CN109510435A - A kind of transmission device - Google Patents

Abstract

The invention discloses a kind of transmission devices, including line shaft, rotational structure body A, rotational structure body B and stator, rotor magnetic area is set on the rotational structure body A, stator magnetic force area is set on the stator, conductor region A and conductor region B is set on the rotational structure body B, control device is set on the rotational structure body B, the conductor of the conductor region A is arranged through the conductor electric connectivity of the control device and the conductor region B, the rotor magnetic area is correspondingly arranged with the conductor region A, stator magnetic force area is correspondingly arranged with the conductor region B, the line shaft is arranged through mechanical variable speed device and rotational structure body A transmission.Transmission device disclosed in this invention can realize speed changing function using electromagnetism, and have many advantages, such as that structure is simple, high-efficient, speed change domain is wide, at low cost.

Description

A kind of transmission device

Technical field

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

Background technique

The present inventor discloses the multinomial technical solution being driven through electromagnetic force, however these technical solutions are under certain operating conditions Need control device that there is boost function, but boost function can make control device complication and high cost.Therefore, it is necessary to send out A kind of bright 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 line shaft, rotational structure body A, rotational structure body B and stator, in the rotation Rotor magnetic area is set on rotation structure body A, stator magnetic force area is set on the stator, is arranged on the rotational structure body B Control device is arranged in conductor region A and conductor region B on the rotational structure body B, and the conductor of the conductor region A is through the control The conductor electric connectivity of device and the conductor region B are arranged, and the rotor magnetic area is correspondingly arranged with the conductor region A, described Stator magnetic force area is correspondingly arranged with the conductor region B, and the line shaft is driven through mechanical variable speed device and the rotational structure body A Setting.

Scheme 2: on the basis of scheme 1, further selectively selection makes the rotor magnetic area be set as p-m rotor Magnetic force area is set as excitation rotor magnetic force area, and/or, so that stator magnetic force area is set as permanent-magnet stator magnetic force area or is set as excitation Stator magnetic force area.

Scheme 3: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and rotational structure body C, Rotor magnetic area A is set on the rotational structure body A, rotor magnetic area C is set on the rotational structure body C, in the rotation Conductor region A and conductor region B is set on rotation structure body B, control device is set on the rotational structure body B, the conductor region A's Conductor is arranged through the conductor electric connectivity of the control device and the conductor region B, the rotor magnetic area A and the conductor region A is correspondingly arranged, and the rotor magnetic area C is correspondingly arranged with the conductor region B, the line shaft through mechanical variable speed device with it is described Rotational structure body A transmission setting, the rotational structure body C are arranged through deceleration mechanism and rotational structure body B transmission.

Scheme 4: on the basis of scheme 3, further selectively selection makes the rotor magnetic area A be set as p-m rotor Magnetic force area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C is set as p-m rotor magnetic force area C or is set as encouraging Magnet rotor magnetic force area C.

Scheme 5: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and stator, in the rotation Rotor magnetic area is set on rotation structure body A, stator magnetic force area is set on the stator, is arranged on the rotational structure body B Control device is arranged in conductor region A and conductor region B on the rotational structure body B, and the conductor of the conductor region A is through the control The conductor electric connectivity of device and the conductor region B are arranged, and the rotor magnetic area is correspondingly arranged with the conductor region A, described Stator magnetic force area is correspondingly arranged with the conductor region B, and the line shaft is driven through machinery speed increasing mechanism and the rotational structure body A Setting.

Scheme 6: on the basis of scheme 5, further selectively selection makes the rotor magnetic area be set as p-m rotor Magnetic force area is set as excitation rotor magnetic force area, and/or, stator magnetic force area is set as permanent-magnet stator magnetic force area or to be set as excitation fixed Sub- magnetic force area.

Scheme 7: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and rotational structure body C, Rotor magnetic area A is set on the rotational structure body A, rotor magnetic area C is set on the rotational structure body C, in the rotation Conductor region A and conductor region B is set on rotation structure body B, control device is set on the rotational structure body B, the conductor region A's Conductor is arranged through the conductor electric connectivity of the control device and the conductor region B, the rotor magnetic area A and the conductor region A is correspondingly arranged, and the rotor magnetic area C is correspondingly arranged with the conductor region B, the line shaft through machinery speed increasing mechanism with it is described Rotational structure body A transmission setting, the rotational structure body C are arranged through deceleration mechanism and rotational structure body B transmission.

Scheme 8: on the basis of scheme 7, further selectively selection makes the rotor magnetic area A be set as p-m rotor Magnetic force area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C is set as p-m rotor magnetic force area C or is set as encouraging Magnet rotor magnetic force area C.

