rotor engine, polygonal rotor fluid Mechanism, polygonal rotary engine, rolling-rotor hydraulic mechanism, rolling piston hydraulic mechanism, swing-rotor stream Body mechanism, rotating fluid mechanism or turn the piston of cylinder rolling piston hydraulic mechanism.

Scheme 7: on the basis of scheme 5, makes described working medium movement parts be set to scroll fluid mechanism further Scroll plate.

Scheme 8: the device of radial compensating mechanism described in either a program in a kind of application scheme 1 to 3, described Radial compensating mechanism is equipped with air valve controller for IC engine, and described air valve controller for IC engine is by institute State radial compensating mechanism control.

Scheme 9: the device of radial compensating mechanism described in either a program in a kind of application scheme 1 to 3, in institute State the installing of radial compensating mechanism overcoat and put attached sleeve structure body, described attached sleeve structure body and internal combustion engine gas Gate control mechanism is equipped with, and described air valve controller for IC engine is through described attached sleeve structure body.

In the present invention, so-called " sleeve structure body " and " attached sleeve structure body " is all sleeve structure body, Title difference is intended merely to distinguish and defined.

In the present invention, described drive shaft is optionally set to eccentric shaft or is set to non-eccentricity axle.

In the present invention, can arrange between described drive shaft and described sleeve structure body according to actual needs and make institute State the elastomer that sleeve structure body relative drive shaft rotates.

In the present invention, so-called " centrage of the eccentric part of eccentric shaft " refers to through described eccentric shaft transversal The midpoint of farthest 2 lines of air line distance on face, and it is parallel to the line of the axis of described drive shaft.

In the present invention, according to heat energy, the known technology of dynamic field, necessity should be set in necessary place Parts, unit or system etc..

Inventors believe that, celestial body mutually moves and necessarily leads to gravitational interaction, and gravitational interaction is inevitable Produce material flowing and/or object deformation, owing to material flowing and object deformation are irreversible process, i.e. Being the process producing heat, therefore the flowing of the material under gravitational field effect and object deformation necessarily lead to heat Amount, the heat that this form produces necessarily consumes the kinetic energy of celestial body, As time goes on, through very long Process, sky cognition gradually loses kinetic energy, final sky cognition mutually merging (or mutually phagocytosis), final universe Forming a particle, the temperature and pressure of this particle all can be ramping up, thus formed violent blast (by It is ramping up also causing chemical reaction and nuclear reaction in temperature and pressure), blast re-forms celestial bodies motion State, even if celestial body has kinetic energy, forms mutual relative motion and interaction again between celestial body, enter Next circulation.It can be considered that the existence in universe is a thermodynamic cyclic process with development in fact.This The essence of the process of kind can be summarised as " you invite me, and I am the most certain swallows you " simple, understandablely, thus may be used See, there is its final final result of main body the most mutually phagocytosis of alternating action, mutually merge.

The present inventor thinks according to thermodynamic (al) ultimate principle and the observation to universe phenomenon: do not having outside On the premise of factor impact, heat can not absolutely be converted into other any type of energy or material. Conventional thermal mechanics second law only elaborating, heat can not percent on the premise of not having external factor impact The conversion success of hundred, this law is correct, but is unilateral.Can be fixed by heat with popular language Justice is the minimum form of energy, or referred to as this is the rubbish in universe.Through analyzing, the present inventor is additionally considered that: The growth course of any biology (animal, plant, microorganism, virus and antibacterial) is all heat release.Through dividing Analysis, the present inventor is additionally considered that: any one process or any one circulation (be not limited to thermodynamic process, Such as chemical reaction process, biochemical reaction process, photochemical reaction process, biological growth process, plant Thing growth course is included) its maximum acting ability conservation, inventors believe that the most photosynthetic Growing process can not improve its acting ability, say, that the acting ability of bean sprout is impossible The acting ability sum of its nutrient absorbed is added higher than the acting ability of bean or pea；Why the doing of one tree wood Function power is greater than the acting ability of seedling, be because sunlight with photosynthetic form take part in by seedling to The growth course of trees.

