CN106369128A

CN106369128A - Energy adjusting method and energy adjusting system

Info

Publication number: CN106369128A
Application number: CN201610591647.5A
Authority: CN
Inventors: 靳北彪
Original assignee: Shangling Co Ltd
Current assignee: Shangling Co Ltd
Priority date: 2015-07-23
Filing date: 2016-07-25
Publication date: 2017-02-01

Abstract

The invention discloses an energy adjusting method. A no-load voltage ratio unit is used for driving a rotation inertia body to store kinetic energy, and then another no-load voltage ratio unit is used for releasing the kinetic energy of the rotation inertia body. The invention further discloses an energy adjusting system which comprises a variable load transmission connecting piece, a hydraulic torque converter A, a hydraulic torque converter B and a transmission shaft; the hydraulic torque converter A comprises a pump wheel A, a guide wheel A and a turbine A which are correspondingly arranged; the hydraulic torque converter B comprises a pump wheel B, a guide wheel B and a turbine B which are correspondingly arranged; and the variable load transmission connecting piece is in clutch transmission with the pump wheel A and the turbine B through clutches, and the transmission shaft is in clutch transmission with the pump wheel B and the turbine A through clutches. The disclosed energy adjusting method has the beneficial effects of being good in load response, saving energy and being efficient; and the disclosed energy adjusting system has the beneficial effects of occupying small space and being small in weight.

Description

Energy adjusting method and its energy adjustment system

Technical field

The present invention relates to heat energy and dynamic field, more particularly, to energy adjustment system.

Background technology

There is structure simply using inertia body accumulation of energy, low cost, the many merits such as pollution-free, invention one kind can be efficiently sharp System significance with inertia body accumulation of energy and exoergic is great, particularly can invent a kind of speed that inertia body rotating speed can be made to decline It is faster than the system of the decrease speed of line shaft, or invent the rotating speed ripple that a kind of fluctuation of speed speed of inertia body is faster than line shaft Dynamic system, is promoted the application that inertia body stores energy significantly.(for example include motor and electromotor in addition, legacy system Drive system) stability and load responding particularly significant, the not only impact noise of system, vibrations, life-span and efficiency, and Also the disposal of pollutants of system, particularly vehicle can be affected ring if it is possible to improve load with engineering machinery when including electromotor Should be able to power, will be significant, energy loss and cost for example can be reduced to a great extent.In addition, load variations are fast Motor system, such as vehicle, tank etc. because needing to meet high load capacity demand, generally require to send out according to maximum load requirement configuration Motivation, is so in the state of low load with strong power within most times, and this not only occupies mass efficient space, increase A large amount of weight, also result in serious inefficiency and energy waste, meanwhile if it is possible to effectively reciprocally pass energy Dynamic, for example Brake Energy is stored in rotary inertia body, when being necessary the kinetic energy of rotary inertia body is released to vehicle system System, is beneficial to energy-conserving and environment-protective and so that efficiency is improved.It is thus desirable to inventing a kind of new energy adjusting method and its energy Amount adjustment system.

Content of the invention

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

A kind of energy adjusting method, drives rotary inertia body store kinetic energy with no-load voltage ratio unit, then by another no-load voltage ratio unit Kinetic energy release by described rotary inertia body.

The kinetic energy of tumbler is passed to rotary inertia body with no-load voltage ratio unit by a kind of energy adjusting method, then by another The kinetic energy of described rotary inertia body is released to described tumbler or other tumbler by no-load voltage ratio unit.

A kind of energy adjusting method, drives rotary inertia body store kinetic energy with tumbler through bonder or torque-converters, then will The kinetic energy of described rotary inertia body is released to described tumbler or other tumbler through fluid matasomatism.

A kind of energy adjusting method, drives rotary inertia body store kinetic energy with tumbler through bonder or torque-converters, then will The kinetic energy of described rotary inertia body is released to described tumbler or other tumbler through another bonder or torque-converters.

Further optionally, described fluid matasomatism is made to be to realize by including the torque-converters of pump impeller, guide wheel and turbine, Or described fluid matasomatism is to be realized by including the bonder of pump impeller and turbine.

A kind of energy adjusting method, will be rotated with mechanical transmission, fluid transmission gear, hydrokinetic torque converter or fluid couplers The power transmission of part is to rotary inertia body store kinetic energy, then is released to the kinetic energy of described rotary inertia body with same parts described Tumbler or other rotatable parts.

A kind of energy adjustment system, including force piece and rotary inertia body, described force piece is through accumulation of energy gear unit and institute State the transmission setting of rotary inertia body, described rotary inertia body is through exoergic gear unit and described force piece transmission setting.

A kind of energy adjustment system, including force piece a, force piece b and rotary inertia body, described force piece a passes through accumulation of energy Moving cell and described rotary inertia body transmission setting, described rotary inertia body is through exoergic gear unit and described force piece b transmission Setting.

Further optionally, described accumulation of energy gear unit is made to be set to hydraulic pressure no-load voltage ratio unit, fluid power no-load voltage ratio unit, strength change Than unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power speedup no-load voltage ratio unit or be set to strength speedup No-load voltage ratio unit.

Further optionally, described exoergic gear unit is made to be set to hydraulic pressure no-load voltage ratio unit, fluid power no-load voltage ratio unit, strength change Than unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power speedup no-load voltage ratio unit or be set to strength speedup No-load voltage ratio unit.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a and turbine b, described pump impeller a, described pump impeller b, institute State turbine a and the setting of described turbine b coaxial line, described pump impeller a is correspondingly arranged with described turbine a, described turbine b and described pump impeller B is correspondingly arranged.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a and turbine b, described pump impeller a, described pump impeller b, institute State turbine a and the setting of described turbine b coaxial line, described pump impeller a and the setting of described turbine a serial communication, described turbine b with described Pump impeller b serial communication is arranged, and force piece a and described turbine b and described pump impeller a clutch switching transmission are arranged, and/or force piece b With described pump impeller b and described turbine a clutch switching transmission setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a and turbine b, described pump impeller a, described pump impeller b, institute State turbine a and the setting of described turbine b coaxial line, described pump impeller a is correspondingly arranged with described turbine a, described turbine b and described pump impeller B is correspondingly arranged, and force piece a and described turbine b and described pump impeller a clutch switching transmission are arranged, and/or force piece b and described pump Wheel b and described turbine a clutch switching transmission setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a and turbine b, described pump impeller a, described pump impeller b, institute State turbine a and the setting of described turbine b coaxial line, described pump impeller a and the setting of described turbine a serial communication, described turbine b with described Pump impeller b serial communication is arranged；Force piece a and described turbine b is mechanically connected setting, and described force piece a is with described pump impeller a machinery even Connect setting, force piece b and described pump impeller b and described turbine a clutch switching transmission setting, or force piece a and described turbine b and institute State pump impeller a clutch switching setting, force piece b and described pump impeller b is mechanically connected setting, described force piece b and described turbine a machinery Connect setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a and turbine b, described pump impeller a, described pump impeller b, institute State turbine a and the setting of described turbine b coaxial line, described pump impeller a is correspondingly arranged with described turbine a, described turbine b and described pump impeller B is correspondingly arranged；Force piece a and described turbine b is mechanically connected setting, and described force piece a is mechanically connected setting with described pump impeller a, Force piece b and described pump impeller b and described turbine a clutch switching transmission setting, or force piece a and described turbine b and described pump impeller a Clutch switching setting, force piece b is mechanically connected setting with described pump impeller b, and described force piece b and described turbine a is mechanically connected and sets Put.

Further optionally, one in described force piece a and described force piece b is made to be mechanically connected with rotary inertia body Arrange, or in described force piece a and described force piece b is mechanically connected setting through speed increasing mechanism with rotary inertia body, or In described force piece a and described force piece b one and rotary inertia body clutch transmission are arranged, or described force piece a and described In force piece b one is arranged with rotary inertia body clutch transmission through speed increasing mechanism.

Further optionally, make in described pump impeller a, described pump impeller b, described turbine a and described turbine b at least one with Inertia body transmission setting or through the transmission setting of speed increasing mechanism and inertia body, or described pump impeller a, described pump impeller b, described turbine a and In described turbine b, at least one is arranged with inertia body clutch transmission with the setting of inertia body clutch transmission or through speed increasing mechanism.

A kind of energy adjustment system, including the transmission of varying duty transmission connection piece, pump impeller a, turbine a, pump impeller b, turbine b and biography Moving axis, described pump impeller a and described turbine b are correspondingly arranged, and described turbine a and described pump impeller b are correspondingly arranged；Described pump impeller a and/or Described turbine a is in transmission connection with described varying duty transmission connection piece through clutch, described pump impeller b and/or described turbine b warp Clutch is connected with described transmission shaft driven；Or described pump impeller a and/or described turbine a is through clutch and described varying duty transmission Connector is in transmission connection；Or described pump impeller b and/or described turbine b is connected with described transmission shaft driven through clutch；Described The transmission of varying duty transmission connection piece is contrary with the direction of rotation of described power transmission shaft.

A kind of energy adjustment system, including the transmission of varying duty transmission connection piece, pump impeller a, turbine a, pump impeller b, turbine b and biography Moving axis, described pump impeller a and described turbine b are correspondingly arranged, and described turbine a and described pump impeller b are correspondingly arranged；Described pump impeller a and/or Described turbine a is in transmission connection with described varying duty transmission connection piece through clutch, described pump impeller b and/or described turbine b warp Clutch is connected with described transmission shaft driven；Or described pump impeller a and/or described turbine a is through clutch and described varying duty transmission Connector is in transmission connection；Or described pump impeller b and/or described turbine b is connected with described transmission shaft driven through clutch.

A kind of energy adjustment system, including the transmission of varying duty transmission connection piece, pump impeller a, turbine a, pump impeller b, turbine b and biography Moving axis, described pump impeller a and described turbine b serial communication, described turbine a and described pump impeller b serial communication；Described pump impeller a and/or Described turbine a is in transmission connection with described varying duty transmission connection piece through clutch, described pump impeller b and/or described turbine b warp Clutch is connected with described transmission shaft driven；Or described pump impeller a and/or described turbine a is through clutch and described varying duty transmission Connector is in transmission connection；Or described pump impeller b and/or described turbine b is connected with described transmission shaft driven through clutch；Described The transmission of varying duty transmission connection piece is contrary with the direction of rotation of described power transmission shaft.

A kind of energy adjustment system, including the transmission of varying duty transmission connection piece, pump impeller a, turbine a, pump impeller b, turbine b and biography Moving axis, described pump impeller a and described turbine b serial communication, described turbine a and described pump impeller b serial communication；Described pump impeller a and/or Described turbine a is in transmission connection with described varying duty transmission connection piece through clutch, described pump impeller b and/or described turbine b warp Clutch is connected with described transmission shaft driven；Or described pump impeller a and/or described turbine a is through clutch and described varying duty transmission Connector is in transmission connection；Or described pump impeller b and/or described turbine b is connected with described transmission shaft driven through clutch.

Further optionally, described pump impeller a, described turbine a, described pump impeller b and the distribution of described turbine b coaxial line is made to set Put；Or described pump impeller a and the distribution setting of described turbine b coaxial line, described pump impeller b and the distribution setting of described turbine a coaxial line, and The axis of described pump impeller a and described turbine b is arranged with the axis non-colinear of described pump impeller b and described turbine a；Or described pump impeller a With the setting of described turbine b radial distribution, described turbine a and the setting of described pump impeller b radial distribution.

