CN109039012A - A kind of transmission device - Google Patents
A kind of transmission device Download PDFInfo
- Publication number
- CN109039012A CN109039012A CN201810523366.5A CN201810523366A CN109039012A CN 109039012 A CN109039012 A CN 109039012A CN 201810523366 A CN201810523366 A CN 201810523366A CN 109039012 A CN109039012 A CN 109039012A
- Authority
- CN
- China
- Prior art keywords
- magnetic force
- force area
- area
- conductor
- magnetic
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K49/00—Dynamo-electric clutches; Dynamo-electric brakes
- H02K49/10—Dynamo-electric clutches; Dynamo-electric brakes of the permanent-magnet type
- H02K49/104—Magnetic couplings consisting of only two coaxial rotary elements, i.e. the driving element and the driven element
- H02K49/108—Magnetic couplings consisting of only two coaxial rotary elements, i.e. the driving element and the driven element with an axial air gap
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K49/00—Dynamo-electric clutches; Dynamo-electric brakes
- H02K49/02—Dynamo-electric clutches; Dynamo-electric brakes of the asynchronous induction type
- H02K49/04—Dynamo-electric clutches; Dynamo-electric brakes of the asynchronous induction type of the eddy-current hysteresis type
- H02K49/046—Dynamo-electric clutches; Dynamo-electric brakes of the asynchronous induction type of the eddy-current hysteresis type with an axial airgap
Landscapes
- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Magnetic Treatment Devices (AREA)
Abstract
The invention discloses a kind of transmission devices, including rotational structure body A, rotational structure body B and structural body, and magnetic force area A is set on rotational structure body A1With magnetic force area A2, magnetic force area B is set on rotational structure body B1With magnetic force area B2, magnetic force area C is set on structural body1With magnetic force area C2, magnetic force area A1With magnetic force area B1Mutual magneticaction setting, magnetic force area A2With magnetic force area C1Mutual magneticaction setting, magnetic force area B2With magnetic force area C2Mutual magneticaction setting, magnetic force area A1It is set as permanent-magnet area A1, magnetic force area A2It is set as permanent-magnet area A2, magnetic force area B1It is set as conductor magnetic force area B1, magnetic force area B2It is set as conductor magnetic force area B2, magnetic force area C1It is set as conductor magnetic force area C1, magnetic force area C2It is set as conductor magnetic force area C2, conductor magnetic force area B1With conductor magnetic force area B2Electric connectivity setting.Transmission device disclosed in this invention can be realized speed change and bending moment function, and have many advantages, such as that structure is simple, transmission efficiency is high.
Description
Technical field
The present invention relates to power and transmission field more particularly to a kind of transmission devices.
Background technique
If the transmission between power input and power output member can be made to realize truly by magneticaction
Gear be 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, in the rotational structure
Magnetic force area A is set on body A1With magnetic force area A2, magnetic force area B is set on the rotational structure body B1With magnetic force area B2, in the structural body
Upper setting magnetic force area C1With magnetic force area C2, the magnetic force area A1With the magnetic force area B1Mutual magneticaction setting, the magnetic force area
A2With the magnetic force area C1Mutual magneticaction setting, the magnetic force area B2With the magnetic force area C2Mutual magneticaction setting, institute
State magnetic force area A1It is set as permanent-magnet area A1, the magnetic force area A2It is set as permanent-magnet area A2, the magnetic force area B1It is set as conductor magnetic
Power area B1, the magnetic force area B2It is set as conductor magnetic force area B2, the magnetic force area C1It is set as conductor magnetic force area C1, the magnetic force area C2If
For conductor magnetic force area C2, the permanent-magnet area A1With the permanent-magnet area A2It is independently arranged or integrated setting, the conductor
Magnetic force area B1With conductor magnetic force area B2Electric connectivity setting or integrated setting, conductor magnetic force area C1With the conductor
Magnetic force area C2Electric connectivity setting or integrated setting.
Scheme 2: on the basis of scheme 1, further selectively selection makes conductor magnetic force area B1Number of magnetic pole pairs
More than or less than conductor magnetic force area B2Number of magnetic pole pairs.
Scheme 3: on the basis of scheme 1, further selectively selection makes conductor magnetic force area C1Number of magnetic pole pairs
More than or less than conductor magnetic force area C2Number of magnetic pole pairs.
Scheme 4: on the basis of scheme 1, further selectively selection makes conductor magnetic force area B1Number of magnetic pole pairs
More than or less than conductor magnetic force area B2Number of magnetic pole pairs, conductor magnetic force area C1Number of magnetic pole pairs be more than or less than it is described
Conductor magnetic force area C2Number of magnetic pole pairs.
Scheme 5: a kind of transmission device, including rotational structure body A, rotational structure body B and structural body, in the rotational structure
Magnetic force area A is set on body A1With magnetic force area A2, magnetic force area B is set on the rotational structure body B1With magnetic force area B2, in the structural body
Upper setting magnetic force area C1With magnetic force area C2, the magnetic force area A1With the magnetic force area B1Mutual magneticaction setting, the magnetic force area
A2With the magnetic force area C1Mutual magneticaction setting, the magnetic force area B2With the magnetic force area C2Mutual magneticaction setting, institute
State magnetic force area A1It is set as conductor magnetic force area A1, the magnetic force area A2It is set as conductor magnetic force area A2, the magnetic force area B1It is set as conductor magnetic
Power area B1, the magnetic force area B2It is set as conductor magnetic force area B2, the magnetic force area C1It is set as permanent-magnet area C1, the magnetic force area C2If
For permanent-magnet area C2, conductor magnetic force area A1With conductor magnetic force area A2Electric connectivity setting or integrated setting, it is described
Conductor magnetic force area B1With conductor magnetic force area B2Electric connectivity setting or integrated setting, the permanent-magnet area C1With it is described
Permanent-magnet area C2It is independently arranged or integrated setting.