Scheme 9: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and stator, in the rotation Rotor magnetic area is set on rotation structure body A, stator magnetic force area is set on the stator, is arranged on the rotational structure body B At least one conductor tap is arranged in conductor region A and conductor region B, the conductor of the conductor region B, sets on the rotational structure body B Set control device, conductor and its conductor tap electric power of the conductor of the conductor region A through the control device Yu the conductor region B Connection setting, the rotor magnetic area are correspondingly arranged with the conductor region A, and stator magnetic force area is corresponding with the conductor region B Setting, the line shaft are arranged through mechanical variable speed device and rotational structure body A transmission.

Scheme 10: on the basis of scheme 9, further selectively selection makes the rotor magnetic area be set as p-m rotor Magnetic force area is set as excitation rotor magnetic force area, and/or, stator magnetic force area is set as permanent-magnet stator magnetic force area or to be set as excitation fixed Sub- magnetic force area.

Scheme 11: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and rotational structure body C, Rotor magnetic area A is set on the rotational structure body A, rotor magnetic area C is set on the rotational structure body C, described Conductor region A and conductor region B is set on rotational structure body B, at least one conductor tap is arranged in the conductor of the conductor region B, in institute It states and control device is set on rotational structure body B, the conductor of the conductor region A is led through the control device and the conductor region B's Body and its setting of conductor tap electric connectivity, the rotor magnetic area A are correspondingly arranged with the conductor region A, the rotor magnetic Area C is correspondingly arranged with the conductor region B, and the line shaft is arranged through mechanical variable speed device and rotational structure body A transmission, institute Rotational structure body C is stated to be arranged through deceleration mechanism and rotational structure body B transmission.

Scheme 12: on the basis of scheme 11, further selectively selection makes the rotor magnetic area A be set as permanent magnetism turn Sub- magnetic force area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C is set as p-m rotor magnetic force area C or is set as Excitation rotor magnetic force area C.

Scheme 13: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and stator, in the rotation Rotor magnetic area is set on rotation structure body A, stator magnetic force area is set on the stator, is arranged on the rotational structure body B At least one conductor tap is arranged in conductor region A and conductor region B, the conductor of the conductor region B, sets on the rotational structure body B Set control device, conductor and its conductor tap electric power of the conductor of the conductor region A through the control device Yu the conductor region B Connection setting, the rotor magnetic area are correspondingly arranged with the conductor region A, and stator magnetic force area is corresponding with the conductor region B Setting, the line shaft are arranged through machinery speed increasing mechanism and rotational structure body A transmission.

Scheme 14: on the basis of scheme 13, further selectively selection makes the rotor magnetic area be set as permanent magnetism turn Sub- magnetic force area is set as excitation rotor magnetic force area, and/or, stator magnetic force area is set as permanent-magnet stator magnetic force area or is set as excitation Stator magnetic force area.

Scheme 15: a kind of transmission device, including line shaft, rotational structure body A, rotational structure body B and rotational structure body C, Rotor magnetic area A is set on the rotational structure body A, rotor magnetic area C is set on the rotational structure body C, described Conductor region A and conductor region B is set on rotational structure body B, at least one conductor tap is arranged in the conductor of the conductor region B, in institute It states and control device is set on rotational structure body B, the conductor of the conductor region A is led through the control device and the conductor region B's Body and its setting of conductor tap electric connectivity, the rotor magnetic area A are correspondingly arranged with the conductor region A, the rotor magnetic Area C is correspondingly arranged with the conductor region B, and the line shaft is arranged through machinery speed increasing mechanism and rotational structure body A transmission, institute Rotational structure body C is stated to be arranged through deceleration mechanism and rotational structure body B transmission.

Scheme 16: on the basis of scheme 15, further selectively selection makes the rotor magnetic area A be set as permanent magnetism turn Sub- magnetic force area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C is set as p-m rotor magnetic force area C or is set as Excitation rotor magnetic force area C.

Scheme 17: in scheme 1 to 16 on the basis of either a program, further make the rotational structure body B and positive and negative rotation Gearshift transmission setting.

Scheme 18: in scheme 1 to 16 on the basis of either a program, further selectively make the rotational structure body B It being connected and is arranged with the sun gear of planetary mechanism, the rotational structure body B and/or the sun gear and sliding equipment nibble de- setting, The gear ring of the sliding equipment and the planetary mechanism nibbles de- setting, and the sliding equipment slides axially with power transmission structure body Transmission setting.

In the present invention, so-called " conductor X is arranged through control device and conductor Y and its conductor tap electric connectivity " refers to Under control device control, conductor X can with conductor Y electric connectivity, conductor X can also with the tap electric connectivity of conductor Y, at certain Who is determined by control device according to control strategy with whose electric connectivity under one specific condition.

In the present invention, the purpose that tap is arranged is that the voltage for the inputing power for making control device and self-control device obtain electricity The counter electromotive force of the inductor conductor (such as inductance coil) of energy matches.