Further optionally, make at least one in described pump impeller a, described turbine a, described pump impeller b and described turbine b It is adjustable that runner is set to geometry.

Further optionally, make described energy adjustment system also include electromagnetic control system, in described clutch at least One is controlled by described electromagnetic control system.

Further optionally, make at least one in described pump impeller a, described turbine a, described pump impeller b and described turbine b It is adjustable and controlled by electromagnetic control system that runner is set to geometry.

Further optionally, make that in described clutch, at least one is controlled by electromagnetic control system.

Further optionally, described energy adjustment system is made also to include guide wheel；Described guide wheel and described pump impeller a and described Turbine b is equipped with and/or described guide wheel is equipped with described pump impeller b and described turbine a.

Further optionally, at least one described guide wheel is made to be controlled by guide wheel control device.

Further optionally, at least one described guide wheel is made to be set to geometry adjustable.

Further optionally, at least one is made in described pump impeller a, described turbine a, described pump impeller b and described turbine b to be subject to Centrifugal mechanism control realization positive feedback no-load voltage ratio pattern；Or in described pump impeller a, described turbine a, described pump impeller b and described turbine b extremely Few one is subject to centrifugal mechanism control realization negative feedback no-load voltage ratio pattern.

Further optionally, described guide wheel is made to arrange with static element clutch transmission.

A kind of energy adjustment system, including the transmission of varying duty transmission connection piece, hydraulic moment changeable unit a, hydraulic moment changeable unit b And power transmission shaft, described hydraulic moment changeable unit a includes pump impeller a, guide wheel and the turbine a being correspondingly arranged, described hydraulic moment changeable unit b bag Include the pump impeller b being correspondingly arranged, guide wheel b and turbine b, described varying duty transmission connection piece transmission through clutch and described pump impeller a and Described turbine b clutch transmission setting, described power transmission shaft is through clutch and described pump impeller b and the setting of described turbine a clutch transmission.

Further optionally, described hydraulic moment changeable unit a is made to be arranged side by side with described hydraulic moment changeable unit b, or described The axially distribution setting of hydraulic moment changeable unit a and described hydraulic moment changeable unit b coaxial line.

Further optionally, described pump impeller a, described guide wheel, described turbine a, described pump impeller b, described guide wheel b and institute are made Stating the runner of at least in turbine b, to be set to geometry adjustable.

Further optionally, at least one inclusion one-way clutch or ratchet in described guide wheel and described guide wheel b are made.

Further optionally, described energy adjustment system is made also to include electromagnetic control system, in all described clutches At least one is controlled by described electromagnetic control system.

Further optionally, described pump impeller a, described guide wheel, described turbine a, described pump impeller b, described guide wheel b and institute are made Stating the runner of at least in turbine b, to be set to geometry adjustable and controlled by electromagnetic control system.

Further optionally, make that in all described clutches, at least one is controlled by electromagnetic control system.

Further optionally, described hydraulic moment changeable unit a and/or hydraulic moment changeable unit b is made controlled by centrifugal mechanism real Existing positive feedback no-load voltage ratio pattern；Or described hydraulic moment changeable unit a and/or hydraulic moment changeable unit b born by centrifugal mechanism control realization anti- Feedback no-load voltage ratio pattern.

Further optionally, described guide wheel and/or described guide wheel b is made to arrange with static element clutch transmission.

Further optionally, make the drive system linkage setting of described varying duty transmission connection piece transmission and vehicle.

Further optionally, described power transmission shaft and independent flywheel linkage setting are made.

Further optionally, make to arrange definite proportion gear train between described power transmission shaft and described independent flywheel.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A is correspondingly arranged, and described pump impeller b is correspondingly arranged with described turbine b.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a with Described line shaft connect setting, described turbine b and described line shaft connect setting, described turbine a is connected with described pump impeller a even Logical, described pump impeller b and described turbine b serial communication, described turbine a, described flywheel and described pump impeller b three's connect setting, from Close transmission setting or clutch switching transmission setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a with Described line shaft connect setting, described turbine b and described line shaft connect setting, described turbine a is corresponding with described pump impeller a to be set Put, described pump impeller b is correspondingly arranged with described turbine b, described turbine a, described flywheel and described pump impeller b three's connect setting, from Close transmission setting or clutch switching transmission setting.

Further optionally, make described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel by A part in axial spread configuration, or described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel is pressed Axial spread configuration, another part is pressed arranged radially and is arranged.

Further optionally, at least one in described pump impeller a and described turbine b is made integrated with described line shaft to set Put, and/or described pump impeller a and described turbine b integrated setting.

Further optionally, described turbine a and described pump impeller b integrated setting are made, and/or described turbine a and described In pump impeller b at least one and described flywheel integrated setting.

Further optionally, make the discharge capacity of described pump impeller a and described turbine a, and/or described pump impeller b and described The discharge capacity of turbine b.

Further optionally, the discharge capacity making described pump impeller a is more than the discharge capacity of described turbine a, and/or described pump impeller b Discharge capacity is more than the discharge capacity of described turbine b.

Further optionally, make described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel by Axial spread configuration, axial spread configuration pressed by described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel Axis and described line shaft diameter parallel.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication, described turbine a, described flywheel and described pump impeller b integration set Put or be connected and arrange；Described pump impeller a and described line shaft clutch transmission setting, and/or described turbine b and described line shaft clutch Transmission setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication, described turbine a and described flywheel integrated setting or be connected sets Put, the system clutch transmission setting of described pump impeller b and described turbine a and described flywheel integrated setting or the setting that is connected.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication, described turbine a and described flywheel integrated setting or be connected sets Put, described turbine b and described line shaft slide axially rotary drive setting.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication, described flywheel and described pump impeller b integrated setting or be connected sets Put, described turbine a is arranged with the system clutch transmission of described flywheel and described pump impeller b integrated setting or the setting that is connected.

A kind of energy adjustment system, including pump impeller a, pump impeller b, turbine a, turbine b, flywheel and line shaft, described pump impeller a, Described pump impeller b, described turbine a, described turbine b and described flywheel are arranged on described line shaft, described turbine a and described pump impeller A serial communication, described pump impeller b and described turbine b serial communication, described flywheel and described pump impeller b integrated setting or be connected sets Put, described pump impeller a and described line shaft slide axially rotary drive setting.

Further optionally, make described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel by A part in axial spread configuration, or described pump impeller a, described pump impeller b, described turbine a, described turbine b and described flywheel is pressed Axial spread configuration, another part is pressed arranged radially and is arranged, or described pump impeller a, described pump impeller b, described turbine a, described turbine b Press arranged radially with described flywheel to arrange.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, and another of described closure impeller hydraulic mechanism b moves Power end is defined as holding by, described end ay and described rotary inertia body transmission setting, described rotary inertia body and described end bx transmission Setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with described end bx with described rotary inertia body clutch transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with the bx clutch of described end with described rotary inertia body transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay and the setting of described rotary inertia body clutch transmission, described rotary inertia body and described end bx from Close transmission setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to set with described end bx transmission with described rotary inertia body transmission setting, described rotary inertia body Put, described power transmission shaft is driven setting with the setting of described end ax clutch transmission, described power transmission shaft with described end by.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to set with described end bx transmission with described rotary inertia body transmission setting, described rotary inertia body Put, described power transmission shaft is arranged with described end by clutch transmission with described end ax transmission setting, described power transmission shaft.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to set with described end bx transmission with described rotary inertia body transmission setting, described rotary inertia body Put, described power transmission shaft is arranged with described end by clutch transmission with the setting of described end ax clutch transmission, described power transmission shaft.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with described end bx with described rotary inertia body clutch transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with described end bx with described rotary inertia body clutch transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and the setting of described end by clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with described end bx with described rotary inertia body clutch transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and the setting of described end by clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with the bx clutch of described end with described rotary inertia body transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with the bx clutch of described end with described rotary inertia body transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and the setting of described end by clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay to pass with the bx clutch of described end with described rotary inertia body transmission setting, described rotary inertia body Dynamic setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and the setting of described end by clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay and the setting of described rotary inertia body clutch transmission, described rotary inertia body and described end bx from Close transmission setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and described end by transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay and the setting of described rotary inertia body clutch transmission, described rotary inertia body and described end bx from Close transmission setting, described power transmission shaft and described end ax transmission setting, described power transmission shaft and the setting of described end by clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body, closure impeller hydraulic mechanism b and Power transmission shaft, the non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller stream One power end of body mechanism a is defined as holding ax, and another power end of described closure impeller hydraulic mechanism a is defined as holding ay, One power end of described closure impeller hydraulic mechanism b is defined as holding bx, another power of described closure impeller hydraulic mechanism b End is defined as holding by, described end ay and the setting of described rotary inertia body clutch transmission, described rotary inertia body and described end bx from Close transmission setting, described power transmission shaft and the setting of described end ax clutch transmission, described power transmission shaft and the setting of described end by clutch transmission.

Further optionally, drive connection between described end ay and described rotary inertia body, described rotary inertia are made Drive connection between drive connection between body and described end bx, described power transmission shaft and described end ax and described power transmission shaft with At least one of drive connection between described end by drive connection is set to gear relation.

Further optionally, described closure impeller hydraulic mechanism a is made to include pump impeller a and turbine a, described turbine a is set to Described end ay；Or described closure impeller hydraulic mechanism a include pump impeller a, guide wheel and turbine a, described turbine a is set to described end ay.

Further optionally, described closure impeller hydraulic mechanism b is made to include pump impeller b and turbine b, described pump impeller b is set to Described end bx；Or described closure impeller hydraulic mechanism b include pump impeller b, guide wheel b and turbine b, described pump impeller b is set to described end bx.

Further optionally, described closure impeller hydraulic mechanism a, rotary inertia body and described closure impeller fluid machine are made Structure b is corresponding in turn to setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax and described rotary inertia body transmission setting, described rotary inertia body and described end bx transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax and described rotary inertia body clutch transmission setting, described rotary inertia body and described end bx transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax and described rotary inertia body transmission setting, described rotary inertia body and the setting of described end bx clutch transmission.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with described end bx clutch transmission with described rotary inertia body clutch transmission setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax and described rotary inertia body gear setting, described rotary inertia body and described end bx transmission setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax and described rotary inertia body transmission setting, described rotary inertia body and the setting of described end bx gear.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with described end bx gear with described rotary inertia body gear setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with described end bx transmission with described rotary inertia body clutch speed-changing transmission setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with described end bx gear with described rotary inertia body clutch transmission setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are passed with described end bx speed change with described rotary inertia body clutch speed-changing transmission setting, described rotary inertia body Dynamic setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with described end bx clutch transmission with described rotary inertia body gear setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are set with the transmission of described end bx clutch speed-changing with described rotary inertia body transmission setting, described rotary inertia body Put.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are passed with described end bx clutch speed-changing with described rotary inertia body gear setting, described rotary inertia body Dynamic setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are passed with the bx clutch of described end with described rotary inertia body clutch speed-changing transmission setting, described rotary inertia body Dynamic setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are passed with described end bx clutch speed-changing with described rotary inertia body clutch transmission setting, described rotary inertia body Dynamic setting.

