CN109687681A

CN109687681A - A kind of transmission device

Info

Publication number: CN109687681A
Application number: CN201811347862.6A
Authority: CN
Inventors: 靳北彪
Original assignee: Entropy Zero Technology Logic Engineering Group Co Ltd
Current assignee: Entropy Zero Technology Logic Engineering Group Co Ltd
Priority date: 2017-11-13
Filing date: 2018-11-13
Publication date: 2019-04-26

Abstract

The invention discloses a kind of transmission devices, including rotational structure body A, rotational structure body B and structural body C, and permanent magnet is arranged on the rotational structure body A, and inductor conductor B is arranged on the rotational structure body B₁, inductor conductor B₂With inductor conductor B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, is arranged inductor conductor C on the structural body C₁With inductor conductor C₂, the permanent magnet and inductor conductor B₁Mutual magneticaction setting, the inductor conductor B₂With the inductor conductor C₁Mutual magneticaction setting, the inductor conductor B₃With the inductor conductor C₂Mutual magneticaction setting, the inductor conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.Transmission device disclosed in this invention can by magneticaction realize efficient driving, and have many advantages, such as structure simply, have a wide range of application, promotional value it is big.

Description

A kind of transmission device

Technical field

The present invention relates to power and transmission field more particularly to a kind of transmission devices.

Background technique

The present inventor it is proposed that there is the transmission device of mutual magneticaction between components A, part B and component C three, Drive connection is complicated and not easy to control in this structure.If mutually magneticaction between a kind of components A and part B can be invented to set Set and between part B and component C non-three component ring closures of mutual magneticaction setting transmission device, as torque-converters Or the transmission mechanisms such as gearbox are then of great significance.Therefore, it is necessary to invent a kind of new drive device.

Summary of the invention

To solve the above-mentioned problems, technical solution proposed by the present invention is as follows:

Scheme 1: a kind of transmission device, including rotational structure body A, rotational structure body B and structural body C are tied in the rotation Permanent magnet is set on structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂With inductor conductor B₃, institute State inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, is arranged inductor conductor C on the structural body C₁It is led with inductance Body C₂, the permanent magnet and inductor conductor B₁Mutual magneticaction setting, the inductor conductor B₂With the inductor conductor C₁Mutually Magneticaction setting, the inductor conductor B₃With the inductor conductor C₂Mutual magneticaction setting, the inductor conductor C₁And institute State inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 2: a kind of transmission device, including rotational structure body A, rotational structure body B, structural body C₁With structural body C₂, institute It states and permanent magnet is set on rotational structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂It is led with inductance Body B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, in the structural body C₁Upper setting inductor conductor C₁, In the structural body C₂Upper setting inductor conductor C₂, the permanent magnet and inductor conductor B₁Mutual magneticaction setting, the inductance Conductor B₂With the inductor conductor C₁Mutual magneticaction setting, the inductor conductor B₃With the inductor conductor C₂Mutual magnetic force Effect setting, the inductor conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 3: a kind of transmission device, including rotational structure body A, rotational structure body B and structural body C are tied in the rotation Permanent magnet is set on structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂With permanent magnet B₃, described Inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, is arranged inductor conductor C on the structural body C₁And inductor conductor C₂, the permanent magnet and inductor conductor B₁Mutual magneticaction setting, the inductor conductor B₂With the inductor conductor C₁Mutual magnetic Power effect setting, the permanent magnet B₃With the inductor conductor C₂Mutual magneticaction setting, the inductor conductor C₁With the electricity Feel conductor C₂It is arranged through control device electric connectivity.

