CN104895615A - Cylinder fluid mechanism and device comprising same - Google Patents

Abstract

The invention discloses a cylinder fluid mechanism and a device comprising the same. The cylinder fluid mechanism comprises a cylinder body, a rotor, an eccentric shaft and an isolator. The rotor is disposed in the cylinder body. The rotor is provided with a shaft hole. The eccentric shaft is disposed within the shaft hole. the rotor is provided with an isolator chute. The isolator is arranged in the isolator chute and one end of the isolator is hinged to the cylinder body. According to the invention, the cylinder fluid mechanism is simple in structure, good in sealing performance and high in working efficiency. An engine or a device, comprising the cylinder fluid mechanism, is good in sealing performance, high in working efficiency and long in service life.

Description

Cylinder body hydraulic mechanism and comprise its device

Technical field

The present invention relates to heat energy and dynamic field, particularly relate to a kind of cylinder body hydraulic mechanism, the invention still further relates to comprise described cylinder body hydraulic mechanism multiple stage fluid mechanism, motor and device.

Background technique

Total class of hydraulic mechanism (comprising gas mechanism and liquid mechanism) is a lot, but all exist working life short, reveal the problems such as serious, therefore, need to invent a kind of novel fluid mechanism.

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 cylinder body hydraulic mechanism, comprise cylinder body, rotor, eccentric shaft and slider, described rotor is arranged in described cylinder body, axis hole established by described rotor, described eccentric shaft is arranged in described axis hole, described rotor is established slider chute, and described slider to be arranged in described slider chute and one end and the hinged setting of described cylinder body.

Scheme 2: on the basis of scheme 1, makes the center line of described slider chute crossing with the center line of described rotor or non-intersect further.

Scheme 3: on the basis of scheme 1, described cylinder body hydraulic mechanism is made also to comprise attached cylinder body further, described attached cylinder body eccentric bushing dress is arranged on outside described cylinder body, described cylinder body is established attached slider chute, attached slider is set in described attached slider chute, described attached slider and the hinged setting of described attached cylinder body.

Scheme 4: on the basis of scheme 3, makes described attached cylinder body be set to static further, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

Scheme 5: in scheme 1 to 4 either a program basis on, make described cylinder body be set to further static, or be set to freedom, or be set to and drive by driving mechanism, or external outputting power.

Scheme 6: in scheme 1 to 5 either a program basis on, make described rotor be set to freedom further, or be set to and drive by driving mechanism, or external outputting power.

Scheme 7: in scheme 1 to 6 either a program basis on, make the end cap of described cylinder body be set to further static, or be set to freedom, or be set to and drive by driving mechanism, or external outputting power.

Scheme 8: in scheme 1 to 7 either a program basis on, described slider and the hinge axle center of the hinged setting of described cylinder body is made to be arranged on further identical circumferentially with the inwall circumference of described cylinder body, or be arranged on be greater than described cylinder body inwall circumference circumferentially, or be arranged on be less than described cylinder body inwall circumference circumferentially.

Scheme 9: in scheme 1 to 8 either a program basis on, described rotor is made to be set to positive circular solid of rotation further, a line of engagement is at least formed between the side of described positive circular solid of rotation and described rotating cylinder, described slider chute is set to non-through slider chute, non-through slider is set to, one end of described non-through slider and the hinged setting of described rotating cylinder at described slider; Described rotating cylinder arranges at least one in fluid input and fluid output, or at least one setting on described positive circular solid of rotation in fluid input and fluid output, or at least one in fluid input and fluid output is set on the end cap of described rotating cylinder; Described rotating cylinder rotates, described positive circular solid of rotation and described rotating cylinder rotating Vortex.

Scheme 10: in scheme 2 to 8 either a program basis on, described cylinder body is made to be set to rotating cylinder further, described rotor is set to positive circular solid of rotation, a line of engagement is at least formed between the side of described positive circular solid of rotation and described rotating cylinder, described slider chute is set to and runs through slider chute, describedly run through slider chute and described axis hole is non-intersect, described slider is set to and runs through slider, described in run through one end and the hinged setting of described rotating cylinder of slider; Described rotating cylinder arranges at least one in fluid input and fluid output, or at least one setting on described positive circular solid of rotation in fluid input and fluid output, or at least one in fluid input and fluid output is set on the end cap of described rotating cylinder; Described rotating cylinder rotates, described positive circular solid of rotation and described rotating cylinder rotating Vortex.

