CN112186986A - Rotor harness sleeving and taking device with automatic cutting function - Google Patents

Rotor harness sleeving and taking device with automatic cutting function Download PDF

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Publication number
CN112186986A
CN112186986A CN202011088726.7A CN202011088726A CN112186986A CN 112186986 A CN112186986 A CN 112186986A CN 202011088726 A CN202011088726 A CN 202011088726A CN 112186986 A CN112186986 A CN 112186986A
Authority
CN
China
Prior art keywords
cavity
gear
shaft
transposition
reversing
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.)
Withdrawn
Application number
CN202011088726.7A
Other languages
Chinese (zh)
Inventor
李梦希
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Wuyi Daxiang Electronic Co ltd
Original Assignee
Wuyi Daxiang Electronic Co ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Wuyi Daxiang Electronic Co ltd filed Critical Wuyi Daxiang Electronic Co ltd
Priority to CN202011088726.7A priority Critical patent/CN112186986A/en
Publication of CN112186986A publication Critical patent/CN112186986A/en
Withdrawn legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K15/00Methods or apparatus specially adapted for manufacturing, assembling, maintaining or repairing of dynamo-electric machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F11/00Cutting wire

Abstract

The invention relates to the related field of motors, and discloses a rotor harness sleeving and taking device with automatic cutting function, which comprises a main box body, wherein a left-right through working cavity is arranged in the main box body, the upper side and the lower side of the working cavity are provided with trigger fixed block cavities which are symmetrically arranged by taking the working cavity as a center and have right openings, the upper side of the working cavity is communicated with a screw rod nut cavity, the right side of the screw rod nut cavity is communicated with a screw rod pair magnet cavity which is symmetrically arranged up and down, and the upper side of the screw rod nut cavity is provided with a reversing cavity. The manufacturing efficiency of the rotor is improved.

Description

Rotor harness sleeving and taking device with automatic cutting function
Technical Field
The invention relates to the related field of motors, in particular to a rotor harness sleeving and taking device with automatic cutting function.
Background
The motor utilizes the electrical coil to produce rotating magnetic field and acts on the rotor and forms the rotatory moment of torsion of magnetoelectric power, the motor mainly comprises stator and rotor, adopt artifical cover that carries out the heat shrinkable sleeve to copper wire pencil to get with the tailorring of copper line when the preparation rotor nowadays, when the heat shrinkable sleeve is got to the cover, because the heat shrinkable sleeve is too soft, and make the degree of difficulty increase that the cover was got, perhaps can make the heat shrinkable sleeve puncture by the copper line or the staff is stabbed even, on the other hand, when the copper wire pencil was tailor to the manual work, probably can make the pencil tailor differ in length, thereby make the motor not reach the requirement of leaving the factory.
Disclosure of Invention
The invention aims to provide a rotor wire harness sleeving and taking device with automatic cutting function, which can overcome the defects in the prior art, so that the practicability of equipment is improved.
The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a rotor harness sleeving and taking device with automatic cutting function, which comprises a main box body, wherein a left-right through working cavity is arranged in the main box body, trigger fixed block cavities which are symmetrically arranged by taking the working cavity as a center and have a right opening are arranged on the upper side and the lower side of the working cavity, a screw rod nut cavity is communicated with the upper side of the working cavity, a screw rod pair magnet cavity which is symmetrically arranged up and down is communicated with the right side of the screw rod nut cavity, a reversing cavity is arranged on the upper side of the screw rod nut cavity, a reversing shaft cavity is communicated with the left side of the reversing cavity, a left pull rope plate cavity is communicated with the left side of the reversing shaft cavity, a right pull rope plate cavity is communicated with the right side of the reversing cavity, a transmission gear cavity is communicated with the rear side of the reversing cavity, a driven bevel gear cavity is arranged on the right side of the transmission gear cavity, a driven belt wheel shaft, the belt cavity rear side is equipped with the belt cavity, belt cavity rear side is equipped with transmission bevel gear chamber, transmission bevel gear chamber upside is equipped with and is located the transposition chamber of driven bevel gear chamber downside, it is equipped with the trigger fixed block to trigger fixed block intracavity sliding fit connection, be equipped with opening right half gear chamber in the trigger fixed block, fixed connection is equipped with the normal running fit connection and is equipped with half gear shaft between the end wall around the half gear chamber, fixed connection is equipped with the board half gear that props up on the half gear shaft, prop up board half gear right-hand member face fixed connection and be equipped with the thermal shrinkable sleeve and prop up the board, trigger fixed block left end face with it is equipped with the trigger block spring to trigger fixed block fixed connection between the end wall of fixed block chamber left end, the upside trigger fixed block chamber lower extreme wall internal fixation connect be equipped with can with the vice trigger block that triggers the fixed block contact, half gear chamber rear end wall internal rotation fit connection is equipped with and extends forward in the The tail end of the front side of the driven pulley shaft is fixedly connected with a driving gear which can be meshed with the half gear of the supporting plate, and the tail end of the rear side of the driven pulley shaft is fixedly connected with a driven pulley.