In the present invention, the purpose that tap is arranged is that the voltage for the inputing power for making control device is obtained higher than self-control device The counter electromotive force of the inductor conductor (such as inductance coil) of electric energy.

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, so-called " conductor region " refers to the region including conductor.

In the present invention, so-called " conductor " refers to electric conductor for the purpose of electromagnetic induction, such as conducting bar, coil etc..

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 " nibbling de- setting " refers to the set-up mode that can not only engage but also can be detached from, also refer to from Close switching setting.

In the present invention, " sun gear of the rotational structure body B and planetary mechanism, which is connected, to be arranged, the rotational structure body B And/or the sun gear and sliding equipment nibble de- setting, the gear ring of the sliding equipment and the planetary mechanism nibbles de- setting, institute State sliding equipment and power transmission structure body slide axially transmission setting " purpose be realize and advance and fall back (rotate forward with it is anti- Turn) between switching.

In the present invention, be arranged on conductor tap purpose be in order to make being mutually matched for generating voltage and utilization voltage, To evade increasing apparatus, the complexity of system is reduced, reduces the cost of system.

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, 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.

In the technical solution containing conductor tap, on input terminal voltage of the control device according to the control device Logical relation work and the control device for rising switching electricity consumption end high voltage tap are electric according to the input terminal of the control device The logical relation work of drops switching electricity consumption end low-voltage tap or the control device decline according to electricity consumption end voltage transfers The logical relation work of electricity consumption end high voltage tap and the control device rise the low electricity in electricity consumption end of transferring according to electricity consumption end voltage Press the logical relation work of tap.

The working principle of the invention is: the mutual magneticaction between components A and part B can produce electricl energy, generated Electric energy powers to the conductor region being arranged in this part B directly or indirectly through the control device being arranged in this part B, this leads Mutual magneticaction between body area and component C is equal to the process that motor converts electric energy to mechanical energy, thus realizes Transmission between components A and part B.By change in the control device that this is arranged in part B control strategy and/ Or external control strategy may be implemented between components A and part B the different kinds of drive (the so-called different kind of drive include become The combination of square device the formula kind of drive, the box kind of drive of speed change and the two, disclosed in this invention structure include but unlimited In the torque-converters 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 It is connect with the switching of the both end voltage of the control device electric connectivity and its electrical energy inputs of frequency shift and electric energy output end And change its frequency modulation dynamics, it is ensured that electrical energy inputs power to electric energy output end.For another example the control device can basis The revolving speed of two power ends changes its electrical energy inputs and connects with the switching of electric energy output end and change its frequency modulation dynamics, it is ensured that electricity Energy input terminal powers to electric energy output end.Further for example, the control device can lock its electrical energy inputs and electricity according to instruction The switching of energy output end connects and changes its frequency modulation dynamics, realizes only when the revolving speed of electric energy output end place structural member is lower than When setting speed, electrical energy inputs is made to power electric energy output end.

In the present invention, necessary component, unit should be set in necessary place or are according to the well-known technique of transmission field System etc..

Beneficial effects of the present invention are as follows: transmission device disclosed in this invention can realize speed changing function using electromagnetism, And have many advantages, such as that structure is simple, high-efficient, speed change domain is wide, at low cost.

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；

Figure 11: the structural schematic diagram of the embodiment of the present invention 11.

Specific embodiment

Embodiment 1

A kind of transmission device, as shown in Figure 1, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, control device 5 is set on the rotational structure body B 3, The conductor of the conductor region A 31 is arranged through the conductor electric connectivity of the control device 5 and conductor region B 32, and described turn Sub- magnetic force area 21 is arranged with the mutual magneticaction of the conductor region A 31, stator magnetic force area 41 and 32 phase of conductor region B Mutual magneticaction setting, the line shaft 1 are arranged through mechanical variable speed device 10 and the rotational structure body A 2 transmission.

As disposable embodiment, the embodiment of the present invention 1 further can selectively select to make the rotor magnetic Power area 21 is set as p-m rotor magnetic force area or is set as excitation rotor magnetic force area, and/or, so that stator magnetic force area 41 is set as permanent magnetism Stator magnetic force area is set as energized stator magnetic force area.

Embodiment 2

A kind of transmission device, as shown in Fig. 2, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and rotation Rotor magnetic area A 22 is arranged in structural body C 6 on the rotational structure body A 2, and setting turns on the rotational structure body C 6 Conductor region A 31 and conductor region B 32 is arranged, in the rotational structure body in sub- magnetic force area C 61 on the rotational structure body B 3 Control device 5 is set on B 3, and the conductor of the conductor region A 31 is through the conductor of the control device 5 and conductor region B 32 Electric connectivity setting, the rotor magnetic area A 22 are arranged with the mutual magneticaction of the conductor region A 31, the rotor magnetic Area C 61 and the mutual magneticaction of the conductor region B 32 are arranged, and the line shaft 1 is through mechanical variable speed device 10 and the rotation The transmission setting of structural body A 2, the rotational structure body C 6 are arranged through deceleration mechanism 71 and the rotational structure body B 3 transmission.

