CN208885903U - A kind of double pendulum wheel axial arrangement magnetic energy speed reducer - Google Patents

Abstract

The utility model relates to a kind of double pendulum wheel axial arrangement magnetic energy speed reducer, dowel support frame is fixed in fixed support shaft；Input shaft is rotatably arranged on the outside of fixed support shaft, and input shaft drives eccentric shaft turns；When eccentric shaft turns, input shaft rotation one is enclosed, and pendulum iron core rotates and swings a cycle in pendulum iron core and second in first, and due to the restriction effect of position-limitting pin, putting iron core in pendulum iron core and second in first can only be swung, and cannot complete revolution around fixed support shaft；In first in pendulum iron core and second in pendulum iron core swing process; due to turning magnet steel in first, turning magnet steel outside second and turning the magneticaction of magnet steel outside, turns iron core outside around fixed support shaft revolution, turn magnet steel outside and drive the outer iron core that turns around the distance of fixed support shaft revolution two panels magnet steel; realize transmitting of slowing down; for mechanical reduction machine, frictional dissipation is small, and mechanical fatigue development is slow; high reliablity, service life are long; running precision is high, and noise vibration is low, has overload protection ability.

Description

A kind of double pendulum wheel axial arrangement magnetic energy speed reducer

Technical field

The utility model relates to technical field of mechanical transmission, and in particular to a kind of double pendulum wheel axial arrangement magnetic energy speed reducer.

Background technique

For traditional mechanical structure speed reducer mainly by gear engaged transmission, there are frictional dissipations greatly, mechanical fatigue development is fast, makes an uproar The unfavorable factors such as sound is big, vibration is strong, do not have overload protection ability.

Utility model content

Technical problem to be solved by the utility model is: a kind of double pendulum wheel axial arrangement magnetic energy speed reducer is provided, friction damage Consume small, mechanical fatigue development is slow, and low noise, vibration is weak, has overload protection ability.

A kind of double pendulum wheel axial arrangement magnetic energy speed reducer, including fixed support shaft, eccentric shaft, input shaft, dowel support Frame, pendulum iron core in first, pendulum iron core in second, turn iron core outside, setting turns iron core two side walls circumferentially array distribution outside Turn magnet steel outside, be arranged in first put iron core on front side of wall surface circumferentially array distribution first in turn magnet steel, be arranged second Turn the position-limitting pin of magnet steel and 3 or more on rear side of interior pendulum iron core outside the second of the circumferentially array distribution of wall surface；

Turn the outer magnet steel that turns of wall surface on rear side of iron core outside against magnet steel is turned in first, turns the outer of wall surface on front side of iron core outside and turn magnet steel Turn magnet steel outside against second；

Dowel support frame is fixed in fixed support shaft；

The peripheral side setting of eccentric shaft is there are two being mutually in 180 ° of symmetrical first eccentric hoops and the second eccentric hoop, and the Pendulum iron core is socketed in the outside of the first eccentric hoop by first bearing in one, and iron core is put in second by second bearing and is socketed in the The outside of two eccentric hoops；

The first poke hole of circumferentially array distribution is provided in first in the disk of pendulum iron core, the disk of pendulum iron core in second The second poke hole of circumferentially array distribution is provided on face, position-limitting pin circumferentially displays and is fixedly connected on dowel support frame In disk, less than the internal diameter of the first poke hole and the second poke hole, each position-limitting pin sequentially passes through one for the outer diameter of position-limitting pin A first poke hole and second poke hole；

The hollow rotating shaft that shaft is motor is inputted, input shaft is rotatably arranged on the outside of fixed support shaft, and eccentric shaft turns The dynamic outside that fixed support shaft is set；It inputs shaft and eccentric shaft turns is driven by rotation connection structure；

When eccentric shaft turns, iron core rotation is put in pendulum iron core and second in driving first and swings a period, due to limit The restriction effect of pin, the first interior pendulum iron core and the second interior pendulum iron core can only be swung, cannot be around fixed support shaft completion revolution；

In first in pendulum iron core and second in pendulum iron core swing process, due to turn magnet steel in first, turn magnet steel outside second and The magneticaction for turning magnet steel outside turns iron core around fixed support shaft revolution outside.