Scheme 4: a kind of transmission device, including rotational structure body A, rotational structure body B, structural body C₁With structural body C₂, institute It states and permanent magnet is set on rotational structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂And permanent magnet B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, in the structural body C₁Upper setting inductor conductor C₁, The structural body C₂Upper setting inductor conductor C₂, the permanent magnet and inductor conductor B₁Mutual magneticaction setting, the inductance are led Body B₂With the inductor conductor C₁Mutual magneticaction setting, the permanent magnet B₃With the inductor conductor C₂Mutual magneticaction Setting, the inductor conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 5: a kind of transmission device, including rotational structure body A, rotational structure body B and structural body C are tied in the rotation Inductance magnetic force area is set on structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂And inductor conductor B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, is arranged inductor conductor C on the structural body C₁With Inductor conductor C₂, inductance magnetic force area and inductor conductor B₁Mutual magneticaction setting, the inductor conductor B₂With the inductance Conductor C₁Mutual magneticaction setting, the inductor conductor B₃With the inductor conductor C₂Mutual magneticaction setting, the inductance Conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 6: a kind of transmission device, including rotational structure body A, rotational structure body B, structural body C₁With structural body C₂, institute Setting inductance magnetic force area on rotational structure body A is stated, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂And electricity Feel conductor B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, in the structural body C₁Upper setting inductance is led Body C₁, in the structural body C₂Upper setting inductor conductor C₂, inductance magnetic force area and inductor conductor B₁Mutual magneticaction is set It sets, the inductor conductor B₂With the inductor conductor C₁Mutual magneticaction setting, the inductor conductor B₃With the inductor conductor C₂Mutual magneticaction setting, the inductor conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 7: a kind of transmission device, including rotational structure body A, rotational structure body B and structural body C are tied in the rotation Inductance magnetic force area is set on structure body A, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂With permanent magnet B₃, The inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, is arranged inductor conductor C on the structural body C₁And inductance Conductor C₂, inductance magnetic force area and inductor conductor B₁Mutual magneticaction setting, the inductor conductor B₂With the inductor conductor C₁Mutual magneticaction setting, the permanent magnet B₃With the inductor conductor C₂Mutual magneticaction setting, the inductor conductor C₁ With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 8: a kind of transmission device, including rotational structure body A, rotational structure body B, structural body C₁With structural body C₂, institute Setting inductance magnetic force area on rotational structure body A is stated, inductor conductor B is set on the rotational structure body B₁, inductor conductor B₂Forever Magnet B₃, the inductor conductor B₁With the inductor conductor B₂Electric connectivity setting, in the structural body C₁Upper setting inductor conductor C₁, in the structural body C₂Upper setting inductor conductor C₂, inductance magnetic force area and inductor conductor B₁Mutual magneticaction setting, The inductor conductor B₂With the inductor conductor C₁Mutual magneticaction setting, the permanent magnet B₃With the inductor conductor C₂Phase Mutual magneticaction setting, the inductor conductor C₁With the inductor conductor C₂It is arranged through control device electric connectivity.

Scheme 9: a kind of transmission device, including rotational structure body A, rotational structure body B₁, rotational structure body B₂With structural body C, Inductance magnetic force area A is set on the rotational structure body A, in the rotational structure body B₁Upper setting magnetic force area B₁, in the rotation Structure B₂Upper setting magnetic force area B₂, inductance magnetic force area C, inductance magnetic force area A and the magnetic are set on the structural body C Power area B₁Mutual magneticaction setting, the magnetic force area B₂It is arranged with the mutual magneticaction of inductance magnetic force area C, the rotation Structure B₁With the rotational structure body B₂Machine driving setting；The magnetic force area B₁With the magnetic force area B₂Or with the inductance Magnetic force area C power connection setting, or, the inductance magnetic force area A and magnetic force area B₂Or connect with inductance magnetic force area's C power Logical setting.

Scheme 10: a kind of transmission device, including rotational structure body A, rotational structure body B and rotational structure body C, in the rotation Inductance magnetic force area A is set on rotation structure body A₁With inductance magnetic force area A₂, inductance magnetic force area B is set on the rotational structure body B, Inductance magnetic force area C, inductance magnetic force area A are set on the rotational structure body C₁With the mutual magnetic force of inductance magnetic force area B Effect setting, inductance magnetic force area A₂It is arranged with the mutual magneticaction of inductance magnetic force area C, inductance magnetic force area A₁With Inductance magnetic force area A₂Electric connectivity setting, the rotational structure body C and the rotational structure body B machine driving are arranged.

Scheme 11: in scheme 1 and 3 and 5 and 7 on the basis of either a program, further selectively selection makes the knot Structure body C is set as stator or is arranged through gear and rotational structure body B transmission.

Scheme 12: in scheme 2 and 4 and 6 and 8 on the basis of either a program, further selectively selection makes the knot Structure body C₁And/or the structural body C₂It is set as stator or is arranged through gear and rotational structure body B transmission.

Scheme 13: on the basis of scheme 9, further selectively selection makes the structural body C be set as stator or through becoming Fast mechanism and the rotational structure body B₂Transmission setting.

Scheme 14: in scheme 1 to 8 and 10 on the basis of either a program, further selectively make the rotational structure Body A is set as power input rotational structure body, and the rotational structure body B is set as power output rotational structure body.

Scheme 15: on the basis of scheme 9 or 13, the rotational structure body A is further selectively made to be set as power defeated Enter rotational structure body, the rotational structure body B₁With the rotational structure body B₂At least one of be set as power output rotation knot Structure body.

