CN106641152A - Energy adjusting method and system - Google Patents

Abstract

The invention discloses an energy adjusting method. An active power system is associated with a passive power system through a variable-transmission-ratio device. The rotational inertia and/or the rotational kinetic energy of the passive power system is increased by increasing the mass of the passive power system. The invention further discloses a plurality of energy adjusting methods and systems applying the energy adjusting methods. The energy adjusting methods and the systems applying the methods, disclosed by the invention, can effectively adjust energy transmission and increase transmission efficiency.

Description

A kind of energy adjusting method and its system

Technical field

The present invention relates to heat energy and dynamic field, more particularly to a kind of energy adjusting method and its system.

Background technology

The storage of kinetic energy with release for dynamical system, especially for very heavy for the dynamical system including engine Will.Accordingly, it would be desirable to invent a kind of new energy adjusting method and system.

The content of the invention

In order to solve the above problems, technical scheme proposed by the present invention is as follows：

Scheme 1：A kind of energy adjusting method, active power system Jing variable transmission ratio device is closed with passive dynamical system Connection, by increasing the quality of the passive dynamical system rotary inertia and/or rotational kinetic energy of the passive dynamical system are increased.

Scheme 2：Using the system of the energy adjusting method as described in scheme 1, the active power system is set to power input Axle, the variable transmission ratio device is set to include the element of fluid of pump impeller, guide wheel and turbine that the passive dynamical system is set to move Power output shaft, the power input shaft and the pump impeller connect setting, the turbine and the power output shaft connect setting；Increase Plus the turbine quality, increase the quality of the power output shaft, be connected the housing of the element of fluid with the turbine Arrange and/or the housing of the element of fluid with the turbine connect setting and is increased into the quality of the housing.

Scheme 3：A kind of energy adjusting method, make in the dynamical system for including pump impeller and turbine with the turbine as actively The transmission system Jing arrangement of clutch of part and rotary inertia body clutch transmission.

Scheme 4：A kind of energy adjusting method, make in the dynamical system for including pump impeller and turbine with the turbine as actively The transmission system Jing arrangement of clutch of part and speed increasing mechanism and rotary inertia body clutch transmission.

Scheme 5：On the basis of scheme 1, the rotary inertia body is further set to be set to flywheel.

Scheme 6：On the basis of scheme 2, the rotary inertia body is further set to be set to flywheel.

Scheme 7：A kind of energy adjusting method, pump impeller, guide wheel and turbine are correspondingly arranged in housing, in the housing Increase the rotary inertia of the dynamical system with the turbine as driving link.

Scheme 8：A kind of system of application energy adjusting method as described in scheme 7, on the turbine and/or the turbine Power transmission shaft on arrange inertia body.

Scheme 9：A kind of system of application energy adjusting method as described in scheme 7, the turbine weightening is arranged.

Scheme 10：A kind of system of application energy adjusting method as described in scheme 7, the turbine weightening is arranged and/or institute State housing weightening to arrange, the housing is mechanically connected for the dynamical system of driving link with the turbine and arranges.

Scheme 11：A kind of system of application energy adjusting method as described in scheme 7, turbine weightening setting and/or With the turbine to arrange inertia body in the dynamical system of driving link, the turbine is mechanically connected and sets the housing with the housing Put.

Scheme 12：On the basis of scheme 8, the inertia body is further set to be set to flywheel.

Scheme 13：On the basis of scheme 11, the inertia body is further set to be set to flywheel.

Scheme 14：The pump impeller and engine connect setting are further made on the basis of either a program in scheme 8 to 13 Or clutch switching is arranged；Or the pump impeller is arranged with motor connect setting or clutch switching.

Scheme 15：Further make on the basis of either a program in scheme 8 to 13 turbine with load connect setting or Clutch switching is arranged.

Scheme 16：On the basis of scheme 14, the turbine is further set to arrange with load connect setting or clutch switching.

Scheme 17：A kind of energy adjusting method, pump impeller, guide wheel and turbines in series is connected and is arranged in housing, in described Increase the rotary inertia of the dynamical system with the turbine as driving link in housing.

Scheme 18：A kind of system of application energy adjusting method as described in scheme 17, on the turbine and/or the whirlpool Inertia body is set on the power transmission shaft of wheel.

Scheme 19：A kind of system of application energy adjusting method as described in scheme 17, the turbine weightening is arranged.

Scheme 20：A kind of system of application energy adjusting method as described in scheme 17, the turbine weightening is arranged and/or institute State housing weightening to arrange, the housing is mechanically connected for the dynamical system of driving link with the turbine and arranges.

Scheme 21：A kind of system of application energy adjusting method as described in scheme 17, turbine weightening setting and/or With the turbine to arrange inertia body in the dynamical system of driving link, the turbine is mechanically connected and sets the housing with the housing Put.

Scheme 22：On the basis of scheme 18, the inertia body is further set to be set to flywheel.

Scheme 23：On the basis of scheme 21, the inertia body is further set to be set to flywheel.

Scheme 24：In scheme 18 to 23 on the basis of either a program, the pump impeller is connected with engine and set Put or clutch switching is arranged；Or the pump impeller is arranged with motor connect setting or clutch switching.

Scheme 25：In scheme 18 to 23 on the basis of either a program, the turbine is further made with load connect setting Or clutch switching is arranged.

Scheme 26：On the basis of scheme 24, the turbine is further set to arrange with load connect setting or clutch switching.

Scheme 27：A kind of energy adjusting method, makes power intake input power of the actuator to torque-converters, makes the change The clutch end Jing clutches of square device are used to load transmission, the turbine for increasing the torque-converters for the rotation of the system of driving link Amount.

Scheme 28：The system of energy adjusting method of a kind of application as described in scheme 27, on the turbine of the torque-converters And/or setting inertia body on the power transmission shaft of the turbine of the torque-converters.

Scheme 29：A kind of system of energy adjusting method of application as described in scheme 27, the turbine weightening of the torque-converters Arrange.

Scheme 30：A kind of system of energy adjusting method of application as described in scheme 27, the turbine weightening of the torque-converters Arrange and/or the housing weightening of the torque-converters is arranged, the housing of the torque-converters is driving link with the turbine of the torque-converters Dynamical system be mechanically connected arrange.

Scheme 31：A kind of system of energy adjusting method of application as described in scheme 27, the turbine weightening of the torque-converters Arrange and/or the torque-converters housing and the torque-converters turbine for driving link dynamical system on arrange inertia body, The pump impeller is mechanically connected with the housing and arranges.

Scheme 32：On the basis of scheme 28, the inertia body is further set to be set to flywheel.

Scheme 33：On the basis of scheme 31, the inertia body is further set to be set to flywheel.

Scheme 34：In scheme 28 to 33 on the basis of either a program, further make the pump impeller of the torque-converters with it is described Actuator connect setting or clutch switching are arranged；Or the pump impeller of the torque-converters switches with the actuator connect setting or clutch Arrange.

Scheme 35：In scheme 28 to 33 on the basis of either a program, turbine and the load of the torque-converters is further made Clutch switching is arranged.

Scheme 36：On the basis of scheme 34, the turbine is further set to arrange with load clutch switching.

Scheme 37：On the basis of either a program in scheme 28 to 33 and 36, the actuator is further set to be set to start The power output member of machine is set to motor power output.