Preferably, 3rd bearing and fourth bearing are provided on the outside of fixed support shaft；

Input shaft second end is rotatably arranged on the outside of fixed support shaft by 3rd bearing；

Input shaft is rotatably arranged on the outside of fixed support shaft close to the inside of first end by fourth bearing.

It preferably, further include 5th bearing and 6th bearing；

The first end of eccentric shaft is rotatably arranged on the outside of fixed support shaft by 5th bearing；

The second end of eccentric shaft is rotatably arranged on the outside of fixed support shaft by 6th bearing.

Preferably, input shaft second end be socketed in eccentric shaft first end outside；

The wall body for inputting the second end of shaft is provided with the first cotter way, and the wall body of the second end of eccentric shaft is provided with the second pin Slot connects the first cotter way and the second cotter way by pin key；

Pin key, the first cotter way and the second cotter way constitute rotation connection structure.

It preferably, further include deceleration after-poppet, 7th bearing, deceleration fore-stock and 8th bearing；

It is socketed on the inside of 7th bearing on the outer peripheral surface of dowel support frame, deceleration after-poppet is socketed in the outer of 7th bearing On circle；

It is socketed on the inside of 8th bearing on the excircle close to front end of fixed support shaft, the interior snare of deceleration fore-stock It connects on the outer ring of 8th bearing.

Preferably, deceleration after-poppet is located at the rear side of pendulum iron core in first, and deceleration fore-stock is located at pendulum iron core in second Front side；

Deceleration after-poppet is sequentially connected deceleration after-poppet by bolt, turns iron core and deceleration fore-stock outside.

It preferably, further include the 9th bearing and motor first end cover；

The inner ring of 9th bearing is socketed in the outside of the second end of input shaft, and the outer ring of the 9th bearing is socketed in motor the On the inner ring of one end cap；

Motor first end cover is bolted to connection dowel support frame.

Preferably, the sections inner side of 7th bearing is socketed on the outer ring of motor first end cover.

It preferably, further include motor stator core, motor second end cover and magnetic steel of motor；

Motor second end cover is fixedly connected on the right part in the outside of fixed support shaft, and motor stator core is set to motor Between first end cover and motor second end cover；

Motor first end cover, motor stator core and motor second end cover are fixedly connected with by stay bolt；

Magnetic steel of motor is arranged in the outer ring for inputting shaft, and magnetic steel of motor is located at the inside of motor stator core.

In one embodiment, motor first end cover is motor front end cover, and motor second end cover is back end cover for motor.At it In his embodiment, being also possible to motor second end cover is motor front end cover, and motor first end cover is back end cover for motor.

Preferably, turn iron core outside to put between iron core in pendulum iron core and second in first；Turn pendulum in iron core and first outside It is provided with the first thrust bearing between iron core, turns to be provided with the second thrust bearing between pendulum iron core in iron core and second outside.

