CN218888353U - Motor rotor butt-joint assembling equipment - Google Patents

Motor rotor butt-joint assembling equipment Download PDF

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Publication number
CN218888353U
CN218888353U CN202222921023.9U CN202222921023U CN218888353U CN 218888353 U CN218888353 U CN 218888353U CN 202222921023 U CN202222921023 U CN 202222921023U CN 218888353 U CN218888353 U CN 218888353U
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China
Prior art keywords
rotor
motor rotor
lifting plate
electric motor
butt joint
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CN202222921023.9U
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Chinese (zh)
Inventor
王旭峰
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Changzhou Imas Power Technology Co ltd
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Changzhou Imas Power Technology Co ltd
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Priority to CN202222921023.9U priority Critical patent/CN218888353U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/64Electric machine technologies in electromobility

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Abstract

The application discloses electric motor rotor butt joint equipment, be used for pressing a motor rotor into an integrated casing and assemble an organic whole and form an electricity and drive the assembly, electric motor rotor butt joint equipment includes a rotor positioner, rotor positioner and electric motor rotor's rotor shaft detachable be connected, fix electric motor rotor at a preset position, electric motor rotor butt joint equipment still includes a lifting device, lifting device's upper surface and integrated casing detachably are connected, electric motor rotor is when installing with integrated casing butt joint, electric motor rotor and integrated casing install the corresponding position at rotor positioner and lifting device respectively, lifting device moves towards rotor positioner, thereby push integrated casing towards electric motor rotor, until integrated casing and electric motor rotor butt joint equipment, electric motor rotor and integrated casing butt joint equipment's whole in-process electric motor rotor's position does not change, need not to use the expensive equipment that accurate control electric motor rotor removed.