Scheme 6: on the basis of scheme 5, further selectively selection makes conductor magnetic force area B1Number of magnetic pole pairs
More than or less than conductor magnetic force area B2Number of magnetic pole pairs.
Scheme 7: on the basis of scheme 5, further selectively selection makes conductor magnetic force area C1Number of magnetic pole pairs
More than or less than conductor magnetic force area C2Number of magnetic pole pairs.
Scheme 8: on the basis of scheme 5, further selectively selection makes conductor magnetic force area B1Number of magnetic pole pairs
More than or less than conductor magnetic force area B2Number of magnetic pole pairs, conductor magnetic force area C1Number of magnetic pole pairs be more than or less than it is described
Conductor magnetic force area C2Number of magnetic pole pairs.
Scheme 9: in scheme 1 to 4 on the basis of either a program, further make the magnetic force area B1With the magnetic force area B2
Electric connectivity setting, the magnetic force area C1With the magnetic force area C2Electric connectivity setting.
Scheme 10: in scheme 5 to 8 on the basis of either a program, further make the magnetic force area A1With the magnetic force area A2
Electric connectivity setting, the magnetic force area B1With the magnetic force area B2Electric connectivity setting.
Scheme 11: in scheme 1 to 4 on the basis of either a program, further selectively selection makes the magnetic force area B1
With the magnetic force area B2It is arranged through control device electric connectivity, and/or makes the magnetic force area C1With the magnetic force area C2It is filled through control
Set electric connectivity setting.
Scheme 12: on the basis of scheme 9, further selectively selection makes the magnetic force area B1With the magnetic force area B2
It is arranged through control device electric connectivity, and/or makes the magnetic force area C1With the magnetic force area C2It is set through control device electric connectivity
It sets.
Scheme 13: in scheme 5 to 8 on the basis of either a program, further selectively selection makes the magnetic force area A1
With the magnetic force area A2It is arranged through control device electric connectivity, and/or makes the magnetic force area B1With the magnetic force area B2It is filled through control
Set electric connectivity setting.
Scheme 14: on the basis of scheme 10, further selectively selection makes the magnetic force area A1With the magnetic force area A2
It is arranged through control device electric connectivity, and/or makes the magnetic force area B1With the magnetic force area B2It is set through control device electric connectivity
It sets.
Scheme 15: on the basis of scheme 11, further selectively selection makes the control device by wireless signal control
System, or control the control device by wire signal.
Scheme 16: on the basis of scheme 12, further selectively selection makes the control device by wireless signal control
System, or control the control device by wire signal.
Scheme 17: on the basis of scheme 13, further selectively selection makes the control device by wireless signal control
System, or control the control device by wire signal.
Scheme 18: on the basis of scheme 14, further selectively selection makes the control device by wireless signal control
System, or control the control device by wire signal.
Scheme 19: in scheme 1 to 4 and 12 and 15 and 16 on the basis of either a program, further selectively selection makes
The magnetic force area C1It is set as coil C1, excitation magnetic force area C1Or it is set as half mouse cage C1, and/or make the magnetic force area C2It is set as coil
C2, excitation magnetic force area C2Or it is set as half mouse cage C2;Or make the magnetic force area C1With the magnetic force area C2It is set as coil C, excitation magnetic force
Area C is set as mouse cage C.
Scheme 20: on the basis of scheme 9, further selectively selection makes the magnetic force area C1It is set as coil C1, excitation
Magnetic force area C1Or it is set as half mouse cage C1, and/or make the magnetic force area C2It is set as coil C2, excitation magnetic force area C2Or it is set as half mouse cage
C2;Or make the magnetic force area C1With the magnetic force area C2It is set as coil C, excitation magnetic force area C or is set as mouse cage C.
Scheme 21: on the basis of scheme 11, further selectively selection makes the magnetic force area C1It is set as coil C1, encourage
Magnetic magnetic force area C1Or it is set as half mouse cage C1, and/or make the magnetic force area C2It is set as coil C2, excitation magnetic force area C2Or it is set as half mouse cage
C2;Or make the magnetic force area C1With the magnetic force area C2It is set as coil C, excitation magnetic force area C or is set as mouse cage C.
Scheme 22: it in scheme 5 to 8 and 14 and 17 and 18 and on the basis of middle either a program, further selectively selects
Make the magnetic force area A1It is set as loop A1, excitation magnetic force area A1Or it is set as half mouse cage A1, and/or make the magnetic force area A2It is set as coil
A2, excitation magnetic force area A2Or it is set as half mouse cage A2;Or make the magnetic force area A1With the magnetic force area A2It is set as loop A, excitation magnetic force
Area A is set as mouse cage A.
Scheme 23: on the basis of scheme 10, further selectively selection makes the magnetic force area A1It is set as loop A1, encourage
Magnetic magnetic force area A1Or it is set as half mouse cage A1, and/or make the magnetic force area A2It is set as loop A2, excitation magnetic force area A2Or it is set as half mouse cage
A2;Or make the magnetic force area A1With the magnetic force area A2It is set as loop A, excitation magnetic force area A or is set as mouse cage A.
Scheme 24: on the basis of scheme 13, further selectively selection makes the magnetic force area A1It is set as loop A1, encourage
Magnetic magnetic force area A1Or it is set as half mouse cage A1, and/or make the magnetic force area A2It is set as loop A2, excitation magnetic force area A2Or it is set as half mouse cage
A2;Or make the magnetic force area A1With the magnetic force area A2It is set as loop A, excitation magnetic force area A or is set as mouse cage A.