The beneficial effects of the utility model are: a kind of double pendulum wheel axial arrangement magnetic energy speed reducer, including fixed support shaft, partially Mandrel, input shaft, dowel support frame, pendulum iron core in first, pendulum iron core in second, turn iron core outside, setting turns iron core two outside The outer of side wall surface circumferentially array distribution turns magnet steel, is arranged in and puts the of the circumferentially array distribution of wall surface on front side of iron core in first Turn magnet steel in one, be arranged in second put iron core on rear side of wall surface circumferentially array distribution second outside turn magnet steel and 3 or more Position-limitting pin；Turn the outer magnet steel that turns of wall surface on rear side of iron core outside against magnet steel is turned in first, turns outer turn of wall surface on front side of iron core outside Magnet steel turns magnet steel against second outside；Dowel support frame is fixed in fixed support shaft；There are two phases for the peripheral side setting of eccentric shaft It is mutually in 180 ° of symmetrical first eccentric hoops and the second eccentric hoop, pendulum iron core is socketed in first partially by first bearing in first The outside of thimble, the second interior pendulum iron core are socketed in the outside of the second eccentric hoop by second bearing；The disk of pendulum iron core in first On be provided with the first poke hole of circumferentially array distribution, circumferentially array distribution is provided in second in the disk of pendulum iron core Second poke hole, position-limitting pin are circumferentially displayed and are fixedly connected in the disk of dowel support frame, and the outer diameter of position-limitting pin is less than The internal diameter of first poke hole and the second poke hole, each position-limitting pin sequentially passes through first poke hole and one second is stirred Hole；The hollow rotating shaft that shaft is motor is inputted, input shaft is rotatably arranged on the outside of fixed support shaft, eccentric shaft turns setting In the outside of fixed support shaft；It inputs shaft and eccentric shaft turns is driven by rotation connection structure；When eccentric shaft turns, driving the Pendulum iron core rotates and swings a cycle in pendulum iron core and second in one, due to the restriction effect of position-limitting pin, puts iron in first Pendulum iron core can only be swung in core and second, cannot complete revolution around fixed support shaft；Iron core is put in first in pendulum iron core and second In swing process, due to turning magnet steel in first, turning magnet steel outside second and turning the magneticaction of magnet steel outside, turn iron core outside around fixed branch Support axis revolution.In first in pendulum iron core and second in pendulum iron core swing process, due to turn magnet steel in first, turn magnet steel outside second and Turn magnet steel identical charges repel each other the magneticaction that there is a natural attraction between the sexes outside, it is public around fixed support shaft to turn iron core outside for one circle of input shaft rotation Turn, turns the distance of iron core rotation two panels magnet steel outside, realize and slow down.Power is transmitted using interior magnet steel and outer steel, frictional dissipation is small, Mechanical fatigue development is slow, and noise vibration is low, has overload protection ability.For mechanical reduction machine, frictional dissipation is small, Mechanical fatigue development is slow, and reliability greatly improves, the service life greatly prolongs, and running precision is high, and long time running precision reduces very little, Noise vibration is low, has overload protection ability.

Detailed description of the invention

The double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model is described further with reference to the accompanying drawing.

Fig. 1 is a kind of structural schematic diagram at a visual angle of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model.

Fig. 2 is a kind of structural schematic diagram at another visual angle of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model.

Fig. 3 is a kind of cross-sectional view of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model.

Fig. 4 is a kind of explosive view of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model.

Fig. 5 is a kind of eccentric shaft of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model, input shaft, rotation connection The schematic perspective view of structure.

Fig. 6 is a kind of stereochemical structure signal of dowel support frame of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model Figure.

Fig. 7 is a kind of outer stereochemical structure signal for turning iron core of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model Figure.

Fig. 8 is that the stereochemical structure of pendulum iron core in the first of a kind of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model is shown It is intended to.

Fig. 9 is that the stereochemical structure of pendulum iron core in the second of a kind of double pendulum wheel axial arrangement magnetic energy speed reducer of the utility model is shown It is intended to.

In figure:

1- fixes support shaft；2- eccentric shaft；The first eccentric hoop of 21-；The second eccentric hoop of 22-；The second cotter way of 23-；3- input Shaft；The first cotter way of 31-；4- dowel support frame；Iron core is put in 51- first；Turn magnet steel in 511- first；512- first is stirred Hole；Iron core is put in 52- second；Turn magnet steel outside 521- second；The second poke hole of 522-；Turn iron core outside 6-；Turn magnet steel outside 61-；7- Position-limitting pin；91- first bearing；92- second bearing；93- 3rd bearing；94- fourth bearing；95- 5th bearing；96- the 6th Bearing；97- 7th bearing；98- 8th bearing；The 9th bearing of 99-；02- deceleration after-poppet；03- deceleration fore-stock；05- motor First end cover；06- motor stator core；07- motor second end cover；08- magnetic steel of motor；The first thrust bearing of 091-；092- Two thrust bearings.