Present inventors believe that the basic logic that heat engine works be restrain-be heated-dissipate.So-called convergence is working medium The increase process of density, such as condense, compress and all belong to convergence process, under same pressure, temperature is low Working medium degree of convergence big；It is exactly the endothermic process of working medium that what is called is heated；What is called dissipates the density referring to working medium The process reduced, such as, expand or spray.Any one dissipates process all can form the reduction of acting ability, Such as, the acting ability of the air of gaseous state will be well below the acting ability of liquid air；During methanol plus water adds Equitemperature be thermally generated carbon monoxide and hydrogen, although the carbon monoxide generated and the combustion heat of hydrogen are more than The combustion heat about 20% of methanol, but its acting ability is the most very little more than the ratio of the acting ability of methanol, Although its reason is this process and has inhaled the heat of about 20%, but the sending out of product carbon monoxide and hydrogen Scattered degree is far longer than methanol.Therefore, it is to have no idea effectively that the physochlaina infudibularis utilizing temperature the highest adds chemical reaction Improve the acting ability of product.

It is known that in economics, Nobel was all authorized in the research to information asymmetry and information symmetrical Prize, it is seen that 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 inventors believe that, patent has information zero symmetry, i.e. hands over Easily the true value of patent is all known little about it by both sides.Patent information zero symmetric properties, if do not cracked, operation It is difficulty with.Information zero symmetry of patent determines science and the complexity of patent operation.Common business In product transaction, information asymmetry may advantageously facilitate transaction, improves profit.And for patent, the most not With, patent needs to solve technical problem, and the value of patent is quickly known 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, solves special Profit information zero AXIALLY SYMMETRIC PROBLEMS, making both parties' information symmetrical on high level is the basic work of patent operation enterprise Make.

Beneficial effects of the present invention is as follows: radial compensating mechanism disclosed in this invention can be mended in satisfied radial direction While repaying, and efficiently reduce friction loss, improve efficiency, increase the service life, effectively promote application The reliability of its device.

Accompanying drawing explanation

Shown in Fig. 1 is the structural representation of the embodiment of the present invention 1；

Shown in Fig. 2 to Figure 13 is the structural representation of the embodiment of the present invention 2；

Shown in Figure 14 is the structural representation of the embodiment of the present invention 3；

Figure 15 is to shown in 18 being the structural representation of the embodiment of the present invention 4；

Shown in Figure 19 is the structural representation of the embodiment of the present invention 5；

Shown in Figure 20,21,22 is the structural representation of the embodiment of the present invention 6；

Shown in Figure 23 is the structural representation of the embodiment of the present invention 7；

Shown in Figure 24,25,26,27 is the structural representation of the embodiment of the present invention 8；

Shown in Figure 28 is the structural representation of the embodiment of the present invention 9；

Figure 29, shown in 30 it is the structural representation of the embodiment of the present invention 10；

In figure:

1 drive shaft, 2 sleeve structure bodies, 3 axis A, 4 rotation axiss, 5 cylinders, 6 working medium movement parts, 7 air valve controller for IC engines, 7.1 spring tappets, 8 attached sleeve structure bodies.

Detailed description of the invention

Embodiment 1

Radial compensating mechanism as shown in Figure 1, including drive shaft 1 and sleeve structure body 2, described suit knot Structure body 2 set turn is arranged on outside described drive shaft 1, the pivot center of described sleeve structure body 2 and described driving The axis non-colinear of axle 1 is arranged, and described drive shaft 1 is set to non-eccentricity shaft type drive shaft.

Embodiment 2

Radial compensating mechanism as shown in Fig. 2 to Figure 13, including drive shaft and sleeve structure body, described set Assembling structure body set turn is arranged on outside described drive shaft, described axis A and the rotation axis non-co-of described drive shaft Line is arranged, and described sleeve structure body is rotated by described axis A and arranges, and described drive shaft is set to eccentric shaft, institute State the centrage non-colinear setting of axis A and the eccentric part of described eccentric shaft.Wherein Fig. 4, Fig. 5, Fig. 6, Shown in Fig. 7, Figure 12, Figure 13 is that described axis A is located in described drive shaft.

As the embodiment that can convert, the present embodiment is also selectively chosen and includes such as Fig. 2, figure 3, the described axis A 3 shown in Fig. 8, Fig. 9, Figure 10, Figure 11 is located at outside described drive shaft, and this reality Execute other embodiments that can also include in example in addition to illustrating shown in above-mentioned.