Scheme 25: in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 on the basis of either a program, into one
Selectively selection makes the magnetic force area B to step1It is set as coil B1, excitation magnetic force area B1Or it is set as half mouse cage B1, and/or make described
Magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage B2;Or make the magnetic force area B1With the magnetic force area B2If
For coil B, excitation magnetic force area B or it is set as mouse cage B.
Scheme 26: on the basis of scheme 9, further selectively selection makes the magnetic force area B1It is set as coil B1, excitation
Magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 27: on the basis of scheme 10, further selectively selection makes the magnetic force area B1It is set as coil B1, encourage
Magnetic magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 28: on the basis of scheme 11, further selectively selection makes the magnetic force area B1It is set as coil B1, encourage
Magnetic magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 29: on the basis of scheme 13, further selectively selection makes the magnetic force area B1It is set as coil B1, encourage
Magnetic magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 30: on the basis of scheme 19, further selectively selection makes the magnetic force area B1It is set as coil B1, encourage
Magnetic magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 31: on the basis of scheme 22, further selectively selection makes the magnetic force area B1It is set as coil B1, encourage
Magnetic magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B2It is set as coil B2, excitation magnetic force area B2Or it is set as half mouse cage
B2;Or make the magnetic force area B1With the magnetic force area B2It is set as coil B, excitation magnetic force area B or is set as mouse cage B.
Scheme 32: the basis of either a program in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31
On, further selectively selection makes the magnetic force area B1Rotating excitation field direction of rotation and the magnetic force area B2Rotary magnetic
The direction of rotation of field is different, and/or makes the magnetic force area C1Rotating excitation field direction of rotation and the magnetic force area C2Rotary magnetic
The direction of rotation of field is different.
Scheme 33: on the basis of scheme 25, further selectively selection makes the magnetic force area B1Rotating excitation field
Direction of rotation and the magnetic force area B2Rotating excitation field direction of rotation it is different, and/or make the magnetic force area C1Rotating excitation field
Direction of rotation and the magnetic force area C2Rotating excitation field direction of rotation it is different.
Scheme 34: the either a program in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33
On the basis of, further selectively selection makes the structural body be set as stator or is set as unidirectional son.
Scheme 35: on the basis of scheme 32, further selectively selection makes the structural body be set as stator or be set as
Unidirectional son.
Scheme 36: in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33 and 35 either one
On the basis of case, further selectively select that permanent-magnet area X, the permanent-magnet are arranged on the rotational structure body A
The area X and magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2At least one of mutual magnetic force
Effect setting.
Scheme 37: it on the basis of scheme 34, further selectively selects that permanent magnetism is arranged on the rotational structure body A
Magnetic force area X, the permanent-magnet area X and the magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2
At least one of mutually magneticaction setting.
Scheme 38: appoint in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33 and 35 and 37
On the basis of one scheme, further selectively select that permanent-magnet area Y, the permanent magnetism are arranged on the rotational structure body B
The magnetic force area Y and magnetic force area A1, the magnetic force area A2, the magnetic force area C1With the magnetic force area C2At least one of mutually
Magneticaction setting.
Scheme 39: it on the basis of scheme 36, further selectively selects that permanent magnetism is arranged on the rotational structure body B
Magnetic force area Y, the permanent-magnet area Y and the magnetic force area A1, the magnetic force area A2, the magnetic force area C1With the magnetic force area C2
At least one of mutually magneticaction setting.
Scheme 40: in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33 and 35 and 37 and 39
On the basis of middle either a program, further selectively selection makes the transmission device further include permanent-magnet area Z, the permanent magnetism
The magnetic force area Z and magnetic force area A1, the magnetic force area A2, the magnetic force area C1With the magnetic force area C2At least one of mutually
Magneticaction setting.
Scheme 41: on the basis of scheme 38, further selectively selection makes the transmission device further include permanent-magnet magnetic
Power area Z, the permanent-magnet area Z and the magnetic force area A1, the magnetic force area A2, the magnetic force area C1With the magnetic force area C2In
At least one mutual magneticaction setting.
Scheme 42: in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33 and 35 and 37 and 39
With 41 on the basis of either a program, further selectively selection make the rotational structure body A, the rotational structure body B and
An at least axially movable setting in the structural body.
Scheme 43: on the basis of scheme 40, further selectively selection makes the rotational structure body A, the rotation
An at least axially movable setting in structure B and the structural body.
Scheme 44: in scheme 1 to 8 and 12 and 14 to 18 and 20 and 21 and 23 and 24 and 26 to 31 and 33 and 35 and 37 and 39
On the basis of either a program in 41 and 43, further selectively selection makes the magnetic force area A1, the magnetic force area A2, it is described
Magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2At least one of controlled by control device and make it
Magneticaction disappears or establishes.
Scheme 45: on the basis of scheme 42, further selectively selection makes the magnetic force area A1, the magnetic force area A2、
The magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2At least one of controlled by control device
Its magneticaction is set to disappear or establish.
Scheme 46: on the basis of scheme 44, further selectively revolving speed decline of the selection as the rotational structure body A
When to setting value or when the revolving speed of the rotational structure body B rises to setting value, the magnetic force area A1, the magnetic force area A2, institute
State magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2At least one of controlled and made by control device
Its magneticaction disappears, and when the revolving speed of rotational structure body A rises to setting value or the revolving speed of the rotational structure body B declines
When to setting value, the magnetic force area A1, the magnetic force area A2, the magnetic force area B1, the magnetic force area B2, the magnetic force area C1And institute
State magnetic force area C2At least one of controlled by control device make its magneticaction establish.