Specific embodiment

1~9 and the technical solution of the utility model is further illustrated by specific embodiment with reference to the accompanying drawing.

The utility model provides a kind of double pendulum wheel axial arrangement magnetic energy speed reducer.

A kind of double pendulum wheel axial arrangement magnetic energy speed reducer, including fixed support shaft 1, eccentric shaft 2, input shaft 3, pin branch Pendulum iron core 52 in pendulum iron core 51, second in support 4, first, turn iron core 6 outside, setting turns 6 two side walls of iron core circumferentially battle array outside Turn magnet steel in outer first for turning magnet steel 61, the circumferentially array distribution for putting 51 front side wall surface of iron core in first being set of column distribution 511, it is arranged in outside the second of the circumferentially array distribution for putting 52 rear side wall surface of iron core in second and turns magnet steel 521 and 3 or more Position-limitting pin 7；

Turn the outer of 6 rear side wall surface of iron core outside to turn to turn magnet steel 511 in magnet steel 61 against first, turns 6 front side wall surface of iron core outside Turn magnet steel 61 outside and turns magnet steel 521 outside against second；

Dowel support frame 4 is fixed in fixed support shaft 1；

There are two be mutually in 180 ° of symmetrical first eccentric hoops 21 and the second eccentric hoop for the peripheral side setting of eccentric shaft 2 22, pendulum iron core 51 is socketed in the outside of the first eccentric hoop 21 by first bearing 91 in first, and pendulum iron core 52 passes through the in second Two bearings 92 are socketed in the outside of the second eccentric hoop 22；

The first poke hole 512 of circumferentially array distribution is provided in first in the disk of pendulum iron core 51, puts iron in second The second poke hole 522 of circumferentially array distribution is provided in the disk of core 52, position-limitting pin 7 is circumferentially displayed and is fixedly connected on In the disk of dowel support frame 4, the outer diameter of position-limitting pin 7 less than the first poke hole 512 and the second poke hole 522 internal diameter, often A position-limitting pin 7 sequentially passes through first poke hole 512 and second poke hole 522；

The hollow rotating shaft that shaft 3 is motor is inputted, input shaft 3 is rotatably arranged on the outside of fixed support shaft 1, eccentric shaft 2 are rotatably arranged on the outside of fixed support shaft 1；It inputs shaft 3 and drives eccentric shaft 2 to rotate by rotation connection structure；

Pendulum iron core 52 rotation in iron core 51 and second is put when eccentric shaft 2 rotates, in driving first and swings a cycle, by It can only be swung in putting iron core 52 in the restriction effect of position-limitting pin 7, first in pendulum iron core 51 and second, it cannot be around fixed support shaft 1 completes revolution；

In first in pendulum iron core 51 and second in pendulum 52 swing process of iron core, due to turning to turn outside magnet steel 511, second in first Magnet steel 521 and the magneticaction for turning magnet steel 61 outside turn iron core 6 outside and revolve around fixed support shaft 1.

In the present embodiment, the outside of fixed support shaft 1 is provided with 3rd bearing 93 and fourth bearing 94；

Input 3 second end of shaft is rotatably arranged on the outside of fixed support shaft 1 by 3rd bearing 93；

Input shaft 3 is rotatably arranged on the outside of fixed support shaft 1 close to the inside of first end by fourth bearing 94.

It further include 5th bearing 95 and 6th bearing 96 in the present embodiment；

The first end of eccentric shaft 2 is rotatably arranged on the outside of fixed support shaft 1 by 5th bearing 95；

The second end of eccentric shaft 2 is rotatably arranged on the outside of fixed support shaft 1 by 6th bearing 96.