Description

Motor rotor butt joint assembling equipment
Technical Field
The utility model belongs to the technical field of electric motor rotor equipment is relevant, concretely relates to electric motor rotor butt joint equipment.
Background
In the rapid development process of the current new energy automobile, the all-in-one electric drive gradually becomes the development trend of the new energy automobile electric drive system. The motor rotor and the gearbox housing of such an electric drive system are generally integrated into one piece, so that the size and weight of the relevant parts can be reduced, and the manufacturing and transportation costs of the parts can be reduced. In the prior art, a press-fitting device is used for the motor rotor and the integrated shell during assembly, the press-fitting device utilizes two electric cylinders to vertically support the upper end and the lower end of a rotor shaft of the motor rotor, then the two electric cylinders are started simultaneously, and the two electric cylinders synchronously operate to press the motor rotor into the integrated shell to be assembled into an electric drive assembly.
Two electric cylinders of the existing motor rotor press-mounting equipment are started simultaneously, and the press-mounting equipment drives the motor rotor to be assembled into the integrated shell through the linear motion of the two electric cylinders. Because two upper and lower electric jar will be withstood the rotor shaft upper and lower ends of electric motor rotor simultaneously and can not have the rocking, but also will synchronous downward rectilinear motion in order to impress electric motor rotor integrated housing, this will have very high requirement to the pressure control and the cooperation degree of two electric jars. In case the pressure and the cooperation degree of two electric jar are not unified, the electric jar will take place to rock when driving electric motor rotor and remove, lightly makes electric motor rotor can't assemble the assigned position, influences the assembly process, and heavy then electric motor rotor directly drops from between two electric jars, causes electric motor rotor to drop the damage.
The higher the control precision requirement of the motor rotor press-fitting equipment is, the more expensive the whole equipment is, and the later maintenance of the precisely controlled press-fitting equipment also needs to use professional technicians and high-precision tools and accessories, so that the configuration and maintenance cost of the whole press-fitting equipment is high, the production cost of the electric drive assembly is difficult to reduce, and the production, popularization and use of the electric drive assembly are greatly limited.
SUMMERY OF THE UTILITY MODEL
The utility model has the advantages of an advantage of providing electric motor rotor butt joint equipment, not changing electric motor rotor's position in the whole in-process with electric motor rotor and integrated casing butt joint equipment, need not to use the expensive equipment that accurate control electric motor rotor removed, the cost greatly reduced that sets up of equipment.
The utility model discloses a another advantage lies in providing electric motor rotor butt joint equipment, prevents that the slow-witted piece can avoid lifting the board and take place out of control to continue to rise and damage integrated casing and electric motor rotor after integrated casing and electric motor rotor butt joint equipment, and equipment operation is safer.
The utility model discloses a further advantage lies in providing electric motor rotor butt joint equipment, and the rotor piece of impressing can be in integrated casing with electric motor rotor further after integrated casing and electric motor rotor butt joint equipment in the integrated casing, and it is firm to make the electricity drive assembly equipment.
In order to achieve the utility model discloses above at least one advantage, the utility model provides a following technical scheme:
electric motor rotor butt-joint assembling equipment for pressing an electric motor rotor into an integrated shell and assembling the electric motor rotor into a whole to form an electric drive assembly, wherein the integrated shell is provided with a mounting cavity, the integrated shell is provided with a rotor placing opening, the mounting cavity is communicated with the outside through the rotor placing opening, the electric motor rotor enters the mounting cavity through the rotor placing opening and is assembled into a whole with the integrated shell, and the electric motor rotor butt-joint assembling equipment is characterized by comprising:
the lifting device comprises a lifting plate and a lifting driving assembly, the lifting plate is connected with the lifting driving assembly, the lifting driving assembly comprises at least one lifting piece and at least one linkage piece, the lifting piece is fixed at a specified vertical position, the linkage piece is vertically and vertically connected with the lifting piece in a movable mode, the linkage piece is connected with the lifting plate, when the lifting plate is driven by the lifting driving assembly to move vertically, the upper surface of the lifting plate is kept horizontal, and the integrated shell is detachably and fixedly arranged on the upper surface of the lifting plate;
