CN107425631A - The motor of claw connection - Google Patents

Abstract

The present invention relates to motor.A kind of motor of claw connection, including shell, stator, rotor and power output shaft, the both ends of shell are provided with end cap, the both ends of power output shaft are by ball bearings on the end cap, rotor includes rotor core and some magnetic links, rotor core is provided with axis hole, the both ends of rotor core are provided with some fixing holes, fixing hole is along the circumferentially distributed axially extending of axis hole, power output shaft is made up of two spindle noses, one end of spindle nose is by ball bearings on end cap, the other end is located in the axis hole in a manner of gap coordinates, the spindle nose is provided with some connection pawls being located in correspondingly in the fixing hole.The invention provides the motor that a kind of rotor connects with the claw that power output shaft is linked together by new connected mode, to change the connected mode of traditional rotor and power output shaft, so that when rotor and power output shaft disassemble conveniently.

Description

The motor of claw connection

Technical field

The present invention relates to motor, more particularly to a kind of motor of claw connection.

Background technology

Motor is a kind of machinery of conventional offer power.Its basic structure includes shell, stator, rotor and power output Axle, the both ends of shell are provided with end cap, and by ball bearings on end cap, rotor includes rotor iron at the both ends of power output shaft Core and some magnetic links, rotor core are provided with axis hole, and power output shaft is arranged to bigger than axis hole more and then by large-tonnage Compression extrudes so that power output shaft is inserted into axis hole by force, and the two in extrusion process is deformed and is snapped together reality Now wear moment of torsion.When rotor and power output shaft are attached by the usual mode of the existing above, rotor and power are separated Output shaft is inconvenient, therefore is badly in need of providing a kind of technical side for realizing that rotor is different with the technical concept of the connection of power output shaft Case, it is laborsaving to separate rotor and power output shaft.

The content of the invention

Connected the invention provides a kind of rotor with the claw that power output shaft is linked together by new connected mode Motor, to change the connected mode of traditional rotor and power output shaft, so that rotor and power output shaft disassemble when side Just.

Above technical problem is that solved by following technical proposal：A kind of motor of claw connection, including it is shell, fixed Son, rotor and power output shaft, the both ends of shell are provided with end cap, and the both ends of the power output shaft are existed by ball bearings On the end cap, the rotor includes rotor core and some magnetic links, and the rotor core is provided with axis hole, it is characterised in that The both ends of the rotor core are provided with some fixing holes, and the fixing hole is along the circumferentially distributed axially extending of axis hole, the power Output shaft is made up of two spindle noses, one end of the spindle nose by the ball bearings on the end cap, the other end with The mode that gap coordinates is located in the axis hole, and the spindle nose is provided with some be located in correspondingly in the fixing hole Connect pawl.By design, along rotating shaft, axially distribution fixing hole mating connection pawl realizes the connection of rotor and power output shaft, one Change the existing usual fixed form being pressed together by tight fit so that without pressure when assembling rotor and power output shaft Machine is extruded, easily laborsaving during assembling, and also laborsaving when separating, because now rotating shaft and power output shaft do not rely on change Engagement realizes transmission in other words for friction caused by shape, and the frictional force between fixing hole and connection pawl is without too big.

Preferably, the connection pawl and rotor core form solder joint to link together, in the axis hole by soldering Provided with the separated dismounting power assistant spring of the described two spindle noses of driving.The mode of soldering, the temperature needed when melting solder joint during dismounting It is low.Design dismounting power assistant spring, spindle nose can be separated after solder joint melts so that separating between fixing hole and connection pawl, makes It must extract more convenient during connection pawl.

Present invention additionally comprises solder joint fatigue to delay structure, and the both ends of the dismounting power assistant spring respectively pass through a solder joint Fatigue delays structure to be linked together with the spindle nose, and the solder joint fatigue delays structure to include the edge being arranged in rotor core The annular hydraulic cylinder of axis hole circumferentially extending, if one end of the annular hydraulic cylinder is provided with the hydraulic piston of annular, the other end is provided with Dry that circumferentially distributed slide opening is radially extended along axis hole, the slide opening is located on the madial wall of the annular hydraulic cylinder, the slide opening Interior sealing slidably connects pushing block, and liquid storage cylinder is formed between the pushing block and hydraulic piston, full hydraulic pressure is filled in the liquid storage cylinder Oil, the one end of the hydraulic piston away from liquid storage cylinder be connected with it is some along the circumferentially distributed axially extending push rod of axis hole, it is described to push away The pin that bar connection is extend into the axis hole, the dismounting power assistant spring are supported on the end face of the spindle nose by the pin On, the hole wall of the axis hole is provided with the block avoid holes along the axially extending strip of axis hole, and the pin is through the block Avoid holes are stretched out.When motor works namely when rotor rotates, pushing block produce centrifugal force and towards moving in liquid storage cylinder, and to liquid storage The liquid of intracavitary produces pressure, and the pressure passes to hydraulic piston and drives hydraulic piston to move, and hydraulic piston is pushed away by push rod Pin, pin produce squeezing action to dismounting power assistant spring and offset the bullet that part dismounting power assistant spring degree acts on spindle nose Power, the elastic force for the dismounting power assistant spring that spindle nose is subject to is small, and the power for passing to solder joint and tearing solder joint also reduces, and prolongs so as to play The effect of slow solder joint fatigue.The longer rotating speed of accounting of the technical scheme then motor working time is more fast, delays the effect of solder joint fatigue Fruit is better.