Scheme 47: on the basis of scheme 45, further selectively revolving speed decline of the selection as the rotational structure body A
When to setting value or when the revolving speed of the rotational structure body B rises to setting value, the magnetic force area A1, the magnetic force area A2, institute
State magnetic force area B1, the magnetic force area B2, the magnetic force area C1With the magnetic force area C2At least one of controlled and made by control device
Its magneticaction disappears, and when the revolving speed of rotational structure body A rises to setting value or the revolving speed of the rotational structure body B declines
When to setting value, the magnetic force area A1, the magnetic force area A2, the magnetic force area B1, the magnetic force area B2, the magnetic force area C1And institute
State magnetic force area C2At least one of controlled by control device make its magneticaction establish.
In the present invention, so-called " mouse cage " refers to that the caged including two conductor loops and this conducting bar between the two is conductive
Body.
In the present invention, so-called " half mouse cage " refers to the conducting structures including an end ring and several conducting bars.It is described
Conducting bar can be set as more than two, three or more, four or more, five or more or six or more.
It more than some numerical value include this number in the present invention.For example, more than two includes two.
In the present invention, so-called " conductor magnetic force area " refers to the magneticaction for being formed electric action by conductor and then being formed
Area, such as mouse cage, inductance coil, magnet exciting coil and swirling body etc..
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 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, the inductance coil includes inductance coil group.
In the present invention, the coil includes coil group.
In the present invention, the transmission device, which can do gear, can also make torque-converters.
In the present invention, so-called " unidirectional son " refers to the structural body that can only be rotated in one direction and with electromagnetic action.
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 speed change and bending moment function, and
Have many advantages, such as that structure is simple, transmission efficiency is high.
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.
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 3, in institute
It states and sets magnetic force area A on rotational structure body A 1111 and magnetic force area A212, magnetic force area B is set on the rotational structure body B 2121 Hes
Magnetic force area B222, magnetic force area C is set on the structural body 3131 and magnetic force area C232, the magnetic force area A111 with the magnetic force
Area B121 mutual magneticaction settings, the magnetic force area A2The 12 and magnetic force area C131 mutual magneticaction settings, the magnetic force
Area B2The 22 and magnetic force area C232 mutual magneticaction settings, the magnetic force area A111 are set as permanent-magnet area A1, the magnetic force
Area A212 are set as permanent-magnet area A2, the magnetic force area B121 are set as conductor magnetic force area B1, the magnetic force area B222 are set as conductor magnetic
Power area B2, the magnetic force area C131 are set as conductor magnetic force area C1, the magnetic force area C232 are set as conductor magnetic force area C2, the permanent-magnet magnetic
Power area A1With the permanent-magnet area A2It is independently arranged, conductor magnetic force area B1With conductor magnetic force area B2Electric connectivity is set
It sets, conductor magnetic force area C1With conductor magnetic force area C2Electric connectivity setting.
As disposable embodiment, the embodiment of the present invention 1 also optionally makes the permanent-magnet area A1And institute
State permanent-magnet area A2Integrated setting.
As disposable embodiment, the embodiment of the present invention 1 and aforementioned disposable embodiment are also optionally
Selection makes conductor magnetic force area B1With conductor magnetic force area B2Integrated setting.
As disposable embodiment, the embodiment of the present invention 1 and aforementioned disposable embodiment are also optionally
Selection makes conductor magnetic force area C1With conductor magnetic force area C2Integrated setting.
As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can be selected further
Select to make conductor magnetic force area B to property1Number of magnetic pole pairs be more than or less than conductor magnetic force area B2Number of magnetic pole pairs.
As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can be selected further
Select to make conductor magnetic force area C to property1Number of magnetic pole pairs be more than or less than conductor magnetic force area C2Number of magnetic pole pairs.
As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can be selected further
Select to make conductor magnetic force area B to property1Number of magnetic pole pairs be more than or less than conductor magnetic force area B2Number of magnetic pole pairs, it is described
Conductor magnetic force area C1Number of magnetic pole pairs be more than or less than conductor magnetic force area C2Number of magnetic pole pairs.
Embodiment 2
A kind of transmission device, as shown in Fig. 2, including rotational structure body A 1, rotational structure body B 2 and structural body 3, in institute
It states and sets magnetic force area A on rotational structure body A 1111 and magnetic force area A212, magnetic force area B is set on the rotational structure body B 2121 Hes
Magnetic force area B222, magnetic force area C is set on the structural body 3131 and magnetic force area C232, the magnetic force area A111 with the magnetic force
Area B121 mutual magneticaction settings, the magnetic force area A2The 12 and magnetic force area C131 mutual magneticaction settings, the magnetic force
Area B2The 22 and magnetic force area C232 mutual magneticaction settings, the magnetic force area A111 are set as permanent-magnet area A1, the magnetic force
Area A212 are set as permanent-magnet area A2, the magnetic force area B121 are set as conductor magnetic force area B1, the magnetic force area B222 are set as conductor magnetic
Power area B2, the magnetic force area C131 are set as conductor magnetic force area C1, the magnetic force area C232 are set as conductor magnetic force area C2, the permanent-magnet magnetic
Power area A1With the permanent-magnet area A2It is independently arranged, conductor magnetic force area B1With conductor magnetic force area B2Through control device 4
Electric connectivity setting, conductor magnetic force area C1With conductor magnetic force area C2Electric connectivity setting, the control device 4 are arranged
On the rotational structure body B 2.