As the embodiment that can convert, the present embodiment is also selectively chosen and includes such as Fig. 2, figure 4, the described rotation axis shown in Fig. 6, Fig. 8, Figure 10, Figure 12, described axis A, sleeve structure body The intersection point non-colinear of geometric center lines three and same cross section arrange, as Fig. 3, Fig. 5, Fig. 7, Fig. 9, Shown in Figure 11, Figure 13 is described rotation axis, described axis A, the geometric center lines of sleeve structure body Three is arranged with the intersection point conllinear of same cross section.

Embodiment 3

The device of radial compensating mechanism described in Application Example 1 as shown in figure 14, described radial compensation machine Structure is arranged in cylinder 5, and is equipped with the medial surface of described cylinder 5.

Embodiment 4

The device of radial compensating mechanism described in Application Example 2 as shown in figure 15, described radial compensation machine Structure is arranged in cylinder 5, and is equipped with the medial surface of described cylinder 5.

As the embodiment that can convert, the present embodiment is also selectively chosen and includes Figure 16, figure 17, the embodiment shown in Figure 18.

Embodiment 5

The device of radial compensating mechanism described in Application Example 1 as shown in figure 19, at described radial compensation Working medium movement parts 6 is put in mechanism's overcoat installing.

In the present embodiment, it is selectively chosen and makes working medium movement parts 6 can be equipped with cylinder.

Embodiment 6

The device of radial compensating mechanism described in Application Example 2 as shown in figure 20, at described radial compensation Working medium movement parts 6 is put in mechanism's overcoat installing.

As the embodiment that can convert, the present embodiment is also selectively chosen and includes Figure 21, figure Embodiment shown in 22.

All can the most optionally make as in the embodiment that can convert, embodiment 5 or embodiment 6 Described working medium movement parts 6 is set to three-apexed rotor hydraulic mechanism, rotary polygonal piston engine, two-angle rotor fluid machine Structure, two-angle rotor engine, polygonal rotor fluid mechanism, polygonal rotary engine, rolling-rotor fluid machine Structure, rolling piston hydraulic mechanism, swing-rotor hydraulic mechanism, rotating fluid mechanism or turn cylinder rolling piston The piston of hydraulic mechanism or described working medium movement parts 6 are set to the scroll plate of scroll fluid mechanism.

In the present embodiment, it is selectively chosen and makes working medium movement parts 6 be equipped with cylinder.

Embodiment 7

The device of radial compensating mechanism described in Application Example 1 as shown in figure 23, described radial compensation machine Structure is equipped with air valve controller for IC engine 7, and described air valve controller for IC engine 7 is by described radial direction Compensation mechanism controls.

In the present embodiment, described radial compensating mechanism contacts with spring tappet 7.1, thus controls closing of valve Close, it is possible to optionally select to make described sleeve structure body be set to cam face and contact with spring tappet 7.1.

Embodiment 8

The device of radial compensating mechanism described in Application Example 2 as of fig. 24, described radial compensation machine Structure is equipped with air valve controller for IC engine 7, and described air valve controller for IC engine 7 is by described radial direction Compensation mechanism controls.

As the embodiment that can convert, the present embodiment is also selectively chosen and includes Figure 25, figure 26, the embodiment shown in Figure 27.

In the present embodiment, described radial compensating mechanism contacts with spring tappet 7.1, thus controls closing of valve Close, it is possible to optionally select to make described sleeve structure body be set to cam face and contact with spring tappet 7.1.

Embodiment 9

The device of radial compensating mechanism described in Application Example 1 as shown in figure 28, at described radial compensation Attached sleeve structure body 8 is put in mechanism's overcoat installing, and described attached sleeve structure body 8 controls with engine valve Mechanism 7 is equipped with, and described air valve controller for IC engine 7 is through described attached sleeve structure body 8.

As the embodiment that can convert, described in the present embodiment, attached sleeve structure body optionally selects Select and be set to cam structure or be set to the sleeve structure body that can complete to control valve closure.

In the present embodiment, described attached sleeve structure body contacts with spring tappet 7.1, thus controls valve Guan Bi, it is possible to optionally select to make described sleeve structure body be set to cam face and contact with spring tappet 7.1.