A kind of energy adjustment system, including closure impeller hydraulic mechanism a, rotary inertia body and closure impeller hydraulic mechanism b, The non-suit setting with described closure impeller hydraulic mechanism b of described closure impeller hydraulic mechanism a, described closure impeller hydraulic mechanism a A power end be defined as holding ax, another power end of described closure impeller hydraulic mechanism a is defined as holding ay, described closure One power end of impeller hydraulic mechanism b is defined as holding bx, and another power end of described closure impeller hydraulic mechanism b is defined as End by, described end ax are become with the bx clutch of described end with described rotary inertia body clutch speed-changing transmission setting, described rotary inertia body Speed transmission setting.

Further optionally, described energy adjustment system is made also to include force piece a, described force piece a and described end ay Transmission setting, gear setting, clutch transmission setting or clutch speed-changing transmission setting.

Further optionally, described energy adjustment system is made also to include force piece b, described force piece b and described end by Transmission setting, gear setting, clutch transmission setting or clutch speed-changing transmission setting.

Further optionally, described closure impeller hydraulic mechanism a is made to include pump impeller a and turbine a, described turbine a is set to Described end ax；Or described closure impeller hydraulic mechanism a include pump impeller a, guide wheel and turbine a, described turbine a is set to described end ax.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b and turbine b, described turbine a and described pump impeller a string Connection connection arranges and is defined as impeller hydraulic mechanism a, and described turbine b with described pump impeller b serial communication setting and is defined as impeller Hydraulic mechanism b, described turbine a and described turbine b are mechanically connected setting；Described impeller hydraulic mechanism a is in the state of passing through, described Impeller hydraulic mechanism b is in running order, is defined as exoergic state；Described impeller hydraulic mechanism a is in running order, described leaf Wheel hydraulic mechanism b is in the state of passing through, and is defined as energy accumulating state；Described energy accumulating state and described exoergic state alternate.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b and turbine b, described turbine a and described pump impeller a string Connection connection arranges and is defined as impeller hydraulic mechanism a, and described turbine b with described pump impeller b serial communication setting and is defined as impeller Hydraulic mechanism b, described turbine a and described turbine b are mechanically connected setting；The discharge capacity of the discharge capacity of described pump impeller a and described turbine a is not Deng, and/or the discharge capacity of described pump impeller b and the discharge capacity of described turbine b；Described impeller hydraulic mechanism a is in the state of passing through, institute State impeller hydraulic mechanism b in running order, be defined as exoergic state；Described impeller hydraulic mechanism a is in running order, described Impeller hydraulic mechanism b is in the state of passing through, and is defined as energy accumulating state；Described energy accumulating state and described exoergic state alternate.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b and turbine b, described turbine a and described pump impeller a pair Should arrange and be defined as impeller hydraulic mechanism a, described turbine b and described pump impeller b is correspondingly arranged and is defined as impeller hydraulic mechanism B, described turbine a and described turbine b are mechanically connected setting；The discharge capacity of described pump impeller a and the discharge capacity of described turbine a, and/or The discharge capacity of described pump impeller b and the discharge capacity of described turbine b；Described impeller hydraulic mechanism a is in the state of passing through, described impeller stream Body mechanism b is in running order, is defined as exoergic state；Described impeller hydraulic mechanism a is in running order, described impeller fluid Mechanism b is in the state of passing through, and is defined as energy accumulating state；Described energy accumulating state and described exoergic state alternate.

Optionally make further, the discharge capacity of described pump impeller a is more than the discharge capacity of described turbine a；And/or described pump impeller b Discharge capacity is more than the discharge capacity of described turbine b.

Further optionally, described energy adjustment system is made also to include rotary inertia body, described rotary inertia body and institute State pump impeller b and be mechanically connected setting.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b and turbine b, described turbine a and described pump impeller a string Connection connection arranges and is defined as impeller hydraulic mechanism a, and described turbine b with described pump impeller b serial communication setting and is defined as impeller Hydraulic mechanism b, described pump impeller a and described pump impeller b are mechanically connected setting；Described impeller hydraulic mechanism a is in the state of passing through, described Impeller hydraulic mechanism b is in running order, is defined as energy accumulating state；Described impeller hydraulic mechanism a is in running order, described leaf Wheel hydraulic mechanism b is in the state of passing through, and is defined as exoergic state；Described energy accumulating state and described exoergic state alternate.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b and turbine b, described turbine a and described pump impeller a pair Should arrange and be defined as impeller hydraulic mechanism a, described turbine b and described pump impeller b is correspondingly arranged and is defined as impeller hydraulic mechanism B, described pump impeller a and described pump impeller b are mechanically connected setting；Described impeller hydraulic mechanism a is in the state of passing through, described impeller fluid Mechanism b is in running order, is defined as energy accumulating state；Described impeller hydraulic mechanism a is in running order, described impeller fluid machine Structure b is in the state of passing through, and is defined as exoergic state；Described energy accumulating state and described exoergic state alternate.

Further optionally, described energy adjustment system is made also to include rotary inertia body, described rotary inertia body and institute State turbine b and be mechanically connected setting.

A kind of energy adjustment system, including pump impeller a, turbine a, pump impeller b, turbine b and power transmission shaft, described pump impeller a, described whirlpool Wheel a, described turbine b and described pump impeller b axially set gradually, and liquor stream loop a flows through described pump impeller a and described turbine a, and fluid returns Road b flows through described pump impeller b and described turbine b, described power transmission shaft and described turbine a and described turbine b clutch switching transmission setting； Or described turbine a, described pump impeller a, described pump impeller b and described turbine b axially set gradually, liquor stream loop a flows through described pump impeller a With described turbine a, fluid circuit b flows through described pump impeller b and described turbine b, described power transmission shaft and described pump impeller a and described pump impeller B clutch switching transmission setting.

Further optionally, make to set flow-guiding channel in described liquor stream loop a and/or liquor stream loop b.

Further optionally, described flow-guiding channel is made to be set to geometry adjustable.

In the present invention, so-called " closure impeller hydraulic mechanism " refers at least include the fluid of the impeller of two serial communication Mechanism, is selectively chosen and is set to the impeller hydraulic mechanism such as fluid torque-converter, fluid coupling.

In the present invention, described mechanical transmission is selectively chosen and is set to mechanical gear box or mechanical stepless speed changes case.

In the present invention, described fluid transmission gear can optionally select the gear ratio being set to gas as working medium can further Adjusting device, or the gear ratio tunable arrangement with liquid as working medium, can optionally select further to make described fluid transmission gear set It is the torque-converters with gas as working medium or bonder, or the torque-converters with liquid as working medium or bonder.

In the present invention, so-called " hydrokinetic torque converter " is selectively chosen and is set to fluid torque-converter or strength torque-converters.

In the present invention, so-called " fluid couplers " are selectively chosen and are set to fluid coupling or strength bonder.

In the present invention, so-called " mechanical no-load voltage ratio unit " is selectively chosen and is set to step change transmission or electrodeless variable-speed Device.

In the present invention, so-called " being mechanically connected setting " refers to all linkage settings mechanically, alternative Selection is fixedly connected setting, integrated setting, transmission setting or clutch transmission setting.

In the present invention, so-called " connect setting " refers to be connected setting, integrated setting or mechanical linkage setting.

In the present invention, so-called " a and b transmission setting " refers to the mechanical connection setting piece of a and/or a and the machine of b and/or b The transmission setting of tool connect setting part.

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

In the present invention, so-called " speedup no-load voltage ratio unit " refers to that the speed of outfan is higher than the speed of input, and speed ratio Adjustable gear unit.

In the present invention, so-called " deceleration no-load voltage ratio unit " refers to that the speed of outfan is less than the speed of input, and speed ratio Adjustable gear unit.

In the present invention, a includes releasing, as a, the biography occurring while the transmission to b with c with b and c clutch switching transmission setting Dynamic continuous clutch switching type of belt drive, is also included within a period of time, a and b and c does not all occur the transmission shape of drive connection Formula, this kind of drive can be realized by clutch realizing it is also possible to the form such as switch by gear.

In the present invention, so-called " serial communication " refers to the connection on fluid flow passageway, and a and b serial communication refer to flow At least a portion entering the fluid of a is derived from b, or at least a portion inflow b flowing out the fluid of a.

In the present invention, so-called " independent flywheel " refers to the flywheel of connected setting non-with electromotor.

In the present invention, so-called " varying duty transmission connection piece " refers to the driving section being connected with the drive system of load variations Part, and described varying duty transmission connection piece includes varying duty drive mechanism body.

In the present invention, described power transmission shaft includes drive mechanism body.

In the present invention, so-called " no-load voltage ratio unit " is the gear unit referring to be formed different drive ratios.Described no-load voltage ratio list Unit is selectively chosen and is set to positive feedback no-load voltage ratio unit or is set to negative feedback no-load voltage ratio unit.

In the present invention, when so-called " positive feedback no-load voltage ratio pattern " refers to that the rotating speed of a driving end of no-load voltage ratio unit declines, When the rotating speed of another driving end rises and/or the rotating speed of a driving end of no-load voltage ratio unit rises, the turning of another driving end The pattern of the work that speed declines.

In the present invention, when so-called " negative feedback no-load voltage ratio pattern " refers to that the rotating speed of a driving end of no-load voltage ratio unit declines, The rotating speed of another driving end decline at faster speed and/or no-load voltage ratio unit a driving end rotating speed rise when, another The pattern of the work that the rotating speed of individual driving end rises at faster speed.

In the present invention, so-called " definite proportion gear train " refers to the fixing gear train assembly of gear ratio, with independent flywheel Connection end and the gear ratio with described power transmission shaft connection end can be more than 1 it is also possible to be less than 1.

In the present invention, so-called " rotary inertia body " refers to object and/or the thing increasing for the purpose of increasing rotary inertia Matter, including the object increasing on existing part and/or material, and/or the transmission being increased for the purpose of increasing rotary inertia Relation.

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

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

In the present invention, so-called " flywheel " includes being selectively chosen the flywheel 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, so-called " inertia body " refers to the object increasing for the purpose of increasing rotary inertia.

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

In the present invention, so-called " impeller hydraulic mechanism " refers at least include two impellers, and the effect in working media There is the hydraulic mechanism of drive connection between lower impeller.Such as fluid torque-converter, fluid coupling, strength torque-converters or strength coupling Device etc..Described impeller hydraulic mechanism is optionally set to " closure impeller hydraulic mechanism ".

In the present invention, when so-called " same parts " refer to store kinetic energy, become in mechanical transmission, fluid transmission gear, fluid Which kind of mechanism square device and fluid couplers have selected, and just select which kind of mechanism when kinetic energy discharges.

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

Beneficial effects of the present invention are as follows: energy adjusting method disclosed in this invention has that load responding is good, energy-conservation is high The advantage of effect, and disclosed energy adjustment system also has little, the lightweight advantage that takes up space.