Preferably, the solder joint fatigue delays structure also to include the supporting plate in the axis hole, the dismounting helps Power spring is supported on the pin by the supporting plate.Can conveniently realize dismounting power assistant spring with all pins all Abut together.

Preferably, between the rotor and end cap by plane bearing support together.The rotor of existing motor Axial float is completed by supporting the ball bearing of power output shaft, easily causes ball bearing damage or ball bearing Come off from end cap.The technical program can effectively prevent rotor from producing axial float.

Preferably, the plane bearing is supported on the connection pawl.It is convenient during layout.

Preferably, the connection pawl is provided with the bearing positive stop that gear is connected on plane bearing radial outer end.Can be right Plane is axially reliably fixed.

Preferably, the rotor core be additionally provided with it is some along the axially extending circumferentially distributed magnetic links mounting hole of axis hole, The magnetic links 1 are located in the magnetic links mounting hole for a pair.The rotor structure of existing motor is SPM structures, i.e. magnet steel Piece is surface-mount type, and surface-mount type has magnetic links and is easily knocked broken deficiency.The technical program passes through in rotor core Magnetic links mounting hole is set, magnetic links are arranged in magnetic links mounting hole, so that iron core can be protected to magnetic links Shield, prevents magnetic links to be knocked.

Preferably, the magnetic links mounting hole is blind hole, the openend of the magnetic links mounting hole be threaded with by The briquetting for preventing magnetic links from moving axially being pressed on the magnetic links.It can prevent magnetic links from producing axial movement.

Preferably, being provided with magnetic links ejection spring in the magnetic links mounting hole, the magnetic links ejection spring is pressure Spring, the briquetting can be most short to being retracted to by magnetic links ejection spring press by magnetic links；In magnetic when removing briquetting Magnetic links can stretch out magnetic links mounting hole more than 5 millimeters in the presence of steel disc ejection spring.It is convenient during magnetic links to take out.And Axle is produced when will not cause magnetic links by larger axial moving force because the design of magnetic links ejection spring when assembling To movement.

Present invention tool has the advantage that：It is laborsaving when being attached between rotor and power output shaft, separate rotor and power It is laborsaving during output shaft.

Brief description of the drawings

Fig. 1 is the structural representation of the present invention.

Fig. 2 is the close-up schematic view at Fig. 1 A.

Fig. 3 be rotor and power output shaft along rotor axial projected when schematic diagram.

In figure：Shell 1, end cap 11, axis hole 12, ball bearing 13, plane bearing 14, stator 2, rotor 3, rotor core 31st, magnetic links 32, magnetic links mounting hole 33, fixing hole 34, magnetic links ejection spring 35, briquetting 36, axis hole 37, dismounting power-assisted Spring 38, power output shaft 4, spindle nose 41, connection pawl 42, bearing positive stop 43, solder joint 44, solder joint fatigue delay structure 5, branch Fagging 51, annular hydraulic cylinder 52, hydraulic piston 53, slide opening 54, pushing block 55, liquid storage cylinder 56, push rod 57, pin 58, block avoid Hole 59.

Embodiment

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Referring to Fig. 1, a kind of motor of claw connection, including shell 1, stator 2, the and of rotor 3 set gradually from outside to inside Power output shaft 4.

The both ends of shell 1 are respectively removably connected with an end cap 11.End cap 11 is provided with axis hole 12.Rolling is installed in axis hole 12 Pearl bearing 13.

Stator 2 is fixed in shell 1.