As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment can be selected further Select to make the rotor magnetic area A 22 be set as p-m rotor magnetic force area A or be set as excitation rotor magnetic force area A to property, and/or, make The rotor magnetic area C 61 is set as p-m rotor magnetic force area C or is set as excitation rotor magnetic force area C.

Embodiment 3

A kind of transmission device, as shown in figure 3, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, control device 5 is set on the rotational structure body B 3, The conductor of the conductor region A 31 is arranged through the conductor electric connectivity of the control device 5 and conductor region B 32, and described turn Sub- magnetic force area 21 is arranged with the mutual magneticaction of the conductor region A 31, stator magnetic force area 41 and 32 phase of conductor region B Mutual magneticaction setting, the line shaft 1 are arranged through machinery speed increasing mechanism 72 and the rotational structure body A 2 transmission.

As disposable embodiment, the embodiment of the present invention 3 further can selectively select to make the rotor magnetic Power area 21 is set as p-m rotor magnetic force area or is set as excitation rotor magnetic force area, and/or, so that stator magnetic force area 41 is set as permanent magnetism Stator magnetic force area is set as energized stator magnetic force area.

Embodiment 4

A kind of transmission device, as shown in figure 4, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and rotation Rotor magnetic area A 22 is arranged in structural body C 6 on the rotational structure body A 2, and setting turns on the rotational structure body C 6 Conductor region A 31 and conductor region B 32 is arranged, in the rotational structure body in sub- magnetic force area C 61 on the rotational structure body B 3 Control device 5 is set on B 3, and the conductor of the conductor region A 31 is through the conductor of the control device 5 and conductor region B 32 Electric connectivity setting, the rotor magnetic area A 22 are arranged with the mutual magneticaction of the conductor region A 31, the rotor magnetic Area C 61 and the mutual magneticaction of the conductor region B 32 are arranged, and the line shaft 1 is through machinery speed increasing mechanism 72 and the rotation The transmission setting of structural body A 2, the rotational structure body C 6 are arranged through deceleration mechanism 71 and the rotational structure body B 3 transmission.

As disposable embodiment, the embodiment of the present invention 4 further can selectively select to make the rotor magnetic Area A 22 is set as p-m rotor magnetic force area A or is set as excitation rotor magnetic force area A, and/or is set as the rotor magnetic area C 61 P-m rotor magnetic force area C is set as excitation rotor magnetic force area C.

Embodiment 5

A kind of transmission device, as shown in figure 5, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, at least one, which is arranged, in the conductor of the conductor region B 32 leads Control device 5 is arranged in body tap on the rotational structure body B 3, and the conductor of the conductor region A 31 is through the control device 5 It is arranged with the conductor and its conductor tap electric connectivity of the conductor region B 32, the rotor magnetic area 21 and conductor region A 31 mutual magneticaction settings, stator magnetic force area 41 and the mutual magneticaction of the conductor region B 32 are arranged, the power Axis 1 is arranged through mechanical variable speed device 10 and the rotational structure body A 2 transmission.

As disposable embodiment, the embodiment of the present invention 5 and its disposable embodiment can be selected further Property select to make the rotor magnetic area 21 be set as p-m rotor magnetic force area or be set as excitation rotor magnetic force area, and/or, make described Stator magnetic force area 41 is set as permanent-magnet stator magnetic force area or is set as energized stator magnetic force area.

Embodiment 6

A kind of transmission device, as shown in fig. 6, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and rotation Rotor magnetic area A 22 is arranged in structural body C 6 on the rotational structure body A 2, and setting turns on the rotational structure body C 6 Conductor region A 31 and conductor region B 32 is arranged in sub- magnetic force area C 61 on the rotational structure body B 3, the conductor region B's 32 At least one conductor tap is arranged in conductor, and control device 5 is arranged on the rotational structure body B 3, the conductor region A's 31 Conductor and its conductor tap electric connectivity of the conductor through the control device 5 and conductor region B 32 are arranged, the rotor magnetic Power area A22 and the mutual magneticaction of the conductor region A 31 are arranged, the rotor magnetic area C 61 and 32 phase of conductor region B Mutual magneticaction setting, the line shaft 1 are arranged through mechanical variable speed device 10 and the rotational structure body A 2 transmission, the rotation Rotation structure body C 6 is arranged through deceleration mechanism 71 and the rotational structure body B 3 transmission.

As disposable embodiment, the embodiment of the present invention 6 further can selectively select to make the rotor magnetic Power area A 22 is set as p-m rotor magnetic force area A or is set as excitation rotor magnetic force area A, and/or, set the rotor magnetic area C 61 For p-m rotor magnetic force area C or it is set as excitation rotor magnetic force area C.