Brief description

The structural representation of Fig. 1: the embodiment of the present invention 6；

The structural representation of Fig. 2: the embodiment of the present invention 7；

The structural representation of Fig. 3: the embodiment of the present invention 8；

The structural representation of Fig. 4: the embodiment of the present invention 9；

The structural representation of Fig. 5: the embodiment of the present invention 11；

The structural representation of Fig. 6: the embodiment of the present invention 12；

The structural representation of Fig. 7: the embodiment of the present invention 15；

The structural representation of Fig. 8: the embodiment of the present invention 16；

The structural representation of Fig. 9: the embodiment of the present invention 17；

The structural representation of Figure 10: the embodiment of the present invention 18；

The structural representation of Figure 11: the embodiment of the present invention 20；

The structural representation of Figure 12: the embodiment of the present invention 21；

The structural representation of Figure 13: the embodiment of the present invention 22；

The structural representation of Figure 14: the embodiment of the present invention 23；

The structural representation of Figure 15 .1 and 15.2: the embodiment of the present invention 24；

The structural representation of Figure 16: the embodiment of the present invention 25；

The structural representation of Figure 17: the embodiment of the present invention 26；

The structural representation of Figure 18: the embodiment of the present invention 29；

The structural representation of Figure 19: the embodiment of the present invention 31；

The structural representation of Figure 20: the embodiment of the present invention 32；

The structural representation of Figure 21: the embodiment of the present invention 33；

The structural representation of Figure 22: the embodiment of the present invention 34；

The structural representation of Figure 23: the embodiment of the present invention 35；

The structural representation of Figure 24: the embodiment of the present invention 36；

The structural representation of Figure 25: the embodiment of the present invention 37；

The structural representation of Figure 26: the embodiment of the present invention 38；

The structural representation of Figure 27: the embodiment of the present invention 39；

The structural representation of Figure 28: the embodiment of the present invention 40；

The structural representation of Figure 29: the embodiment of the present invention 41；

The structural representation of Figure 30: the embodiment of the present invention 42；

The structural representation of Figure 31: the embodiment of the present invention 43；

The structural representation of Figure 32: the embodiment of the present invention 44；

The structural representation of Figure 33: the embodiment of the present invention 45；

The structural representation of Figure 34: the embodiment of the present invention 46；

The structural representation of Figure 35: the embodiment of the present invention 47；

The structural representation of Figure 36: the embodiment of the present invention 48；

The structural representation of Figure 37: the embodiment of the present invention 49；

The structural representation of Figure 38: the embodiment of the present invention 50；

The structural representation of Figure 39: the embodiment of the present invention 51；

The structural representation of Figure 40: the embodiment of the present invention 52；

The structural representation of Figure 41: the embodiment of the present invention 53；

The structural representation of Figure 42: the embodiment of the present invention 54；

The structural representation of Figure 43: the embodiment of the present invention 55；

The structural representation of Figure 44: the embodiment of the present invention 56；

The structural representation of Figure 45: the embodiment of the present invention 57；

The structural representation of Figure 46: the embodiment of the present invention 58；

The structural representation of Figure 47: the embodiment of the present invention 59；

The structural representation of Figure 48 .1 and 48.2: the embodiment of the present invention 60；

The structural representation of Figure 49: the embodiment of the present invention 61；

The structural representation of Figure 50: the embodiment of the present invention 62；

The structural representation of Figure 51: the embodiment of the present invention 63；

The structural representation of Figure 52: the embodiment of the present invention 64；

The structural representation of Figure 53: the embodiment of the present invention 65；

The structural representation of Figure 54: the embodiment of the present invention 66；

The structural representation of Figure 55: the embodiment of the present invention 67；

The structural representation of Figure 56: the embodiment of the present invention 68；

The structural representation of Figure 57: the embodiment of the present invention 69；

The structural representation of Figure 58: the embodiment of the present invention 70；

The structural representation of Figure 59: the embodiment of the present invention 71；

The structural representation of Figure 60: the embodiment of the present invention 72；

The structural representation of Figure 61: the embodiment of the present invention 73；

The structural representation of Figure 62: the embodiment of the present invention 74；

The structural representation of Figure 63: the embodiment of the present invention 75；

The structural representation of Figure 64: the embodiment of the present invention 76；

The structural representation of Figure 65: the embodiment of the present invention 77；

The structural representation of Figure 66: the embodiment of the present invention 78；

The structural representation of Figure 67: the embodiment of the present invention 79；

The structural representation of Figure 68: the embodiment of the present invention 80；

The structural representation of Figure 69: the embodiment of the present invention 81；

The structural representation of Figure 70: the embodiment of the present invention 83；

The structural representation of Figure 71: the embodiment of the present invention 84；

The structural representation of Figure 72: the embodiment of the present invention 85；

The structural representation of Figure 73: the embodiment of the present invention 87；

The structural representation of Figure 74: the embodiment of the present invention 88；

The structural representation of Figure 75: the embodiment of the present invention 89；

The structural representation of Figure 76: the embodiment of the present invention 90；

Specific embodiment

Embodiment 1

A kind of energy adjusting method, drives rotary inertia body 3 store kinetic energy with no-load voltage ratio unit, then by another no-load voltage ratio unit Kinetic energy release by described rotary inertia body 3.

Embodiment 2

The kinetic energy of tumbler is passed to rotary inertia body 3 with no-load voltage ratio unit by a kind of energy adjusting method, then by another The kinetic energy of described rotary inertia body 3 is released to described tumbler or other tumbler by no-load voltage ratio unit.

Embodiment 3

A kind of energy adjusting method, drives rotary inertia body 3 store kinetic energy with tumbler through bonder or torque-converters, then will The kinetic energy of described rotary inertia body 3 is released to described tumbler or other tumbler through fluid matasomatism.

Embodiment 4

A kind of energy adjusting method, drives rotary inertia body 3 store kinetic energy with tumbler through bonder or torque-converters, then will The kinetic energy of described rotary inertia body 3 is released to described tumbler or other tumbler through another bonder or torque-converters.

As disposable embodiment, embodiments of the invention 3 and embodiment 4 all can make described fluid matasomatism further It is to be realized by including the torque-converters of pump impeller, guide wheel 301 and turbine, or described fluid matasomatism is by including pump impeller and turbine Bonder realize.

Embodiment 5

A kind of energy adjusting method, will be rotated with mechanical transmission, fluid transmission gear, hydrokinetic torque converter or fluid couplers The power transmission of part is to rotary inertia body 3 store kinetic energy, then with same parts, the kinetic energy of described rotary inertia body 3 is released to institute State tumbler or other rotatable parts.

As disposable embodiment, mechanical transmission of the present invention is selectively chosen and is set to mechanical gear box Or mechanical stepless speed changes case.

As disposable embodiment, heretofore described fluid transmission gear can optionally select further to be set to Gas is the gear ratio tunable arrangement of working medium, or the gear ratio tunable arrangement with liquid as working medium, can optionally select further Select and make described fluid transmission gear be set to the torque-converters with gas as working medium or bonder, or the torque-converters with liquid as working medium or coupling Clutch.

Embodiment 6

A kind of energy adjustment system, as shown in figure 1, including force piece 1 and rotary inertia body 3, described force piece 1 is through accumulation of energy Gear unit 2 and described rotary inertia body 3 transmission setting, described rotary inertia body 3 is through exoergic gear unit 4 and described force piece 1 transmission setting.

Embodiment 7

A kind of energy adjustment system, as shown in Fig. 2 including force piece a 101, force piece b 102 and rotary inertia body 3, Through accumulation of energy gear unit 2 and described rotary inertia body 3 transmission setting, described rotary inertia body 3 is through exoergic for described force piece a 101 Gear unit 4 and described force piece b 102 transmission setting.

As disposable embodiment, described accumulation of energy gear unit 2 is made to be set to hydraulic pressure no-load voltage ratio unit, fluid power change further Than unit, strength no-load voltage ratio unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power speedup no-load voltage ratio unit or It is set to strength speedup no-load voltage ratio unit.Described exoergic gear unit 4 also can be made further to be set to hydraulic pressure no-load voltage ratio unit, fluid power no-load voltage ratio list Unit, strength no-load voltage ratio unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power speedup no-load voltage ratio unit or be set to Strength speedup no-load voltage ratio unit.

Embodiment 8

A kind of energy adjustment system, as shown in figure 3, include pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump impeller a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump Wheel a 201 and described turbine a 203 is correspondingly arranged, and described turbine b 204 is correspondingly arranged with described pump impeller b 202.

Embodiment 9

A kind of energy adjustment system, as shown in figure 4, include pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump impeller a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump Wheel a 201 and described turbine a 203 serial communication setting, described turbine b 204 and described pump impeller b 202 serial communication setting, Force piece a 101 and described turbine b 204 and described pump impeller a 201 clutch switching transmission setting, and force piece b 102 with described Pump impeller b 202 and described turbine a 203 clutch switching transmission setting.

As disposable embodiment, the embodiment of the present invention 9 can optionally select only to make force piece a 101 further With described turbine b 204 and described pump impeller a 201 clutch switching transmission setting (not shown), or only make force piece b 102 with Described pump impeller b 202 and described turbine a 203 clutch switching transmission setting (not shown).

Embodiment 10

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump Wheel a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump impeller a 201 with Described turbine a 203 is correspondingly arranged, and described turbine b 204 is correspondingly arranged with described pump impeller b 202, force piece a 101 with described Turbine b 204 and described pump impeller a 201 clutch switching transmission setting, and force piece b 102 and described pump impeller b 202 and described whirlpool Wheel a 203 clutch switching transmission setting.

As disposable embodiment, the embodiment of the present invention 9 can optionally select only to make force piece a 101 further Arrange with described turbine b 204 and described pump impeller a 201 clutch switching transmission, or only make force piece b 102 and described pump impeller b 202 and described turbine a 203 clutch switching transmission setting.

Embodiment 11

A kind of energy adjustment system, as shown in figure 5, include pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump impeller a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump Wheel a 201 and described turbine a 203 serial communication setting, described turbine b 204 and described pump impeller b 202 serial communication setting； Force piece a 101 is mechanically connected setting with described turbine b 204, and described force piece a 101 is mechanically connected with described pump impeller a 201 Setting, force piece b 102 and described pump impeller b 202 and described turbine a 203 clutch switching transmission setting.

Embodiment 12

A kind of energy adjustment system, as shown in fig. 6, include pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump impeller a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump Wheel a 201 and described turbine a 203 serial communication setting, described turbine b 204 and described pump impeller b 202 serial communication setting； Force piece a 101 and described turbine b 204 and described pump impeller a 201 clutch switching setting, force piece b 102 and described pump impeller b 202 are mechanically connected setting, and described force piece b 102 and described turbine a 203 is mechanically connected setting.

Embodiment 13

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump Wheel a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump impeller a 201 with Described turbine a 203 is correspondingly arranged, and described turbine b 204 is correspondingly arranged with described pump impeller b 202；Force piece a 101 with described Turbine b 204 is mechanically connected setting, and described force piece a 101 and described pump impeller a 201 is mechanically connected setting, force piece b 102 With described pump impeller b 202 and described turbine a 203 clutch switching transmission setting.