In the present embodiment, the second end of input shaft 3 is socketed in the outside of the first end of eccentric shaft 2；

The wall body for inputting the second end of shaft 3 is provided with the first cotter way 31, and the wall body of the second end of eccentric shaft 2 is provided with the Two cotter ways 23 connect the first cotter way 31 and the second cotter way 23 by pin key；

Pin key, the first cotter way 31 and the second cotter way 23 constitute rotation connection structure.

It further include deceleration after-poppet 02,7th bearing 97, deceleration fore-stock 03 and 8th bearing 98 in the present embodiment；

The inside of 7th bearing 97 is socketed on the outer peripheral surface of dowel support frame 4, and deceleration after-poppet 02 is socketed in the 7th axis It holds on 97 outer ring；

The inside of 8th bearing 98 is socketed on the excircle close to front end of fixed support shaft 1, deceleration fore-stock 03 Inner ring is socketed on the outer ring of 8th bearing 98.

In the present embodiment, deceleration after-poppet 02 is located at the rear side of pendulum iron core 51 in first, and deceleration fore-stock 03 is located at second The front side of interior pendulum iron core 52；

Deceleration after-poppet 02 is sequentially connected deceleration after-poppet 02 by bolt, turns iron core 6 and deceleration fore-stock 03 outside.

It further include the 9th bearing 99 and motor first end cover 05 in the present embodiment；

The inner ring of 9th bearing 99 is socketed in the outside of the second end of input shaft 3, and the outer ring of the 9th bearing 99 is socketed in On the inner ring of motor first end cover 05；

Motor first end cover 05 is bolted to connection dowel support frame 4.

In the present embodiment, the sections inner side of 7th bearing 97 is socketed on the outer ring of motor first end cover 05.

It further include motor stator core 06, motor second end cover 07 and magnetic steel of motor 08 in the present embodiment；

Motor second end cover 07 is fixedly connected on the right part in the outside of fixed support shaft 1, and motor stator core 06 is arranged Between motor first end cover 05 and motor second end cover 07；

Motor first end cover 05, motor stator core 06 and motor second end cover 07 are fixedly connected with by stay bolt；

Magnetic steel of motor 08 is arranged in the outer ring for inputting shaft 3, and magnetic steel of motor 08 is located at the inside of motor stator core 06.

In the present embodiment, turns iron core 6 outside and put between iron core 52 in pendulum iron core 51 and second in first；Turn iron core 6 outside With first in put iron core 51 between be provided with the first thrust bearing 091, turn outside iron core 6 and second in pendulum iron core 52 between be provided with Second thrust bearing 092.

Traditional mechanical structure speed reducer is mainly by gear engaged transmission, and there are frictional dissipation, mechanical fatigue, noise vibrations etc. Unfavorable factor, and maintenance is cumbersome, does not have overload protection ability.

The axial magnetic field magnetic gear reduction unit based on magnetic field modulation technology of routine techniques: first, theoretically, magnetizing field tune Adjustable magnetic iron core pole (tooth) number of production must satisfy constraint condition, any time being driven so as to cause magnetic gear in operating There is the permanent magnet pole of more than half to be in idle non-coupled state, the coupling area of permanent magnet heteropolarity magnetic pole is theoretically It is lower than 50%；Second, structurally, the presence of adjustable magnetic iron core necessarily makes magnetic gear tool, there are two air gaps, will consume forever A large amount of magnetomotive force of magnet cause the permanent magnet flux in coupling operational state to reduce, to influence transmitted torque Size；Third, the presence of adjustable magnetic iron core make air-gap reluctance and magnetic potential alternation, lead to torque periodically pulsing, not only influence to pass Dynamic precision, and mechanical torque suffered by adjustable magnetic iron core is big, and structural strength is also to influence the principal element in its service life.