Embodiment 7

A kind of transmission device, as shown in fig. 7, comprises line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, at least one, which is arranged, in the conductor of the conductor region B 32 leads Control device 5 is arranged in body tap on the rotational structure body B 3, and the conductor of the conductor region A 31 is through the control device 5 It is arranged with the conductor and its conductor tap electric connectivity of the conductor region B 32, the rotor magnetic area 21 and conductor region A 31 mutual magneticaction settings, stator magnetic force area 41 and the mutual magneticaction of the conductor region B 32 are arranged, the power Axis 1 is arranged through machinery speed increasing mechanism 72 and the rotational structure body A 2 transmission.

As disposable embodiment, the embodiment of the present invention 7 and its disposable embodiment can be selected further Property select to make the rotor magnetic area 21 be set as p-m rotor magnetic force area or be set as excitation rotor magnetic force area, and/or, make described Stator magnetic force area 41 is set as permanent-magnet stator magnetic force area or is set as energized stator magnetic force area.

Embodiment 8

A kind of transmission device, as shown in figure 8, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and rotation Rotor magnetic area A 22 is arranged in structural body C 6 on the rotational structure body A 2, and setting turns on the rotational structure body C 6 Conductor region A 31 and conductor region B 32 is arranged in sub- magnetic force area C 61 on the rotational structure body B 3, the conductor region B's 32 At least one conductor tap is arranged in conductor, and control device 5 is arranged on the rotational structure body B 3, the conductor region A's 31 Conductor and its conductor tap electric connectivity of the conductor through the control device 5 and conductor region B 32 are arranged, the rotor magnetic Power area A22 and the mutual magneticaction of the conductor region A 31 are arranged, the rotor magnetic area C 61 and 32 phase of conductor region B Mutual magneticaction setting, the line shaft 1 are arranged through machinery speed increasing mechanism 72 and the rotational structure body A 2 transmission, the rotation Rotation structure body C 6 is arranged through deceleration mechanism 71 and the rotational structure body B 3 transmission.

As disposable embodiment, the embodiment of the present invention 8 and its disposable embodiment can be selected further Select to make the rotor magnetic area A 22 be set as p-m rotor magnetic force area A or be set as excitation rotor magnetic force area A to property, and/or, make The rotor magnetic area C 61 is set as p-m rotor magnetic force area C or is set as excitation rotor magnetic force area C.

Embodiment 9

A kind of transmission device, as shown in figure 9, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, at least one, which is arranged, in the conductor of the conductor region B 32 leads Control device 5 is arranged in body tap on the rotational structure body B 3, and the conductor of the conductor region A 31 is through the control device 5 It is arranged with the conductor and its conductor tap electric connectivity of the conductor region B 32, the rotor magnetic area 21 and conductor region A 31 mutual magneticaction settings, stator magnetic force area 41 and the mutual magneticaction of the conductor region B 32 are arranged, the power Axis 1 is arranged through mechanical variable speed device 10 and the rotational structure body A 2 transmission, and the rotational structure body B 3 shifts gears with positive and negative rotation The transmission setting of mechanism 17.

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 B 3 is arranged with the transmission of positive and negative rotation gearshift 17.The positive and negative rotation shift Mechanism 17 can be set as any mechanism with positive and negative rotation gearshift function, and the positive and negative rotation gearshift 17 shown in figure is only one Kind signal.

Embodiment 10

A kind of transmission device, as shown in Figure 10, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and rotation Rotor magnetic area A 22 is arranged in structural body C 6 on the rotational structure body A 2, and setting turns on the rotational structure body C 6 Conductor region A 31 and conductor region B 32 is arranged in sub- magnetic force area C 61 on the rotational structure body B 3, the conductor region B's 32 At least one conductor tap is arranged in conductor, and control device 5 is arranged on the rotational structure body B 3, the conductor region A's 31 Conductor and its conductor tap electric connectivity of the conductor through the control device 5 and conductor region B 32 are arranged, the rotor magnetic Power area A22 and the mutual magneticaction of the conductor region A 31 are arranged, the rotor magnetic area C 61 and 32 phase of conductor region B Mutual magneticaction setting, the line shaft 1 are arranged through machinery speed increasing mechanism 72 and the rotational structure body A 2 transmission, the rotation Rotation structure body C 6 is arranged through deceleration mechanism 71 and the rotational structure body B 3 transmission, the rotational structure body B 3 and planet machine The sun gear 91 of structure 9, which is connected, to be arranged, and the sun gear 91 nibbles de- setting, the sliding equipment 8 and the planet with sliding equipment 8 The gear ring 92 of mechanism 9 nibbles de- setting, and the sliding equipment 8 slides axially with power transmission structure body 16 is driven setting.