Embodiment 14

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203 and turbine b 204, described pump Wheel a 201, described pump impeller b 202, described turbine a 203 and the setting of described turbine b 204 coaxial line, described pump impeller a 201 with Described turbine a 203 is correspondingly arranged, and described turbine b 204 is correspondingly arranged with described pump impeller b 202；Force piece a 101 with described Turbine b 204 and described pump impeller a 201 clutch switching setting, force piece b 102 is mechanically connected setting with described pump impeller b 202, Described force piece b 102 and described turbine a 203 is mechanically connected setting.

Embodiment 15

A kind of energy adjustment system, as shown in fig. 7, on the basis of embodiment 11, make described force piece b 102 further It is mechanically connected setting with rotary inertia body 3.

Embodiment 16

A kind of energy adjustment system, as shown in figure 8, on the basis of embodiment 11, make described force piece b 102 further It is mechanically connected setting through speed increasing mechanism 5 with rotary inertia body 3.

Embodiment 17

A kind of energy adjustment system, as shown in figure 9, on the basis of embodiment 11, make described force piece b 102 further Through speed increasing mechanism 5 and the setting of rotary inertia body 3 clutch transmission.

As disposable embodiment, the embodiment of the present invention 8 to embodiment 14 all can optionally select to make further In described force piece a 101 and described force piece b 102 one is mechanically connected setting with rotary inertia body 3, or described power In part a 101 and described force piece b 102 one is mechanically connected setting through speed increasing mechanism 5 with rotary inertia body 3, or described dynamic In power part a 101 and described force piece b 102 one is arranged with rotary inertia body 3 clutch transmission, or described force piece a 101 With in described force piece b 102 through speed increasing mechanism 5 and the setting of rotary inertia body 3 clutch transmission.

As disposable embodiment, embodiment 17 and its disposable embodiment in the embodiment of the present invention 8 Optionally select further to make described pump impeller a 201, described pump impeller b 202, described turbine a 203 and described turbine b 204 In at least one with inertia body transmission setting or through the transmission setting of speed increasing mechanism and inertia body, or described pump impeller a 201, described pump In wheel b 202, described turbine a 203 and described turbine b 204, at least one is arranged or through booster engine with inertia body clutch transmission Structure is arranged with inertia body clutch transmission.

As disposable embodiment, the embodiment of the present invention 8 to embodiment 17 and its disposable embodiment Optionally select further to make to arrange between the described pump impeller a 201 being correspondingly arranged or being arranged in series and described turbine a 203 Guide wheel or flow-guiding channel, and can further make the described turbine b 204 and described pump impeller b 202 being correspondingly arranged or being arranged in series Between setting guide wheel or flow-guiding channel.

As disposable embodiment, all institutes in embodiment 8 to embodiment 17 and its disposable embodiment State to be mechanically connected to arrange and all can optionally select further to be set to be connected setting, integrated setting, transmission setting or clutch biography Dynamic setting.

Embodiment 18

A kind of energy adjustment system, as shown in Figure 10, including varying duty transmission connection piece transmission 8, pump impeller a 201, turbine a 203rd, pump impeller b 202, turbine b 204 and power transmission shaft 6, described pump impeller a 201 and described turbine b 204 are correspondingly arranged, described whirlpool Wheel a 203 and described pump impeller b 202 is correspondingly arranged；Described pump impeller a 201 and described turbine a 203 is through clutch 7 and described change Load transmission connection piece transmission 8 is in transmission connection, and described pump impeller b 202 and described turbine b 204 is through clutch 7 and described power transmission shaft 6 are in transmission connection.

Embodiment 19

A kind of energy adjustment system, including varying duty transmission connection piece transmission 8, pump impeller a 201, turbine a 203, pump impeller b 202nd, turbine b 204 and power transmission shaft 6, described pump impeller a 201 and described turbine b 204 serial communication, described turbine a 203 and institute State pump impeller b 202 serial communication；Described pump impeller a 201 and described turbine a 203 is in transmission connection with described varying duty through clutch 7 Part transmission 8 is in transmission connection, and described pump impeller b 202 and described turbine b 204 are in transmission connection with described power transmission shaft 6 through clutch 7.

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 also can optionally select to make further Described pump impeller a 201 and described turbine a 203 is in transmission connection with described varying duty transmission connection piece transmission 8 once clutch 7, Described pump impeller b 202 and described turbine b 204 is in transmission connection with described power transmission shaft 6 once clutch 7；Or only make described pump impeller A 201 and/or described turbine a 203 is in transmission connection with described varying duty transmission connection piece transmission 8 through clutch 7；Or only make institute State pump impeller b 202 and/or described turbine b 204 to be in transmission connection with described power transmission shaft 6 through clutch 7.

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 and its disposable embodiment are all also Can optionally select further to make described varying duty transmission connection piece transmission 8 contrary with the direction of rotation of described power transmission shaft 6.

Embodiment 20

A kind of energy adjustment system, as shown in figure 11, on the basis of embodiment 18, makes described pump impeller a 201 further It is distributed setting, described pump impeller b 202 and the distribution setting of described turbine b 204 coaxial line with described turbine b 204 coaxial line, and institute State the axis of pump impeller a 201 and described turbine a 203 and the axis non-co- of described pump impeller b 202 and described turbine turbine a 203 Line is arranged.

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 and its disposable embodiment Optionally select further to make described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b 204 Coaxial line distribution setting；Or described pump impeller a 201 and the distribution setting of described turbine b 204 coaxial line, described pump impeller b 202 and institute State the distribution setting of turbine a 203 coaxial line, and the axis of described pump impeller a 201 and described turbine b 204 and described pump impeller b 202 Axis non-colinear setting with described turbine a 203；Or described pump impeller a 201 and the setting of described turbine b 204 radial distribution, institute State turbine a 203 and the setting of described pump impeller b 202 radial distribution.

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 and its disposable embodiment Make further at least one in described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b 204 It is adjustable that runner is set to geometry.Adjust further

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 and its disposable embodiment Make that in described clutch 7, at least one is controlled by described electromagnetic control system further.

As disposable embodiment, the embodiment of the present invention 18 and embodiment 19 and its disposable embodiment Make further at least one in described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b 204 It is adjustable and controlled by electromagnetic control system that runner is set to geometry.

Embodiment 21

A kind of energy adjustment system, as shown in figure 12, on the basis of embodiment 18, makes described energy adjusting system further System also includes guide wheel 301；Described guide wheel 301 is equipped with described pump impeller a 201 and described turbine b 204 and described another leads Wheel 301 is equipped with described pump impeller b 202 and described turbine a 203.

As disposable embodiment, the embodiment of the present invention 19 and embodiment 20 and its disposable embodiment and The disposable embodiment of embodiment 18 all can optionally select to make described energy adjustment system also include guide wheel further 301；Described guide wheel 301 is equipped with described pump impeller a 201 and described turbine b 204 and/or described guide wheel 301 and described pump Wheel b 202 and described turbine a 203 is equipped with.

Embodiment 22

A kind of energy adjustment system, as shown in figure 13, on the basis of embodiment 21, makes described guide wheel 301 be subject to further Guide wheel control device 304 controls.

As disposable embodiment, i.e. the disposable embodiment of the embodiment of the present invention 21 all can select further Property ground select so that at least one described guide wheel 301 is controlled by guide wheel control device 304.And so that described guide wheel 301 is set to further Geometry is adjustable and is controlled by electromagnetic control system.

As disposable embodiment, the embodiment of the present invention 18 to embodiment 22 all can optionally select to make further In described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b 204, at least one is subject to centrifugal mechanism Control realization positive feedback no-load voltage ratio pattern；Or described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b In 204, at least one is subject to centrifugal mechanism control realization negative feedback no-load voltage ratio pattern.Specifically can be by centrifugal mechanism with velocity transformation institute The displacement producing is controlling in described pump impeller a 201, described turbine a 203, described pump impeller b 202 and described turbine b 204 extremely Controlling flow to control speed ratio, those skilled in the art can be according to need for blade angle on few one and/or leaf change Set.

Embodiment 23

A kind of energy adjustment system, as shown in figure 14, on the basis of embodiment 21, make further described guide wheel 301 with Static element 305 clutch transmission is arranged.

As disposable embodiment, the embodiment of the present invention 22 and its disposable embodiment, and embodiment 22 Disposable embodiment all can optionally make described guide wheel 301 and the setting of static element 305 clutch transmission further.

Embodiment 24

A kind of energy adjustment system, as shown in Figure 15 .1 and 15.2, becomes including varying duty transmission connection piece transmission 8, fluid power Square unit a 21, hydraulic moment changeable unit b 22 and power transmission shaft 6, described hydraulic moment changeable unit a 21 includes the pump impeller a being correspondingly arranged 201st, guide wheel a 302 and turbine a 203, described hydraulic moment changeable unit b 22 includes pump impeller b 202, the guide wheel b303 being correspondingly arranged With turbine b 204, described varying duty transmission connection piece transmission 8 is through clutch 7 and described pump impeller a 201 and described turbine b 204 Clutch transmission is arranged, and described power transmission shaft 6 is through clutch 7 and described pump impeller b 202 and the setting of described turbine a 203 clutch transmission.

As disposable embodiment party, the embodiment of the present invention 24 can optionally select to make described hydraulic moment changeable list further First a 21 and described hydraulic moment changeable unit b 22 is arranged side by side (as shown in Figure 15 .1), or described hydraulic moment changeable unit a 21 and institute State axially distribution setting (as shown in Figure 15 .2) of hydraulic moment changeable unit b 22 coaxial line.

As disposable embodiment, the embodiment of the present invention 24 and its disposable embodiment all can make institute further State pump impeller a 201, described guide wheel a 302, described turbine a 203, described pump impeller b 202, described guide wheel b303 and described turbine b In 204, to be set to geometry adjustable for the runner of at least.Can transfer to adjust flow by geometry, further to rotating speed Regulated and controled so as to no-load voltage ratio pattern work is better achieved.Specifically can be by changing described pump impeller a 201, described guide wheel a 302nd, the blade angle of at least in described turbine a 203, described pump impeller b 202, described guide wheel b303 and described turbine b 204 Controlling flow to control speed ratio, those skilled in the art can set as needed for degree and/or leaf change.

As disposable embodiment, embodiment 24 and its disposable embodiment also can optionally make further At least one inclusion one-way clutch or ratchet in described guide wheel a 302 and described guide wheel b303.And described guide wheel a 302 Controlled by described one-way clutch or ratchet with least in described guide wheel b303, realize unidirectional locking.

As disposable embodiment, in the embodiment of the present invention 24 and its disposable embodiment all described from In clutch 7, at least one is controlled by described electromagnetic control system.By clutch described in the control realization of electromagnetic control system 7 Engage or off-state.

As disposable embodiment, the embodiment of the present invention 24 and its disposable embodiment also can make institute further State pump impeller a 201, described guide wheel a 302, described turbine a 203, described pump impeller b 202, described guide wheel b 303 and described turbine In b 204, to be set to geometry adjustable and controlled by electromagnetic control system for the runner of at least.By electromagnetic control system Realize to described pump impeller a 201, described guide wheel a 302, described turbine a 203, described pump impeller b 202, described guide wheel b 303 and In described turbine b 204, the flow of at least is controlled so as to no-load voltage ratio pattern work is better achieved.