Scheme 16: on the basis of scheme 11, the rotational structure body A is further selectively made to be set as power input rotation Rotation structure body, the rotational structure body B are set as power output rotational structure body.

Scheme 17: on the basis of scheme 12, the rotational structure body A is further selectively made to be set as power input rotation Rotation structure body, the rotational structure body B are set as power output rotational structure body.

In the present invention, the electric connectivity setting, which is selectively chosen, is set as direct electric connectivity setting or by control The electric connectivity of device is arranged.

In the present invention, so-called " inductance magnetic force area " refers to the region that magnetic force is generated by electromagnetic induction.

In the present invention, so-called " setting of A and B electric connectivity " refers to conductive setting side between the A and the B Formula.

In the present invention, gear can be realized by the control of control device.

In the present invention, the control device can work by internal logic, work can be controlled by remote control device, or again through electric ring Work is controlled through control unit.

In the present invention, so-called " internal logic " refers to the control logic being set in advance in the control device, i.e., in advance Control strategy in the control device is first set.

In the present invention, so-called " magnetic force area " is the region for referring to generate magneticaction, such as permanent-magnet area, winding Coil, mouse cage and swirling body etc..

In the present invention, so-called " inductor conductor " refers to including single conductor, individual pen wire winding or multi-turn wire winding Electric conductor, such as inductance coil or mouse cage.

In the present invention, the inductance coil includes inductance coil group.

Heretofore described coil includes coil group.

In the present invention, after a certain component names plus the letter such as so-called " A ", " B " is merely to distinguish two or several The identical component of title.

The working principle of the invention is: the mutual magneticaction between components A and part B can produce electricl energy, generated Electric energy is directly or indirectly through the control device being arranged in this part B to the conductor-powered being arranged in this part B, this conductor Mutual magneticaction between component C is equal to the process that motor converts electric energy to mechanical energy, thereby realizes portion Transmission between part A and part B.By changing in the control device that this is arranged in part B in control strategy and/or outer The different kinds of drive between components A and part B may be implemented in control strategy, and (the so-called different kind of drive includes torque-converters The combination of the box kind of drive of the formula kind of drive, speed change and the two, disclosed in this invention structure include but is not limited to become The square device formula kind of drive and the box kind of drive of speed change).

In the present invention, the control strategy and working method of the control device, example can be adjusted according to the requirement of driving form Can be adjusted according to the transmission mode of torque-converters the control device control strategy and working method two power ends of realization according to The transmission mode of torque-converters is driven, and the control strategy and work of the control device can also be adjusted according to the transmission mode of gearbox Realize that two power ends are driven according to the transmission mode of gearbox as mode.Particularly, for example, the control device can basis With the both end voltage of the control device electric connectivity and the dynamics of frequency shift its pressure regulation and frequency modulation, it is ensured that electrical energy inputs pair Electric energy output end power supply.For another example the control device can change the power of its pressure regulation and frequency modulation according to the revolving speed of two power ends Degree, it is ensured that electrical energy inputs power to electric energy output end.Further for example, the control device can according to instruction lock its pressure regulation and The dynamics of frequency modulation makes electrical energy inputs pair when realizing that the revolving speed of the only structural member where electric energy output end is lower than setting speed Electric energy output end power supply.

In the present invention, necessary component, list should be set in necessary place according to the well-known technique of power and transmission field Member or system etc..

Beneficial effects of the present invention are as follows: transmission device disclosed in this invention can be realized by magneticaction and efficiently be passed It is dynamic, and have many advantages, such as structure simply, have a wide range of application, promotional value it is big.

Detailed description of the invention

Fig. 1: the structural schematic diagram of the embodiment of the present invention 1；

Fig. 2: the structural schematic diagram of the embodiment of the present invention 2；

Fig. 3: the structural schematic diagram of the embodiment of the present invention 3；

Fig. 4: the structural schematic diagram of the embodiment of the present invention 4；

Fig. 5: the structural schematic diagram of the embodiment of the present invention 5；

Fig. 6: the structural schematic diagram of the embodiment of the present invention 6；

Fig. 7: the structural schematic diagram of the embodiment of the present invention 7；

Fig. 8: the structural schematic diagram of the embodiment of the present invention 8；

Fig. 9: the structural schematic diagram of the embodiment of the present invention 9；

Figure 10: the structural schematic diagram of the embodiment of the present invention 10.