As disposable embodiment, the embodiment of the present invention 1 to embodiment 8 and its disposable embodiment can be into One step selectively selects the connected setting of sun gear 91 for making the rotational structure body B 3 with planetary mechanism 9, the rotational structure Body B 3 and/or the sun gear 91 and sliding equipment 8 nibble de- setting, the gear ring of the sliding equipment 8 and the planetary mechanism 9 92 nibble de- setting, and the sliding equipment 8 slides axially with power transmission structure body 16 is driven setting, specifically can refer to embodiment 10 Set-up mode setting.

As disposable embodiment, the embodiment of the present invention 5 to embodiment 10 and its disposable embodiment Further selectively select on the conductor of the conductor region B 32 be arranged one, two, three, four, five, six, Seven, eight, nine, ten, 11,12,13,14,15,16,17,18, 19,20,20 with upper conductor tap.The particular number of the conductor tap can need to set according to actual transmission It sets.

Embodiment 11

A kind of transmission device, as shown in figure 11, including line shaft 1, rotational structure body A 2, rotational structure body B 3 and stator 4, rotor magnetic area 21 is set on the rotational structure body A 2, stator magnetic force area 41 is set on the stator 4, described Conductor region A 31 and conductor region B 32 is set on rotational structure body B 3, and the conductor region A 31 is set as three pole reactor conductor region AAA, the conductor region B 32 are set as three pole reactor conductor region BBB, the conductor setting at least one of the three pole reactor conductor region BBB Group conductor tap, is arranged control device 5, the conductor of the three pole reactor conductor region AAA is through institute on the rotational structure body B 3 State control device 5 and the three pole reactor conductor region BBB conductor and its conductor tap by three-phase circuit matching relationship electric power Connection setting, the rotor magnetic area 21 are arranged with the mutual magneticaction of the conductor region A 31, stator magnetic force area 41 with The setting of the conductor region B 32 mutual magneticaction, the line shaft 1 is through machinery speed increasing mechanism 72 and the rotational structure body A 2 The sun gear 91 of transmission setting, the rotational structure body B 3 and planetary mechanism 9, which is connected, to be arranged, the sun gear 91 and skate machine Structure 8 nibbles de- setting, and the gear ring 92 of the sliding equipment 8 and the planetary mechanism 9 nibbles de- setting, the sliding equipment 8 and power Transport structures 16, which slide axially, is driven setting.

As disposable embodiment, the embodiment of the present invention 11 further can be selected selectively in the conductor region B One group, two groups, three groups, four groups, five groups, six groups, seven groups, eight groups, nine groups, ten groups, 11 groups, 12 are set on 32 conductor Group, 13 groups, 14 groups, 15 groups, 16 groups, 17 groups, 18 groups, 19 groups, 20 groups, 20 groups taken out with upper conductor Head.The particular number of conductor tap can need to be arranged according to actual transmission.

As disposable embodiment, the embodiment of the present invention 11 and its disposable embodiment can be selected further Property select to make the rotor magnetic area 21 be set as p-m rotor magnetic force area or be set as excitation rotor magnetic force area, and/or, make described Stator magnetic force area 41 is set as permanent-magnet stator magnetic force area or is set as energized stator magnetic force area.

As disposable embodiment, the embodiment of the present invention 11 and its disposable mode are also alternative Ground selection makes the sun gear 91 of the rotational structure body B 3 and planetary mechanism 9 be connected setting, the rotational structure body B 3 and/or The sun gear 91 nibbles de- setting with sliding equipment 8, and the gear ring 92 of the sliding equipment 8 and the planetary mechanism 9 nibbles de- setting, The sliding equipment 8 slides axially with power transmission structure body 16 is driven setting.

As disposable embodiment, the embodiment of the present invention 5 to embodiment 10 and its disposable embodiment So that the conductor region A 31 is set as three pole reactor conductor region AAA, the conductor region B 32 is made to be set as three-phase At least one set of conductor tap is arranged in the conductor of inductor conductor area BBB, the three pole reactor conductor region BBB, and the three pole reactor is led The conductor of body area AAA is set the control device 5 and the three pole reactor conductor region on the rotational structure body B 3 The conductor and its conductor tap of BBB is arranged by the matching relationship electric connectivity of three-phase circuit.

The machinery speed increasing mechanism 72 in the aforementioned all embodiments of the present invention is set as any machine with speedup function Tool speed increasing mechanism.

The deceleration mechanism 71 in the aforementioned all embodiments of the present invention is set as any speed reducer with deceleration Structure.

In the aforementioned embodiment containing conductor tap of the present invention, the control device according to the control device input The logical relation work for holding voltage to rise switching electricity consumption end high voltage tap and the control device are according to the control device The logical relation work of input terminal voltage decline switching electricity consumption end low-voltage tap or the control device are according to electricity consumption end voltage The logical relation work of decline switching electricity consumption end high voltage tap and the control device rise switching according to electricity consumption end voltage and use The logical relation of electric end low-voltage tap works.