As disposable embodiment, the embodiment of the present invention 2 also optionally makes the control device 4 by electric ring
It is arranged outside the rotational structure body B 2 in brushgear.
As disposable embodiment, the embodiment of the present invention 2, which is also selectively chosen, makes the magnetic force area C131 Hes
The magnetic force area C232 are arranged through 4 electric connectivity of control device, and further can selectively select to set the control device 4
Setting is arranged it outside the structural body 3 on the structural body 3 or by electric ring brushgear.
As disposable embodiment, the disposable embodiment of the embodiment of the present invention 1 can be further selective
Ground selection makes the magnetic force area B1The 21 and magnetic force area B222 are arranged through 4 electric connectivity of control device, and/or make the magnetic force
Area C1The 31 and magnetic force area C232 are arranged through 4 electric connectivity of control device.And it further can selectively select to make the control
Device 4 processed be arranged in in the structure where the magnetic force area of its electric connectivity or by electric ring brushgear setting with its electric power
Outside structural body where the magnetic force area of connection.
As disposable embodiment, Example 1 and Example 2 of the present invention and aforementioned all embodiments can be into one
Selectively selection makes the magnetic force area C to step131 are set as coil C1, excitation magnetic force area C1Or it is set as half mouse cage C1, and/or make institute
State magnetic force area C232 are set as coil C2, excitation magnetic force area C2Or it is set as half mouse cage C2;Or make the magnetic force area C131 and the magnetic force
Area C232 are set as coil C, excitation magnetic force area C or are set as mouse cage C.As the magnetic force area C131 are set as half mouse cage C1When, the magnetic force
Area C232 are preferably set to half mouse cage C2, and further make the half mouse cage C1With the half mouse cage C2Electric connectivity setting or one
Bodyization setting.
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 3, in institute
It states and sets magnetic force area A on rotational structure body A 1111 and magnetic force area A212, magnetic force area B is set on the rotational structure body B 2121 Hes
Magnetic force area B222, magnetic force area C is set on the structural body 3131 and magnetic force area C232, the magnetic force area A111 with the magnetic force
Area B121 mutual magneticaction settings, the magnetic force area A2The 12 and magnetic force area C131 mutual magneticaction settings, the magnetic force
Area B2The 22 and magnetic force area C232 mutual magneticaction settings, the magnetic force area A111 are set as conductor magnetic force area A1, the magnetic force
Area A212 are set as conductor magnetic force area A2, the magnetic force area B121 are set as conductor magnetic force area B1, the magnetic force area B222 are set as conductor magnetic
Power area B2, the magnetic force area C131 are set as permanent-magnet area C1, the magnetic force area C232 are set as permanent-magnet area C2, the conductor magnetic
Power area A1With conductor magnetic force area A2Electric connectivity setting, conductor magnetic force area B1With conductor magnetic force area B2Electric power connects
Logical setting, the permanent-magnet area C1With the permanent-magnet area C2It is independently arranged.
As disposable embodiment, the embodiment of the present invention 3 also optionally makes conductor magnetic force area A1And institute
State conductor magnetic force area A2, conductor magnetic force area B1With conductor magnetic force area B2With the permanent-magnet area C1With the permanent magnetism
Magnetic force area C2In at least one set of integrated setting.
As disposable embodiment, the embodiment of the present invention 3 and aforementioned disposable embodiment can also be selected further
It selects to selecting property to make conductor magnetic force area B1Number of magnetic pole pairs be more than or less than conductor magnetic force area B2Number of magnetic pole pairs.
As disposable embodiment, the embodiment of the present invention 3 and aforementioned disposable embodiment can also be selected further
It selects to selecting property to make conductor magnetic force area C1Number of magnetic pole pairs be more than or less than conductor magnetic force area C2Number of magnetic pole pairs.
Embodiment 4
A kind of transmission device, as shown in figure 4, including rotational structure body A 1, rotational structure body B 2 and structural body 3, in institute
It states and sets magnetic force area A on rotational structure body A 1111 and magnetic force area A212, magnetic force area B is set on the rotational structure body B 2121 Hes
Magnetic force area B222, magnetic force area C is set on the structural body 3131 and magnetic force area C232, the magnetic force area A111 with the magnetic force
Area B121 mutual magneticaction settings, the magnetic force area A2The 12 and magnetic force area C131 mutual magneticaction settings, the magnetic force
Area B2The 22 and magnetic force area C232 mutual magneticaction settings, the magnetic force area A111 are set as conductor magnetic force area A1, the magnetic force
Area A212 are set as conductor magnetic force area A2, the magnetic force area B121 are set as conductor magnetic force area B1, the magnetic force area B222 are set as conductor magnetic
Power area B2, the magnetic force area C131 are set as permanent-magnet area C1, the magnetic force area C232 are set as permanent-magnet area C2, the conductor magnetic
Power area A1With conductor magnetic force area A2It is arranged by 4 electric connectivity of control device, conductor magnetic force area B1With the conductor magnetic
Power area B2Electric connectivity setting, the permanent-magnet area C1With the permanent-magnet area C2It is independently arranged, the control device 4 is set
It sets on the rotational structure body A 1.
As disposable embodiment, the embodiment of the present invention 4 also optionally makes the control device 4 by electric ring
Brushgear is arranged outside the rotational structure body A 1.
As disposable embodiment, the also optionally conductor magnetic force area B of the embodiment of the present invention 41With
Conductor magnetic force area B2It is arranged through 4 electric connectivity of control device, and further can selectively selects to make the control device 4
It is arranged on the rotational structure body B 2 or by electric ring brushgear it is set outside the rotational structure body B 2.