On the basis of the technical scheme, an auxiliary wheel shaft positioned on the right side of the driven belt wheel is connected and arranged between the front end wall and the rear end wall of the belt cavity in a rotating matching manner, an auxiliary wheel is fixedly connected and arranged on the auxiliary wheel shaft, a transmission belt wheel shaft which extends forwards into the belt cavity and extends backwards into the belt cavity is arranged on the rear end wall of the belt cavity in a rotating matching manner, a transmission belt wheel is fixedly connected and arranged at the tail end of the front side of the transmission belt wheel shaft, a transmission belt is connected and arranged between the transmission belt wheel and the driven belt wheel and the auxiliary wheel in a power matching manner, a driven belt wheel is fixedly connected and arranged at the tail end of the rear side of the transmission belt wheel shaft, a driven bevel gear shaft which extends forwards into the belt cavity and extends backwards into the transmission bevel gear cavity is arranged on the rear end wall of the belt, the belt is connected and arranged between the main transmission belt pulley and the driven belt pulleys on the upper side and the lower side in a power fit mode, and the tail end of the rear side of the driven bevel gear shaft is fixedly connected and arranged with a driven bevel gear.
On the basis of the technical scheme, the inner rotating fit connection of the upper end wall of the screw rod nut cavity is provided with a screw rod which extends upwards in the reversing cavity and extends downwards in the screw rod nut cavity, the tail end of the upper side of the screw rod is provided with a screw rod helical gear, the screw rod is provided with a screw rod nut which is positioned in the screw rod nut cavity in a threaded fit connection mode, the right end face of the screw rod nut is fixedly connected with a main screw rod magnet which can correspond to the auxiliary screw rod magnet cavity, the lower end face of the screw rod nut is fixedly connected with a cutting tool, the auxiliary screw rod magnet cavity is provided with an auxiliary screw rod magnet in an inner sliding fit connection mode, and the upper end wall of the screw rod nut cavity is.
On the basis of the technical scheme, a reversing shaft which extends leftwards into the left rope pulling plate cavity and rightwards extends to penetrate the reversing cavity into the right rope pulling plate cavity is arranged in the reversing shaft cavity in a sliding fit connection mode, a left rope pulling plate which is connected with the left rope pulling plate cavity in a sliding fit connection mode is arranged at the tail end of the left side of the reversing shaft in a rotating fit connection mode, a left pulling rope is fixedly connected between the left rope pulling plate and the screw rod auxiliary magnet at the lower side, a reversing driven gear which is positioned in the reversing cavity is fixedly connected on the reversing shaft, a reversing helical gear which is positioned at the right side of the reversing driven gear and can be meshed with the screw rod helical gear is fixedly connected on the reversing shaft, a reversing bevel gear which is positioned at the right side of the reversing helical gear and can be meshed with the screw rod helical gear is fixedly connected on the reversing shaft, and a right rope pulling plate which is connected with the right rope pulling plate cavity in a, the right side stay cord board and the upside fixed connection is equipped with right stay cord between the vice magnet of lead screw, transmission gear chamber right side end rotation fit connection is equipped with and extends to left the transmission gear intracavity just extends to right the transmission gear axle in the driven helical gear intracavity, transmission gear axle left side end fixed connection be equipped with the meshing of switching-over driven gear drive gear, transmission gear axle right side end fixed connection is equipped with driven helical gear.