Scheme 38：On the basis of scheme 34, the actuator is further set to be set to the power output member of engine or set For motor power output.

Scheme 39：On the basis of scheme 35, the actuator is further set to be set to the power output member of engine or set For motor power output.

Scheme 40：A kind of energy adjustment system, including torque-converters and clutch, the turbine of the torque-converters or the bending moment The power output member of the turbine of device and the clutch are connected and arrange or integrated setting, the turbine and the clutch it Between transmission system on arrange inertia body.

Scheme 41：On the basis of scheme 40, the inertia body is further set to be arranged on the turbine and/or described used Amount body is arranged on the power transmission shaft between the turbine and the clutch.

Scheme 42：On the basis of scheme 40, the turbine weightening for further making the torque-converters is arranged.

Scheme 43：On the basis of scheme 40, the turbine weightening for further making the torque-converters is arranged and/or the bending moment The housing weightening of device is arranged, and the housing of the torque-converters is mechanically connected with the turbine of the torque-converters for the dynamical system of driving link Arrange.

Scheme 44：On the basis of scheme 40, the turbine weightening for further making the torque-converters is arranged and/or in the change The turbine of the housing of square device and the torque-converters to arrange inertia body in the dynamical system of driving link, the pump impeller of the torque-converters with The housing of the torque-converters is mechanically connected and arranges.

Scheme 45：On the basis of scheme 41, the inertia body is further set to be set to flywheel.

Scheme 46：On the basis of scheme 44, the inertia body is further set to be set to flywheel.

Scheme 47：In scheme 41 to 46 on the basis of either a program, further make the pump impeller of the torque-converters and drive Part connect setting or clutch switching are arranged；Or the pump impeller of the torque-converters is arranged with motor connect setting or clutch switching.

Scheme 48：In scheme 41 to 46 on the basis of either a program, further make the turbine of the torque-converters with it is described Actuator clutch switching is arranged.

Scheme 49：On the basis of scheme 47, the turbine and the actuator clutch for further making the torque-converters switches Arrange.

Scheme 50：On the basis of either a program in scheme 41 to 46 and 49, the actuator is further set to be set to start The power output member of machine is set to motor power output.

Scheme 51：On the basis of scheme 47, the actuator is further set to be set to the power output member of engine or set For motor power output.

Scheme 52：On the basis of scheme 48, the actuator is further set to be set to the power output member of engine or set For motor power output.

Scheme 53：A kind of energy adjustment system, including torque-converters, clutch and gearbox, the power of the torque-converters is defeated Go out clutch described in part Jing to arrange with the power input transmission of the gearbox；Turbine and the clutch in the torque-converters Rotary inertia body, or the master of turbine and the clutch in the torque-converters are set in the transmission system between the driving link of device Jing speed increasing mechanisms arrange rotary inertia body in transmission system between moving part.

Scheme 54：On the basis of scheme 53, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 55：On the basis of scheme 53, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 56：A kind of energy adjustment system, including pump impeller, turbine and clutch, the pump impeller is corresponding with the turbine Arrange, the driving link of the clutch is set to power output with the turbomachinery connect setting, the Passive part of the clutch Part；Rotary inertia body is set in the transmission system between the driving link of the turbine and the clutch, or in the turbine And Jing speed increasing mechanisms arrange rotary inertia body in the transmission system between the driving link of the clutch.

Scheme 57：On the basis of scheme 56, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 58：On the basis of scheme 56, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 59：A kind of energy adjustment system, including pump impeller, turbine and clutch, the pump impeller and the turbines in series Connection, the driving link of the clutch is set to power output with the turbomachinery connect setting, the Passive part of the clutch Part；Rotary inertia body is set in the transmission system between the driving link of the turbine and the clutch, or in the turbine And Jing speed increasing mechanisms arrange rotary inertia body in the transmission system between the driving link of the clutch.

Scheme 60：On the basis of scheme 59, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 61：On the basis of scheme 59, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 62：A kind of energy adjustment system, including pump impeller, guide wheel, turbine and clutch, the pump impeller, the guide wheel Be correspondingly arranged with the turbine, the driving link of the clutch and the turbomachinery connect setting, the clutch it is passive Part is set to power output member；Rotary inertia is set in transmission system between the driving link of the turbine and the clutch Jing speed increasing mechanisms arrange rotary inertia body on body, or the transmission system between the driving link of the turbine and the clutch.

Scheme 63：On the basis of scheme 62, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 64：On the basis of scheme 62, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 65：A kind of energy adjustment system, including pump impeller, guide wheel, turbine and clutch, the pump impeller, the guide wheel Connect with the turbines in series, the driving link of the clutch and the turbomachinery connect setting, the clutch it is passive Part is set to power output member；Rotary inertia is set in transmission system between the driving link of the turbine and the clutch Jing speed increasing mechanisms arrange rotary inertia body on body, or the transmission system between the driving link of the turbine and the clutch.

Scheme 66：On the basis of scheme 65, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 67：On the basis of scheme 65, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 68：A kind of energy adjustment system, including coupler, clutch and gearbox, the power of the coupler is defeated Go out clutch described in part Jing to arrange with the power input transmission of the gearbox；Turbine and the clutch in the coupler Rotary inertia body, or the master of turbine and the clutch in the coupler are set in the transmission system between the driving link of device Jing speed increasing mechanisms arrange rotary inertia body in transmission system between moving part.

Scheme 69：On the basis of scheme 68, the rotary inertia body is further set to be arranged on the turbine, the whirlpool On power transmission shaft between wheel and the driving link of the clutch or on the driving link of the clutch.

Scheme 70：On the basis of scheme 68, the rotary inertia body Jing reducing gears are further made to be arranged on the whirlpool On power transmission shaft on wheel, between the turbine and the driving link of the clutch or on the driving link of the clutch.

Scheme 71：In scheme 53 to 55 on the basis of either a program, the working media for further making the torque-converters sets For liquid, gas or it is set to gas-fluid two-phase mixture.

Scheme 72：In scheme 56 to 61 on the basis of either a program, the work of the pump impeller and the turbine is further made Liquid, gas are set to as medium or be set to gas-fluid two-phase mixture.

Scheme 73：In scheme 62 to 67 on the basis of either a program, the pump impeller, the guide wheel and described are further made The working media of turbine is set to liquid, gas or is set to gas-fluid two-phase mixture.

Scheme 74：In scheme 68 to 70 on the basis of either a program, the working media for further making the coupler sets For liquid, gas or it is set to gas-fluid two-phase mixture.

Scheme 75：A kind of energy adjusting method, by active power system Jing variable transmission ratio device and passive dynamical system Association, by adjusting the rotary inertia of quality layout's increase passive dynamical system of the passive dynamical system and/or turning Kinetic energy.

The system of the application energy adjusting method as described in scheme 75 of scheme 76, the active power system is set to power input Axle, the variable transmission ratio device is set to include the element of fluid of pump impeller, guide wheel and turbine that the passive dynamical system is set to move Power output shaft, the power input shaft and the pump impeller connect setting, the turbine and the power output shaft connect setting；Increase Plus the quality at the turbine telecentricity, setting inertia body and/or the housing by the element of fluid on the power output shaft With the turbine connect setting and increase the quality at the housing telecentricity.