the rotor positioning device is fixedly arranged above the lifting plate and detachably connected with a rotor shaft of the motor rotor, the rotor positioning device is arranged outside the range of a path of the lifting plate moving up and down, the distance from the lower end of the rotor positioning device to the upper surface of the lifting plate when the lifting plate moves to the lowest position is larger than the sum of the heights of the motor rotor and the integrated shell, and the integrated shell is arranged on the upper surface of the lifting plate in a state that the rotor inlet faces the motor rotor after the motor rotor is arranged on the rotor positioning device.
Preferably, the motor rotor docking assembly device further includes a fool-proof piece fixed at a predetermined position on a path along which the lifting plate moves upward.
Preferably, the fool-proof piece is fixed at a position which can allow the integrated shell to be just assembled with the motor rotor in a butt joint mode.
Preferably, the rotor positioning device includes at least one upper fixing member and at least one rotor shaft connector, the upper fixing member is fixedly mounted above the lifting plate, the upper fixing member has one end facing the lifting plate, the rotor shaft connector is mounted at one end of the upper fixing member facing the lifting plate, and the rotor shaft connector is separably connected with the upper end of the rotor shaft of the motor rotor.
Preferably, the distance from the lower end of the rotor shaft connector to the upper surface of the lifting plate when the lifting plate moves to the lowest position is greater than the sum of the heights of the motor rotor and the integrated shell.
Preferably, the rotor positioning device comprises at least one lower fixing member and at least one rotor shaft connector, the lower fixing member penetrates through the lifting plate and is vertically fixed, and the rotor shaft connector is mounted at the upper end of the lower fixing member.
Preferably, the rotor positioning device is used for respectively penetrating the integrated shell with a penetrating port formed at the bottom and the rotor inlet from bottom to top to arrange the rotor shaft connector above the integrated shell, and the distance between the rotor shaft connector and the upper surface of the lifting plate moving to the lowest position is greater than the height of the integrated shell.
Preferably, the rotor shaft connector is detachably connected with the lower end of the rotor shaft of the motor rotor.
Preferably, further include a rotor piece of impressing, rotor piece fixed mounting in directly over the rotor shaft connector of impressing, the rotor piece of impressing includes a piece of impressing and a butt joint pressure head, the butt joint pressure head orientation the rotor shaft connector sets up, the piece of impressing can drive the vertical reciprocating of butt joint pressure head.
Preferably, the vertical distance from the butt joint pressure head to the rotor shaft connector is greater than the height of the motor rotor.
Further objects and advantages of the invention will be fully apparent from the ensuing description.
These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description.
Drawings
Fig. 1 shows a schematic structural diagram of an electric machine rotor docking assembly device according to a first embodiment of the present invention in an initial state.
Fig. 2 shows a schematic structural diagram of the motor rotor and the integrated housing of the motor rotor docking assembly device according to the first embodiment of the present invention after the motor rotor and the integrated housing are separately installed before the docking assembly.
Fig. 3 shows a schematic structural diagram of the electric motor rotor and the integrated housing of the electric motor rotor docking assembly device according to the first embodiment of the present invention after the docking assembly is completed.
Fig. 4 shows a schematic structural diagram of an electric machine rotor docking assembly device according to a second embodiment of the present invention in an initial state.
Fig. 5 shows a schematic structural diagram of the electric motor rotor and the integrated housing of the electric motor rotor docking assembly device according to the second embodiment of the present invention after respective installation before docking assembly.
Fig. 6 shows a schematic structural diagram of the electric motor rotor and the integrated housing of the electric motor rotor butt-joint assembling equipment according to the second embodiment of the present invention after the butt-joint assembling is completed.
Fig. 7 shows a schematic structural diagram of an electric machine rotor butt-joint assembling device according to a third embodiment of the present invention in an initial state.
Fig. 8 shows a schematic structural diagram of the electric motor rotor and integrated housing of the electric motor rotor butt-joint assembling equipment according to the third embodiment of the present invention after the butt-joint assembling.
Detailed Description
The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.
It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.
It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.
Referring to fig. 1-8, the present invention is described in detail below in connection with an electric motor rotor docking assembly for pressing an electric motor rotor 500 into an integrated housing 600 to assemble an electric drive assembly 700. The integrated casing 600 has an installation cavity 6001, the integrated casing 600 is provided with a rotor inlet 6002, the installation cavity 6001 is communicated with the outside through the rotor inlet 6002, and the motor rotor 500 enters the installation cavity 6001 through the rotor inlet 6002 and is assembled with the integrated casing 600.