On the basis of the technical scheme, the internal rotation fit connection of the lower end wall of the driven bevel gear cavity is provided with a transmission bevel gear shaft which extends upwards into the driven bevel gear cavity and extends downwards into the transposition cavity, the terminal fixed connection of the upper side of the transmission bevel gear shaft is provided with a transmission bevel gear which is meshed with the driven bevel gear, the terminal fixed connection of the lower side of the transmission bevel gear shaft is provided with a transposition straight gear, the internal rotation fit connection of the upper end wall of the transmission bevel gear cavity is provided with a transposition spur gear shaft which extends downwards into the transmission bevel gear cavity and extends upwards into the transposition cavity, the terminal fixed connection of the lower side of the transposition spur gear shaft is provided with a transmission bevel gear which is meshed with the driven bevel gear, the terminal fixed connection of the upper side of the transposition spur gear shaft is provided with a transposition spur, terminal surface fixed connection is equipped with the motor shaft under the motor, be equipped with in the motor shaft downwards the opening and with the transposition axle chamber that the chamber communicates that replaces, fixed connection is equipped with the transposition electro-magnet in the transposition axle chamber upper end wall, transposition axle intracavity spline fit connection is equipped with downwardly extending to the transposition axle in the transposition intracavity, the terminal fixed connection of transposition axle downside be equipped with can with the transposition straight-tooth gear with the transposition master gear that replaces spur gear meshing, the epaxial terminal surface fixed connection that replaces is equipped with transposition magnet, transposition magnet up end with fixed connection is equipped with transposition magnet transposition spring under the transposition electro-magnet between the terminal surface.
The invention has the beneficial effects that: this device props up opening from top to bottom of board through the pyrocondensation cover, makes the bore increase of pyrocondensation cover, makes things convenient for the cover of pyrocondensation cover to get, avoids the pyrocondensation cover to be punctured by the copper line and influence electrically conductive process, has also prevented simultaneously that the copper line from stabbing the staff, is cutting off the processing to copper line pencil through cutting off the cutter, makes the pencil more neat unanimous, great improvement the qualification rate that dispatches from the factory, also shortened the time that the pyrocondensation cover was got to the cover and tailor copper line pencil simultaneously, improved the preparation efficiency of rotor.
Drawings
In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.
The invention is further illustrated with reference to the following figures and examples.
Fig. 1 is a schematic structural diagram of a rotor harness extracting device with automatic cutting according to the invention.
Fig. 2 is a schematic sectional view of the structure in the direction of a-a in fig. 1.
FIG. 3 is a schematic sectional view of the structure of FIG. 1 taken along the direction B-B
Fig. 4 is a schematic sectional view of fig. 1 taken along the direction C-C.
Fig. 5 is an enlarged schematic view of the structure at D in fig. 4.