As disposable embodiment, the embodiment of the present invention 24 and its disposable embodiment can selectivitys further Ground selects to make described hydraulic moment changeable unit a 21 and/or hydraulic moment changeable unit b 22 be subject to centrifugal mechanism control realization positive feedback no-load voltage ratio Pattern；Or described hydraulic moment changeable unit a 21 and/or hydraulic moment changeable unit b 22 is subject to centrifugal mechanism control realization negative feedback no-load voltage ratio Pattern.Centrifugal mechanism Bit andits control with rotation speed change diametrically specifically can be passed through and enter described hydraulic moment changeable unit a 21 And/or in hydraulic moment changeable unit b 22 fluid flow realizing, the function of specifically can realizing as required sets.

As disposable embodiment, the embodiment of the present invention 24 and its disposable embodiment all can make institute further State guide wheel a 302 and/or described guide wheel b 303 and the setting of static element 305 clutch transmission.

As disposable embodiment, embodiments of the invention 18 to 24 all can optionally select to make described further Varying duty transmission connection piece transmission 8 is arranged with the drive system linkage of vehicle.

Embodiment 25

A kind of energy adjustment system, as shown in figure 16, on the basis of embodiment 18, make further described power transmission shaft 6 with Independent flywheel linkage setting.And make described linkage setting be set to the setting that is connected further.

As disposable embodiment, the embodiment of the present invention 18 to embodiment 24 and its disposable embodiment Make described power transmission shaft 6 and independent flywheel linkage setting further.

As disposable embodiment, linkage setting of the present invention being selectively chosen the setting that is set to be connected, one Bodyization setting or transmission setting.

Embodiment 26

A kind of energy adjustment system, as shown in figure 17, on the basis of embodiment 25, makes described energy adjusting system further System also includes definite proportion gear 31 system, arranges definite proportion gear 31 system between described power transmission shaft 6 and described independent flywheel.

As disposable embodiment, the disposable embodiment of embodiment 25 all can make described energy adjust further Whole system also includes definite proportion gear 31 system, arranges definite proportion gear 31 system between described power transmission shaft 6 and described independent flywheel.

Embodiment 27

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204, flywheel 10 and Line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and described flywheel 10 set Put on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 and described whirlpool Wheel b 204 serial communication.

Embodiment 28

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204, flywheel 10 and Line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and described flywheel 10 set Put on described line shaft 9, described turbine a 203 is correspondingly arranged with described pump impeller a 201, described pump impeller b 202 and described whirlpool Wheel b 204 is correspondingly arranged.

Embodiment 29

A kind of energy adjustment system, as shown in figure 18, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201 and described line shaft 9 connect setting, described turbine b 204 is dynamic with described Power axle 9 connect setting, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 and described turbine b 204 serial communication, described turbine a 203, described flywheel 10 and the setting of described pump impeller b 202 three's clutch transmission.

Embodiment 30

A kind of energy adjustment system, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204, flywheel 10 and Line shaft 9, described pump impeller a 201 and described line shaft 9 connect setting, described turbine b 204 is connected with described line shaft 9 and sets Put, described turbine a 203 is correspondingly arranged with described pump impeller a 201, described pump impeller b 202 is correspondingly arranged with described turbine b 204, Described turbine a 203, described flywheel 10 and the setting of described pump impeller b 202 three's clutch transmission.

As disposable embodiment, embodiment 29 and embodiment 30 are also selectively chosen and make described turbine a 203rd, described flywheel 10 and described pump impeller b 202 three's connect setting or clutch switching transmission setting.

Embodiment 31

A kind of energy adjustment system, as shown in figure 19, on the basis of embodiment 29, makes described pump impeller a 201 further Press arranged radially with described turbine a 203 to arrange, described pump impeller b 202 and described, described turbine b 204 and described flywheel 10 are pressed Axial spread configuration.

As disposable embodiment, the embodiment of the present invention 27,28 and 30 and its disposable embodiment and reality Apply example 29 disposable embodiment all can optionally select further to make described pump impeller a 201, described pump impeller b 202, Axial spread configuration pressed by described turbine a 203, described turbine b 204 and described flywheel 10, or described pump impeller a 201, described pump A part in wheel b 202, described turbine a 203, described turbine b 204 and described flywheel 10 presses axial spread configuration, another Part presses arranged radially setting.

Embodiment 32

A kind of energy adjustment system, as shown in figure 20, on the basis of embodiment 29, makes described pump impeller a 201 further With described turbine b 204 all with described line shaft 9 integrated setting.

As disposable embodiment, embodiment 32 be also selectively chosen only make described pump impeller a 201 with described Line shaft 9 integrated setting, or only make described turbine b 204 and described line shaft 9 integrated setting.

As disposable embodiment, the embodiment of the present invention 27,28,30 and 31 and its disposable embodiment and The disposable embodiment of embodiment 29 all can according to the set-up mode of embodiment 32 set further described pump impeller a 201, Annexation between described turbine b 204 and described line shaft 9.

Embodiment 33

A kind of energy adjustment system, as shown in figure 21, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 is arranged on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 with described turbine b 204 serial communication, described turbine a 203 and described flywheel 10 integrated setting, described pump impeller b 202 With the setting of described flywheel clutch transmission.

As disposable embodiment, embodiment 33 also can make optionally to select to make described turbine a 203 with described The setting of flywheel 10 clutch transmission, described pump impeller b 202 and described flywheel 10 integrated setting；Or make described pump impeller b 202, turbine A 203 and described flywheel 10 integrated setting.

As disposable embodiment, the embodiment of the present invention 29 to embodiment 32 all can be according to embodiment 33 and its variable The set-up mode changing, arranges the annexation between described pump impeller b 202, turbine a 203 and described flywheel 10.

As disposable embodiment, the embodiment of the present invention 27 to embodiment 33 and its disposable embodiment Optionally select further to make described pump impeller a 201 and the discharge capacity of described turbine a 203, and/or described pump impeller b 202 Discharge capacity with described turbine b 204.And can optionally select further to make the discharge capacity of described pump impeller a 201 more than described The discharge capacity of turbine a 203, and/or the discharge capacity more than described turbine b 204 for the discharge capacity of described pump impeller b 202.

As disposable embodiment, the embodiment of the present invention 27 to embodiment 33 and its disposable embodiment Optionally select further to make described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 presses axial spread configuration, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and described flywheel 10 press the axis of axial spread configuration and the diameter parallel of described line shaft 9.

Embodiment 34

A kind of energy adjustment system, as shown in figure 22, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with described End ax 53 transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 35

A kind of energy adjustment system, as shown in figure 23, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with Described end ax 53 transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 36

A kind of energy adjustment system, as shown in figure 24, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 with Described end ax 53 transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 37

A kind of energy adjustment system, as shown in figure 25, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 are arranged with described end ax 53 transmission, and described power transmission shaft 6 and described end by 56 are driven setting.

Embodiment 38

A kind of energy adjustment system, as shown in figure 26, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 with Described rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 and institute State end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 39

A kind of energy adjustment system, as shown in figure 27, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with described End ax 53 transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 40

A kind of energy adjustment system, as shown in figure 28, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with described End ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 41

A kind of energy adjustment system, as shown in figure 29, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with Described end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 42

A kind of energy adjustment system, as shown in figure 30, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with Described end ax 53 transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 43

A kind of energy adjustment system, as shown in figure 31, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 transmission setting, described power transmission shaft 6 with Described end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 44

A kind of energy adjustment system, as shown in figure 32, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 with Described end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 transmission setting.

Embodiment 45

A kind of energy adjustment system, as shown in figure 33, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 with Described end ax 53 transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 46

A kind of energy adjustment system, as shown in figure 34, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State rotary inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 with Described end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission setting.

Embodiment 47

A kind of energy adjustment system, as shown in figure 35, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 are arranged with described end by 56 transmission with described end ax 53 clutch transmission setting, described power transmission shaft 6.

Embodiment 48

A kind of energy adjustment system, as shown in figure 36, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 are arranged with described end ax 53 transmission, and described power transmission shaft 6 and described end by 56 clutch transmission are arranged.

Embodiment 49

A kind of energy adjustment system, as shown in figure 37, including closure impeller hydraulic mechanism a 51, rotary inertia body 3, closure Impeller hydraulic mechanism b 52 and power transmission shaft 6, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 Non- suit setting, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller fluid Another power end of mechanism a 51 is defined as holding ay 54, a power end definition of described closure impeller hydraulic mechanism b 52 For holding bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ay 54 and institute State the setting of rotary inertia body 3 clutch transmission, described rotary inertia body 3 and described end bx 55 clutch transmission setting, described power transmission shaft 6 are arranged with described end ax 53 clutch transmission setting, described power transmission shaft 6 and described end by 56 clutch transmission.

As disposable embodiment, the embodiment of the present invention 34 to embodiment 49 and its disposable embodiment Optionally select further to make drive connection between described end ay 54 and described rotary inertia body 3, described rotary inertia body Drive connection between drive connection between 3 and described end bx 55, described power transmission shaft 6 and described end ax 53 and described transmission At least one of drive connection between axle 6 and described end by 56 drive connection is set to gear relation.

Embodiment 50

A kind of energy adjustment system, as shown in figure 38, on the basis of embodiment 35, makes described closure impeller stream further Body mechanism a 51 includes pump impeller a 201 and turbine a 203, and described turbine a 203 is set to described end ay 54.

As disposable embodiment, the embodiment of the present invention 34 and embodiment 36 to 49 and its disposable embodiment And the disposable embodiment of embodiment 35 all can optionally select to make described closure impeller hydraulic mechanism a further 51 include pump impeller a 201 and turbine a 203, make described turbine a 203 be set to described end ay 54.

Embodiment 51

A kind of energy adjustment system, as shown in figure 39, on the basis of embodiment 35, described closure impeller hydraulic mechanism a 51 include pump impeller a 201, guide wheel a 302 and turbine a 203, and described turbine a 203 is set to described end ay 54.

As disposable embodiment, the embodiment of the present invention 34 and embodiment 36 to 49 and its disposable embodiment And the disposable embodiment of embodiment 35 all can optionally select to make described closure impeller hydraulic mechanism a further 51 include pump impeller a 201, guide wheel a 302 and turbine a 203, and described turbine a 203 is set to described end ay 54.

Embodiment 52

A kind of energy adjustment system, as shown in figure 40, on the basis of embodiment 35, makes described closure impeller stream further Body mechanism b 52 includes pump impeller b 202 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the embodiment of the present invention 34 and embodiment 36 to 51 and its disposable embodiment And the disposable embodiment of embodiment 35 all can optionally select to make described closure impeller hydraulic mechanism b further 52 include pump impeller b 202 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

Embodiment 53

A kind of energy adjustment system, as shown in figure 41, on the basis of embodiment 35, makes described closure impeller stream further Body mechanism b 52 includes pump impeller b 202, guide wheel b 303 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the embodiment of the present invention 34 and embodiment 36 to 51 and its disposable embodiment And the disposable embodiment of embodiment 35 all can optionally select to make described closure impeller hydraulic mechanism b further 52 include pump impeller b 202, guide wheel b 303 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the present invention 34 to 52 and its disposable embodiment all can make institute further State closure impeller hydraulic mechanism a 51, rotary inertia body 3 and described closure impeller hydraulic mechanism b52 and be corresponding in turn to setting.

Embodiment 54

A kind of energy adjustment system, as shown in figure 42, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 transmission setting.