The motor rotor butt joint assembling equipment comprises a lifting device 10 and at least one rotor positioning device 20, wherein the lifting device 10 is installed below the rotor positioning device 20.
The lifting device 10 includes a lifting plate 11 and a lifting driving assembly 12, and the lifting plate 11 is connected to the lifting driving assembly 12.
The lift driving assembly 12 includes at least one lift member 121, and at least one link member 122, the lift member 121 is implemented to include a cylinder, the lift member 121 is fixed at a designated vertical position, the link member 122 is connected to the lift member 121 to be vertically movable up and down, and the link member 122 is connected to the lift plate 11. The lifting member 121 drives the link member 122 to move up and down, and further drives the lifting plate 11 to move up and down.
Preferably, at least two lifting elements 121 are provided, the lifting elements 121 may be implemented as threaded rods extending vertically from bottom to top, the link element 122 may be implemented as a threaded sleeve connected to the lifting plate 11, and the link element 122 is fixedly connected to the lifting plate 11. Each lifting element 121 is coaxially and threadedly sleeved with one of the link elements 122.
The lifting plate 11 is connected to the plurality of lifting members 121 via the plurality of links 122, respectively, so that the lifting plate 11 is restricted to move only up and down, and the links 122 are also restricted to move only up and down but not to rotate axially. When the lifting member 121 rotates axially, the link member 122 moves up and down in the vertical direction relative to the lifting member 121, so as to drive the lifting plate 11 to move up and down vertically together.
When the lifting plate 11 moves up and down, the upper surface of the lifting plate 11 is kept horizontal, and the integrated shell 600 is detachably and fixedly mounted on the upper surface of the lifting plate 11, so that the lifting plate 11 can drive the integrated shell 600 mounted thereon to vertically move up and down.
The rotor positioning device 20 is fixedly installed above the lifting plate 11, and the rotor positioning device 20 is detachably connected to the rotor shaft of the motor rotor 500 to detachably fix the motor rotor 500 above the lifting plate 11.
When the lifting plate 11 moves to the lowest position, the distance between the upper surface of the lifting plate 11 and the lower end surface of the rotor positioning device 20 is greater than the sum of the heights of the motor rotor 500 and the integrated housing 600, so that when the motor rotor 500 and the integrated housing 600 are respectively fixed to the rotor positioning device 20 and the lifting plate 11 moves to the lowest position, the motor rotor 500 and the integrated housing 600 are in a separated state, and the motor rotor 500 and the integrated housing 600 are not influenced by each other before being in butt joint assembly.
After the motor rotor 500 and the integrated housing 600 are respectively fixed to the rotor positioning device 20 and the lifting plate 11 that moves to the lowest position, and the integrated housing 600 is set in a state where the rotor insertion port 6002 faces the motor rotor 500, the lifting driving assembly 12 may drive the lifting plate 11 to move upward until the integrated housing 600 is pushed to a position where it is butt-assembled with the motor rotor 500.
It should be noted that the rotor positioning device 20 is installed outside the range of the path where the lifting plate 11 moves up and down, so as to prevent the rotor positioning device 20 from affecting the lifting plate 11 to push the integrated housing 600 to lift, so that the integrated housing 600 can be lifted smoothly and assembled with the motor rotor 500 in a butt joint manner.
After the integrated housing 600 is assembled with the motor rotor 500 in a butt joint manner, the rotor positioning device 20 is separated from the rotor shaft of the motor rotor 500, and after the lifting plate 11 moves and descends to the lowest position, a user can detach the assembled electric drive assembly 700 from the lifting plate 11.
Preferably, the motor rotor docking assembly apparatus further includes a fool-proof member 30, the fool-proof member 30 is fixed at a predetermined position on the upward moving path of the lifting plate 11, and the lifting plate 11 is blocked by the fool-proof member 30 after moving upward for a certain distance and cannot move further upward. The fool-proof member 30 is fixed at a position that allows the integrated housing 600 to be assembled with the motor rotor 500 in a butt joint manner, and the lifting plate 11 is blocked by the fool-proof member 30 after being lifted to a height that allows the integrated housing 600 to be assembled with the motor rotor 500 in a butt joint manner. In this way, the fool-proof member 30 can prevent the lifting plate 11 from being out of control and continuously rising after the integrated housing 600 and the motor rotor 500 are butt-jointed and assembled, so as to prevent the lifting plate 11 from being out of control and lifting to damage the integrated housing 600 and the motor rotor 500, and thus the device can run more safely.