Detailed Description
The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The rotor wire harness sleeving and taking device with automatic cutting function, which is described by combining with the attached drawings 1-5, comprises a main box body 10, wherein a left-right through working cavity 76 is arranged in the main box body 10, the upper side and the lower side of the working cavity 76 are respectively provided with a triggering fixed block cavity 26 which is symmetrically arranged by taking the working cavity 76 as a center and has a right opening, the upper side of the working cavity 76 is communicated with a screw nut cavity 16, the right side of the screw nut cavity 16 is communicated with a screw pair magnet cavity 17 which is symmetrically arranged up and down, the upper side of the screw nut cavity 16 is provided with a reversing cavity 43, the left side of the reversing cavity 43 is communicated with a reversing shaft cavity 40, the left side of the reversing shaft cavity 40 is communicated with a left rope pulling plate cavity 38, the right side of the reversing cavity 43 is communicated with a right rope pulling plate cavity 46, the rear side of the reversing cavity 43 is communicated, the rear side of the trigger fixed block cavity 26 is communicated with a driven belt wheel shaft cavity 27, the rear side of the driven belt wheel shaft cavity 27 is communicated with a belt cavity 25, the rear side of the belt cavity 25 is provided with a belt cavity 62, the rear side of the belt cavity 62 is provided with a transmission bevel gear cavity 58, the upper side of the transmission bevel gear cavity 58 is provided with a transposition cavity 66 positioned at the lower side of the driven bevel gear cavity 49, the trigger fixed block cavity 26 is internally provided with a trigger fixed block 33 in a sliding fit connection manner, the trigger fixed block 33 is internally provided with a half gear cavity 36 with a right opening, a half gear shaft 32 is fixedly connected and arranged between the front end wall and the rear end wall of the half gear cavity 36 in a rotating fit connection manner, a support plate half gear 31 is fixedly connected and arranged on the half gear shaft 32, a heat shrinkage sleeve support plate 19 is fixedly connected and arranged on the right end surface of the support plate half gear 31, a trigger block spring 21 is fixedly connected and arranged between the, an auxiliary trigger block 20 capable of contacting with the trigger fixed block 33 is fixedly connected in the lower end wall of the trigger fixed block cavity 26 on the upper side, a driven pulley shaft 35 which extends forwards into the half gear cavity 36 and extends backwards through the driven pulley shaft cavity 27 to the belt cavity 25 is connected in a rotating fit manner in the rear end wall of the half gear cavity 36, a driving gear 34 capable of being meshed with the supporting plate half gear 31 is fixedly connected at the tail end of the front side of the driven pulley shaft 35, and a driven pulley 28 is fixedly connected at the tail end of the rear side of the driven pulley shaft 35.
In addition, in one embodiment, an auxiliary wheel shaft 29 positioned at the right side of the driven pulley 28 is connected and connected between the front end wall and the rear end wall of the belt cavity 25 in a rotating fit manner, an auxiliary wheel 30 is fixedly connected and arranged on the auxiliary wheel shaft 29, a transmission belt wheel shaft 23 extending forwards into the belt cavity 25 and backwards into the belt cavity 62 is connected and arranged in the rear end wall of the belt cavity 25 in a rotating fit manner, a transmission pulley 22 is fixedly connected and arranged at the front end of the transmission belt wheel shaft 23, a transmission belt 24 is connected and connected between the transmission pulley 22 and the driven pulley 28 and the auxiliary wheel 30 in a power fit manner, a driven pulley 64 is fixedly connected and arranged at the rear end of the transmission belt wheel shaft 23, a driven bevel gear shaft 60 extending forwards into the belt cavity 62 and backwards into the transmission bevel gear cavity 58 is connected and arranged in a rotating fit manner in the rear end wall of the belt cavity 62, the tail end of the front side of the driven bevel gear shaft 60 is fixedly connected with a main transmission belt pulley 61, a belt 63 is arranged between the main transmission belt pulley 61 and the driven belt pulleys 64 on the upper side and the lower side in a power fit connection mode, and the tail end of the rear side of the driven bevel gear shaft 60 is fixedly connected with a driven bevel gear 59.
In addition, in one embodiment, the screw 14 extending upward into the reversing cavity 43 and downward into the screw-nut cavity 16 is disposed in the upper end wall of the screw-nut cavity 16 in a rotationally-matched manner, a screw bevel gear 11 is fixedly connected to the end of the upper side of the screw 14, a screw nut 12 located in the screw-nut cavity 16 is disposed in the screw 14 in a threaded manner, a main screw magnet 13 capable of corresponding to the auxiliary screw magnet cavity 17 is fixedly connected to the right end face of the screw nut 12, a cutting tool 15 is fixedly connected to the lower end face of the screw nut 12, an auxiliary screw magnet 18 is disposed in the auxiliary screw magnet cavity 17 in a rotationally-matched manner, and a stop trigger block 77 is fixedly connected to the upper end wall of the screw-nut cavity 16.