Embodiment 10

The device of radial compensating mechanism as described in Figure 29, the Application Example 2 shown in 30, in described radial direction Attached sleeve structure body 8, described attached sleeve structure body 8 and engine valve are put in the installing of compensation mechanism overcoat Controlling organization 7 is equipped with, and described air valve controller for IC engine 7 is through described attached sleeve structure body 8.

As the embodiment that can convert, described in the present embodiment, attached sleeve structure body optionally selects Select and be set to cam structure or be set to the sleeve structure body that can complete to control valve closure.

In the present embodiment, described attached sleeve structure body contacts with spring tappet 7.1, thus controls valve Guan Bi, it is possible to optionally select to make described sleeve structure body be set to cam face and contact with spring tappet 7.1.

As the embodiment that can convert, the present invention all can select in all described embodiments further Property ground select make described drive shaft be set to eccentric shaft or be set to non-eccentricity axle.

As the embodiment that can convert, the present invention all can select in all described embodiments further Property ground select to make described axis A 3 be located in described drive shaft or described axis A 3 is located at outside described drive shaft.

It is clear that the invention is not restricted to above example, according to techniques known and presently disclosed Technical scheme, can derive or association goes out many flexible programs, all these flexible programs, also should recognize For being protection scope of the present invention.

Claims (9)

1. a radial compensating mechanism, it is characterised in that: include drive shaft (1) and sleeve structure body (2), Described sleeve structure body (2) set turn is arranged on described drive shaft (1) outward, described sleeve structure body (2) The axis non-colinear of pivot center and described drive shaft (1) arrange, described drive shaft (1) be set to non-partially Mandrel formula drive shaft.

2. a radial compensating mechanism, it is characterised in that: include drive shaft (1) and sleeve structure body (2), Described sleeve structure body (2) set turn is arranged on described drive shaft (1) outward, and described axis A (3) is with described Rotation axis (4) non-colinear of drive shaft (1) is arranged, and described sleeve structure body (2) presses described axis A (3) rotating setting, described drive shaft (1) is set to eccentric shaft, described axis A (3) and described eccentric shaft Eccentric part centrage non-colinear arrange.

3. a radial compensating mechanism, it is characterised in that: include drive shaft (1) and sleeve structure body (2), Described sleeve structure body (2) set turn is arranged on described drive shaft (1) outward, in described drive shaft (1) Rotation axis (4) non-colinear of axis A (3), described axis A (3) and described drive shaft (1) is set Arranging, described sleeve structure body (2) is rotated by described axis A (3) and arranges, and described drive shaft (1) sets For eccentric shaft, described axis A (3) is arranged with the centrage non-colinear of the eccentric part of described eccentric shaft.

4. apply a device for radial compensating mechanism according to any one of claims 1 to 3, its feature It is: in described radial compensating mechanism is arranged on cylinder (5), and joins with the medial surface of described cylinder (5) Close and arrange.

5. apply a device for radial compensating mechanism according to any one of claims 1 to 3, its feature It is: put working medium movement parts (6) in the installing of described radial compensating mechanism overcoat.

6. device as claimed in claim 5, it is characterised in that: described working medium movement parts (6) is set to triangle and turns Subflow body mechanism, rotary polygonal piston engine, two-angle rotor hydraulic mechanism, two-angle rotor engine, polygonal turn Subflow body mechanism, polygonal rotary engine, rolling-rotor hydraulic mechanism, rolling piston hydraulic mechanism, swing Rotor fluid mechanism, rotating fluid mechanism or turn the piston of cylinder rolling piston hydraulic mechanism.

7. device as claimed in claim 5, it is characterised in that: described working medium movement parts (6) is set to vortex flow The scroll plate of body mechanism.

8. apply a device for radial compensating mechanism according to any one of claims 1 to 3, its feature It is: described radial compensating mechanism is equipped with air valve controller for IC engine (7), described internal combustion engine gas Gate control mechanism (7) is controlled by described radial compensating mechanism.

9. apply a device for radial compensating mechanism according to any one of claims 1 to 3, its feature It is: put attached sleeve structure body (8), described attached suit knot in the installing of described radial compensating mechanism overcoat Structure body (8) is equipped with air valve controller for IC engine (7), described air valve controller for IC engine (7) Through described attached sleeve structure body (8).