As disposable embodiment, the disposable embodiment of the embodiment of the present invention 3 can be further selective
Ground selection makes the magnetic force area A1The 11 and magnetic force area A212 are arranged through 4 electric connectivity of control device, and/or make the magnetic force
Area B1The 21 and magnetic force area B222 are arranged through 4 electric connectivity of control device.And it further can selectively select to make the control
Device 4 processed be arranged in in the structure where the magnetic force area of its electric connectivity or by electric ring brushgear make its setting with its
Outside structural body where the magnetic force area of electric connectivity.
As disposable embodiment, the embodiment of the present invention 3 and embodiment 4 and its disposable embodiment can be into
One step selectively selects to make the magnetic force area A111 are set as loop A1, excitation magnetic force area A1Or it is set as half mouse cage A1, and/or make
The magnetic force area A212 are set as loop A2, excitation magnetic force area A2Or it is set as half mouse cage A2;Or make the magnetic force area A111 and the magnetic
Power area A212 are set as loop A, excitation magnetic force area A or are set as mouse cage A.As the magnetic force area A111 are set as half mouse cage A1When, the magnetic
Power area A212 are preferably set to half mouse cage A2, and further make the half mouse cage A1With the half mouse cage A2Electric connectivity setting or
Integrated setting.
As disposable embodiment, all embodiments containing the control device 4 of the present invention can be further
Selectively selection controls the control device 4 by wireless signal, or controls the control device 4 by wire signal.
As disposable embodiment, the aforementioned all embodiments of the present invention further can selectively select to make institute
State magnetic force area B121 are set as coil B1, excitation magnetic force area B1Or it is set as half mouse cage B1, and/or make the magnetic force area B222 are set as coil
B2, excitation magnetic force area B2Or it is set as half mouse cage B2;Or make the magnetic force area B1The 21 and magnetic force area B222 are set as coil B, excitation
Magnetic force area B is set as mouse cage B.As the magnetic force area B121 are set as half mouse cage B1When, the magnetic force area B222 are preferably set to half mouse
Cage B2, and further make the half mouse cage B1With the half mouse cage B2Electric connectivity setting or integrated setting.
As disposable embodiment, the aforementioned all embodiments of the present invention further can selectively select to make institute
State magnetic force area B1The direction of rotation of 21 rotating excitation field and the magnetic force area B2The direction of rotation of 22 rotating excitation field is different, and/or
Make the magnetic force area C1The direction of rotation of 31 rotating excitation field and the magnetic force area C2The direction of rotation of 32 rotating excitation field is different.
As disposable embodiment, the aforementioned all embodiments of the present invention, which are also selectively chosen, makes the magnetic force
Area B1The direction of rotation of 21 rotating excitation field and the magnetic force area B2The direction of rotation of 22 rotating excitation field is identical, and/or makes described
Magnetic force area C1The direction of rotation of 31 rotating excitation field and the magnetic force area C2The direction of rotation of 32 rotating excitation field is identical.
As disposable embodiment, the aforementioned all embodiments of the present invention further can selectively select to make institute
Structural body 3 is stated to be set as stator or be set as unidirectional son.
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 3, in institute
It states and sets magnetic force area A on rotational structure body A 1111 and magnetic force area A212, magnetic force area B is set on the rotational structure body B 2121 Hes
Magnetic force area B222, magnetic force area C is set on the structural body 3131 and magnetic force area C232, the magnetic force area A111 with the magnetic force
Area B121 mutual magneticaction settings, the magnetic force area A2The 12 and magnetic force area C131 mutual magneticaction settings, the magnetic force
Area B2The 22 and magnetic force area C232 mutual magneticaction settings, the magnetic force area A111 are set as conductor magnetic force area A1, the magnetic force
Area A212 are set as conductor magnetic force area A2, the magnetic force area B121 are set as conductor magnetic force area B1, the magnetic force area B222 are set as conductor magnetic
Power area B2, the magnetic force area C131 are set as permanent-magnet area C1, the magnetic force area C232 are set as permanent-magnet area C2, the conductor magnetic
Power area A1With conductor magnetic force area A2Electric connectivity setting, conductor magnetic force area B1With conductor magnetic force area B2Electric power connects
Logical setting, the permanent-magnet area C1With the permanent-magnet area C2It is independently arranged, is arranged forever on the rotational structure body A 1
Magnetic magnetic force area X 5, the permanent-magnet area X 5 and magnetic force area B121。
As disposable embodiment, the embodiment of the present invention 5 also optionally makes the permanent-magnet area X 5 and institute
State magnetic force area B222, the magnetic force area C1The 31 and magnetic force area C2A mutual magneticaction setting in 32.
As disposable embodiment, the embodiment of the present invention 5, which is also selectively chosen, makes the permanent-magnet area X 5
With the magnetic force area B121, the magnetic force area B222, the magnetic force area C1The 31 and magnetic force area C2At least two in 32 are mutual
Magneticaction setting.
As disposable embodiment, the aforementioned all magnetic force areas being arranged on the rotational structure body A 1 of the present invention
For the embodiment in non-permanent-magnet area further can selectively select that permanent-magnet magnetic is arranged on the rotational structure body A 1
Power area X 5, and make the permanent-magnet area X 5 and magnetic force area B121, the magnetic force area B222, the magnetic force area C131 Hes
The magnetic force area C2At least one of 32 mutual magneticaction settings.
Embodiment 6
A kind of transmission device, as shown in fig. 6, on the basis of embodiment 3, further on the rotational structure body B 2
Permanent-magnet area Y 6, the permanent-magnet area Y 6 and magnetic force area A are set111 mutual magneticaction settings.