Before the butt joint assembly, a user only needs to fix the motor rotor 500 above the lifting plate 11 through the rotor positioning device 20, and then fix the integrated housing 600 on the lifting plate 11 with the rotor inlet 6002 facing the position of the motor rotor 500. The electric motor rotor butt-joint assembling apparatus can butt-joint assemble the integrated housing 600 and the electric motor rotor 500 by simply vertically lifting the lifting plate 11, and the integrated housing 600 can be kept stable on the lifting plate 11 when being pushed to lift by the lifting plate 11 due to its own weight. The position of the motor rotor 500 is not changed in the whole butt-joint assembling process, expensive equipment for accurately controlling the movement of the motor rotor 500 is not needed, and the setting cost of the motor rotor butt-joint assembling equipment is greatly reduced.
Referring to fig. 1 to 3, in one embodiment, the rotor positioning device 20 includes at least one upper fixing member 21 and at least one rotor shaft coupling head 22, the upper fixing member 21 is fixedly mounted above the lifting plate 11, and the rotor shaft coupling head 22 is mounted at an end of the upper fixing member 21 facing the lifting plate 11.
The rotor shaft connector 22 may be implemented as an electromagnet, a clamping jaw, or the like, so that the rotor shaft connector 22 is detachably connected to the upper end of the rotor shaft of the motor rotor 500, and the motor rotor 500 is detachably hung above the lifting plate 11.
When the lifting plate 11 moves to the lowest position, the distance between the upper surface of the lifting plate 11 and the lower end surface of the rotor shaft connector 22 is greater than the sum of the heights of the motor rotor 500 and the integrated housing 600, so that when the motor rotor 500 and the integrated housing 600 are respectively fixed to the rotor shaft connector 22 and the lifting plate 11 moves to the lowest position, the motor rotor 500 and the integrated housing 600 are in a separated state, and the motor rotor 500 and the integrated housing 600 are not affected with each other before butt joint assembly.
Referring to fig. 4-6, in another embodiment, the integrated housing 600 further has a through opening opened at a position opposite to the rotor inlet port 6002 and communicating with the installation chamber 6001.
The rotor positioning device 20 includes at least one lower fixing member 21 and at least one rotor shaft connector 22, the lower fixing member 21 penetrates the lifting plate 11 and is vertically fixed, and the rotor shaft connector 22 is installed at the upper end of the lower fixing member 21.
The rotor shaft coupling head 22 is spaced apart from the upper surface of the lift plate 11 moved to the lowest position by a distance greater than the height of the integrated housing 600. The diameters of the lower fixing member 21 and the rotor shaft connector 22 are not larger than the diameters of the rotor inlet 6002 and the through opening.
The rotor shaft coupling head 22 may be implemented as a sleeve such that the rotor shaft coupling head 22 is detachably coupled to the lower end of the rotor shaft of the motor rotor 500, thereby detachably mounting the motor rotor 500 above the lifting plate 11.
The user makes the penetrating port and the rotor inlet 6002 penetrate through the rotor positioning device 20 from bottom to top in sequence for the integrated casing 600 to be sleeved outside the rotor positioning device 20. When the integrated casing 600 is sleeved outside the rotor positioning device 20 and is installed on the upper surface of the lifting plate 11, the rotor shaft connector 22 extends out of the rotor inlet 6002 to the upper side of the integrated casing 600.
The integrated housing 600 is mounted on the lifting plate 11, and after being sleeved outside the rotor positioning device 20, the motor rotor 500 is mounted on the rotor shaft connector 22. After the motor rotor 500 is installed, the lifting plate 11 is driven by the lifting drive assembly 12 to lift, and then the integrated housing 600 is driven to lift to a position where it is butt-jointed and assembled with the motor rotor 500.
Referring to fig. 7 and 8, the motor rotor butt-joint assembling device further includes a rotor press-in member 40, the rotor press-in member 40 is fixedly installed right above the rotor shaft connector 22, the rotor press-in member 40 includes a press-in member 41 and a butt-joint press head 42, and the butt-joint press head 42 is disposed toward the rotor shaft connector 22.
The vertical distance from the butt joint pressure head 42 to the rotor shaft connector 22 is greater than the height of the motor rotor 500, so that the rotor pressing part 40 is prevented from influencing the installation of the motor rotor 500 on the rotor shaft connector 22. When the motor rotor 500 is installed on the rotor shaft connector 22, the butt joint pressure head 42 is located right above the rotor shaft of the motor rotor 500.
The lower pressing member 41 may be implemented as an air cylinder, so that the lower pressing member 41 can drive the docking ram 42 to move vertically up and down, and after the lifting plate 11 is lifted to dock and assemble the integrated housing 600 and the motor rotor 500, the lower pressing member 41 drives the docking ram 42 to move downwards, so as to press the motor rotor 500 further into the integrated housing 600 to be firmly assembled. Then, the lower pressing member 41 drives the docking ram 42 to move upward to disengage from the integrated housing 600, and after the lifting plate 11 moves and descends to the lowest position, the user can detach the assembled electric drive assembly 700 from the lifting plate 11.