Embodiment 55

A kind of energy adjustment system, as shown in figure 43, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 clutch transmission is arranged, and described rotary inertia body 3 is arranged with described end bx 55 transmission.

Embodiment 56

A kind of energy adjustment system, as shown in figure 44, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch transmission setting.

Embodiment 57

A kind of energy adjustment system, as shown in figure 45, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 clutch transmission is arranged, and described rotary inertia body 3 and described end bx 55 clutch transmission are arranged.

Embodiment 58

A kind of energy adjustment system, as shown in figure 46, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 gear is arranged, and described rotary inertia body 3 is arranged with described end bx 55 transmission.

Embodiment 59

A kind of energy adjustment system, as shown in figure 47, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 gear setting.

Embodiment 60

A kind of energy adjustment system, as shown in Figure 48 .1 and Figure 48 .2, used including closure impeller hydraulic mechanism a 51, rotation Amount body 3 and closure impeller hydraulic mechanism b 52, described closure impeller hydraulic mechanism a 51 and described closure impeller hydraulic mechanism b 52 non-suit settings, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller stream Another power end of body mechanism a 51 is defined as holding ay 54, and a power end of described closure impeller hydraulic mechanism b 52 is fixed Justice is end bx 55, and another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56；Described end ax 53 with Described rotary inertia body 3 is arranged through speed increasing mechanism gear, and described rotary inertia body 3 and described end bx 55 are through reducing gear Gear arranges (as shown in Figure 48 .1), or described end ax 53 is set through speed increasing mechanism gear with described rotary inertia body 3 Put, described rotary inertia body 3 and described end bx 55 arrange (as shown in Figure 48 .2) through speed increasing mechanism gear.

Embodiment 61

A kind of energy adjustment system, as shown in figure 49, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation The transmission setting of inertia body 3 clutch speed-changing, described rotary inertia body 3 and described end bx 55 transmission setting.

Embodiment 62

A kind of energy adjustment system, as shown in figure 50, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 clutch transmission is arranged, and described rotary inertia body 3 and described end bx 55 gear are arranged.

Embodiment 63

A kind of energy adjustment system, as shown in figure 51, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation The transmission setting of inertia body 3 clutch speed-changing, described rotary inertia body 3 and described end bx 55 gear setting.

Embodiment 64

A kind of energy adjustment system, as shown in figure 52, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 gear is arranged, and described rotary inertia body 3 and described end bx 55 clutch transmission are arranged.

Embodiment 65

A kind of energy adjustment system, as shown in figure 53, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 transmission setting, described rotary inertia body 3 and described end bx 55 clutch speed-changing transmission setting.

Embodiment 66

A kind of energy adjustment system, as shown in figure 54, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 gear is arranged, and described rotary inertia body 3 is arranged with described end bx 55 clutch speed-changing transmission.

Embodiment 67

A kind of energy adjustment system, as shown in figure 55, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation The transmission setting of inertia body 3 clutch speed-changing, described rotary inertia body 3 and described end bx 55 clutch transmission setting.

Embodiment 68

A kind of energy adjustment system, as shown in figure 56, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation Inertia body 3 clutch transmission is arranged, and described rotary inertia body 3 is arranged with described end bx 55 clutch speed-changing transmission.

Embodiment 69

A kind of energy adjustment system, as shown in figure 57, including closure impeller hydraulic mechanism a 51, rotary inertia body 3 and close Hinge wheel hydraulic mechanism b 52, the non-set installing with described closure impeller hydraulic mechanism b 52 of described closure impeller hydraulic mechanism a 51 Put, a power end of described closure impeller hydraulic mechanism a 51 is defined as holding ax 53, described closure impeller hydraulic mechanism a 51 Another power end be defined as hold ay 54, described closure impeller hydraulic mechanism b 52 a power end be defined as hold bx 55, another power end of described closure impeller hydraulic mechanism b 52 is defined as holding by 56, described end ax 53 and described rotation The transmission setting of inertia body 3 clutch speed-changing, described rotary inertia body 3 and described end bx 55 clutch speed-changing transmission setting.

Embodiment 70

A kind of energy adjustment system, as shown in figure 58, on the basis of embodiment 55, makes described energy adjusting system further System also includes force piece a 101, described force piece a 101 and described end ay 54 clutch transmission setting.

As disposable embodiment, the embodiment of the present invention 70 is also selectively chosen makes described force piece a 101 With described end ay 54 transmission setting, gear setting or clutch speed-changing transmission setting.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 69 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described energy adjustment system further Also include force piece a 101, described force piece a 101 and described end ay 54 clutch transmission setting, transmission setting, gear Setting or clutch speed-changing transmission setting.

Embodiment 71

A kind of energy adjustment system, as shown in figure 59, on the basis of embodiment 55, makes described energy adjusting system further System also includes force piece b 102, described force piece b 102 and described end by 56 clutch speed-changing transmission setting.

As disposable embodiment, force piece b 102 of the present invention and described end by 56 transmission setting, speed change Transmission setting or clutch transmission setting.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 70 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described energy adjustment system further Also include force piece b 102, described force piece b 102 and described end by 56 transmission setting, gear setting, clutch transmission Setting or clutch speed-changing transmission setting.

Embodiment 72

A kind of energy adjustment system, as shown in figure 60, on the basis of embodiment 55, makes described closure impeller stream further Body mechanism a 51 includes pump impeller a 201 and turbine a 203, and described turbine a 203 is set to described end ax 53.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 71 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described closure impeller fluid further Mechanism a 51 includes pump impeller a 201 and turbine a 203, and described turbine a 203 is set to described end ax 53.

Embodiment 73

A kind of energy adjustment system, as shown in Figure 61, on the basis of embodiment 55, makes described closure impeller stream further Body mechanism a 51 includes pump impeller a 201, guide wheel a 302 and turbine a 203, and described turbine a 203 is set to described end ax 53.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 71 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described closure impeller fluid further Mechanism a 51 includes pump impeller a 201, guide wheel a 302 and turbine a 203, and described turbine a 203 is set to described end ax 53.

Embodiment 74

A kind of energy adjustment system, as shown in Figure 62, on the basis of embodiment 55, makes described closure impeller stream further Body mechanism b 52 includes pump impeller b 202 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 73 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described closure impeller fluid further Mechanism b 52 includes pump impeller b 202 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

Embodiment 75

A kind of energy adjustment system, as shown in Figure 63, on the basis of embodiment 55, makes described closure impeller stream further Body mechanism b 52 includes pump impeller b 202, guide wheel b 303 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the embodiment of the present invention 54, embodiment 56 to embodiment 73 and its disposable reality Apply mode and the disposable embodiment of embodiment 55 all can optionally select to make described closure impeller fluid further Mechanism b 52 includes pump impeller b 202, guide wheel b 303 and turbine b 204, and described pump impeller b 202 is set to described end bx 55.

As disposable embodiment, the present invention 54 to 75 and its disposable embodiment all can make described further Closure impeller hydraulic mechanism a 51, rotary inertia body 3 and described closure impeller hydraulic mechanism b52 are corresponding in turn to setting.

Embodiment 76

A kind of energy adjustment system, as shown in Figure 64, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 is arranged on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 with described turbine b 204 serial communication, described turbine a 203, described flywheel 10 and described pump impeller b 202 integrated setting Or the setting that is connected；Described pump impeller a 201 and described line shaft 9 clutch transmission setting, and described turbine b 204 and described line shaft 9 clutch transmission settings.

As disposable embodiment, the embodiment of the present invention 76 is also selectively chosen only makes described pump impeller a 201 Arrange with described line shaft 9 clutch transmission, or only make described turbine b 204 and described line shaft 9 clutch transmission setting.

Embodiment 77

A kind of energy adjustment system, as shown in Figure 65, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 It is arranged on described line shaft 9 with described flywheel 10, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller B 202 and described turbine b 204 serial communication, described turbine a 203 and described flywheel 10 are connected and arrange, described pump impeller b 202 Be connected the system clutch transmission setting arranging with described turbine a 203 and described flywheel 10.

As disposable embodiment, embodiments of the invention 77 also can make the described turbine a203 also can be with described flywheel Integrated setting, described pump impeller b 202 is set with the system clutch transmission of described turbine a 203 and described flywheel 10 integrated setting Put.

Embodiment 78

A kind of energy adjustment system, as shown in Figure 66, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 is arranged on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 are connected setting with described turbine b 204 serial communication, described turbine a 203 and described flywheel 10, described turbine b 204 with Described line shaft 9 slide axially rotary drive setting.

As disposable embodiment, the embodiment of the present invention 78 can make described pump impeller b 202 and described power further Axle 9 is connected and arranges (as shown in Figure 66), clutch transmission setting (not shown) or transmission setting (not shown).

Embodiment 79

A kind of energy adjustment system, as shown in Figure 67, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 is arranged on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 with described turbine b 204 serial communication, described flywheel 10 and described pump impeller b 202 integrated setting, described turbine a 203 System clutch transmission setting with described flywheel 10 and described pump impeller b 202 integrated setting.

As disposable embodiment, embodiments of the invention 79 also can make described flywheel 10 and described pump impeller b 202 Be connected setting, the described turbine a 203 system clutch transmission setting that arrange connected with described flywheel 10 and described pump impeller b 202.

Embodiment 80

A kind of energy adjustment system, as shown in Figure 68, including pump impeller a 201, pump impeller b 202, turbine a 203, turbine b 204th, flywheel 10 and line shaft 9, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and Described flywheel 10 is arranged on described line shaft 9, described turbine a 203 and described pump impeller a 201 serial communication, described pump impeller b 202 with described turbine b 204 serial communication, described flywheel 10 and described pump impeller b 202 integrated setting, described pump impeller a 201 With described line shaft 9 slide axially rotary drive setting.

As disposable embodiment, embodiments of the invention 80 also can make described flywheel 10 and described pump impeller b 202 The setting that is connected also can be set to.

As disposable embodiment, the embodiment of the present invention 80 also can make described turbine a 203 fly with described further Wheel 10 is connected and arranges, is driven setting or clutch transmission setting.

As transformable embodiment, the embodiment of the present invention 76 to embodiment 80 and its disposable embodiment Make further described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and described flywheel 10 by Axial spread configuration (as described in Figure 64 is to 68), or described pump impeller a 201, described pump impeller b 202, described turbine a 203, described A part in turbine b 204 and described flywheel 10 presses axial spread configuration, and another part presses arranged radially setting, and (in figure is not Show).

As disposable embodiment, embodiments of the invention 76 to embodiment 80 and its disposable embodiment are equal Can optionally select further to make the discharge capacity of described pump impeller a 201 and described turbine a 203, and/or described pump impeller b 202 and the discharge capacity of described turbine b 204.And can optionally select further to make the discharge capacity of described pump impeller a 201 be more than The discharge capacity of described turbine a 203, and/or the discharge capacity more than described turbine b 204 for the discharge capacity of described pump impeller b 202.

As disposable embodiment, embodiments of the invention 76 to embodiment 80 and its disposable embodiment are equal Described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and institute can optionally be made further State flywheel 10 by axial spread configuration, described pump impeller a 201, described pump impeller b 202, described turbine a 203, described turbine b 204 and described flywheel 10 press the axis of axial spread configuration and the diameter parallel of described line shaft 9.