As disposable embodiment, the embodiment of the present invention 6, which is also selectively chosen, makes the permanent-magnet area Y 6
With the magnetic force area A212, the magnetic force area C1The 31 and magnetic force area C2A mutual magneticaction setting in 32.
As disposable embodiment, the embodiment of the present invention 6, which is also selectively chosen, makes the permanent-magnet area Y 6
With the magnetic force area A111, the magnetic force area A212, the magnetic force area C1The 31 and magnetic force area C2At least two in 32 are mutual
Magneticaction setting.
As disposable embodiment, the aforementioned all magnetic force areas being arranged on the rotational structure body B 2 of the present invention
For the embodiment in non-permanent-magnet area, further can selectively select that permanent magnetism is arranged on the rotational structure body B 2
Magnetic force area Y 6, the permanent-magnet area Y 6 and magnetic force area A111, the magnetic force area A212, the magnetic force area C131 and institute
State magnetic force area C2At least one of 32 mutual magneticaction settings.
Embodiment 7
A kind of transmission device, as shown in fig. 7, on the basis of embodiment 1, further making the transmission device further includes forever
Magnetic magnetic force area Z 7, the permanent-magnet area Z 7 and magnetic force area C131 mutual magneticaction settings.
As disposable embodiment, the embodiment of the present invention 7, which is also selectively chosen, makes the permanent-magnet area Z 7
With the magnetic force area A111, the magnetic force area A2The 12 and magnetic force area C2A mutual magneticaction setting in 32.
As disposable embodiment, the embodiment of the present invention 7, which is also selectively chosen, makes the permanent-magnet area Z 7
With the magnetic force area A111, the magnetic force area A212, the magnetic force area C1The 31 and magnetic force area C2At least two in 32 are mutual
Magneticaction setting.
As disposable embodiment, the embodiment of the present invention 2 to embodiment 6 and its disposable embodiment and reality
The disposable embodiment for applying example 1 further can selectively select that the transmission device is made to further include permanent-magnet area Z
7, and make the permanent-magnet area Z 7 and magnetic force area A111, the magnetic force area A212, the magnetic force area C131 and/or described
Magnetic force area C232 mutual magneticaction settings.
As disposable embodiment, the embodiment of the present invention 1 to embodiment 7 and its disposable embodiment can be into
One step selectively selects to make at least one in the rotational structure body A 1, the rotational structure body B 2 and the structural body 3
The axially movable setting of part.
As disposable embodiment, all embodiments containing the control device 4 can be into one in the present invention
Step selectively makes the control device 4 include on-off control unit, and further selectively selection makes by the control
The magnetic force area of 4 electric connectivity of device is formed by circuit and is controlled by the on-off control unit.
In the specific implementation, be selectively chosen makes the magnetic force area A to the aforementioned all embodiments of the present invention111, institute
State magnetic force area A212, the magnetic force area B121, the magnetic force area B222, the magnetic force area C1The 31 and magnetic force area C2In 32 extremely
Few one control by control device its magneticaction is made to disappear or foundation.And specifically executed according to the method that is implemented as follows: when described
When the revolving speed of rotational structure body A 1 drops to setting value or when the revolving speed of the rotational structure body B 2 rises to setting value, institute
State magnetic force area A111, the magnetic force area A212, the magnetic force area B121, the magnetic force area B222, the magnetic force area C131 and described
Magnetic force area C2At least one of 32 controlled by control device make its magneticaction disappear, when on the revolving speed of rotational structure body A 1
When being raised to setting value or when the revolving speed of the rotational structure body B 2 drops to setting value, the magnetic force area A111, the magnetic force
Area A212, the magnetic force area B121, the magnetic force area B222, the magnetic force area C1The 31 and magnetic force area C2At least one of 32
Being controlled by control device establishes its magneticaction.
Figure of description of the invention is only a kind of signal, and any technical solution for meeting the application literature record belongs to
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 (10)
1. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body (3), it is characterised in that:
Magnetic force area A is set on the rotational structure body A (1)1(11) and magnetic force area A2(12), magnetic force is set on the rotational structure body B (2)
Area B1(21) and magnetic force area B2(22), magnetic force area C is set on the structural body (3)1(31) and magnetic force area C2(32), the magnetic
Power area A1(11) with the magnetic force area B1(21) mutually magneticaction setting, the magnetic force area A2(12) with the magnetic force area C1
(31) mutually magneticaction setting, the magnetic force area B2(22) with the magnetic force area C2(32) mutually magneticaction setting, the magnetic
Power area A1(11) it is set as permanent-magnet area A1, the magnetic force area A2(12) it is set as permanent-magnet area A2, the magnetic force area B1(21) it sets
For conductor magnetic force area B1, the magnetic force area B2(22) it is set as conductor magnetic force area B2, the magnetic force area C1(31) it is set as conductor magnetic force area
C1, the magnetic force area C2(32) it is set as conductor magnetic force area C2, the permanent-magnet area A1With the permanent-magnet area A2It is independently arranged
Or integrated setting, conductor magnetic force area B1With conductor magnetic force area B2Electric connectivity setting or integrated setting, it is described to lead
Body magnetic force area C1With conductor magnetic force area C2Electric connectivity setting or integrated setting.
2. transmission device as described in claim 1, it is characterised in that: conductor magnetic force area B1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area B2Number of magnetic pole pairs.
3. transmission device as described in claim 1, it is characterised in that: conductor magnetic force area C1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area C2Number of magnetic pole pairs.