In the utility model: P2 is distributed with to pole permanent magnet in pendulum 51 front surface of iron core in first, pendulum iron core 52 in second P2 is distributed with to pole permanent magnet in rear surface, and P1 is respectively distributed with to pole permanent magnet in the two sides table surface for turning iron core 6 outside, and 0 < P1-P2≤ 3, P1, P2 is positive integer.Turn to turn in magnet steel 61 and first to turn outside magnet steel 511 and second between magnet steel 521 that there are air gaps outside, uses for reference The rotation for inputting shaft 3 is converted to pendulum iron core 51 in first by 2 structure of eccentric shaft by the principle of planet-gear transmission With second in put the rotation and revolution of iron core 52, due to the position-limiting action of position-limitting pin 7, pendulum in pendulum iron core 51 and second in first Only swinging for iron core 52 is not revolved, in addition the principle that the pole permanent-magnet material N couples same-sex attraction opposite sex repulsion with the pole S heteropolarity is come in fact The rotation of existing outer ring iron core 4, one circle of input shaft 3 rotation, turns the distance that iron core 4 rotates 2 magnet steel outside, plays the work of deceleration With realization is driven without Mechanical Contact, friction free power speed changing.

In the utility model, the description in orientation is carried out using the left and right in Fig. 3 cross-sectional view as "left", "right"；It is left in the figure Side is motor second end cover, right side is motor first end cover.

It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas Corresponding change and deformation, and all these changes and deformation all should belong to the protection of the utility model claims Within the scope of.

It should be understood that above embodiment is only the utility model a part of the embodiment, rather than whole realities Apply example." first " of embodiment and singular used in the attached claims, " second ", "an", " " and "the" It is also intended to including most forms, unless the context clearly indicates other meaning." first " and " second " simply to illustrate that It is convenient, point of sequencing is not indicated.

The utility model is not limited to the above embodiment, the technical solution of above-mentioned each embodiment of the utility model that This can form new technical solution with combined crosswise, and in addition all technical solutions formed using equivalent replacement, are all fallen within practical In the protection scope of novel requirement.

Claims (7)

1. a kind of double pendulum wheel axial arrangement magnetic energy speed reducer, which is characterized in that including fixed support shaft (1), eccentric shaft (2), defeated Enter shaft (3), dowel support frame (4), pendulum iron core (51) in first, pendulum iron core (52) in second, turn iron core (6) outside, setting exists Turning iron core (6) two side walls outside, circumferentially the outer of array distribution turns magnet steel (61), is arranged in first and puts iron core (51) front side wall Turn magnet steel (511) in the first of the circumferentially array distribution in face, be arranged in second and put iron core (52) rear side wall surface circumferentially Turn the position-limitting pin (7) of magnet steel (521) and 3 or more outside the second of array distribution；

The outer of iron core (6) rear side wall surface that turn outside turns to turn magnet steel (511) in magnet steel (61) opposite described first, described to turn iron outside The outer of wall surface turns to turn magnet steel (521) outside magnet steel (61) opposite described second on front side of core (6)；

The dowel support frame (4) is fixed on the fixed support shaft (1)；

There are two be mutually in that 180 ° of symmetrical first eccentric hoops (21) and second are inclined for the peripheral side setting of the eccentric shaft (2) Thimble (22), the described first interior pendulum iron core (51) are socketed in the outside of first eccentric hoop (21) by first bearing (91), Pendulum iron core (52) is socketed in the outside of second eccentric hoop (22) by second bearing (92) in described second；

It is provided with the first poke hole (512) of circumferentially array distribution in described first in the disk of pendulum iron core (51), described the The second poke hole (522) of circumferentially array distribution is provided in two in the disk of pendulum iron core (52), the position-limitting pin (7) is in Circumference display is fixedly connected in the disk of the dowel support frame (4), and the outer diameter of the position-limitting pin (7) is less than described first The internal diameter of poke hole (512) and the second poke hole (522), each position-limitting pin (7) sequentially pass through one described first group Dynamic hole (512) and second poke hole (522)；