In addition, in one embodiment, a reversing shaft 44 extending leftwards into the left rope board cavity 38 and rightwards into the right rope board cavity 46 is slidably connected and arranged in the reversing shaft cavity 40, a left rope board 37 slidably connected and arranged in the left rope board cavity 38 is rotatably connected and arranged at the tail end of the left side of the reversing shaft 44, a left rope 39 is fixedly connected and arranged between the left rope board 37 and the lower screw pair magnet 18, a reversing driven gear 41 positioned in the reversing cavity 43 is fixedly connected and arranged on the reversing shaft 44, a reversing gear 42 positioned at the right side of the reversing driven gear 41 and capable of being meshed with the screw bevel gear 11 is fixedly connected and arranged on the reversing shaft 44, a reversing bevel gear 45 positioned at the right side of the reversing bevel gear 42 and capable of being meshed with the screw bevel gear 11 is fixedly connected and arranged on the reversing shaft 44, the terminal normal running fit of switching-over shaft 44 right side is connected be equipped with right stay cord board 47 that right stay cord board chamber 46 sliding fit is connected, right stay cord board 47 and upside fixed connection is equipped with right stay cord 48 between the vice magnet 18 of lead screw, transmission gear chamber 52 right-hand member wall normal running fit is connected and is equipped with and extends to left in the transmission gear chamber 52 and extend to right transmission gear shaft 51 in the driven helical gear chamber 49, transmission gear shaft 51 left side end fixed connection be equipped with the drive gear 53 of switching-over driven gear 41 meshing, the terminal fixed connection in transmission gear shaft 51 right side is equipped with driven helical gear 50.
In addition, in one embodiment, the lower end wall of the driven bevel gear cavity 49 is rotatably connected with a transmission bevel gear shaft 54 extending upward into the driven bevel gear cavity 49 and downward into the transposition cavity 66, the upper end of the transmission bevel gear shaft 54 is fixedly connected with a transmission bevel gear 55 engaged with the driven bevel gear 50, the lower end of the transmission bevel gear shaft 54 is fixedly connected with a transposition straight gear 73, the upper end wall of the transmission bevel gear cavity 58 is rotatably connected with a transposition spur gear shaft 75 extending downward into the transmission bevel gear cavity 58 and upward into the transposition cavity 66, the lower end of the transposition spur gear shaft 75 is fixedly connected with a transmission bevel gear 57 engaged with the driven bevel gear 59, the upper end of the transposition spur gear shaft 75 is fixedly connected with a transposition spur gear 74, the upper side of the transposition cavity 66 is provided with a motor 56 fixedly connected with the main box 10, end face fixed connection is equipped with motor shaft 71 under motor 56, be equipped with in motor shaft 71 downwards the opening and with the transposition axle chamber 69 that transposition chamber 66 communicates, fixed connection is equipped with transposition electro-magnet 72 in the transposition axle chamber 69 upper end wall, spline fit connection is equipped with downwardly extending to in the transposition axle chamber 69 transposition axle 67 in the transposition chamber 66, the terminal fixed connection of transposition axle 67 downside be equipped with can with transposition spur gear 73 with the transposition master gear 65 of transposition spur gear 74 meshing, transposition axle 67 up end fixed connection is equipped with transposition magnet 68, transposition magnet 68 up end with fixed connection is equipped with transposition magnet spring 70 between the end face under transposition electro-magnet 72.
The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.