Scheme 11: on the basis of scheme 9 or 10, makes described end cap drive or the external outputting power of described end cap by driving mechanism further.

Scheme 12: on the basis of scheme 9, described non-through slider and the hinge axle center of the hinged setting of described rotating cylinder is made to be arranged on further identical circumferentially with the inwall circumference of described rotating cylinder, or be arranged on be greater than described rotating cylinder inwall circumference circumferentially, or be arranged on be less than described rotating cylinder inwall circumference circumferentially.

Scheme 13: on the basis of scheme 10, running through slider described in making further is arranged on identical circumferentially with the inwall circumference of described rotating cylinder with the hinge axle center of the hinged setting of described rotating cylinder, or be arranged on be greater than described rotating cylinder inwall circumference circumferentially, or be arranged on be less than described rotating cylinder inwall circumference circumferentially.

Scheme 14: in scheme 9 to 13 either a program basis on, make the radius of described rotating cylinder be less than further be multiplied by the long-pending of the radius of described positive circular solid of rotation.

Scheme 15: in scheme 9 to 14 either a program basis on, make described rotating cylinder drive by rotary drive mechanism further, or the external outputting power of described rotating cylinder.

Scheme 16: in scheme 1 to 15 either a program basis on, make further on described rotor, arrange slider chute described in two or more, at least two described slider settings hinged with described cylinder body respectively in all described sliders.

Scheme 17: in scheme 1 to 16 either a program basis on, make further to establish suction valve at the fluid input place of described cylinder body hydraulic mechanism.

Scheme 18: in scheme 1 to 17 either a program basis on, make further to establish outlet valve at the fluid outlet of described cylinder body hydraulic mechanism.

Scheme 19: in scheme 1 to 18 either a program basis on, make described rotor be set to semi-shaft type rotor further, at least one end non-penetrative of described semi-shaft type rotor is arranged in the end cap of described cylinder body.

Scheme 20: in scheme 1 to 19 either a program basis on, in described cylinder body, arrange compensation trip ring further, described compensation trip ring coordinates with described cylinder body, described trip ring and described rotor engagement.

Scheme 21: in scheme 1 to 20 either a program basis on, make described cylinder body hydraulic mechanism be set to liquor pump further, or be set to fluid motor, or be set to gas compression mechanism, or be set to gas expansion mechanism.

Scheme 22: a kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases successively.

Scheme 23: a kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces successively.

Scheme 24: a kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases successively or reduces successively, the fluid input of described cylinder body hydraulic mechanism is set to suction port, the fluid output of described cylinder body hydraulic mechanism is set to relief opening, the phase place of the described suction port of adjacent two described cylinder body hydraulic mechanism of adjustment serial communication and/or adjust the phase place of described relief opening of these two adjacent described cylinder body hydraulic mechanism, make to be in non-interconnected state between the described relief opening of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described suction port.

Scheme 25: a kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism is identical, the fluid input of described cylinder body hydraulic mechanism is set to liquid entering hole, the fluid output of described cylinder body hydraulic mechanism is set to liquid port, the phase place of the described liquid entering hole of adjacent two described cylinder body hydraulic mechanism of adjustment serial communication and/or adjust the phase place of described liquid port of these two adjacent described cylinder body hydraulic mechanism, make to be in non-interconnected state between the described liquid port of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described liquid entering hole.

Scheme 26: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, the fluid input of described cylinder body hydraulic mechanism is communicated with high-pressure working medium source through control valve.

Scheme 27: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively, and the working medium entrance of described multistage expansion unit is communicated with high-pressure working medium source.

Scheme 28: on the basis of scheme 25 or 26, makes described high-pressure working medium source be set to intermittent combustion room or be set to continuous combustion chambers further.

Scheme 29: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit is communicated with described multistage expansion unit through firing chamber.

Scheme 30: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit is communicated with described multistage expansion unit through firing chamber, and described multistage expansion unit is communicated with described multi-stage compression unit through heat extraction device.

Scheme 31: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit heater via is communicated with described multistage expansion unit, and described multistage expansion unit is communicated with described multi-stage compression unit through heat extraction device.