Rotor 3 is located in stator 2.Rotor 3 includes rotor core 31 and some magnetic links 32.Rotor core 31 is provided with axle Hole 37.Axis hole 37 and rotor core 31 are coaxial.Rotor core 31 is provided with some magnetic links mounting holes 33 extended along rotor axial. The quantity of magnetic links mounting hole 33 and the quantity of magnetic links 32 are equal.Magnetic links 32 1 are located in magnetic links mounting hole 33 a pair It is interior.Magnetic links mounting hole 33 is blind hole.Magnetic links ejection spring 35 is provided with magnetic links mounting hole 33.Magnetic links eject spring 35 Between the cecum of magnetic links 32 and magnetic links mounting hole 33.The openend of magnetic links mounting hole 33, which is threaded with, to be pressed against The briquetting 36 for preventing magnetic links axial movement on the magnetic links.

Dismounting magnetic links 32 process be：Briquetting 36 is removed, in the presence of magnetic links eject spring 35, magnetic links 32 6 millimeters are stretched out from the openend of magnetic links mounting hole 33, then catching the section of stretching out of magnetic links 32 will draw outside magnetic links.

Assembling magnetic links process be：Magnetic links ejection spring 35 is first loaded into magnetic links mounting hole 33 and then by magnet steel Piece ejection spring 35 loads magnetic links mounting hole 33, finally screws on briquetting 36, and briquetting 36 extrudes magnetic links by magnetic links Ejection spring 35 is retracted to most short status to magnetic links ejection spring 35（Namely the position shunk can not be continued）.

The both ends of rotor core 31 are provided with some axially extending circumferentially distributed fixing holes 34 along rotor.Positioned at rotor iron The quantity of the fixing hole 34 at the both ends of core 31 is equal.

Power output shaft 4 includes two spindle noses 41.One end of spindle nose 41 is located in ball bearing 13 and by ball axle Hold 13 be supported on end cap 11, the other end is located in axis hole 37 in a manner of gap coordinates.Spindle nose 41 is provided with some connection pawls 42.Connection pawl 42 is uniformly distributed along the circumference of spindle nose.The quantity for connecting pawl 42 is equal with the quantity of fixing hole 34.Connect pawl 42 1 One is accordingly plugged in fixing hole 34.Connection pawl 42 and rotor core form solder joint 44 to link together by soldering.Axle The separated dismounting power assistant spring 38 of two spindle noses of driving is provided with hole 37.The both ends of rotor 3 respectively pass through a plane bearing 14 Support is in the inner of end cap 11.Plane bearing 14 is supported on connection pawl 42.Connection pawl 42 is connected on plane bearing radially provided with gear The bearing positive stop 43 of outer end.

The both ends for dismantling power assistant spring 38 respectively delay same two spindle noses 41 of structure 5 correspondingly by a solder joint fatigue Link together.Solder joint fatigue delays structure 5 to include the supporting plate 51 in the axis hole.Supporting plate 51 is located at axis hole 37 It is interior.The both ends for dismantling power assistant spring 38 delay the supporting plate of structure 5 to abut together with two solder joint fatigues.

Referring to Fig. 2, solder joint fatigue delay structure 5 also include be arranged in rotor core 31 along axis hole 37 circumferentially extend Annular hydraulic cylinder 52.Annular hydraulic cylinder 52 is provided with the hydraulic piston 53 of annular, the other end close to one end of dismounting power assistant spring 38 Provided with some slide openings 54.Slide opening 54 is circumferentially distributed along axis hole 37.Slide opening 54 radially extends along axis hole 37.Slide opening 54 is positioned at annular On the madial wall of hydraulic cylinder 52.The interior sealing of slide opening 54 slidably connects pushing block 55.Pushing block 55 and hydraulic piston 53 are in annular hydraulic Liquid storage cylinder 56 is isolated in cylinder 52.The full hydraulic oil of filling in liquid storage cylinder 56.The one end of hydraulic piston 53 away from liquid storage cylinder is connected with Some push rods 57.Push rod 57 is circumferentially distributed axially extending along axis hole.Push rod 57 connects the pin 58 extending into axis hole.Axis hole 37 Hole wall be provided with some block avoid holes 59 along the axially extending circumferentially distributed strip of axis hole.Pin 58 is correspondingly Reached through block avoid holes 59 in axis hole.Dismounting power assistant spring 38 passes through the coaxial head of 51 push and block bar of supporting plate, 58 pin 58 41 end face abuts together and produces the power of extrapolation spindle nose.

Referring to Fig. 3, magnetic links mounting hole 33 has 8.Circumference of 8 magnetic links mounting holes 33 along rotor 1 is uniformly distributed.