As shown in fig. 1-5, when the apparatus of the present invention is in the initial state, the cutting tool 15 is in the feed screw nut chamber 16, the feed screw helical gear 11 is engaged with the reversing helical gear 42 and is not engaged with the reversing bevel gear 45, and the transposition main gear 65 is engaged with the transposition spur gear 74 and is not engaged with the transposition spur gear 73;
sequence of mechanical actions of the whole device:
when the motor rotor needs to be sleeved with the heat shrinkable sleeve, the heat shrinkable sleeve is firstly sleeved on the heat shrinkable sleeve supporting plate 19, the motor 56 is started to rotate, the motor 56 rotates to drive the transposition shaft 67 to rotate through the motor shaft 71, the transposition shaft 67 rotates to drive the transposition spur gear 74 to rotate through the transposition master gear 65, the transposition spur gear 74 rotates to drive the transmission bevel gear 57 to rotate through the transposition spur gear shaft 75, the transmission bevel gear 57 rotates to drive the driven bevel gear shaft 60 to rotate through the driven bevel gear 59, the driven bevel gear shaft 60 rotates to drive the belt 63 to rotate through the main transmission belt pulley 61, the belt 63 rotates to drive the transmission belt shaft 23 to rotate through the driven belt pulley 64, the transmission belt shaft 23 rotates to drive the transmission belt 24 to rotate through the transmission belt 22, the transmission belt 24 rotates to drive the driven belt shaft 35 to rotate through the driven belt pulley 28, the driven belt shaft 35 rotates to drive the supporting plate, therefore, the opening of the heat-shrinkable sleeve supporting plate 19 is opened up to the upper side and the lower side, the opening diameter of the heat-shrinkable sleeve is enlarged, and a copper wire harness is more easily sleeved until the driving gear 34 is disengaged from the supporting plate half gear 31;
when a copper wire harness is put into the working cavity 76 from the heat shrinkable sleeve until the root of the rotor wire harness abuts against the heat shrinkable sleeve supporting plate 19, the heat shrinkable sleeve supporting plate 19 is continuously pushed to move leftwards, so that the trigger fixing block 33 overcomes the thrust of the trigger block spring 21 to move leftwards until the trigger fixing block contacts with the auxiliary trigger block 20, the transposition electromagnet 72 is electrified, the adsorption transposition magnet 68 overcomes the thrust of the transposition magnet spring 70, the transposition master gear 65 is driven to be meshed with the transposition straight gear 73 through the transposition shaft 67 and is separated from the transposition straight gear 74, the transposition master gear 65 rotates, the transmission bevel gear shaft 54 drives the driven bevel gear 50 to rotate through the transmission bevel gear 55, the driven bevel gear 50 rotates, the transmission gear shaft 51 drives the transmission gear 53 to rotate, the transmission gear 53 rotates, and the reversing shaft 44 is driven by the reversing driven gear 41, the reversing shaft 44 rotates to drive the lead screw bevel gear 11 to rotate through the reversing bevel gear 42, the lead screw bevel gear 11 rotates to drive the lead screw nut 12 to move downwards through the lead screw 14, and therefore the cutting tool 15 moves downwards, the purpose of cutting wire harnesses is achieved, and the rotor wire harnesses are more orderly and consistent;
when cutting is finished, at the moment, the lead screw nut 12 drives the main lead screw magnet 13 to move to correspond to the lower lead screw pair magnet cavity 17, the main lead screw magnet 13 adsorbs the lower lead screw pair magnet 18 to move leftwards, the lower lead screw pair magnet 18 moves leftwards and drives the left stay cord plate 37 to move leftwards through the left stay cord 39, the left stay cord plate 37 moves leftwards and drives the reversing bevel gear 45 to be meshed with the lead screw bevel gear 11 through the reversing shaft 44, the reversing bevel gear 42 is disengaged from the lead screw bevel gear 11, the reversing shaft 44 rotates and drives the lead screw bevel gear 11 to rotate reversely through the reversing bevel gear 45, so that the cutting tool 15 moves upwards until the main lead screw magnet 13 corresponds to the upper lead screw pair magnet cavity 17, the main lead screw magnet 13 adsorbs the upper lead screw pair magnet 18 and drives the right stay cord plate 47 to move rightwards through the right stay cord 48, the reversing bevel gear 42 is meshed with, and at this moment, the feed screw nut 12 just contacts with the shutdown trigger block 77, the shutdown trigger block 77 sends a signal to stop the rotation of the motor 56, the transposition electromagnet 72 is de-energized, the transposition magnet 68 drives the transposition shaft 67 to reset under the elastic force of the transposition magnet spring 70, and meanwhile, the rotor copper wire harness is taken down.