Scheme 32: in scheme 29 to 31 either a program basis on, make described multi-stage compression unit and described multistage expansion unit link further and arrange.

Scheme 33: a kind of motor comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, the fluid input of fluid output through firing chamber with same described cylinder body hydraulic mechanism of described cylinder body hydraulic mechanism is communicated with.

Scheme 34: a kind of device comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, the fluid input of described cylinder body hydraulic mechanism is communicated with the sender property outlet of velocity profile gas compressor.

Scheme 35: a kind of device comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, the do work working medium entrance of mechanism of fluid output and the velocity profile of described cylinder body hydraulic mechanism is communicated with.

Scheme 36: a kind of device comprising cylinder body hydraulic mechanism described in either a program in scheme 1 to 21, described in single described cylinder body hydraulic mechanism or two or more, cylinder body hydraulic mechanism serial communication forms a part for displacement type compressor structure, described in single described cylinder body hydraulic mechanism or two or more, cylinder body hydraulic mechanism serial communication forms a part for displacement type expander structure, the sender property outlet heater via of described displacement type compressor structure and/or the working medium entrance through firing chamber with described displacement type expander structure are communicated with, the working medium entrance of described displacement type compressor structure is communicated with the sender property outlet of single-stage or multistage speed type gas compressor, the sender property outlet of described displacement type expander structure and single-stage or multistage speed type do work mechanism connection.

Scheme 37: on the basis of scheme 36, makes at least both interlock settings in described displacement type compressor structure, described displacement type expander structure, described velocity profile gas compressor and described velocity profile acting mechanism further.

Scheme 38: on the basis of scheme 29,30,32 or 33, makes described firing chamber be set to intermittent combustion room or be set to continuous combustion chambers further.

Scheme 39: on the basis of scheme 36 or 37, makes described firing chamber be set to intermittent combustion room or be set to continuous combustion chambers further.

Scheme 40: in scheme 29 to 31 either a program basis on, make described multi-stage compression unit and described multistage expansion unit link through gear further and arrange.

Scheme 41: on the basis of scheme 36 or 39, at least both are arranged through gear interlock to make described displacement type compressor structure, described displacement type expander structure, described velocity profile gas compressor and described velocity profile do work in mechanism further.

Scheme 42: in scheme 22 to 25 either a program basis on, arrange through reversing transmission mechanism interlock between the revolving part making two adjacent described cylinder body hydraulic mechanism further.

Scheme 43: in scheme 29 to 31 either a program or scheme 40 basis on, arrange through reversing transmission mechanism interlock between the revolving part making two adjacent described cylinder body hydraulic mechanism further.

Scheme 44: on the basis of scheme 36,39 or 41, makes to arrange through reversing transmission mechanism interlock between the revolving part of two adjacent described cylinder body hydraulic mechanism further.

In the present invention, optionally make the centerline collineation of the center line of described axis hole and described rotor, namely on described rotor with described rotor concentrically line described axis hole is set.

In the present invention, so-called " slider " refers to that all are arranged in described slider chute, and matching with described cylinder body and described rotor to be at least separated into the structure in two regions by the space between described cylinder body and described rotor.

In the present invention, the cross section of so-called " slider " is optionally set to the shapes such as rectangle, circle, ellipse.

In the present invention, optionally collocation structure is set on so-called " slider ".

In the present invention, optionally compensating basin is set on so-called " slider ".

In the present invention, described cylinder body two ends coordinate with end cap respectively and form seal chamber.

In the present invention, described cylinder body two ends are slidably matched with end cap formation seal chamber respectively.

In the present invention, adjoin in the structure of setting in rotating cylinder hydraulic mechanism described in two or more, two described rotating cylinder hydraulic mechanism can share the two sides of an end cap.

In the present invention, described positive circular solid of rotation can be set to semiaxis form, and the described positive circular solid of rotation of semiaxis form at least one end non-penetrative is arranged in the end cap of described rotating cylinder.

In the present invention, collocation structure can be established to improve sealing and working life needing the place of sealing.

In the present invention, described positive circular solid of rotation refers to that all cross sections are orbicular solid of rotation, such as, and cylindrical body, cone, Rotary-table, circular wave body, pipe, Taper Pipe, platform pipe, circular corrugated pipes etc.