Scheme 77：A kind of energy adjusting method, by active power system Jing variable transmission ratio device and passive dynamical system Association, by increasing the passive dynamical system, in whole or in part the linear velocity of part is arranged and increases the passive dynamical system The rotary inertia and/or rotational kinetic energy of system.

Scheme 78：Using the system of the energy adjusting method as described in scheme 77, it is defeated that the active power system is set to power Enter axle, the variable transmission ratio device is set to include the element of fluid of pump impeller, guide wheel and turbine that the passive dynamical system is set to Power output shaft, the power input shaft and the pump impeller connect setting, the turbine and the power output shaft connect setting； Discharge capacity and/or Jing described in speed increaser and the passive dynamical system connect setting of the discharge capacity of the turbine less than the pump impeller.

Scheme 79：Using the system of the energy adjusting method as described in scheme 77, it is defeated that the active power system is set to power Enter axle, the variable transmission ratio device is set to include the element of fluid of pump impeller, guide wheel and turbine that the passive dynamical system is set to Including the dynamical system of speed increaser, inertia body and power output shaft, speed increaser described in the power output shaft Jing makes the inertia The rotating speed of body is higher than the power output shaft, the power input shaft and the pump impeller connect setting, and the turbine is dynamic with described Power output shaft connect setting.

Scheme 80：A kind of energy adjusting method, by active power system Jing variable transmission ratio device and passive dynamical system Association, by setting up inertia body the rotary inertia and/or rotational kinetic energy of the passive dynamical system are increased.

Scheme 81：Using the system of the energy adjusting method as described in scheme 80, it is defeated that the active power system is set to power Enter axle, the variable transmission ratio device is set to include the element of fluid of pump impeller, guide wheel and turbine that the passive dynamical system is set to Power output shaft, the power input shaft and the pump impeller connect setting, the turbine and the power output shaft connect setting, Arrange on the pump impeller, on the power input shaft and/or on the housing of the element of fluid linked with the turbine Inertia body.

Scheme 82：Using the system of the energy adjusting method as described in scheme 81, the inertia body is set to flywheel.

Scheme 83：A kind of energy adjusting method, by such as two of method described in scheme 1, scheme 75, scheme 77 and scheme 80 Plant or two or more merging are used, increase the rotary inertia and/or rotational kinetic energy of the passive dynamical system.

Scheme 84：A kind of energy adjusting method, make with housing into rotation coordinate impeller A and impeller B at least one with The housing clutch transmission is arranged.

Scheme 85：On the basis of scheme 84, at least one in the impeller A and the impeller B is further made in institute State hull outside to arrange with the housing clutch transmission.

Scheme 86：On the basis of scheme 84, at least one in the impeller A and the impeller B is further made in institute State hull outside Jing speed increasing mechanism to arrange with the housing clutch transmission.

Scheme 87：On the basis of scheme 84, at least one in the impeller A and the impeller B is further made in institute State enclosure interior to arrange with the housing clutch transmission.

Scheme 88：On the basis of scheme 84, at least one in the impeller A and the impeller B is further made in institute State enclosure interior Jing speed increasing mechanism to arrange with the housing clutch transmission.

Scheme 89：In scheme 84 to 88 on the basis of either a program, in further making the impeller A and the impeller B One is set to turbine, and another is set to pump impeller.

Scheme 90：In scheme 84 to 88 on the basis of either a program, impeller A B and the impeller A and described are further made Impeller B is arranged in series.

Scheme 91：On the basis of scheme 89, impeller A B is further set to be arranged in series with the impeller A and the impeller B.

Scheme 92：On the basis of either a program in scheme 84 to 88 and 91, further arrange the housing weightening.

Scheme 93：On the basis of scheme 89, further arrange the housing weightening.

Scheme 94：On the basis of scheme 90, further arrange the housing weightening.

Scheme 95：On the basis of either a program in scheme 84 to 88 and 91 and 93 and 94, further on the housing Inertia body is set.

Scheme 96：On the basis of scheme 89, inertia body is further set on the housing.

Scheme 97：On the basis of scheme 90, inertia body is further set on the housing.

Scheme 98：On the basis of scheme 92, inertia body is further set on the housing.

Scheme 99：Energy adjusting method described in either a program, described in scheme to 88 and 91 and 93 and 94 and 96 to 98 Housing is arranged with the transmission of rotary inertia body；Or the housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

Scheme 100：On the basis of scheme 89, the housing is further set to arrange with the transmission of rotary inertia body；Or it is described Housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

Scheme 101：On the basis of scheme 90, the housing is further set to arrange with the transmission of rotary inertia body；Or it is described Housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

Scheme 102：On the basis of scheme 92, the housing is further set to arrange with the transmission of rotary inertia body；Or it is described Housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

Scheme 103：On the basis of scheme 95, the housing is further set to arrange with the transmission of rotary inertia body；Or it is described Housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

Scheme 104：On the basis of scheme 99, the rotary inertia body is further set to be set to flywheel.

Scheme 105：In scheme 100 to 103 on the basis of either a program, the rotary inertia body is further set to be set to fly Wheel.

Scheme 106：A kind of energy adjustment system, including impeller A, impeller B and housing, the impeller A and the impeller B set Put in the housing, the impeller A and the impeller B are equipped with the housing into rotation, the impeller A and the impeller At least one in B is arranged with the housing clutch transmission.

Scheme 107：A kind of energy adjustment system, including impeller A, impeller B and housing, the impeller A and the impeller B set Put in the housing, the impeller A and the impeller B are equipped with the housing into rotation, the impeller A and the impeller At least one Jing speed increasing mechanism in B is arranged with the housing clutch transmission.

Scheme 108：On the basis of scheme 106, further make at least one in the impeller A and the impeller B The hull outside is arranged with the housing clutch transmission.

Scheme 109：On the basis of scheme 107, further make at least one in the impeller A and the impeller B The hull outside is arranged with the housing clutch transmission.

Scheme 110：On the basis of scheme 106, further make at least one in the impeller A and the impeller B The hull outside Jing speed increasing mechanism is arranged with the housing clutch transmission.

Scheme 111：On the basis of scheme 107, further make at least one in the impeller A and the impeller B The hull outside Jing speed increasing mechanism is arranged with the housing clutch transmission.

Scheme 112：On the basis of scheme 106, further make at least one in the impeller A and the impeller B The enclosure interior is arranged with the housing clutch transmission.

Scheme 113：On the basis of scheme 107, further make at least one in the impeller A and the impeller B The enclosure interior is arranged with the housing clutch transmission.

Scheme 114：On the basis of scheme 106, further make at least one in the impeller A and the impeller B The enclosure interior Jing speed increasing mechanism is arranged with the housing clutch transmission.

Scheme 115：On the basis of scheme 107, further make at least one in the impeller A and the impeller B The enclosure interior Jing speed increasing mechanism is arranged with the housing clutch transmission.

Scheme 116：In scheme 106 to 115 on the basis of either a program, the impeller A and the impeller B are further made In one be set to turbine, one is set to pump impeller.

Scheme 117：In scheme 106 to 115 on the basis of either a program, the energy adjustment system is further set also to wrap Impeller A B is included, impeller A B is arranged in series with the impeller A and the impeller B.

Scheme 118：On the basis of scheme 116, the energy adjustment system is further set also to include impeller A B, the leaf Wheel AB is arranged in series with the impeller A and the impeller B.