Specific embodiment

Embodiment 1

A kind of transmission device, as shown in Figure 1, including rotational structure body A 1, rotational structure body B 2 and structural body C 3, Permanent magnet 14 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁25, inductance is led Body B₂26 and inductor conductor B₃27, the inductor conductor B₁The 25 and inductor conductor B₂26 electric connectivities setting, described Inductor conductor C is set on structural body C 3₁35 and inductor conductor C₂36, the permanent magnet 14 and inductor conductor B₁25 mutual magnetic Power effect setting, the inductor conductor B₂The 26 and inductor conductor C₁35 mutual magneticaction settings, the inductor conductor B₃ The 27 and inductor conductor C₂36 mutual magneticaction settings, the inductor conductor C₁The 35 and inductor conductor C₂36 through controlling 41 electric connectivity of device setting processed.

As disposable embodiment, control device 41 described in the embodiment of the present invention 1 is selectively chosen setting It is arranged outside the structural body C 3 on the structural body C 3 or through electric loop device.

Embodiment 2

A kind of transmission device, as shown in Fig. 2, including rotational structure body A 1, rotational structure body B 2, structural body C₁8 and knot Structure body C₂9, permanent magnet 14 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁ 25, inductor conductor B₂26 and inductor conductor B₃27, the inductor conductor B₁The 25 and inductor conductor B₂26 electric connectivities are set It sets, in the structural body C₁Inductor conductor C is set on 8₁35, in the structural body C₂Inductor conductor C is set on 9₂36, institute State permanent magnet 14 and inductor conductor B₁25 mutual magneticaction settings, the inductor conductor B₂The 26 and inductor conductor C₁ 35 Mutual magneticaction setting, the inductor conductor B₃The 27 and inductor conductor C₂36 mutual magneticaction settings, the inductance Conductor C₁The 35 and inductor conductor C₂36 are arranged through 41 electric connectivity of control device.

Embodiment 3

A kind of transmission device, as shown in figure 3, including rotational structure body A 1, rotational structure body B 2 and structural body C 3, Permanent magnet 14 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁25, inductance is led Body B₂26 and permanent magnet B₃28, the inductor conductor B₁The 25 and inductor conductor B₂26 electric connectivities setting, in the knot Inductor conductor C is set on structure body C 3₁35 and inductor conductor C₂36, the permanent magnet 14 and inductor conductor B₁25 mutual magnetic force Effect setting, the inductor conductor B₂The 26 and inductor conductor C₁35 mutual magneticaction settings, the permanent magnet B₃ 28 With the inductor conductor C₂36 mutual magneticaction settings, the inductor conductor C₁The 35 and inductor conductor C₂36 through controlling The setting of 41 electric connectivity of device.

As disposable embodiment, control device 41 described in the embodiment of the present invention 3 is selectively chosen setting It is arranged outside the structural body C 3 on the structural body C 3 or through electric loop device.

Embodiment 4

A kind of transmission device, as shown in figure 4, including rotational structure body A 1, rotational structure body B 2, structural body C₁8 and knot Structure body C₂9, permanent magnet 14 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁ 25, inductor conductor B₂26 and permanent magnet B₃28, the inductor conductor B₁The 25 and inductor conductor B₂26 electric connectivities are set It sets, in the structural body C₁Inductor conductor C is set on 8₁35, in the structural body C₂Inductor conductor C is set on 9₂36, institute State permanent magnet 14 and inductor conductor B₁25 mutual magneticaction settings, the inductor conductor B₂The 26 and inductor conductor C₁ 35 Mutual magneticaction setting, the permanent magnet B₃The 28 and inductor conductor C₂36 mutual magneticaction settings, the inductance are led Body C₁The 35 and inductor conductor C₂36 are arranged through 41 electric connectivity of control device.

Embodiment 5

A kind of transmission device, as shown in figure 5, including rotational structure body A 1, rotational structure body B 2 and structural body C 3, Inductance magnetic force area 15 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁25, electric Feel conductor B₂26 and inductor conductor B₃27, the inductor conductor B₁The 25 and inductor conductor B₂The setting of 26 electric connectivities, Inductor conductor C is set on the structural body C 3₁35 and inductor conductor C₂36, inductance magnetic force area 15 and inductor conductor B₁ 25 mutual magneticaction settings, the inductor conductor B₂The 26 and inductor conductor C₁35 mutual magneticaction settings, the electricity Feel conductor B₃The 27 and inductor conductor C₂36 mutual magneticaction settings, the inductor conductor C₁35 and the inductor conductor C₂36 are arranged through 41 electric connectivity of control device.

As disposable embodiment, control device 41 described in the embodiment of the present invention 5 is selectively chosen setting It is arranged outside the structural body C 3 on the structural body C 3 or through electric loop device.