In the present invention, so-called " high-pressure working medium source " refers to system, unit or the storage tank that can provide the gas working medium with certain pressure and uniform temperature, such as: boiler, firing chamber, heater, vaporizer, compressed gas source etc.

In the present invention, described outlet valve comprises check valve (one-way valve).

In the present invention, described rotating cylinder and described positive circular solid of rotation have identical spin axis.

In the present invention, so-called " A and B link setting " refers to the set-up mode of A and B phase mutual driving effect, comprises coaxial set-up mode.

In the present invention, described velocity profile gas compressor comprises impeller type gas compressor.

In the present invention, described velocity profile acting mechanism comprises impeller type acting mechanism.

In the present invention, so-called " reversing transmission mechanism " refers to input redirect and exports and turn to different driving mechanisms, and it arranges object is that the sense of rotation of the revolving part making two adjacent described cylinder body hydraulic mechanism is contrary, thus optimizes the flowing of working medium.

In the present invention, so-called " gear " refers to input speed and output speed driving mechanism not etc., comprises the speed increasing mechanism of stable drive ratio, the reducing gear of stable drive ratio and the driving mechanism such as gearbox, infinitely variable transmission.

In the present invention, so-called " compensation trip ring " refers to be arranged in described cylinder body and matches with described cylinder body and described rotor, gap between the described cylinder body that compensation thermal deformation and wearing and tearing deformation are formed and described rotor, and then improve the trip ring of seal, when described trip ring is heated, have length at circumferencial direction to increase, the increase of length can make described compensation trip ring internal diameter shrink, and then improves sealing.

In the present invention, certain more than numerical value A and certain below numerical value A includes this number A.

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.

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.

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.

The present inventor thinks: it is the process that entropy increases that distance increases, and the distance between cold & heat source also affects efficiency, high apart from little efficiency, low apart from large efficiency.

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.

Beneficial effect of the present invention is as follows:

The structure of cylinder body hydraulic mechanism of the present invention is simple, good seal performance, and working efficiency is high, and uses the motor of described cylinder body hydraulic mechanism or device to have good seal performance, and working efficiency is high, the advantage of long service life.

Accompanying drawing explanation

Fig. 1: the structural representation of the embodiment of the present invention 1;

Fig. 2: the structural representation of the embodiment of the present invention 2;

Fig. 3: the structural representation of the embodiment of the present invention 3;

Fig. 4: the structural representation of the embodiment of the present invention 4;

Fig. 5: the structural representation of the embodiment of the present invention 5.

In figure: 1 cylinder body, 2 rotors, 3 eccentric shafts, 4 sliders, 5 axis holes, 6 slider chutes, 7 attached cylinder bodies, 8 attached slider chutes, 9 attached sliders.

Embodiment

Embodiment 1

A kind of cylinder body hydraulic mechanism, as shown in Figure 1, comprise cylinder body 1, rotor 2, eccentric shaft 3 and slider 4, described rotor 2 is arranged in described cylinder body 1, axis hole 5 established by described rotor 2, described eccentric shaft 3 is arranged in described axis hole 5, and slider chute 6 established by described rotor 2, and described slider 4 to be arranged in described slider chute 6 and one end and the hinged setting of described cylinder body 1.The center line of described slider chute 6 is crossing with the center line of described rotor 2.

In the present embodiment, described cylinder body 1 is set to rotating cylinder, described rotor 2 is set to positive circular solid of rotation, a line of engagement is at least formed between the side of described positive circular solid of rotation and described rotating cylinder, described slider chute 6 is set to non-through slider chute, non-through slider is set to, one end of described non-through slider and the hinged setting of described rotating cylinder at described slider 4.Described rotating cylinder rotates, described positive circular solid of rotation and described rotating cylinder rotating Vortex.

As disposable mode of execution, at least one in fluid input and fluid output is optionally set on described rotating cylinder, or at least one setting on described positive circular solid of rotation in fluid input and fluid output, or at least one in fluid input and fluid output is set on the end cap of described rotating cylinder.

Embodiment 2

Cylinder body hydraulic mechanism as shown in Figure 2, the difference of itself and embodiment 1 is: the center line of described slider chute 6 and the center line of described rotor 2 non-intersect.