Embodiment 81

A kind of energy adjustment system, as shown in Figure 69, including pump impeller a 201, turbine a 203, pump impeller b 202 and turbine b 204, described turbine a 203 with described pump impeller a 201 serial communication setting and are defined as impeller hydraulic mechanism a 24, described turbine B 204 with described pump impeller b 202 serial communication setting and is defined as impeller hydraulic mechanism b 25, described turbine a 203 and described Turbine b 204 is mechanically connected setting；Described impeller hydraulic mechanism a 24 is in the state of passing through, at described impeller hydraulic mechanism b 25 In working condition, it is defined as exoergic state；Described impeller hydraulic mechanism a 24 is in running order, described impeller hydraulic mechanism b 25 are in the state of passing through, and are defined as energy accumulating state；Described energy accumulating state and described exoergic state alternate.

Embodiment 82

A kind of energy adjustment system, including pump impeller a 201, turbine a 203, pump impeller b 202 and turbine b 204, described whirlpool Wheel a 203 and described pump impeller a 201 is correspondingly arranged and is defined as impeller hydraulic mechanism a 24, described turbine b 204 and described pump Wheel b 202 is correspondingly arranged and is defined as impeller hydraulic mechanism b 25, and described turbine a 203 and described turbine b 204 are mechanically connected Setting；Described impeller hydraulic mechanism a 24 is in the state of passing through, and described impeller hydraulic mechanism b 25 is in running order, is defined as Exoergic state；Described impeller hydraulic mechanism a 24 is in running order, and described impeller hydraulic mechanism b 25 is in the state of passing through, fixed Justice is energy accumulating state；Described energy accumulating state and described exoergic state alternate.

Embodiment 83

A kind of energy adjustment system, as shown in Figure 70, on the basis of embodiment 81, makes described energy adjusting system further System also includes rotary inertia body 3, and described rotary inertia body 3 is connected with described pump impeller b 202 and arranges.

As disposable embodiment, the embodiment of the present invention 83 can optionally select to make described rotary inertia further Body 3 and described pump impeller b 202 integrated setting, transmission setting or clutch transmission setting.

Embodiment 84

A kind of energy adjustment system, as shown in Figure 71, on the basis of embodiment 81, makes described pump impeller a 201 further With the setting of line shaft 9 clutch transmission, described turbine a 203 and the setting of line shaft 9 clutch transmission, described pump impeller b 202 with described Rotary inertia body 3 clutch transmission is arranged, and described turbine b 204 and described rotary inertia body 3 clutch transmission are arranged.

As disposable embodiment, the embodiment of the present invention 81 to embodiment 84 and its disposable embodiment Optionally select further to make the discharge capacity of described pump impeller a 201 and the discharge capacity of described turbine a 203, and/or described pump The wheel discharge capacity of b 202 and the discharge capacity of described turbine b204.And can further optionally select to make described pump impeller a 201 Discharge capacity be more than described turbine a 203 discharge capacity；Or make the discharge capacity more than described turbine b 204 for the discharge capacity of described pump impeller b 202； Or making the discharge capacity of described pump impeller a 201 be more than the discharge capacity of described turbine a 203, the discharge capacity of described pump impeller b 202 is more than described whirlpool The discharge capacity of wheel b 204.

As disposable embodiment, the embodiment of the present invention 81 to 84 and its disposable embodiment all can be further Optionally select to make the connected setting of described turbine a 203 and described turbine b 204, integrated setting or transmission setting.

Embodiment 85

A kind of energy adjustment system, as shown in Figure 72, including pump impeller a 201, turbine a 203, pump impeller b 202 and turbine b 204, described turbine a 203 with described pump impeller a 201 serial communication setting and are defined as impeller hydraulic mechanism a 24, described turbine B 204 with described pump impeller b 202 serial communication setting and is defined as impeller hydraulic mechanism b 25, described pump impeller a 201 and described Pump impeller b 202 is mechanically connected setting；Described impeller hydraulic mechanism a 24 is in the state of passing through, at described impeller hydraulic mechanism b 25 In working condition, it is defined as energy accumulating state；Described impeller hydraulic mechanism a 24 is in running order, described impeller hydraulic mechanism b 25 are in the state of passing through, and are defined as exoergic state；Described energy accumulating state and described exoergic state alternate.

Embodiment 86

A kind of energy adjustment system, including pump impeller a 201, turbine a 203, pump impeller b 202 and turbine b 204, described whirlpool Wheel a 203 and described pump impeller a 201 is correspondingly arranged and is defined as impeller hydraulic mechanism a 24, described turbine b 204 and described pump Wheel b 202 is correspondingly arranged and is defined as impeller hydraulic mechanism b 25, and described pump impeller a 201 and described pump impeller b 202 are mechanically connected Setting；Described impeller hydraulic mechanism a 24 is in the state of passing through, and described impeller hydraulic mechanism b 25 is in running order, is defined as Energy accumulating state；Described impeller hydraulic mechanism a 24 is in running order, and described impeller hydraulic mechanism b 25 is in the state of passing through, fixed Justice is exoergic state；Described energy accumulating state and described exoergic state alternate.

Embodiment 87

A kind of energy adjustment system, as shown in Figure 73, on the basis of embodiment 81, makes described energy adjusting system further System also includes rotary inertia body 3, and described rotary inertia body 3 is connected with described turbine b 204 and arranges.

As disposable embodiment, embodiment 87 also can optionally select to make described rotary inertia body 3 further With described turbine b 204 transmission setting, integrated setting or clutch transmission setting.

Embodiment 88

A kind of energy adjustment system, as shown in Figure 74, on the basis of embodiment 85, makes described pump impeller a 201 further With the setting of line shaft 9 clutch transmission, described turbine a 203 and the setting of line shaft 9 clutch transmission, described pump impeller b 202 with described Rotary inertia body 3 clutch transmission is arranged, and described turbine b 204 and described rotary inertia body 3 clutch transmission are arranged.

As disposable embodiment, the embodiment of the present invention 85 to embodiment 88 and its disposable embodiment Optionally select further to make the discharge capacity of described pump impeller a 201 and the discharge capacity of described turbine a 203, and/or described pump The wheel discharge capacity of b 202 and the discharge capacity of described turbine b 204.And can further optionally select to make described pump impeller a 201 discharge capacity is more than the discharge capacity of described turbine a 203；Or make the row more than described turbine b 204 for the discharge capacity of described pump impeller b 202 Amount；Or making the discharge capacity of described pump impeller a 201 be more than the discharge capacity of described turbine a 203, the discharge capacity of described pump impeller b 202 is more than described The discharge capacity of turbine b 204.

As disposable embodiment, the embodiment of the present invention 85 to 88 and its disposable embodiment all can be further Optionally select to make the connected setting of described turbine a 203 and described turbine b 204, integrated setting or transmission setting.

Embodiment 89

A kind of energy adjustment system, as shown in Figure 75, including pump impeller a 201, turbine a 203, pump impeller b 202, turbine b 204 and power transmission shaft 6, described pump impeller a 201, described turbine a 203, described turbine b 204 and described pump impeller b 202 are axially successively Setting, liquor stream loop a 111 flows through described pump impeller a 201 and described turbine a 203, and fluid circuit b 112 flows through described pump impeller b 202 and described turbine b 204, described power transmission shaft 6 is arranged with described turbine a 203 and described turbine b 204 clutch switching transmission.

Embodiment 90

A kind of energy adjustment system, as shown in Figure 76, including pump impeller a 201, turbine a 203, pump impeller b 202, turbine b 204 and power transmission shaft 6, described turbine a 203, described pump impeller a 201, described pump impeller b 202 and described turbine b 204 are axially successively Setting, liquor stream loop a 111 flows through described pump impeller a 201 and described turbine a 203, and fluid circuit b 112 flows through described pump impeller b 202 and described turbine b 204, described power transmission shaft 6 is arranged with described pump impeller a 201 and described pump impeller b 202 clutch switching transmission.

As disposable embodiment, the embodiment of the present invention 89 and embodiment 90 all can be further in described liquor stream loops Flow-guiding channel is set in a 111 and/or liquor stream loop b 112.And it is adjustable described flow-guiding channel can be made further to be set to geometry Formula.

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, all these flexible programs, and also being regarded as is the protection model of the present invention Enclose.

Claims

1. a kind of energy adjusting method it is characterised in that: drive rotary inertia body (3) store kinetic energy with no-load voltage ratio unit, then pass through The kinetic energy of described rotary inertia body (3) is discharged by another no-load voltage ratio unit.

2. a kind of energy adjusting method it is characterised in that: with no-load voltage ratio unit, the kinetic energy of tumbler is passed to rotary inertia body (3), then by another no-load voltage ratio unit the kinetic energy of described rotary inertia body (3) is released to described tumbler or other tumbler.

3. a kind of energy adjusting method it is characterised in that: drive rotary inertia body (3) storage with tumbler through bonder or torque-converters Deposit kinetic energy, then the kinetic energy of described rotary inertia body (3) is released to described tumbler or other tumbler through fluid matasomatism.

4. a kind of energy adjusting method it is characterised in that: drive rotary inertia body (3) storage with tumbler through bonder or torque-converters Deposit kinetic energy, then the kinetic energy of described rotary inertia body (3) is released to described tumbler or other through another bonder or torque-converters Tumbler.

5. as described in claim 3 or 4 energy adjusting method it is characterised in that: described fluid matasomatism be by include pump impeller, lead The torque-converters of wheel (301) and turbine is realized, or described fluid matasomatism is to be realized by including the bonder of pump impeller and turbine.

6. a kind of energy adjusting method it is characterised in that: with mechanical transmission, fluid transmission gear, hydrokinetic torque converter or fluid coupling Clutch by the power transmission of tumbler to rotary inertia body (3) store kinetic energy, then with same parts by described rotary inertia body (3) Kinetic energy be released to described tumbler or other rotatable parts.

7. a kind of energy adjustment system, including force piece (1) and rotary inertia body (3) it is characterised in that: described force piece (1) Through accumulation of energy gear unit (2) and described rotary inertia body (3) transmission setting, described rotary inertia body (3) is through exoergic gear unit (4) with described force piece (1) transmission setting.

8. a kind of energy adjustment system, including force piece a (101), force piece b (102) and rotary inertia body (3), its feature exists In: described force piece a (101) is through accumulation of energy gear unit (2) and described rotary inertia body (3) transmission setting, described rotary inertia Body (3) is through exoergic gear unit (4) and described force piece b (102) transmission setting.

9. energy adjustment system as claimed in claim 7 it is characterised in that: described accumulation of energy gear unit (2) is set to hydraulic pressure no-load voltage ratio Unit, fluid power no-load voltage ratio unit, strength no-load voltage ratio unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power increase Fast no-load voltage ratio unit or be set to strength speedup no-load voltage ratio unit.

10. energy adjustment system as claimed in claim 8 it is characterised in that: described accumulation of energy gear unit (2) is set to hydraulic pressure no-load voltage ratio Unit, fluid power no-load voltage ratio unit, strength no-load voltage ratio unit, air pressure no-load voltage ratio unit, mechanical no-load voltage ratio unit, machinery speed increasing unit, fluid power increase Fast no-load voltage ratio unit or be set to strength speedup no-load voltage ratio unit.