Embodiment 6

A kind of transmission device, as shown in fig. 6, including rotational structure body A 1, rotational structure body B 2, structural body C₁8 and knot Structure body C₂9, inductance magnetic force area 15 is set on the rotational structure body A 1, inductance is set on the rotational structure body B 2 Conductor B₁25, inductor conductor B₂26 and inductor conductor B₃27, the inductor conductor B₁The 25 and inductor conductor B₂26 electric power Connection setting, in the structural body C₁Inductor conductor C is set on 8₁35, in the structural body C₂Inductor conductor C is set on 9₂ 36, inductance magnetic force area 15 and inductor conductor B₁25 mutual magneticaction settings, the inductor conductor B₂26 with the inductance Conductor C₁35 mutual magneticaction settings, the inductor conductor B₃The 27 and inductor conductor C₂36 mutual magneticactions are set It sets, the inductor conductor C₁The 35 and inductor conductor C₂36 are arranged through 41 electric connectivity of control device.

Embodiment 7

A kind of transmission device, as shown in fig. 7, comprises rotational structure body A 1, rotational structure body B 2 and structural body C 3, Inductance magnetic force area 15 is set on the rotational structure body A 1, inductor conductor B is set on the rotational structure body B 2₁25, electric Feel conductor B₂26 and permanent magnet B₃28, the inductor conductor B₁The 25 and inductor conductor B₂26 electric connectivities setting, in institute State setting inductor conductor C on structural body C 3₁35 and inductor conductor C₂36, inductance magnetic force area 15 and inductor conductor B₁ 25 Mutual magneticaction setting, the inductor conductor B₂The 26 and inductor conductor C₁35 mutual magneticaction settings, the permanent magnetism Body B₃The 28 and inductor conductor C₂36 mutual magneticaction settings, the inductor conductor C₁The 35 and inductor conductor C₂36 It is arranged through 41 electric connectivity of control device.

As disposable embodiment, control device 41 described in the embodiment of the present invention 7 is selectively chosen setting It is arranged outside the structural body C 3 on the structural body C 3 or by electric loop device.

Embodiment 8

A kind of transmission device, as shown in figure 8, including rotational structure body A 1, rotational structure body B 2, structural body C₁8 and knot Structure body C₂9, inductance magnetic force area 15 is set on the rotational structure body A 1, inductance is set on the rotational structure body B 2 Conductor B₁25, inductor conductor B₂26 and permanent magnet B₃28, the inductor conductor B₁The 25 and inductor conductor B₂26 electric power connect Logical setting, in the structural body C₁Inductor conductor C is set on 8₁35, in the structural body C₂Inductor conductor C is set on 9₂ 36, inductance magnetic force area 15 and inductor conductor B₁25 mutual magneticaction settings, the inductor conductor B₂26 with the inductance Conductor C₁35 mutual magneticaction settings, the permanent magnet B₃The 28 and inductor conductor C₂36 mutual magneticaction settings, The inductor conductor C₁The 35 and inductor conductor C₂36 are arranged through 41 electric connectivity of control device.

As disposable embodiment, the embodiment of the present invention 1 to embodiment 8 and its disposable embodiment can be into One step selectively selects that the rotational structure body A 1 is made to be set as power input rotational structure body, and the rotational structure body B 2 is set For power output rotational structure body.

Embodiment 9

A kind of transmission device, as shown in figure 9, including rotational structure body A 1, rotational structure body B₁81, rotational structure body B₂ Inductance magnetic force area A 17 is arranged, in the rotational structure body B in 91 and structural body C 3 on the rotational structure body A 1₁On 81 Magnetic force area B is set₁811, in the rotational structure body B₂Magnetic force area B is set on 91₂911, it is arranged on the structural body C 3 Inductance magnetic force area C 38, inductance magnetic force area A 17 and the magnetic force area B₁811 mutual magneticaction settings, the magnetic force Area B₂911 are arranged with the mutual magneticaction of inductance magnetic force area C 38, the rotational structure body B₁81 and the rotational structure Body B₂The setting of 91 machine drivings；The magnetic force area B₁811 are arranged through electric ring and 38 electric connectivity of inductance magnetic force area C.

As disposable embodiment, the embodiment of the present invention 9 also optionally makes the magnetic force area B₁811 through electricity Ring is arranged through control device and 38 electric connectivity of inductance magnetic force area C again.