Input shaft (3) is the hollow rotating shaft of motor, and the input shaft (3) is rotatably arranged on the fixed support shaft (1) outside, the eccentric shaft (2) are rotatably arranged on the outside of the fixed support shaft (1)；The input shaft (3) passes through Rotation connection structure drives eccentric shaft (2) rotation；

When the eccentric shaft (2) rotates, drives pendulum iron core (51) and the second interior pendulum iron core (52) rotation in described first and swing A cycle puts iron core (52) in pendulum iron core (51) and second in described first due to the restriction effect of the position-limitting pin (7) It can only swing, revolution cannot be completed around the fixed support shaft (1)；

It is put in iron core (52) swing process in pendulum iron core (51) and second in described first, due to turning magnet steel in described first (511), second turns magnet steel (521) outside and turns the magneticaction of magnet steel (61) outside, and the outer iron core (6) that turns is around the fixed support Axis (1) revolution.

2. double pendulum wheel axial arrangement magnetic energy speed reducer as described in claim 1, which is characterized in that the fixed support shaft (1) Outside is provided with 3rd bearing (93) and fourth bearing (94)；

Input shaft (3) second end is rotatably arranged on the outer of the fixed support shaft (1) by the 3rd bearing (93) Side；

The input shaft (3) is rotatably arranged on the fixed support shaft by fourth bearing (94) close to the inside of first end (1) outside.

3. double pendulum wheel axial arrangement magnetic energy speed reducer as claimed in claim 2, which is characterized in that further include 5th bearing (95) and 6th bearing (96)；

The first end of the eccentric shaft (2) is rotatably arranged on the outer of the fixed support shaft (1) by the 5th bearing (95) Side；

The second end of the eccentric shaft (2) is rotatably arranged on the outer of the fixed support shaft (1) by the 6th bearing (96) Side.

4. double pendulum wheel axial arrangement magnetic energy speed reducer as claimed in claim 3, which is characterized in that the of input shaft (3) Two ends are socketed in the outside of the first end of the eccentric shaft (2)；

The wall body of the second end of input shaft (3) is provided with the first cotter way (31), the wall of the second end of the eccentric shaft (2) Body is provided with the second cotter way (23), connects first cotter way (31) and the second cotter way (23) by pin key；

The pin key, the first cotter way (31) and the second cotter way (23) constitute rotation connection structure.

5. double pendulum wheel axial arrangement magnetic energy speed reducer as claimed in claim 4, which is characterized in that further include deceleration after-poppet (02), 7th bearing (97), deceleration fore-stock (03) and 8th bearing (98)；

It is socketed on the inside of the 7th bearing (97) on the outer peripheral surface of the dowel support frame (4), the deceleration after-poppet (02) it is socketed on the outer ring of the 7th bearing (97)；

It is socketed on the inside of the 8th bearing (98) on the excircle close to front end of the fixed support shaft (1), it is described to subtract The inner ring of fast fore-stock (03) is socketed on the outer ring of the 8th bearing (98).

6. double pendulum wheel axial arrangement magnetic energy speed reducer as claimed in claim 5, which is characterized in that deceleration after-poppet (02) position The rear side of iron core (51) is put in described first, the deceleration fore-stock (03) is located in described second before pendulum iron core (52) Side；

The deceleration after-poppet (02) is sequentially connected deceleration after-poppet (02) by bolt, turns iron core (6) and deceleration fore-stock outside (03)。

7. double pendulum wheel axial arrangement magnetic energy speed reducer as described in claim 1, which is characterized in that turn iron core (6) outside described and be located at In described first in pendulum iron core (51) and second between pendulum iron core (52)；Turn to put iron core in iron core (6) and described first outside described (51) it is provided between the first thrust bearing (091), it is described to turn to be arranged between pendulum iron core (52) in iron core (6) and described second outside There is the second thrust bearing (092).