The invention has the beneficial effects that: this device props up opening from top to bottom of board through the pyrocondensation cover, makes the bore increase of pyrocondensation cover, makes things convenient for the cover of pyrocondensation cover to get, avoids the pyrocondensation cover to be punctured by the copper line and influence electrically conductive process, has also prevented simultaneously that the copper line from stabbing the staff, is cutting off the processing to copper line pencil through cutting off the cutter, makes the pencil more neat unanimous, great improvement the qualification rate that dispatches from the factory, also shortened the time that the pyrocondensation cover was got to the cover and tailor copper line pencil simultaneously, improved the preparation efficiency of rotor.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a rotor pencil is taken device with automatic tailorring, includes the main tank body, its characterized in that: a left-right through working cavity is arranged in the main box body, the upper side and the lower side of the working cavity are provided with trigger fixed block cavities which are symmetrically arranged by taking the working cavity as a center and have right openings, the upper side of the working cavity is communicated with a screw rod nut cavity, the right side of the screw rod nut cavity is communicated with a screw rod pair magnet cavity which is symmetrically arranged up and down, the upper side of the screw rod nut cavity is provided with a reversing cavity, the left side of the reversing cavity is communicated with a reversing shaft cavity, the left side of the reversing shaft cavity is communicated with a left stay cord plate cavity, the right side of the reversing cavity is communicated with a right stay cord plate cavity, the rear side of the reversing cavity is communicated with a transmission gear cavity, the right side of the transmission gear cavity is provided with a driven bevel gear cavity, the rear side of the trigger fixed block cavity is communicated with a driven belt pulley shaft cavity, the rear side of the driven belt pulley shaft cavity is communicated with a belt, the upper side of the transmission bevel gear cavity is provided with a transposition cavity positioned at the lower side of the driven bevel gear cavity, the triggering fixed block cavity is internally provided with a triggering fixed block in a sliding fit connection manner, the triggering fixed block is internally provided with a half gear cavity with a right opening, the front end wall and the rear end wall of the half gear cavity are fixedly connected with a half gear shaft in a rotating fit connection manner, the half gear shaft is fixedly connected with a supporting plate half gear, the right end surface of the supporting plate half gear is fixedly connected with a heat shrinkable sleeve supporting plate, the left end surface of the triggering fixed block and the left end wall of the triggering fixed block cavity are fixedly connected with a triggering block spring, the lower end wall of the triggering fixed block cavity at the upper side is fixedly connected with an auxiliary triggering block capable of contacting with the triggering fixed block, the rear end wall of the half gear cavity is provided with a driven belt wheel shaft which extends forwards into the half gear cavity and backwards extends, the tail end of the front side of the driven pulley shaft is fixedly connected with a driving gear which can be meshed with the half gear of the supporting plate, and the tail end of the rear side of the driven pulley shaft is fixedly connected with a driven pulley.
2. The rotor wire harness extracting device with automatic cutting function according to claim 1, wherein: an auxiliary wheel shaft positioned on the right side of the driven pulley is connected between the front end wall and the rear end wall of the belt cavity in a rotating fit manner, an auxiliary wheel is fixedly connected to the auxiliary wheel shaft, a transmission belt shaft which extends forwards into the belt cavity and extends backwards into the belt cavity is connected in a rotating fit manner to the rear end wall of the belt cavity, a transmission belt pulley is fixedly connected to the front end of the transmission belt shaft, a transmission belt is connected between the transmission belt pulley and the driven pulley and the auxiliary wheel in a power fit manner, a driven pulley wheel is fixedly connected to the rear end of the transmission belt shaft, a driven bevel gear shaft which extends forwards into the belt cavity and extends backwards into the transmission bevel gear cavity is connected in a rotating fit manner to the rear end wall of the belt cavity, a main transmission belt wheel is fixedly connected to the front end of the driven bevel gear shaft, and a belt is connected between the main transmission belt pulley and the driven, and the tail end of the rear side of the driven bevel gear shaft is fixedly connected with a driven bevel gear.