Scheme 119：In scheme 106 to 118 on the basis of either a program, further arrange the housing weightening.

Scheme 120：In scheme 106 to 119 on the basis of either a program, inertia is further set on the housing Body.

Scheme 121：In scheme 106 to 120 on the basis of either a program, the housing and rotary inertia body are further made Transmission is arranged, or the housing Jing speed increasing mechanisms are arranged with the transmission of rotary inertia body.

In the present invention, so-called " be mechanically connected and arrange " refers to that all linkages mechanically are arranged, alternative Selection is fixedly connected setting, integrated setting and transmission and arranges.In the present invention, so-called " A with B transmission arrange " refer to A and/or The mechanical connection setting piece of A is arranged with the mechanical connection setting piece transmission of B and/or B.

In the present invention, object and/or thing that so-called " rotary inertia body " increases for the purpose of referring to increase rotary inertia Matter, is included in the object and/or material increased on existing part, and/or the transmission increased for the purpose of increase rotary inertia Relation.

In the present invention, the rotary inertia body is selectively chosen and is set to flywheel.

In the present invention, so-called " rotary inertia body " includes being selectively chosen the inertia for being provided with torsion damping elastic piece Body.

In the present invention, so-called " flywheel " includes being selectively chosen the flywheel for being provided with torsion damping elastic piece.

In the present invention, so-called " torsion damping elastic piece " refers to the elasticity set in order to reduce rotary power impact Part.

In the present invention, the letter such as so-called " A ", " B " is added after a certain component names merely to distinguishing two or several Title identical part.

In the present invention, so-called " connect setting " refers to that being fixedly connected setting, integrated setting or linkage is arranged.

In the present invention, so-called " inertia body " refers to the object with certain mass, and such as mass, flywheel and part increase Reset the unnecessary material that can form rotary inertia that meter is obtained.

In the present invention, so-called " linear velocity setting " refers to and allows the parts to obtain higher by changing drive connection The drive connection of rotating speed.

In the present invention, necessary part, list should be arranged where necessity according to heat energy and the known technology of dynamic field Unit or system etc..

Beneficial effects of the present invention are as follows:

Energy adjusting method disclosed in this invention and its using methods described system can effectively adjust energy pass It is defeated, improve efficiency of transmission.

Description of the drawings：

Fig. 1 .1 and 1.2：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；

Fig. 6：The structural representation of the embodiment of the present invention 6；

Fig. 7：The structural representation of the embodiment of the present invention 7；

Fig. 8：The structural representation of the embodiment of the present invention 8；

Fig. 9：The structural representation of the embodiment of the present invention 9；

Figure 10：The structural representation of the embodiment of the present invention 10；

Figure 11：The structural representation of the embodiment of the present invention 11；

Figure 12：The structural representation of the embodiment of the present invention 12；

Figure 13：The structural representation of the embodiment of the present invention 13；

Figure 14：The structural representation of the embodiment of the present invention 14；

Figure 15：The structural representation of the embodiment of the present invention 15；

Figure 16：The structural representation of the embodiment of the present invention 16；

Figure 17：The structural representation of the embodiment of the present invention 17；

Figure 18：The structural representation of the embodiment of the present invention 18；

Figure 19：The structural representation of the embodiment of the present invention 19；

Figure 20：The structural representation of the embodiment of the present invention 20；

Figure 21：The structural representation of the embodiment of the present invention 21；

Figure 22：The structural representation of the embodiment of the present invention 22；

Figure 23：The structural representation of the embodiment of the present invention 23；

Figure 24：The structural representation of the embodiment of the present invention 24；

Figure 25：The structural representation of the embodiment of the present invention 25；

Figure 26：The structural representation of the embodiment of the present invention 26；

Figure 27：The structural representation of the embodiment of the present invention 27；

Figure 28：The structural representation of the embodiment of the present invention 28；

Figure 29：The structural representation of the embodiment of the present invention 29；

Figure 30：The structural representation of the embodiment of the present invention 30；

Figure 31：The structural representation of the embodiment of the present invention 31；

Figure 32：The structural representation of the embodiment of the present invention 32；

Figure 33：The structural representation of the embodiment of the present invention 33；

Figure 34：The structural representation of the embodiment of the present invention 34.

Specific embodiment

A kind of energy adjusting method of the present invention, by active power system Jing variable transmission ratio device and passive dynamical system Association, by increasing, the quality of the passive dynamical system increases the rotary inertia of the passive dynamical system and/or rotation is moved Energy.

Embodiment 1

A kind of system of application preceding energy method of adjustment, as shown in Fig. 1 .1 and 1.2, the active power system is set to Power input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described Passive dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 With the connect setting of the power output shaft 3；Increase the rotation of the passive dynamical system by increasing the quality of the turbine 203 Inertia and/or rotational kinetic energy.

Embodiment 2

A kind of system of application preceding energy method of adjustment, as shown in Fig. 2 being with the difference of embodiment 1：By by institute The housing 10 and the connect setting of the turbine 203 for stating element of fluid increases the rotary inertia of the passive dynamical system and/or turns Kinetic energy.

Embodiment 3

A kind of system of application preceding energy method of adjustment, as shown in figure 3, being with the difference of embodiment 1：By the stream The housing 10 of body unit is with the connect setting of the turbine 203 and increases the quality of the housing 10.

As disposable embodiment, can also be by increasing the turbine using the system of preceding energy method of adjustment 203 quality, the quality for increasing the power output shaft 3, by the housing of the element of fluid and the connect setting of the turbine 203 With by the housing of the element of fluid is with the connect setting of the turbine 203 and increases by least two sides in the quality of the housing The set-up mode that formula combines is realized increasing the rotary inertia and/or rotational kinetic energy of the passive dynamical system.

The present invention second energy adjusting method, make in the dynamical system for including pump impeller 201 and turbine 203 with described Turbine 203 is the transmission system Jing arrangement of clutch 6 and the clutch transmission of rotary inertia body 51 of driving link.

The present invention the third energy adjusting method, make in the dynamical system for including pump impeller 201 and turbine 203 with described Turbine 203 is the transmission system Jing arrangement of clutch 6 and speed increasing mechanism 4 and the clutch transmission of rotary inertia body 51 of driving link.

The rotary inertia body 51 can be further set to be set to flywheel with the third energy adjusting method described second.

The 5th kind of energy adjusting method of the present invention, by pump impeller 201, guide wheel 202 and turbine 203 housing 10 is correspondingly arranged at It is interior, the rotary inertia of the dynamical system with the turbine 203 as driving link is increased in the housing 10.

Embodiment 4

The system of the 5th kind of energy adjusting method described in a kind of energy application, as shown in figure 4, including pump impeller 201, guide wheel 202nd, turbine 203 and housing 10, the pump impeller 201, the guide wheel 202 and the turbine 203 are correspondingly arranged at the housing 10 It is interior, inertia body 5 is set on the power transmission shaft of the turbine 203.

As disposable embodiment, the embodiment of the present invention 4 also optionally make the power transmission shaft of the turbine 203 with The connected setting of the inertia body 5, integrated setting or transmission are arranged.

Used as disposable embodiment, the embodiment of the present invention 4 is also optionally in the inside of the housing 10 whirlpool Inertia body 5, or the further setting on the turbine 203 of the inside of the housing 10 on the basis of embodiment 4 are set on wheel 203 Inertia body 5.