Referring to Fig. 1 to Fig. 2, process spindle nose being installed on rotor is：First make the spindle nose of right-hand member（Certainly left end is first assembled And the same）Connection pawl 42 be inserted into fixing hole correspondingly and the spindle nose of right-hand member is inserted into axis hole 37, pass through tin The connection pawl of right-hand member spindle nose is welded together and realizes fixation by weldering with rotor core.Again by the connection pawl 42 1 of the spindle nose of left end One is accordingly inserted into fixing hole and the spindle nose of right-hand member is inserted into axis hole 37, and the process needs firmly extruding and overcomes dismounting to help The elastic force of power spring 38, then welded together the connection pawl of right-hand member spindle nose with rotor core by soldering, after solder joint solidifies Collect money to the squeezing action of left end spindle nose, that is, complete being connected for power output shaft and rotor.

Separately the process of power output shaft and rotor is：Melt solder joint 44, the solder joint in the presence of power assistant spring 38 is dismantled The spindle nose being first melted is more convenient when being ejected and to take out, can be with if the spindle nose now melted after solder joint can not pull out Pushed up from axis hole with cylinder body.

Claims (10)

1. a kind of motor of claw connection, including shell, stator, rotor and power output shaft, the both ends of shell are provided with end cap, institute The both ends of power output shaft are stated by ball bearings on the end cap, the rotor includes rotor core and some magnet steel Piece, the rotor core are provided with axis hole, it is characterised in that the both ends of the rotor core are provided with some fixing holes, the fixation Hole is made up of along the circumferentially distributed axially extending of axis hole, the power output shaft two spindle noses, and one end of the spindle nose passes through institute State ball bearings on the end cap, the other end by gap coordinate in a manner of be located in the axis hole, the spindle nose is set There are some connection pawls being located in correspondingly in the fixing hole.

2. the motor of claw connection according to claim 1, it is characterised in that the connection pawl and rotor core pass through tin Weldering forms solder joint and linked together, and the dismounting power assistant spring for driving described two spindle noses separated is provided with the axis hole.

3. the motor of claw connection according to claim 2, it is characterised in that also delay structure including solder joint fatigue, institute The both ends for stating dismounting power assistant spring respectively delay structure to be linked together with the spindle nose by a solder joint fatigue, the weldering Point fatigue delays structure to include being arranged on the annular hydraulic cylinder circumferentially extended along axis hole in rotor core, the annular hydraulic cylinder One end be provided with the hydraulic piston of annular, the other end is provided with and some circumferentially distributed slide opening, the slide opening is radially extended along axis hole On the madial wall of the annular hydraulic cylinder, the slide opening interior sealing slidably connects pushing block, the pushing block and hydraulic piston Between form liquid storage cylinder, the full hydraulic oil of filling in the liquid storage cylinder, if the one end of the hydraulic piston away from liquid storage cylinder is connected with The dry pin being extend into along the circumferentially distributed axially extending push rod of axis hole, the push rod connection in the axis hole, the dismounting help Power spring is supported on by the pin on the end face of the spindle nose, and the hole wall of the axis hole is provided with axially extending along axis hole The block avoid holes of strip, the pin stretch out through the block avoid holes.

4. the motor of claw connection according to claim 3, it is characterised in that the solder joint fatigue delays structure also to include Supporting plate in the axis hole, the dismounting power assistant spring are supported on the pin by the supporting plate.

5. according to claim 1 or 2 or 3 or 4 claw connection motor, it is characterised in that the rotor and end cap it Between by plane bearing support together.

6. the motor of claw connection according to claim 5, it is characterised in that the plane bearing is supported on the connection On pawl.

7. the motor of claw connection according to claim 6, it is characterised in that the connection pawl is connected on plane provided with gear The bearing positive stop of bearing radial outer end.

8. the motor of the claw connection according to claim 1 or 2 or 3 or 4, it is characterised in that the rotor core is also set Have some along the axially extending circumferentially distributed magnetic links mounting hole of axis hole, the magnetic links 1 are located in the magnetic links peace a pair Fill in hole.

9. the motor of claw according to claim 8 connection, it is characterised in that the magnetic links mounting hole is blind hole, institute The openend for stating magnetic links mounting hole is threaded with the pressing for preventing magnetic links from moving axially being pressed against on the magnetic links Block.

10. the motor of claw connection according to claim 9, it is characterised in that be provided with magnetic in the magnetic links mounting hole Steel disc ejects spring, and the magnetic links ejection spring is stage clip, and magnetic links can be ejected bullet by the briquetting by magnetic links Spring be pressed into be retracted to it is most short；Magnetic links can stretch out magnetic links peace in the presence of magnetic links eject spring when removing briquetting Fill hole more than 5 millimeters.