Embodiment 3

A kind of cylinder body hydraulic mechanism, as shown in Figure 3, on the basis of embodiment 1, make described cylinder body 1 be set to rotating cylinder, described rotor 2 is set to positive circular solid of rotation, at least forms a line of engagement between the side of described positive circular solid of rotation and described rotating cylinder, described slider chute 6 is set to and runs through slider chute, describedly run through slider chute and described axis hole 5 is non-intersect, described slider 4 is set to and runs through slider, described in run through one end and the hinged setting of described rotating cylinder of slider; Described rotating cylinder arranges at least one in fluid input and fluid output, or at least one setting on described positive circular solid of rotation in fluid input and fluid output, or at least one in fluid input and fluid output is set on the end cap of described rotating cylinder; Described rotating cylinder rotates, described positive circular solid of rotation and described rotating cylinder rotating Vortex, the center line of described slider chute 6 and the center line of described rotor 2 non-intersect.

Embodiment 4

A kind of cylinder body hydraulic mechanism, as shown in Figure 4, on the basis of embodiment 1, described cylinder body hydraulic mechanism is made also to comprise attached cylinder body 7, described attached cylinder body 7 eccentric bushing dress is arranged on outside described cylinder body 1, described cylinder body 1 establishes attached slider chute 8, attached slider 9 is set in described attached slider chute 8, described attached slider 9 and the hinged setting of described attached cylinder body 7.

As disposable mode of execution, can described attached cylinder body 7 be set to static, or be set to freedom, or be set to and drive by driving mechanism, or external outputting power.

As the mode of execution that can convert, described cylinder body 1 is all optionally set to static by above-mentioned all mode of executions, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

As the mode of execution that can convert, described rotor 2 is all optionally set to freedom by above-mentioned all mode of executions, or is set to and drives by driving mechanism, or external outputting power.

As the mode of execution that can convert, the end cap of described cylinder body 1 is all optionally set to static by above-mentioned all mode of executions, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

As the mode of execution that can convert, described slider 4 is all optionally arranged on identical circumferentially with the inwall circumference of described cylinder body 1 with the hinge axle center of the hinged setting of described cylinder body 1 by above-mentioned all mode of executions, or be arranged on be greater than described cylinder body 1 inwall circumference circumferentially, or be arranged on be less than described cylinder body 1 inwall circumference circumferentially.

As the mode of execution that can convert, above-mentioned all mode of executions being provided with described non-through slider, described non-through slider and the hinge axle center of the hinged setting of described rotating cylinder is optionally made to be arranged on identical circumferentially with the inwall circumference of described rotating cylinder, or be arranged on be greater than described rotating cylinder inwall circumference circumferentially, or be arranged on be less than described rotating cylinder inwall circumference circumferentially.

As the mode of execution that can convert, above-mentioned all be provided with described in run through the mode of execution of slider, running through slider described in optionally making is arranged on identical circumferentially with the inwall circumference of described rotating cylinder with the hinge axle center of the hinged setting of described rotating cylinder, or be arranged on be greater than described rotating cylinder inwall circumference circumferentially, or be arranged on be less than described rotating cylinder inwall circumference circumferentially.

As the mode of execution that can convert, above-mentioned all mode of executions being provided with described rotating cylinder, optionally make the radius of described rotating cylinder be less than be multiplied by the long-pending of the radius of described positive circular solid of rotation.

As the mode of execution that can convert, above-mentioned all mode of executions being provided with described rotating cylinder, optionally make described rotating cylinder drive by rotary drive mechanism, or the external outputting power of described rotating cylinder.

As the mode of execution that can convert, above-mentioned all mode of executions optionally arrange slider chute described in two or more on described rotor 2, in all described sliders 4 at least two described sliders 4 respectively with the hinged setting of described cylinder body 1.

As the mode of execution that can convert, above-mentioned all mode of executions are optionally established suction valve and/or are established outlet valve at the fluid outlet of described cylinder body hydraulic mechanism at the fluid input place of described cylinder body hydraulic mechanism.

As the mode of execution that can convert, above-mentioned all mode of executions optionally make described rotor 2 be set to semi-shaft type rotor, and at least one end non-penetrative of described semi-shaft type rotor is arranged in the end cap of described cylinder body 1.

As the mode of execution that can convert, above-mentioned all mode of executions optionally arrange compensation trip ring in described cylinder body 1, and described compensation trip ring coordinates with described cylinder body 1, and described trip ring coordinates with described rotor 2.