Embodiment 5

The system of the 5th kind of energy adjusting method described in a kind of energy application, as shown in figure 5, including pump impeller 201, guide wheel 202nd, turbine 203 and housing 10, the pump impeller 201, the guide wheel 202 and the turbine 203 are correspondingly arranged at the housing 10 Interior, the weightening of the turbine 203 is arranged.

Embodiment 6

The system of the 5th kind of energy adjusting method described in a kind of energy application, as shown in fig. 6, including pump impeller 201, guide wheel 202nd, turbine 203 and housing 10, the pump impeller 201, the guide wheel 202 and the turbine 203 are correspondingly arranged at the housing 10 Interior, the weightening of the turbine 203 is arranged, and the housing 10 is connected for the dynamical system of driving link with the turbine 203 and arranges.

Used as disposable embodiment, the embodiment of the present invention 6 is also selectively chosen arranges the housing weightening, Or on the basis of embodiment 6, further arrange the housing weightening.

Used as disposable embodiment, the embodiment of the present invention 6 and its disposable embodiment are also optionally selected Selecting makes the housing 10 set with dynamical system transmission setting, integrated setting or the clutch transmission that the turbine 203 is driving link Put.

Embodiment 7

The system of the 5th kind of energy adjusting method described in a kind of energy application, as shown in fig. 7, comprises pump impeller 201, guide wheel 202nd, turbine 203 and housing 10, the pump impeller 201, the guide wheel 202 and the turbine 203 are correspondingly arranged at the housing 10 It is interior, further arrange the weightening of the turbine 203 and on the housing 10 with the dynamical system that the turbine 203 is driving link Inertia body 5 is set, and the turbine 203 is connected with the housing 10 and arranges.

Used as disposable embodiment, the embodiment of the present invention 7 also sets optionally only the weightening of the turbine 203 Put, or only, to arrange inertia body 5 in the dynamical system of driving link, and can again enter one in the housing 10 and the turbine 203 Step optionally selects to make the turbine 203 arrange with the transmission setting of the housing 10, integrated setting or clutch transmission.

As disposable embodiment, described in the embodiment of the present invention 4 and embodiment 7 and its disposable embodiment Inertia body 5 is selectively chosen and is set to flywheel.

Used as disposable embodiment, the embodiment of the present invention 4 to embodiment 7 and its disposable embodiment can enter One step optionally selects to make the pump impeller 201 arrange with engine connect setting or clutch switching；Or the pump impeller 201 and electricity Motivation connect setting or clutch switching are arranged.

Embodiment 8

A kind of energy adjustment system, as shown in figure 8, on the basis of embodiment 4, further making the turbine 203 and bearing Carry 301 clutches switching to arrange.

Used as disposable embodiment, the disposable embodiment of the embodiment of the present invention 4 also can further make described Turbine 203 is arranged with load 301 clutches switching.

Used as disposable embodiment, the embodiment of the present invention 5 to embodiment 7 and its disposable embodiment can enter One step optionally selects to make the turbine 203 arrange with 301 connect settings of load or clutch switching.

It is all in the present invention to be correspondingly arranged at the pump impeller 201 in housing 10, described lead as disposable embodiment The embodiment of wheel 202 and the turbine 203 can also make the pump impeller 201, the guide wheel 202 and the turbine 203 connect Connection is arranged in the housing 10.

The 6th kind of energy adjusting method of the present invention, makes power intake input power of the actuator to torque-converters, makes institute The clutch end Jing clutches of torque-converters are stated to load transmission, increases turbine the turning for the system of driving link of the torque-converters Dynamic inertia.

Embodiment 9

A kind of system for applying the 6th kind of energy adjusting method, as shown in figure 9, in the turbine 203 of the torque-converters 7 Power transmission shaft 302 on inertia body 5 is set.

Used as disposable embodiment, the embodiment of the present invention 9 is also optionally in the turbine in the torque-converters 7 Inertia body 5 is set on 203, also further on the turbine 203 of the torque-converters 7 inertia can be set on the basis of embodiment 9 Body 5.

Embodiment 10

A kind of system for applying the energy adjusting method described in the 6th kind, as shown in Figure 10, the turbine of the torque-converters 7 203 weightenings are arranged.

Embodiment 11

A kind of system for applying the energy adjusting method described in the 6th kind, as shown in figure 11, the turbine of the torque-converters 7 203 weightening settings and the weightening setting of housing 10 of the torque-converters 7, the housing 10 of the torque-converters 7 and the whirlpool of the torque-converters 7 Wheel 203 is connected for the dynamical system of driving link and arranges.

Used as disposable embodiment, the embodiment of the present invention 11 is also selectively chosen the shell for making the torque-converters 7 Body 10 is arranged with transmission system integrated setting, transmission setting, clutch transmission that the turbine 203 of the torque-converters 7 is driving link Or arrange through gear transmission.And can further make the gear be set to speed increasing mechanism or reducing gear, may be used also The speed increasing mechanism is further optionally set to be set to speed increaser or planetary mechanism speed increaser.

Used as disposable embodiment, the embodiment of the present invention 11 and its disposable embodiment can also make the bending moment The turbine 203 of device 7 does not increase weight setting.

Used as disposable embodiment, the present invention is also alternative using the system of the 6th kind of energy adjusting method Ground selects to make the weightening of turbine 203 of the torque-converters 7 to arrange and/or in the housing 10 and the torque-converters 7 of the torque-converters 7 To arrange inertia body 5 in the dynamical system of driving link, the pump impeller 201 is mechanically connected and arranges turbine 203 with the housing 10.And The inertia body 5 can be further set to be set to flywheel.

Embodiment 12

A kind of energy adjustment system, as shown in figure 12, on the basis of embodiment 9, further makes the pump of the torque-converters 7 Wheel 201 is arranged with the clutch of the actuator 101 switching.

As disposable embodiment, the embodiment of the present invention 10 and embodiment 11 and its disposable embodiment and The disposable embodiment of embodiment 9 further can optionally make the pump impeller 201 and the actuator of the torque-converters 7 101 connect settings or clutch switching are arranged.

Embodiment 13

A kind of energy adjustment system, as shown in figure 13, on the basis of embodiment 12, further makes the torque-converters 7 Turbine 203 is arranged with load 301 clutches switching.

As disposable embodiment, the embodiment of the present invention 9 to embodiment 11 and its transformable embodiment and The disposable embodiment of embodiment 12 further can optionally make the turbine 203 of the torque-converters 7 and load 301 from Close switching to arrange.

As disposable embodiment, the embodiment of the present invention 9 to embodiment 13 and its disposable embodiment Further optionally select the power output member for making the actuator 101 be set to engine or be set to motor power output Part.

Embodiment 14

A kind of energy adjustment system, as shown in figure 14, including torque-converters 7 and clutch 61, the turbine of the torque-converters 7 203 power output member is connected with the clutch 61 and arranges or integrated setting, in the turbine 203 and the clutch 61 Between transmission system on inertia body 5 is set.

Used as disposable embodiment, the embodiment of the present invention 14 is also selectively chosen the whirlpool for making the torque-converters 7 Wheel 203 is connected with the clutch 61 and arranges or integrated setting.