As disposable embodiment, the embodiment of the present invention 9, which is also selectively chosen, makes the magnetic force area B₁ 811 With the magnetic force area B₂911 electric connectivities setting, or, making inductance magnetic force area A 17 and the magnetic force area B₂911 or with institute State the setting of 38 electric connectivity of inductance magnetic force area C.

As disposable embodiment, the embodiment of the present invention 9 and its disposable embodiment can be selected further Select to make the rotational structure body B to property₁The 81 and rotational structure body B₂91 are arranged by gear machine driving.

As disposable embodiment, the embodiment of the present invention 9 and its disposable embodiment can be selected further Select that the structural body C 3 is made to be set as stator or through gear and the rotational structure body B to property₂91 transmission settings.

As disposable embodiment, the embodiment of the present invention 9 and its disposable embodiment can be selected further Property select to make the rotational structure body A 1 to be set as power input rotational structure body, the rotational structure body B₂91 tie with rotation Structure body B₁At least one of 81 are set as power output rotational structure body.

Embodiment 10

A kind of transmission device, as shown in Figure 10, including rotational structure body A 1, rotational structure body B 2 and rotational structure body C 42, inductance magnetic force area A is set on the rotational structure body A 1₁101 and inductance magnetic force area A₂102, in the rotational structure Inductance magnetic force area B 201 is set on body B 2, inductance magnetic force area C 38, the inductance magnetic are set on the rotational structure body C42 Power area A₁101 are arranged with the mutual magneticaction of inductance magnetic force area B 201, inductance magnetic force area A₂102 with the inductance The setting of the mutual magneticaction of magnetic force area C 38, inductance magnetic force area A₁101 and inductance magnetic force area A₂The setting of 102 electric connectivities, The rotational structure body C 42 is arranged through transmission device 100 and 2 machine driving of rotational structure body B.

As disposable embodiment, the embodiment of the present invention 10 also optionally make the rotational structure body C 42 with The rotational structure body B 2 realizes machine driving using other driving forms.

As disposable embodiment, the embodiment of the present invention 10 and its disposable embodiment can be selected further Property select to make the rotational structure body A 1 to be set as power input rotational structure body, it is defeated that the rotational structure body B 2 is set as power Rotational structure body out.

As disposable embodiment, present invention 1 and embodiment 3 and embodiment 5 and embodiment 7 and its Disposable embodiment further can selectively select that the structural body C 3 is made to be set as stator or through gear and institute State the transmission setting of rotational structure body B 2.

As disposable embodiment, present invention 2 and embodiment 4 and embodiment 6 and embodiment 8 and its Disposable embodiment further can selectively select to make the structural body C₁The 8 and/or structural body C₂9 are set as Stator is arranged through gear and the rotational structure body B 2 transmission.

As disposable embodiment, the electric connectivity setting in all embodiments of the present invention is optionally set as Direct electric connectivity setting is arranged by control device electric connectivity.

As disposable embodiment, the aforementioned all embodiments of the present invention in the specific implementation, can be selected further Line shaft A is set through gear and the rotational structure body A 1 transmission；Or make line shaft A through gear with The transmission of rotational structure body A 1 setting, the line shaft A are arranged through positive and negative rotation switching mechanism and line shaft D transmission.

As disposable embodiment, the aforementioned all embodiments of the present invention in the specific implementation, can be selected further The rotational structure body B 2 is set through gear and line shaft B transmission；Or pass through the rotational structure body B 2 Gear and line shaft B transmission are arranged, and the line shaft B is arranged through positive and negative rotation switching mechanism and line shaft C transmission.

The aforementioned all embodiments of the present invention further can realize gear by the control of control device.

In the present invention, Figure of description is only a kind of signal, and any technical solution for meeting the application literature record belongs to In the protection scope of the application.

It is clear that the invention is not restricted to above embodiments, according to techniques known and technology disclosed in this invention Scheme, can derive or associate many variant schemes out, and all these variant schemes also are regarded as being protection model of the invention It encloses.

Claims

1. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body C (3), it is characterised in that: Permanent magnet (14) are set on the rotational structure body A (1), inductor conductor B is set on the rotational structure body B (2)₁ (25), inductor conductor B₂(26) and inductor conductor B₃(27), the inductor conductor B₁(25) and the inductor conductor B₂(26) electric power Connection setting, is arranged inductor conductor C on the structural body C (3)₁(35) and inductor conductor C₂(36), the permanent magnet (14) with Inductor conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂(26) with the inductor conductor C₁(35) mutual magnetic force Effect setting, the inductor conductor B₃(27) with the inductor conductor C₂(36) mutually magneticaction setting, the inductor conductor C₁ (35) and the inductor conductor C₂(36) it is arranged through control device (41) electric connectivity.

2. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2), structural body C₁(8) and structural body C₂(9), It is characterized by: permanent magnet (14) are arranged on the rotational structure body A (1), electricity is set on the rotational structure body B (2) Feel conductor B₁(25), inductor conductor B₂(26) and inductor conductor B₃(27), the inductor conductor B₁(25) and the inductor conductor B₂ (26) electric connectivity is arranged, in the structural body C₁(8) inductor conductor C is set on₁(35), in the structural body C₂(9) it is arranged on Inductor conductor C₂(36), the permanent magnet (14) and inductor conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂ (26) with the inductor conductor C₁(35) mutually magneticaction setting, the inductor conductor B₃(27) with the inductor conductor C₂ (36) mutually magneticaction setting, the inductor conductor C₁(35) and the inductor conductor C₂(36) through control device (41) electric power Connection setting.

3. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body C (3), it is characterised in that: Permanent magnet (14) are set on the rotational structure body A (1), inductor conductor B is set on the rotational structure body B (2)₁ (25), inductor conductor B₂(26) and permanent magnet B₃(28), the inductor conductor B₁(25) and the inductor conductor B₂(26) electric power connects Logical setting, is arranged inductor conductor C on the structural body C (3)₁(35) and inductor conductor C₂(36), the permanent magnet (14) and electricity Feel conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂(26) with the inductor conductor C₁(35) mutually magnetic force is made With setting, the permanent magnet B₃(28) with the inductor conductor C₂(36) mutually magneticaction setting, the inductor conductor C₁(35) With the inductor conductor C₂(36) it is arranged through control device (41) electric connectivity.

4. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2), structural body C₁(8) and structural body C₂(9), It is characterized by: permanent magnet (14) are arranged on the rotational structure body A (1), electricity is set on the rotational structure body B (2) Feel conductor B₁(25), inductor conductor B₂(26) and permanent magnet B₃(28), the inductor conductor B₁(25) and the inductor conductor B₂ (26) electric connectivity is arranged, in the structural body C₁(8) inductor conductor C is set on₁(35), in the structural body C₂(9) it is arranged on Inductor conductor C₂(36), the permanent magnet (14) and inductor conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂ (26) with the inductor conductor C₁(35) mutually magneticaction setting, the permanent magnet B₃(28) with the inductor conductor C₂(36) Mutual magneticaction setting, the inductor conductor C₁(35) and the inductor conductor C₂(36) through control device (41) electric connectivity Setting.

5. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body C (3), it is characterised in that: Inductance magnetic force area (15) are set on the rotational structure body A (1), inductor conductor B is set on the rotational structure body B (2)₁ (25), inductor conductor B₂(26) and inductor conductor B₃(27), the inductor conductor B₁(25) and the inductor conductor B₂(26) electric power Connection setting, is arranged inductor conductor C on the structural body C (3)₁(35) and inductor conductor C₂(36), inductance magnetic force area (15) with inductor conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂(26) with the inductor conductor C₁(35) phase Mutual magneticaction setting, the inductor conductor B₃(27) with the inductor conductor C₂(36) mutually magneticaction setting, the inductance Conductor C₁(35) and the inductor conductor C₂(36) it is arranged through control device (41) electric connectivity.

6. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2), structural body C₁(8) and structural body C₂(9), It is characterized by: inductance magnetic force area (15) are arranged on the rotational structure body A (1), set on the rotational structure body B (2) Set inductor conductor B₁(25), inductor conductor B₂(26) and inductor conductor B₃(27), the inductor conductor B₁(25) it is led with the inductance Body B₂(26) electric connectivity is arranged, in the structural body C₁(8) inductor conductor C is set on₁(35), in the structural body C₂(9) on Inductor conductor C is set₂(36), inductance magnetic force area (15) and inductor conductor B₁(25) mutually magneticaction setting, the inductance Conductor B₂(26) with the inductor conductor C₁(35) mutually magneticaction setting, the inductor conductor B₃(27) it is led with the inductance Body C₂(36) mutually magneticaction setting, the inductor conductor C₁(35) and the inductor conductor C₂(36) through control device (41) Electric connectivity setting.

7. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body C (3), it is characterised in that: Inductance magnetic force area (15) are set on the rotational structure body A (1), inductor conductor B is set on the rotational structure body B (2)₁ (25), inductor conductor B₂(26) and permanent magnet B₃(28), the inductor conductor B₁(25) and the inductor conductor B₂(26) electric power connects Logical setting, is arranged inductor conductor C on the structural body C (3)₁(35) and inductor conductor C₂(36), inductance magnetic force area (15) With inductor conductor B₁(25) mutually magneticaction setting, the inductor conductor B₂(26) with the inductor conductor C₁(35) mutual magnetic Power effect setting, the permanent magnet B₃(28) with the inductor conductor C₂(36) mutually magneticaction setting, the inductor conductor C₁ (35) and the inductor conductor C₂(36) it is arranged through control device (41) electric connectivity.

8. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2), structural body C₁(8) and structural body C₂(9), It is characterized by: inductance magnetic force area (15) are arranged on the rotational structure body A (1), set on the rotational structure body B (2) Set inductor conductor B₁(25), inductor conductor B₂(26) and permanent magnet B₃(28), the inductor conductor B₁(25) and the inductor conductor B₂(26) electric connectivity is arranged, in the structural body C₁(8) inductor conductor C is set on₁(35), in the structural body C₂(9) it is set on Set inductor conductor C₂(36), inductance magnetic force area (15) and inductor conductor B₁(25) mutually magneticaction setting, the inductance are led Body B₂(26) with the inductor conductor C₁(35) mutually magneticaction setting, the permanent magnet B₃(28) with the inductor conductor C₂ (36) mutually magneticaction setting, the inductor conductor C₁(35) and the inductor conductor C₂(36) through control device (41) electric power Connection setting.

9. a kind of transmission device, including rotational structure body A (1), rotational structure body B₁(81), rotational structure body B₂(91) and structure Body C (3), it is characterised in that: inductance magnetic force area A (17) are set on the rotational structure body A (1), in the rotational structure body B₁(81) magnetic force area B is set on₁(811), in the rotational structure body B₂(91) magnetic force area B is set on₂(911), in the structure Inductance magnetic force area C (38) are set on body C (3), inductance magnetic force area A (17) and the magnetic force area B₁(811) mutually magnetic force is made With setting, the magnetic force area B₂(911) it is arranged with inductance magnetic force area C (38) mutually magneticaction, the rotational structure body B₁ (81) and the rotational structure body B₂(91) machine driving is arranged；The magnetic force area B₁(811) with the magnetic force area B₂(911) or It is arranged with inductance magnetic force area C (38) electric connectivity, or, inductance magnetic force area A (17) and the magnetic force area B₂(911) or It is arranged with inductance magnetic force area C (38) electric connectivity.

10. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and rotational structure body C (42), feature It is: inductance magnetic force area A is set on the rotational structure body A (1)₁(101) and inductance magnetic force area A₂(102), in the rotation Inductance magnetic force area B (201) are set in structure B (2), inductance magnetic force area C (38) are set on the rotational structure body C (42), Inductance magnetic force area A₁(101) it is arranged with inductance magnetic force area B (201) mutually magneticaction, inductance magnetic force area A₂ (102) it is arranged with inductance magnetic force area C (38) mutually magneticaction, inductance magnetic force area A₁(101) and inductance magnetic force area A₂ (102) electric connectivity is arranged, and the rotational structure body C (42) and rotational structure body B (2) machine driving are arranged.

11. the transmission device as described in any one of claim 1 and 3 and 5 and 7, it is characterised in that: the structural body C (3) is set as Stator is arranged through gear and the rotational structure body B (2) transmission.

12. the transmission device as described in any one of claim 2 and 4 and 6 and 8, it is characterised in that: the structural body C₁(8) and/ Or the structural body C₂(9) it is set as stator or is arranged through gear and the rotational structure body B (2) transmission.

13. transmission device as claimed in claim 9, it is characterised in that: the structural body C (3) is set as stator or through gear With the rotational structure body B₂(91) transmission setting.

14. the transmission device as described in any one of claim 1 to 8 and 10, it is characterised in that: the rotational structure body A (1) sets Rotational structure body is inputted for power, the rotational structure body B (2) is set as power output rotational structure body.

15. the transmission device as described in claim 9 or 13, it is characterised in that: the rotational structure body A (1) is set as power input Rotational structure body, the rotational structure body B₁(81) and the rotational structure body B₂At least one of (91) it is set as power output Rotational structure body.

16. transmission device as claimed in claim 11, it is characterised in that: the rotational structure body A (1) is set as power input rotation Structural body, the rotational structure body B (2) are set as power output rotational structure body.

17. transmission device as claimed in claim 12, it is characterised in that: the rotational structure body A (1) is set as power input rotation Structural body, the rotational structure body B (2) are set as power output rotational structure body.