4. transmission device as described in claim 1, it is characterised in that: conductor magnetic force area B1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area B2Number of magnetic pole pairs, conductor magnetic force area C1Number of magnetic pole pairs be more than or less than conductor magnetic force area
C2Number of magnetic pole pairs.
5. a kind of transmission device, including rotational structure body A (1), rotational structure body B (2) and structural body (3), it is characterised in that:
Magnetic force area A is set on the rotational structure body A (1)1(11) and magnetic force area A2(12), magnetic force is set on the rotational structure body B (2)
Area B1(21) and magnetic force area B2(22), magnetic force area C is set on the structural body (3)1(31) and magnetic force area C2(32), the magnetic
Power area A1(11) with the magnetic force area B1(21) mutually magneticaction setting, the magnetic force area A2(12) with the magnetic force area C1
(31) mutually magneticaction setting, the magnetic force area B2(22) with the magnetic force area C2(32) mutually magneticaction setting, the magnetic
Power area A1(11) it is set as conductor magnetic force area A1, the magnetic force area A2(12) it is set as conductor magnetic force area A2, the magnetic force area B1(21) it sets
For conductor magnetic force area B1, the magnetic force area B2(22) it is set as conductor magnetic force area B2, the magnetic force area C1(31) it is set as permanent-magnet area
C1, the magnetic force area C2(32) it is set as permanent-magnet area C2, conductor magnetic force area A1With conductor magnetic force area A2Electric connectivity
Setting or integrated setting, conductor magnetic force area B1With conductor magnetic force area B2Electric connectivity setting or integrated setting, institute
State permanent-magnet area C1With the permanent-magnet area C2It is independently arranged or integrated setting.
6. transmission device as claimed in claim 5, it is characterised in that: conductor magnetic force area B1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area B2Number of magnetic pole pairs.
7. transmission device as claimed in claim 5, it is characterised in that: conductor magnetic force area C1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area C2Number of magnetic pole pairs.
8. transmission device as claimed in claim 5, it is characterised in that: conductor magnetic force area B1Number of magnetic pole pairs be more than or less than
Conductor magnetic force area B2Number of magnetic pole pairs, conductor magnetic force area C1Number of magnetic pole pairs be more than or less than conductor magnetic force area
C2Number of magnetic pole pairs.
9. the transmission device as described in any one of claims 1 to 8, it is characterised in that: the structural body (3) is set as stator or sets
For unidirectional son.
10. the transmission device as described in any one of claims 1 to 9, it is characterised in that: the magnetic force area A1(11), the magnetic force
Area A2(12), the magnetic force area B1(21), the magnetic force area B2(22), the magnetic force area C1(31) and the magnetic force area C2(32) in
At least one controlled by control device make its magneticaction disappear or establish.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2017104281826 | 2017-06-08 | ||
CN201710428182 | 2017-06-08 | ||
CN2017104337681 | 2017-06-09 | ||
CN201710433768 | 2017-06-09 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN109039012A true CN109039012A (en) | 2018-12-18 |
Family
ID=64611666
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201810523366.5A Pending CN109039012A (en) | 2017-06-08 | 2018-05-28 | A kind of transmission device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109039012A (en) |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1694339A (en) * | 2005-03-03 | 2005-11-09 | 广州汽车工业集团有限公司 | Electromagnetic coupling variable-speed drive system |
CN2859920Y (en) * | 2005-06-01 | 2007-01-17 | 彭德康 | AC bridge clutchless speed change gear |
CN201013531Y (en) * | 2007-01-05 | 2008-01-30 | 东南大学 | Electric infinite variable speed double power stream wind generating set |
-
2018
- 2018-05-28 CN CN201810523366.5A patent/CN109039012A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1694339A (en) * | 2005-03-03 | 2005-11-09 | 广州汽车工业集团有限公司 | Electromagnetic coupling variable-speed drive system |
CN2859920Y (en) * | 2005-06-01 | 2007-01-17 | 彭德康 | AC bridge clutchless speed change gear |
CN201013531Y (en) * | 2007-01-05 | 2008-01-30 | 东南大学 | Electric infinite variable speed double power stream wind generating set |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US10103591B2 (en) | Generator and improved coil therefor having electrodynamic properties | |
CN108306481A (en) | A kind of torque-converters | |
CN109039011A (en) | A kind of transmission device | |
CN109039012A (en) | A kind of transmission device | |
CN108964411A (en) | A kind of transmission device | |
CN109039010A (en) | A kind of transmission device | |
CN109039014A (en) | A kind of transmission device | |
CN108964412A (en) | A kind of transmission device | |
CN108964408A (en) | A kind of transmission device | |
CN108964410A (en) | A kind of transmission device | |
CN209692583U (en) | A kind of transmission device | |
CN108953548A (en) | A kind of transmission device | |
CN108390538A (en) | A kind of transmission device | |
CN205791828U (en) | Permanent-magnetism electromagnetic parallel-connected induction motors | |
CN105337465B (en) | Three-phase star alternating current generator and the dual-purpose winding of three-phase reactor | |
CN109687683A (en) | A kind of transmission device | |
CN109687681A (en) | A kind of transmission device | |
CN205319808U (en) | Motor, stator and stator core thereof | |
CN108347154A (en) | A kind of transmission device | |
CN108964409A (en) | A kind of transmission device | |
CN109510432A (en) | A kind of transmission device | |
CN203850994U (en) | Rare earth permanent magnet synchronous motor | |
CN109873548A (en) | A kind of electromagnetism speed change gear | |
CN108880014A (en) | A kind of stator, motor and automation equipment | |
CN109494962A (en) | A kind of transmission device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20181218 |
|
RJ01 | Rejection of invention patent application after publication |