Used as disposable embodiment, the embodiment of the present invention 14 and its disposable embodiment are also optionally selected Selecting makes the inertia body 5 be arranged on the turbine 203 and/or the inertia body 5 is arranged on the turbine 203 with the clutch On power transmission shaft 302 between device 61；The embodiment of the present invention 14 and its disposable embodiment are also selectively chosen and make institute The weightening of turbine 203 for stating torque-converters 7 is arranged；The embodiment of the present invention 14 and its disposable embodiment are also selectively chosen The weightening of turbine 203 of the torque-converters 7 is set and/or the weightening of housing 10 of the torque-converters 7 is arranged, the torque-converters 7 Housing 10 is mechanically connected for the dynamical system of driving link with the turbine 203 of the torque-converters 7 and arranges；The embodiment of the present invention 14 and its Disposable embodiment is also selectively chosen makes the weightening of turbine 203 of the torque-converters 7 arrange and/or in the bending moment The housing 10 of device 7 is setting inertia body 5, the torque-converters 7 in the dynamical system of driving link with the turbine 203 of the torque-converters 7 The housing 10 of pump impeller 201 and the torque-converters 7 be mechanically connected and arrange.

Used as disposable embodiment, the embodiment of the present invention 14 is also selectively chosen is set to the inertia body 5 Flywheel.

Embodiment 15

A kind of energy adjustment system, as shown in figure 15, on the basis of embodiment 14, further makes the torque-converters 7 Pump impeller 201 is arranged with the clutch of actuator 101 switching.

Used as disposable embodiment, the embodiment of the present invention 15 is also selectively chosen the pump for making the torque-converters 7 Wheel 201 is arranged with motor connect setting or clutch switching.

Used as disposable embodiment, all disposable embodiments of the embodiment of the present invention 14 can be selected further Property ground when selecting pump impeller 201 and the connect setting of actuator 101 of the torque-converters 7 or clutch switching arrange；Or make the bending moment The pump impeller 201 of device 7 is arranged with motor connect setting or clutch switching.

Embodiment 16

A kind of energy adjustment system, as shown in figure 16, on the basis of embodiment 14, further makes the torque-converters 7 Turbine 203 is arranged with the clutch of the actuator 101 switching.

Used as disposable embodiment, all disposable embodiment of the embodiment of the present invention 14 can be selected further Select to selecting property to make the turbine 203 of the torque-converters 7 arrange with the clutch of the actuator 101 switching.

Used as disposable embodiment, the embodiment of the present invention 15 and its disposable embodiment also can be selected further Property ground select make the torque-converters 7 turbine 203 and the clutch of the actuator 101 switching arrange.

Used as disposable embodiment, embodiment 15 and embodiment 16 and its disposable embodiment can be further Optionally select to make the actuator 101 be set to the power output member of engine or be set to motor power output.

Embodiment 17

A kind of energy adjustment system, as shown in figure 17, including torque-converters 7, clutch 61 and gearbox 8, the torque-converters 7 Power output member Jing described in the power input transmission of clutch 61 and the gearbox 8 arrange；In the whirlpool of the torque-converters 7 Rotary inertia body 51 is set in the transmission system between wheel 203 and the driving link of the clutch 61.

Embodiment 18

A kind of energy adjustment system, as shown in figure 18, including torque-converters 7, clutch 61 and gearbox 8, the torque-converters 7 Power output member Jing described in the power input transmission of clutch 61 and the gearbox 8 arrange；In the whirlpool of the torque-converters 7 Jing speed increasing mechanisms 4 arrange rotary inertia body 51 in transmission system between wheel 203 and the driving link of the clutch 61.

Used as disposable embodiment, the embodiment of the present invention 17 and embodiment 18 further can optionally select to make The rotary inertia body 51 is arranged on the turbine 203, the biography between the turbine 203 and the driving link of the clutch 61 On moving axis 302 or on the driving link of the clutch 61；Also further can optionally select to make the Jing of rotary inertia body 51 Reducing gear is arranged on the turbine 203, the power transmission shaft 302 between the turbine 203 and the driving link of the clutch 61 Above or on the driving link of the clutch 61.

As disposable embodiment, the embodiment of the present invention 17 and embodiment 18 and its disposable embodiment Further optionally select to make the working media of the torque-converters 7 be set to liquid, gas or be set to gas-fluid two-phase mixture.

Embodiment 19

A kind of energy adjustment system, as shown in figure 19, including pump impeller 201, turbine 203 and clutch 61, the pump impeller 201 It is correspondingly arranged with the turbine 203, the driving link of the clutch 61 is mechanically connected with the turbine 203 and arranges, the clutch The Passive part of device 61 is set to power output member；Transmission system between the driving link of the turbine 203 and the clutch 61 Upper setting rotary inertia body 51.

Embodiment 20

A kind of energy adjustment system, as shown in figure 20, including pump impeller 201, turbine 203 and clutch 61, the pump impeller 201 It is correspondingly arranged with the turbine 203, the driving link of the clutch 61 is mechanically connected with the turbine 203 and arranges, the clutch The Passive part of device 61 is set to power output member；Transmission system between the driving link of the turbine 203 and the clutch 61 Upper Jing speed increasing mechanisms 4 arrange rotary inertia body 51.

As disposable embodiment, the embodiment of the present invention 19 and embodiment 20 be also selectively chosen make it is described Rotary inertia body 51 is arranged on the turbine 203, the power transmission shaft between the turbine 203 and the driving link of the clutch 61 On 302 or on the driving link of the clutch 61；Or make the Jing reducing gears of the rotary inertia body 51 be arranged on the turbine 203 On the upper, power transmission shaft 302 between the turbine 203 and the driving link of the clutch 61 or the clutch 61 driving link On.

As disposable embodiment, the embodiment of the present invention 19 and embodiment 20 and its disposable embodiment Further optionally select to make the working media of the pump impeller 201 and the turbine 203 be set to liquid, gas or be set to gas-liquid Two-phase mixture.

Embodiment 21

A kind of energy adjustment system, as shown in figure 21, including pump impeller 201, guide wheel 202, turbine 203 and clutch 61, institute State pump impeller 201, the guide wheel 202 and the turbine 203 to be correspondingly arranged, the driving link of the clutch 61 and the turbine 203 It is mechanically connected and arranges, the Passive part of the clutch 61 is set to power output member；In the turbine 203 and the clutch 61 Rotary inertia body 51 is set in the transmission system between driving link.

Embodiment 22

A kind of energy adjustment system, as shown in figure 22, including pump impeller 201, guide wheel 202, turbine 203 and clutch 61, institute State pump impeller 201, the guide wheel 202 and the turbine 203 to be correspondingly arranged, the driving link of the clutch 61 and the turbine 203 It is mechanically connected and arranges, the Passive part of the clutch 61 is set to power output member；In the turbine 203 and the clutch 61 Jing speed increasing mechanisms 4 arrange rotary inertia body 51 in transmission system between driving link.

Used as disposable embodiment, the embodiment of the present invention 21 and embodiment 22 further can optionally select to make The rotary inertia body 51 is arranged on the turbine 203, the biography between the turbine 203 and the driving link of the clutch 61 On moving axis 302 or on the driving link of the clutch 61；Or further optionally select to subtract the Jing of rotary inertia body 51 Fast mechanism is arranged on the turbine 203, on the power transmission shaft 302 between the turbine 203 and the driving link of the clutch 61 Or on the driving link of the clutch 61.