In the present invention, attached drawing is only a kind of signal, and any technical solution for meeting the application literature record belongs to this Shen Protection scope please.

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 (18)

1. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and stator (4), special Sign is: rotor magnetic area (21) are arranged on the rotational structure body A (2), stator magnetic force area is arranged on the stator (4) (41), conductor region A (31) and conductor region B (32) are set on the rotational structure body B (3), in the rotational structure body B (3) Upper setting control device (5), the conductor of the conductor region A (31) are led through the control device (5) and conductor region B (32) The setting of body electric connectivity, the rotor magnetic area (21) are correspondingly arranged with the conductor region A (31), stator magnetic force area (41) It is correspondingly arranged with the conductor region B (32), the line shaft (1) is through mechanical variable speed device (10) and the rotational structure body A (2) Transmission setting.

2. transmission device as described in claim 1, it is characterised in that: the rotor magnetic area (21) is set as p-m rotor magnetic force area Or it is set as excitation rotor magnetic force area, and/or, stator magnetic force area (41) is set as permanent-magnet stator magnetic force area or is set as energized stator Magnetic force area.

3. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and rotational structure body C (6), it is characterised in that: rotor magnetic area A (22) are set on the rotational structure body A (2), in the rotational structure body C (6) Conductor region A (31) and conductor region B (32) is arranged, in institute in upper setting rotor magnetic area C (61) on the rotational structure body B (3) Setting control device (5) on rotational structure body B (3) is stated, the conductor of the conductor region A (31) is through the control device (5) and institute The conductor electric connectivity setting of conductor region B (32) is stated, the rotor magnetic area A (22) is correspondingly arranged with the conductor region A (31), The rotor magnetic area C (61) is correspondingly arranged with the conductor region B (32), and the line shaft (1) is through mechanical variable speed device (10) It is driven and is arranged with the rotational structure body A (2), the rotational structure body C (6) is through deceleration mechanism (71) and the rotational structure body B (3) transmission setting.

4. transmission device as claimed in claim 3, it is characterised in that: the rotor magnetic area A (22) is set as p-m rotor magnetic force Area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C (61) is set as p-m rotor magnetic force area C or is set as encouraging Magnet rotor magnetic force area C.

5. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and stator (4), special Sign is: rotor magnetic area (21) are arranged on the rotational structure body A (2), stator magnetic force area is arranged on the stator (4) (41), conductor region A (31) and conductor region B (32) are set on the rotational structure body B (3), in the rotational structure body B (3) Upper setting control device (5), the conductor of the conductor region A (31) are led through the control device (5) and conductor region B (32) The setting of body electric connectivity, the rotor magnetic area (21) are correspondingly arranged with the conductor region A (31), stator magnetic force area (41) It is correspondingly arranged with the conductor region B (32), the line shaft (1) is through machinery speed increasing mechanism (72) and the rotational structure body A (2) Transmission setting.

6. transmission device as claimed in claim 5, it is characterised in that: the rotor magnetic area (21) is set as p-m rotor magnetic force area Or it is set as excitation rotor magnetic force area, and/or, stator magnetic force area (41) is set as permanent-magnet stator magnetic force area or is set as energized stator Magnetic force area.

7. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and rotational structure body C (6), it is characterised in that: rotor magnetic area A (22) are set on the rotational structure body A (2), in the rotational structure body C (6) Conductor region A (31) and conductor region B (32) is arranged, in institute in upper setting rotor magnetic area C (61) on the rotational structure body B (3) Setting control device (5) on rotational structure body B (3) is stated, the conductor of the conductor region A (31) is through the control device (5) and institute The conductor electric connectivity setting of conductor region B (32) is stated, the rotor magnetic area A (22) is correspondingly arranged with the conductor region A (31), The rotor magnetic area C (61) is correspondingly arranged with the conductor region B (32), and the line shaft (1) is through machinery speed increasing mechanism (72) It is driven and is arranged with the rotational structure body A (2), the rotational structure body C (6) is through deceleration mechanism (71) and the rotational structure body B (3) transmission setting.

8. transmission device as claimed in claim 7, it is characterised in that: the rotor magnetic area A (22) is set as p-m rotor magnetic force Area A is set as the excitation rotor magnetic force area A and/or rotor magnetic area C (61) and is set as p-m rotor magnetic force area C or is set as encouraging Magnet rotor magnetic force area C.

9. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and stator (4), special Sign is: rotor magnetic area (21) are arranged on the rotational structure body A (2), stator magnetic force area is arranged on the stator (4) (41), conductor region A (31) and conductor region B (32), the conductor of the conductor region B (32) are set on the rotational structure body B (3) At least one conductor tap is set, control device (5) are set on the rotational structure body B (3), the conductor region A (31) Conductor and its conductor tap electric connectivity of the conductor through the control device (5) and the conductor region B (32) are arranged, the rotor Magnetic force area (21) is correspondingly arranged with the conductor region A (31), and stator magnetic force area (41) is corresponding with conductor region B (32) to be set It sets, the line shaft (1) is arranged through mechanical variable speed device (10) and the rotational structure body A (2) transmission.