As the mode of execution that can convert, above-mentioned all mode of executions optionally described cylinder body hydraulic mechanism are set to liquor pump, or are set to fluid motor, or are set to gas compression mechanism, or are set to gas expansion mechanism.

Embodiment 5

Comprise a multiple stage fluid mechanism for cylinder body hydraulic mechanism described in embodiment 1, as shown in Figure 5, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases successively.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 6

Comprise a multiple stage fluid mechanism for cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces successively.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 7

A kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases successively, the fluid input of described cylinder body hydraulic mechanism is set to suction port, the fluid output of described cylinder body hydraulic mechanism is set to relief opening, the phase place of described suction port of adjacent two described cylinder body hydraulic mechanism of adjustment serial communication makes to be in non-interconnected state between the described relief opening of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described suction port.

As disposable mode of execution, the discharge capacity of described cylinder body hydraulic mechanism also can be made to reduce successively, the fluid input of described cylinder body hydraulic mechanism is set to suction port, the fluid output of described cylinder body hydraulic mechanism is set to relief opening, and optionally can adjust the phase place of described suction port of adjacent two described cylinder body hydraulic mechanism of serial communication and the phase place of described relief opening further or only regulate the phase place of described relief opening, make to be in non-interconnected state between the described relief opening of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described suction port.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 8

A kind of multiple stage fluid mechanism comprising cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism is identical, the fluid input of described cylinder body hydraulic mechanism is set to liquid entering hole, the fluid output of described cylinder body hydraulic mechanism is set to liquid port, the phase place of the described liquid entering hole of adjacent two described cylinder body hydraulic mechanism of adjustment serial communication, make to be in non-interconnected state between the described liquid port of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described liquid entering hole.

As disposable mode of execution, also optionally adjust the phase place of described liquid entering hole of adjacent two described cylinder body hydraulic mechanism of serial communication and the phase place of described liquid port simultaneously or only regulate the phase place of liquid port, make to be in non-interconnected state between the described liquid port of cylinder body hydraulic mechanism described at least one at any time in these two adjacent described cylinder body hydraulic mechanism and described liquid entering hole.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 9

Comprise a motor for cylinder body hydraulic mechanism described in embodiment 1, the fluid input of described cylinder body hydraulic mechanism is communicated with high-pressure working medium source through control valve.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 10

A kind of motor comprising cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively, and the working medium entrance of described multistage expansion unit is communicated with high-pressure working medium source.

As the mode of execution that can convert, described high-pressure working medium source is all optionally set to intermittent combustion room or is set to continuous combustion chambers by above-mentioned all mode of executions arranging described high-pressure working medium source.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 11

Comprise a motor for cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit is communicated with described multistage expansion unit through firing chamber.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 12

Comprise a motor for cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit is communicated with described multistage expansion unit through firing chamber, and described multistage expansion unit is communicated with described multi-stage compression unit through heat extraction device.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 13

Comprise a motor for cylinder body hydraulic mechanism described in embodiment 1, cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism reduces the part forming multi-stage compression unit successively; Cylinder body hydraulic mechanism serial communication described in two or more, the discharge capacity of described cylinder body hydraulic mechanism increases the part forming multistage expansion unit successively; Described multi-stage compression unit heater via is communicated with described multistage expansion unit, and described multistage expansion unit is communicated with described multi-stage compression unit through heat extraction device.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 11 to embodiment 13 and disposable mode of execution thereof all can optionally make described multi-stage compression unit and described multistage expansion unit link to arrange or make described multi-stage compression unit and described multistage expansion unit to link through gear to arrange further.

Embodiment 14

Comprise a motor for cylinder body hydraulic mechanism described in embodiment 1, the fluid input of fluid output through firing chamber with same described cylinder body hydraulic mechanism of described cylinder body hydraulic mechanism is communicated with.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 15

Comprise a device for cylinder body hydraulic mechanism as described in Example 1, the fluid input of described cylinder body hydraulic mechanism is communicated with the sender property outlet of velocity profile gas compressor.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 16

Comprise a device for cylinder body hydraulic mechanism as described in Example 1, the do work working medium entrance of mechanism of fluid output and the velocity profile of described cylinder body hydraulic mechanism is communicated with.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

Embodiment 17

A kind of device comprising cylinder body hydraulic mechanism as described in Example 1, cylinder body hydraulic mechanism serial communication described in two or more forms a part for displacement type compressor structure, cylinder body hydraulic mechanism serial communication described in two or more forms a part for displacement type expander structure, the sender property outlet heater via of described displacement type compressor structure is communicated with the working medium entrance of described displacement type expander structure, the working medium entrance of described displacement type compressor structure is communicated with the sender property outlet of multistage speed type gas compressor, and the sender property outlet of described displacement type expander structure and multistage speed type do work mechanism connection.