As disposable embodiment, the embodiment of the present invention 21 and embodiment 22 and its disposable embodiment Further optionally select to make the working media of the pump impeller 201, the guide wheel 202 and the turbine 203 be set to liquid, gas Body is set to gas-fluid two-phase mixture.

Used as disposable embodiment, the embodiment of the present invention 19 to embodiment 22 and its disposable embodiment are gone back Optionally choosing makes described being correspondingly arranged be set to serial communication setting.

Embodiment 23

A kind of energy adjustment system, as shown in figure 23, including coupler 9, clutch 61 and gearbox 8, the coupler 9 Power output member Jing described in the power input transmission of clutch 61 and the gearbox 8 arrange；In the whirlpool of the coupler 9 Rotary inertia body 51 is set in the transmission system between wheel 203 and the driving link of the clutch 61.

Embodiment 24

A kind of energy adjustment system, as shown in figure 24, including coupler 9, clutch 61 and gearbox 8, the coupler 9 Power output member Jing described in the power input transmission of clutch 61 and the gearbox 8 arrange；In the whirlpool of the coupler 9 Jing speed increasing mechanisms 4 arrange rotary inertia body 51 in transmission system between wheel 203 and the driving link of the clutch 61.

Used as disposable embodiment, the embodiment of the present invention 23 and embodiment 24 further can optionally select to make The rotary inertia body 51 is arranged on the turbine 203, the biography between the turbine 203 and the driving link of the clutch 61 On moving axis 302 or on the driving link of the clutch 61；Or further optionally select to subtract the Jing of rotary inertia body 51 Fast mechanism is arranged on the turbine 203, on the power transmission shaft 302 between the turbine 203 and the driving link of the clutch 61 Or on the driving link of the clutch 61.

As disposable embodiment, the embodiment of the present invention 23 and embodiment 24 and its disposable embodiment Further optionally select to make the working media of the coupler 9 be set to liquid, gas or be set to gas-fluid two-phase mixture.

7th a variety of energy adjusting methods of the present invention, by active power system Jing variable transmission ratio device and passive power System relationship, by adjust the quality layout of the passive dynamical system increase the passive dynamical system rotary inertia and/ Or rotational kinetic energy.

Embodiment 25

Using the system of the 7th kind of energy adjusting method, as shown in figure 25, the active power system is set to power Input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described passive Dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 and institute State the connect setting of power output shaft 3；Increase the quality at the telecentricity of the turbine 203.

Embodiment 26

Using the system of the 7th kind of energy adjusting method, as shown in figure 26, the active power system is set to power Input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described passive Dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 and institute State the connect setting of power output shaft 3；Inertia body 5 is set on the power output shaft 3.

Embodiment 27

Using the system of the 7th kind of energy adjusting method, as shown in figure 27, the active power system is set to power Input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described passive Dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 and institute State the connect setting of power output shaft 3；By the housing 10 of the element of fluid is with the connect setting of the turbine 203 and increases the shell Quality at the telecentricity of body 10.

Can as at least two technical schemes in disposable embodiment embodiment 25, embodiment 26 and embodiment 27 New technical scheme is formed to be mutually combined.

The 8th kind of energy adjusting method of the present invention, by active power system Jing variable transmission ratio device and passive dynamical system System association, by increasing the passive dynamical system, in whole or in part the linear velocity of part is arranged and increases the passive power The rotary inertia and/or rotational kinetic energy of system.

Embodiment 28

A kind of system for applying the 8th kind of energy adjusting method, as shown in figure 28, the active power system is set to Power input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described Passive dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 With the connect setting of the power output shaft 3；Speed increaser 81 is connected with the passive dynamical system and sets described in the Jing of the turbine 203 Put, and the discharge capacity of the turbine 203 is less than the discharge capacity of the pump impeller 201.

Used as disposable embodiment, the embodiment of the present invention 28 is also selectively chosen makes the active power system Power input shaft 1 is set to, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, The passive dynamical system is set to include the dynamical system of speed increaser 81, inertia body 5 and power output shaft 3, the power output Speed increaser 81 described in the Jing of axle 3 makes the rotating speed of the inertia body 5 higher than the power output shaft 3, the power input shaft 1 with it is described The connect setting of pump impeller 201, the turbine 203 and the connect setting of the power output shaft 3.

The 9th kind of energy adjusting method of the present invention, by active power system Jing variable transmission ratio device and passive dynamical system System association, by setting up inertia body 5 rotary inertia and/or rotational kinetic energy of the passive dynamical system are increased.

Embodiment 29

A kind of system for applying the 9th kind of energy adjusting method, as shown in figure 29, the active power system is set to Power input shaft 1, the variable transmission ratio device is set to include the element of fluid of pump impeller 201, guide wheel 202 and turbine 203, described Passive dynamical system is set to power output shaft 3, the power input shaft 1 and the connect setting of the pump impeller 201, the turbine 203 With the connect setting of the power output shaft 3, on the pump impeller 201, on the power input shaft 1 and with the turbine 203 Inertia body 5 is set on the housing 10 of the element of fluid of linkage.

Used as disposable embodiment, the embodiment of the present invention 29 is also selectively chosen on the pump impeller 201, institute State on power input shaft 1 and on the housing 10 of the element of fluid linked with the turbine 203 in one or two skill Inertia body 5 is set in art scheme.

Used as disposable embodiment, the embodiment of the present invention 29 and its disposable embodiment can be selected further Property ground select make the inertia body 5 be set to flywheel.

Tenth kind of energy adjusting method of the invention, make at least one in the impeller A and impeller B coordinated with housing into rotation with The housing clutch transmission is arranged.

Used as disposable embodiment, the tenth kind of energy adjusting method of the present invention also further can optionally make described At least one in impeller A and the impeller B is arranged in the hull outside with the housing clutch transmission；Or make the impeller At least one in A and the impeller B is arranged in the hull outside Jing speed increasing mechanism with the housing clutch transmission；Or make institute At least one stated in impeller A and the impeller B is arranged in the enclosure interior with the housing clutch transmission；Or make the leaf At least one in the wheel A and impeller B is arranged in the enclosure interior Jing speed increasing mechanism with the housing clutch transmission；And can One is further optionally set in the impeller A and the impeller B to be set to turbine, another is set to pump impeller；Can also enter again One step makes impeller A B be arranged in series with the impeller A and the impeller B；And further can optionally make the housing increase weight Arrange；And can again further optionally on the housing arrange inertia body.

As disposable embodiment, the tenth in the embodiment of the present invention kind energy adjusting method and its convertible Embodiment further can optionally select to make the housing to arrange with the transmission of rotary inertia body；Or the housing Jing increases Fast mechanism is arranged with the transmission of rotary inertia body；And further can optionally make the rotary inertia body be set to flywheel.

Embodiment 30

A kind of energy adjustment system, as shown in figure 30, including impeller A 204, impeller B 205 and housing 10, the impeller A 204 and the impeller B 205 are arranged in the housing 10, the impeller A 204 and the impeller B 205 and the housing 10 Be rotatably assorted setting, and the impeller A 204 and the impeller B 205 are passed with the housing 10 in the inner clutch of the housing 10 It is dynamic to arrange.