10. transmission device as claimed in claim 9, it is characterised in that: the rotor magnetic area (21) is set as p-m rotor magnetic force Area is set as excitation rotor magnetic force area, and/or, stator magnetic force area (41) is set as permanent-magnet stator magnetic force area or to be set as excitation fixed Sub- magnetic force area.

11. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and rotational structure body C (6), it is characterised in that: rotor magnetic area A (22) are set on the rotational structure body A (2), in the rotational structure body C (6) Conductor region A (31) and conductor region B (32) is arranged in upper setting rotor magnetic area C (61) on the rotational structure body B (3), described At least one conductor tap is arranged in the conductor of conductor region B (32), and control device (5) are arranged on the rotational structure body B (3), Conductor and its conductor tap electric power of the conductor of the conductor region A (31) through the control device (5) Yu the conductor region B (32) Connection setting, the rotor magnetic area A (22) are correspondingly arranged with the conductor region A (31), the rotor magnetic area C (61) and institute It states conductor region B (32) to be correspondingly arranged, the line shaft (1) is driven through mechanical variable speed device (10) and the rotational structure body A (2) Setting, the rotational structure body C (6) are arranged through deceleration mechanism (71) and the rotational structure body B (3) transmission.

12. transmission device as claimed in claim 11, it is characterised in that: the rotor magnetic area A (22) is set as p-m rotor magnetic Power area A is set as the excitation rotor magnetic force area A and/or rotor magnetic area C (61) and is set as p-m rotor magnetic force area C or is set as Excitation rotor magnetic force area C.

13. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and stator (4), special Sign is: rotor magnetic area (21) are arranged on the rotational structure body A (2), stator magnetic force area is arranged on the stator (4) (41), conductor region A (31) and conductor region B (32), the conductor of the conductor region B (32) are set on the rotational structure body B (3) At least one conductor tap is set, control device (5) are set on the rotational structure body B (3), the conductor region A (31) Conductor and its conductor tap electric connectivity of the conductor through the control device (5) and the conductor region B (32) are arranged, the rotor Magnetic force area (21) is correspondingly arranged with the conductor region A (31), and stator magnetic force area (41) is corresponding with conductor region B (32) to be set It sets, the line shaft (1) is arranged through machinery speed increasing mechanism (72) and the rotational structure body A (2) transmission.

14. transmission device as claimed in claim 13, it is characterised in that: the rotor magnetic area (21) is set as p-m rotor magnetic force Area is set as excitation rotor magnetic force area, and/or, stator magnetic force area (41) is set as permanent-magnet stator magnetic force area or to be set as excitation fixed Sub- magnetic force area.

15. a kind of transmission device, including line shaft (1), rotational structure body A (2), rotational structure body B (3) and rotational structure body C (6), it is characterised in that: rotor magnetic area A (22) are set on the rotational structure body A (2), in the rotational structure body C (6) Conductor region A (31) and conductor region B (32) is arranged in upper setting rotor magnetic area C (61) on the rotational structure body B (3), described At least one conductor tap is arranged in the conductor of conductor region B (32), and control device (5) are arranged on the rotational structure body B (3), Conductor and its conductor tap electric power of the conductor of the conductor region A (31) through the control device (5) Yu the conductor region B (32) Connection setting, the rotor magnetic area A (22) are correspondingly arranged with the conductor region A (31), the rotor magnetic area C (61) and institute It states conductor region B (32) to be correspondingly arranged, the line shaft (1) is driven through machinery speed increasing mechanism (72) and the rotational structure body A (2) Setting, the rotational structure body C (6) are arranged through deceleration mechanism (71) and the rotational structure body B (3) transmission.

16. transmission device as claimed in claim 15, it is characterised in that: the rotor magnetic area A (22) is set as p-m rotor magnetic Power area A is set as excitation rotor magnetic force area A, and/or, the rotor magnetic area C (61) is set as p-m rotor magnetic force area C or is set as Excitation rotor magnetic force area C.

17. the transmission device as described in any one of claims 1 to 16, it is characterised in that: the rotational structure body B (3) with just Invert gearshift (17) transmission setting.

18. the transmission device as described in any one of claims 1 to 16, it is characterised in that: the rotational structure body B (3) and row The connected setting of the sun gear (91) of star mechanism (9), the rotational structure body B (3) and/or the sun gear (91) and sliding equipment (8) de- setting is nibbled, the sliding equipment (8) and the gear ring (92) of the planetary mechanism (9) nibble de- setting, the sliding equipment (8) slide axially transmission setting with power transmission structure body (16).