3. The rotor wire harness extracting device with automatic cutting function according to claim 1, wherein: the utility model discloses a lead screw nut cavity, including lead screw nut cavity, reversing cavity, lead screw nut cavity, screw-nut cavity upper end wall internal rotation fit connection is equipped with upwards extends to reversing cavity and downwardly extending to the lead screw of lead screw nut cavity, the terminal fixed connection of lead screw upside is equipped with the lead screw helical gear, screw-thread fit connection is equipped with and is located on the lead screw nut of lead screw nut cavity, lead screw nut right-hand member face fixed connection be equipped with can with the lead screw main magnet that the vice magnet cavity of lead screw corresponds, terminal surface fixed connection is equipped with the cutting tool under the lead screw nut, the vice magnet cavity internal sliding fit connection of lead screw.
4. The rotor wire harness extracting device with automatic cutting function according to claim 1, wherein: the reversing shaft is internally provided with a reversing shaft which extends leftwards into the left rope pulling plate cavity and rightwards extends to penetrate through the reversing cavity to the right rope pulling plate cavity in a sliding fit manner, the tail end of the left side of the reversing shaft is provided with a left rope pulling plate in a rotating fit manner and is connected with the left rope pulling plate in a sliding fit manner, the left rope pulling plate is fixedly connected with the screw rod pair magnet at the lower side, a left pulling rope is fixedly connected with the reversing shaft, the reversing shaft is fixedly connected with a reversing driven gear positioned in the reversing cavity, the reversing shaft is fixedly connected with a reversing bevel gear positioned at the right side of the reversing driven gear and can be meshed with the screw rod bevel gear, the tail end of the right side of the reversing shaft is provided with a right rope pulling plate in a rotating fit manner and is connected with the right rope pulling plate cavity in a sliding fit manner, the right side stay cord board and the upside fixed connection is equipped with right stay cord between the vice magnet of lead screw, transmission gear chamber right side end rotation fit connection is equipped with and extends to left the transmission gear intracavity just extends to right the transmission gear axle in the driven helical gear intracavity, transmission gear axle left side end fixed connection be equipped with the meshing of switching-over driven gear drive gear, transmission gear axle right side end fixed connection is equipped with driven helical gear.
5. The rotor wire harness extracting device with automatic cutting function according to claim 1, wherein: the inner rotary fit connection of the lower end wall of the driven bevel gear cavity is provided with a transmission bevel gear shaft which extends upwards into the driven bevel gear cavity and extends downwards into the transposition cavity, the terminal fixed connection of the upper side of the transmission bevel gear shaft is provided with a transmission bevel gear meshed with the driven bevel gear, the terminal fixed connection of the lower side of the transmission bevel gear shaft is provided with a transposition straight gear, the inner rotary fit connection of the upper end wall of the transmission bevel gear cavity is provided with a transposition spur gear shaft which extends downwards into the transmission bevel gear cavity and extends upwards into the transposition cavity, the terminal fixed connection of the lower side of the transposition spur gear shaft is provided with a transmission bevel gear meshed with the driven bevel gear, the terminal fixed connection of the upper side of the transposition spur gear shaft is provided with a transposition spur gear, the upper side of the transposition cavity is provided with a motor, be equipped with the downward opening in the motor shaft and with the transposition axle chamber that the chamber communicates that replaces, fixed connection is equipped with the transposition electro-magnet in the transposition axle chamber upper end wall, transposition axle intracavity spline fit connection be equipped with downwardly extending to the transposition axle in the transposition intracavity, the terminal fixed connection of transposition axle downside be equipped with can with the transposition straight-tooth gear with the transposition master gear that replaces spur gear meshing, the epaxial end fixed connection that replaces is equipped with transposition magnet, transposition magnet up end with fixed connection is equipped with transposition magnet spring under the transposition electro-magnet between the terminal surface.
CN202011088726.7A 2020-10-13 2020-10-13 Rotor harness sleeving and taking device with automatic cutting function Withdrawn CN112186986A (en)

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Application publication date: 20210105