As disposable mode of execution, cylinder body hydraulic mechanism serial communication described in single described cylinder body hydraulic mechanism or two or more is optionally made to form a part for displacement type compressor structure, and optionally make cylinder body hydraulic mechanism serial communication described in single described cylinder body hydraulic mechanism or two or more form a part for displacement type expander structure, and optionally make the working medium entrance of described displacement type compressor structure be communicated with the sender property outlet of single-stage or multistage speed type gas compressor, and optionally make the sender property outlet of described displacement type expander structure and single-stage or multistage speed type do work mechanism connection.

The present embodiment and disposable mode of execution thereof, described heater all can be replaced firing chamber.

As disposable mode of execution, the cylinder body hydraulic mechanism described in all alternative the present embodiment of cylinder body hydraulic mechanism described in the disposable mode of execution of embodiment 2 to embodiment 4 and disposable mode of execution and embodiment 1.

As the mode of execution that can convert, in the acting of displacement type compressor structure, described displacement type expander structure, described velocity profile gas compressor and described velocity profile described in the present embodiment and disposable mode of execution thereof mechanism, at least both interlocks are arranged.

As the mode of execution that can convert, in the acting of displacement type compressor structure, described displacement type expander structure, described velocity profile gas compressor and described velocity profile described in the present embodiment and disposable mode of execution thereof mechanism, at least both are arranged through gear interlock.

As the mode of execution that can convert, described firing chamber is all optionally set to intermittent combustion room or is set to continuous combustion chambers by all mode of executions arranging described firing chamber of the present invention.

As the mode of execution that can convert, all mode of executions arranging cylinder body hydraulic mechanism serial communication described in two or more of the present invention all can make to arrange through reversing transmission mechanism interlock between the revolving part of two adjacent described cylinder body hydraulic mechanism.

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 (10)

1. a cylinder body hydraulic mechanism, comprise cylinder body (1), rotor (2), eccentric shaft (3) and slider (4), it is characterized in that: described rotor (2) is arranged in described cylinder body (1), described rotor (2) is established axis hole (5), described eccentric shaft (3) is arranged in described axis hole (5), described rotor (2) is established slider chute (6), and described slider (4) to be arranged in described slider chute (6) and one end and described cylinder body (1) hinged setting.

2. cylinder body hydraulic mechanism as claimed in claim 1, is characterized in that: the center line of described slider chute (6) is crossing or non-intersect with the center line of described rotor (2).

3. cylinder body hydraulic mechanism as claimed in claim 1, it is characterized in that: described cylinder body hydraulic mechanism also comprises attached cylinder body (7), described attached cylinder body (7) eccentric bushing dress is arranged on described cylinder body (1) outward, described cylinder body (1) is established attached slider chute (8), attached slider (9) is set in described attached slider chute (8), described attached slider (9) and the hinged setting of described attached cylinder body (7).

4. cylinder body hydraulic mechanism as claimed in claim 3, is characterized in that: described attached cylinder body (7) is set to static, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

5. cylinder body hydraulic mechanism according to any one of Claims 1-4, is characterized in that: described cylinder body (1) is set to static, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

6. cylinder body hydraulic mechanism according to any one of Claims 1-4, is characterized in that: described rotor (2) is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

7. cylinder body hydraulic mechanism as claimed in claim 5, is characterized in that: described rotor (2) is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

8. cylinder body hydraulic mechanism according to any one of Claims 1-4, is characterized in that: the end cap of described cylinder body (1) is set to static, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

9. cylinder body hydraulic mechanism according to any one of claim 5, is characterized in that: the end cap of described cylinder body (1) is set to static, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.

10. cylinder body hydraulic mechanism according to any one of claim 6, is characterized in that: the end cap of described cylinder body (1) is set to static, or is set to freedom, or is set to and drives by driving mechanism, or external outputting power.