It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The advantages of the present invention are already complete and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. Electric motor rotor butt joint equipment for pressing an electric motor rotor into an integrated shell to assemble an electric drive assembly, integrated shell has a mounting chamber and a rotor entrance, the mounting chamber passes through the rotor entrance with outside intercommunication, electric motor rotor passes through the rotor entrance and enters into the mounting chamber and with integrated shell equipment is integrative, its characterized in that, electric motor rotor butt joint equipment includes:
a lifting device including a lifting plate and a lifting driving assembly, the lifting plate being connected to the lifting driving assembly, the lifting driving assembly including at least one lifting member fixed at a designated vertical position and at least one link member vertically movably connected to the lifting member up and down, the link member being connected to the lifting plate, an upper surface of the lifting plate being detachably connected to the integrated housing;
the rotor positioning device is fixedly arranged above the lifting plate and detachably connected with a rotor shaft of the motor rotor, the rotor positioning device is arranged outside the range of a path where the lifting plate moves up and down, the motor rotor is positioned right above the rotor placing inlet by the rotor positioning device, and when the lifting plate moves to the lowest position, the distance between the lower end surface of the rotor positioning device and the upper surface of the lifting plate is larger than the sum of the heights of the motor rotor and the integrated shell.
2. The electric machine rotor docking assembly apparatus of claim 1, wherein: the motor rotor butt joint assembling equipment further comprises a fool-proof piece, wherein the fool-proof piece is fixed at a preset position on a path of upward movement of the lifting plate, and the lifting plate can not move upwards any more after moving to the position where the fool-proof piece is fixed.
3. The electric machine rotor docking assembly apparatus of claim 2, wherein: the fool-proof piece is fixed at a position which can allow the integrated shell to be just butt-assembled with the motor rotor.
4. The electric machine rotor docking assembly apparatus of claim 1, wherein: the rotor positioning device comprises at least one upper fixing piece and at least one rotor shaft connector, the upper fixing piece is fixedly arranged above the lifting plate, the rotor shaft connector is arranged at one end, facing the lifting plate, of the upper fixing piece, and the rotor shaft connector is separably connected with the upper end of the rotor shaft of the motor rotor.
5. The electric machine rotor docking assembly apparatus of claim 4, wherein: and the distance from the lower end of the rotor shaft connector to the upper surface of the lifting plate when the lifting plate moves to the lowest position is greater than the sum of the heights of the motor rotor and the integrated shell.
6. The electric machine rotor docking assembly apparatus of claim 1, wherein: the rotor positioning device comprises at least one lower fixing piece and at least one rotor shaft connector, the lower fixing piece penetrates through the lifting plate and is vertically fixed, and the rotor shaft connector is installed at the upper end of the lower fixing piece.
7. The electric machine rotor docking assembly apparatus of claim 6, wherein: the lower fixing piece sequentially penetrates through the bottom of the integrated shell, a penetrating port is formed in the bottom of the integrated shell, the rotor shaft connector is arranged above the integrated shell in a rotor shaft placing port mode, and the distance between the rotor shaft connector and the upper surface of the lifting plate, which moves to the lowest position, is greater than the height of the integrated shell.
8. The electric machine rotor docking assembly apparatus of claim 7, wherein: the rotor shaft connector is detachably connected with the lower end of the rotor shaft of the motor rotor.
9. The electric machine rotor docking assembly apparatus of claim 6, wherein: the motor rotor butt joint equipment further includes a rotor piece of impressing, rotor piece fixed mounting of impressing in directly over the rotor shaft connector, the rotor piece of impressing includes a piece of impressing and a butt joint pressure head, the butt joint pressure head orientation the rotor shaft connector sets up, the piece of impressing can drive the vertical reciprocating of butt joint pressure head.
10. The electric machine rotor docking assembly apparatus of claim 9, wherein: the vertical distance from the butt joint pressure head to the rotor shaft connector is greater than the height of the motor rotor.
CN202222921023.9U 2022-11-02 2022-11-02 Motor rotor butt-joint assembling equipment Active CN218888353U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202222921023.9U CN218888353U (en) 2022-11-02 2022-11-02 Motor rotor butt-joint assembling equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202222921023.9U CN218888353U (en) 2022-11-02 2022-11-02 Motor rotor butt-joint assembling equipment

Publications (1)

Publication Number Publication Date
CN218888353U true CN218888353U (en) 2023-04-18

Family

ID=85949818

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202222921023.9U Active CN218888353U (en) 2022-11-02 2022-11-02 Motor rotor butt-joint assembling equipment

Country Status (1)

Country Link
CN (1) CN218888353U (en)

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