Used as disposable embodiment, the embodiment of the present invention 30 is also selectively chosen makes the He of the impeller A 204 One in the impeller B 205 is arranged with the housing 10 in the transmission of the inner clutch of the housing 10.

Embodiment 31

A kind of energy adjustment system, as shown in figure 31, including impeller A 204, impeller B 205 and housing 10, the impeller A 204 and the impeller B 205 are arranged in the housing 10, the impeller A 204 and the impeller B 205 and the housing 10 Be rotatably assorted setting, and the impeller A 204 and the impeller B 205 are passed with the housing 10 in the outside clutch of the housing 10 It is dynamic to arrange.

Used as disposable embodiment, the embodiment of the present invention 31 is also selectively chosen makes the He of the impeller A 204 One in the impeller B 205 is arranged outside the housing 10 with the clutch transmission of the housing 10.

Embodiment 32

A kind of energy adjustment system, as shown in figure 32, including impeller A 204, impeller B 205 and housing 10, the impeller A 204 and the impeller B 205 are arranged in the housing 10, the impeller A 204 and the impeller B 205 and the housing 10 Be rotatably assorted setting, and the impeller A 204 sets in the outside Jing speed increasing mechanism 4 of the housing 10 with the clutch transmission of the housing 10 Put.

Embodiment 33

A kind of energy adjustment system, as shown in figure 33, including impeller A 204, impeller B 205 and housing 10, the impeller A 204 and the impeller B 205 are arranged in the housing 10, the impeller A 204 and the impeller B 205 and the housing 10 Be rotatably assorted setting, and the impeller A 204 sets in the inside Jing speed increasing mechanism 4 of the housing 10 with the clutch transmission of the housing 10 Put.

Used as disposable embodiment, the embodiment of the present invention 33 also optionally makes the Jing speedups of the impeller B 205 Mechanism 4 is arranged with the clutch transmission of the housing 10；Or make the impeller A 204 and the Jing of impeller B 205 same or different Speed increasing mechanism 4 is arranged with the clutch transmission of the housing 10.

As disposable embodiment, the embodiment of the present invention 30 to embodiment 33 and its disposable embodiment One is further optionally set in the impeller A 204 and the impeller B 205 to be set to turbine 203, one is set to pump impeller 201。

Embodiment 34

A kind of energy adjustment system, as shown in figure 34, including impeller A 204, impeller B 205 and housing 10, the impeller A 204 and the impeller B 205 are arranged in the housing 10, the impeller A 204 and the impeller B 205 and the housing 10 Be rotatably assorted setting, and the impeller A 204 and the impeller B 205 are passed with the housing 10 in the inner clutch of the housing 10 Dynamic to arrange, the energy adjustment system also includes impeller A B 206, impeller A B 206 and the impeller A 204 and the leaf Wheel B 205 is arranged in series.

As disposable embodiment, embodiment 31 to embodiment 33 and its disposable embodiment and embodiment 30 disposable embodiment further can optionally select to make the energy adjustment system also include impeller A B 206, Impeller A B 206 is arranged in series with the impeller A 204 and the impeller B 205.

As disposable embodiment, the embodiment of the present invention 30 to embodiment 34 and its disposable embodiment Further optionally select to make the weightening of the housing 10 arrange or inertia body 5 is arranged on the housing 10, or make the shell Body 10 is arranged with the transmission of rotary inertia body 51, or the Jing speed increasing mechanisms 4 of the housing 10 is arranged with the transmission of rotary inertia body 51.

It is clear that the invention is not restricted to above example, according to techniques known and technology disclosed in this invention Scheme, can derive or association goes out many flexible programs, and all these flexible programs also are regarded as the protection model for being the present invention Enclose.

Claims (10)

1. a kind of energy adjusting method, it is characterised in that：By active power system Jing variable transmission ratio device and passive dynamical system System association, by increasing the quality of the passive dynamical system rotary inertia and/or the rotation of the passive dynamical system are increased Kinetic energy.

2. using the system of energy adjusting method as claimed in claim 1, it is characterised in that：The active power system is set to move Power input shaft (1), the variable transmission ratio device is set to include the fluid list of pump impeller (201), guide wheel (202) and turbine (203) Unit, the passive dynamical system is set to power output shaft (3), and the power input shaft (1) is connected with the pump impeller (201) and sets Put, the turbine (203) and the power output shaft (3) connect setting；Increase the quality of the turbine (203), increase described The quality of power output shaft (3), by the housing (10) of the element of fluid and the turbine (203) connect setting and/or by institute The housing (10) of element of fluid is stated with the turbine (203) connect setting and increases the quality of the housing (10).

3. a kind of energy adjusting method, it is characterised in that：Make in the dynamical system for including pump impeller (201) and turbine (203) with The turbine (203) for driving link transmission system Jing arrangement of clutch (6) and rotary inertia body (51) clutch transmission.

4. a kind of energy adjusting method, it is characterised in that：Make in the dynamical system for including pump impeller (201) and turbine (203) with Transmission system Jing arrangement of clutch (6) and speed increasing mechanism (4) and rotary inertia body (51) clutch of the turbine (203) for driving link Transmission.

5. a kind of energy adjusting method, it is characterised in that：Pump impeller (201), guide wheel (202) and turbine (203) are correspondingly arranged at In housing (10), the rotary inertia of the dynamical system with the turbine (203) as driving link is increased in the housing (10).

6. a kind of energy adjusting method, it is characterised in that：Pump impeller (201), guide wheel (202) and turbine (203) serial communication are set Put in housing (10), the rotation that the dynamical system with the turbine (203) as driving link is increased in the housing (10) is used to Amount.

7. a kind of energy adjusting method, it is characterised in that：Make power intake input of the actuator (101) to torque-converters (7) dynamic Power, makes clutch end Jing clutches (61) of the torque-converters (7) to loading (301) transmission, increases the torque-converters (7) Turbine (203) for the system of driving link rotary inertia.

8. a kind of energy adjustment system, including torque-converters (7) and clutch (61), it is characterised in that：The whirlpool of the torque-converters (7) The power output member of the turbine (203) of wheel (203) or the torque-converters (7) is connected with the clutch (61) and arranges or integrated Arrange, inertia body (5) is set in the transmission system between the turbine (203) and the clutch (61).

9. a kind of energy adjustment system, including torque-converters (7), clutch (61) and gearbox (8), it is characterised in that：The change Clutch (61) described in the power output member Jing of square device (7) is arranged with the power input transmission of the gearbox (8)；Described Rotary inertia body is set in the transmission system between the turbine (203) of torque-converters (7) and the driving link of the clutch (61) (51) Jing increases in the transmission system, or between the driving link of the turbine (203) with the clutch (61) of the torque-converters (7) Fast mechanism (4) arranges rotary inertia body (51).

10. a kind of energy adjustment system, including pump impeller (201), turbine (203) and clutch (61), it is characterised in that：The pump Wheel (201) and the turbine (203) are correspondingly arranged, and driving link and the turbine (203) of the clutch (61) are mechanically connected Arrange, the Passive part of the clutch (61) is set to power output member；In the turbine (203) and the master of the clutch (61) Rotary inertia body (51) is set in the transmission system between moving part, or in the turbine (203) and the master of the clutch (61) Jing speed increasing mechanisms (4) arrange rotary inertia body (51) in transmission system between moving part.