CN207762197U - A kind of differential compensating pinion retarder - Google Patents
A kind of differential compensating pinion retarder Download PDFInfo
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- CN207762197U CN207762197U CN201820139425.4U CN201820139425U CN207762197U CN 207762197 U CN207762197 U CN 207762197U CN 201820139425 U CN201820139425 U CN 201820139425U CN 207762197 U CN207762197 U CN 207762197U
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- gear
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- revolution
- gear group
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Abstract
The utility model discloses a kind of differential compensating pinion retarders.It is characterized in that, the retarder includes at least at least one set of input gear group Zi, at least one set of output gear group Zo.Input gear group ZiIncluding at least one input shaft, one has revolution Ω simultaneouslyi1With rotation Ωr1Gear G1, and the input gear group ZiOther gears or mechanism driving gear G1Realize revolution and rotation.Output gear group ZoThere is revolution Ω simultaneously including at least one output shaft and oneo1With rotation Ωo2Gear G2, and the output gear group ZoOther gears or mechanism in G2Driving is lower to realize output.The gear G1With gear G2Holding moves synchronously, and G1With G2It is poor with small parameter.The retarder is by controlling G1With G2Between parameter difference control reduction ratio, realize a wide range of retarded motion.
Description
Technical field
The present invention relates to mechanical engineering fields, more particularly to mechanical reduction transmission field.
Background technology
Retarder is one of common component in machine driving.Currently used gear reduction unit includes mainly planetary gear
The retarders such as retarder, RV retarders, harmonic speed reducer, little tooth difference speed reducer.Planetary reducer utilizes circular motion etc.
Linear velocity principle driving different-diameter gear rotates to slow down, and RV retarders and harmonic speed reducer are driven using the tooth difference between gear
The reversed revolution motion of gear, which is realized, to slow down, and is subtracted using the realization of the principle of link mechanism if little tooth difference speed reducer such as three-ring speed reducer etc.
Speed.The present invention proposes a kind of few teeth difference using between gear set, and the Novel reducer of motion compensation, Neng Goutong are carried out by output end
It crosses reduced size and realizes larger reduction ratio.
Invention content
Retarder of the present invention includes at least at least one set of input gear group Zi, at least one set of output gear group Zo.It is defeated
It includes at least one input shaft to enter gear set, and one has revolution Ω simultaneouslyi1With rotation Ωr1Gear G1.Output gear group packet
It includes at least one output shaft and one while there is revolution Ωo1With rotation Ωo2Gear G2。
In the input gear group Zi, there are one or more input shafts;When with 1 input shaft, remaining input shaft can lead to
Structure design is crossed to be fixed on shell.Input gear group ZiIn, pass through internal gear, external gear, bias by one or more input shafts
Wheel or other mechanisms cooperate, and drive G1Gear realizes rotation and revolution.The output gear group ZoIn, by internal gear, outside
Gear, eccentric wheel or other mechanisms cooperate, by G2Output is realized in driving.
Preferably, ZiIt can be used and ZoThe power transfer path of mirror image.
Usually, input angular velocity ωi1, ωi2With G1Relationship between gear is expressed as
Zi(ωi1, ωi2) = G1(Ωi1, Ωr1, ri1, rs1)
Wherein, ri1、rs1Respectively G1Rotation radius and revolution-radius.That is, ZiInput speed and G1Revolution angle speed
Degree, autobiography angular speed, revolution-radius and autobiography radius all connect each other.Only there are one tools when input shaft, by ωi1Axis is as power
Input shaft, ωi2Axis is connected with shell, at this point, ωi2=0。
Output speed ωo1, ωo2With G2Relationship between gear is expressed as
G2(Ωi2, Ωr2, ri2, rs2)=Zo (ωo1, ωo2)
Wherein, ri2、rs2Respectively G2Rotation radius and revolution-radius.That is, ZoThe rotating speed and G of output2Revolution angle speed
Degree, autobiography angular speed, revolution-radius and autobiography radius all connect each other.
Preferably, ZoWith ZiUsing mirror image power transfer path, and ZiOnly there are one power input shafts, another is fixed on
When shell, ZoAlso only there are one power output shafts.
The G1With G2The gear forms such as gear with parabolic shaped tooth, cycloid gear can be used.Preferably, G1With G2Using parabola
Gear, and there is same or similar modulus.
The gear G1With gear G2It keeps moving synchronously by the connection of connected or mechanism, and G1And G2Revolution-radius and
Autobiography radius has a small amount of difference, that is, meets
(Ωi1, Ωr1, ri1, rs1) = k(Ωi2, Ωr2, ri2, rs2)
Wherein, k is a constant value vector.
As k=1, G1With G2It is identical, ωi2=ωo2=0.At this point, reduction ratio η=ωi2/ωo2For infinity.
ControlkThe variation of value so that ωo2≠ 0, and using the axis as output, by G2Drive ωo2Output shaft compensateskIt is small
G caused by amount variation1With G2Amount of exercise difference ensures G2With G1Move synchronously, realize scheduled reduction ratio.
In this method, due to ZiWith ZoThe same or similar kind of drive can be used, avoid big retarding than in design process
Extreme dimensional ratio, structure can be simplified, and the reduction ratio of retarder can be greatly improved.
The present invention proposes a new class of retarder, can be widely used for Design of Speed Reducer field;The retarder reduction ratio is big,
It is related to that gear link is few, and structure is more compact, and different realization methods, realization method spirit can be used according to requirement of engineering
It is living.
Description of the drawings
Fig. 1 is the retarder first embodiment sectional view designed according to the present invention.
Fig. 2 is the retarder second embodiment sectional view designed according to the present invention.
Fig. 3 is the retarder 3rd embodiment sectional view designed according to the present invention.
Fig. 4 is the retarder fourth embodiment sectional view designed according to the present invention.
Specific implementation mode
Fig. 1 is one embodiment of the present invention, in the present embodiment, ZiWith ZoUsing mirror image Path of Force Transfer.With reference to figure 1, originally
In retarder described in embodiment, input gear group ZiBe made of gear 1, gear 2, input shaft 5, shell 6, wherein gear 2 with
Axis connection is inputted, meanwhile, which is the output gear G of input gear group1;Output gear group ZoBy gear 3, gear 4 and output
Axis 8 forms, and gear 3 is output gear group ZoInput gear G2.Input gear group ZiWith output gear group ZoIn, each gear
It is all external gear.
Input gear group ZiIn, only include an input shaft 5.Gear 1 is connected with shell 6, ensures that gear 1 is fixed.
Gear 2 is meshed with gear 1, and under the drive of input shaft 5, revolution and rotation are realized around gear 1.
In output gear group Zo, gear 3 is meshed with gear 4, and output shaft 8 is connected with gear 4, and the rotation of gear 4 is defeated
Go out.
Gear 3 is connect with gear 2 by fixation kit 7.Fixation kit 7 can be common fastener, also can by gear 2 with
Gear 3 is integrally formed, at this time without fixation kit 7.Gear 3 keeps synchronous with the revolution of gear 2 and rotation, but gear 3 and gear 2
Diameter have it is a small amount of poor.Gear 4 is driven to move by gear 3, by diameter difference institute of the compensation gear 3 of gear 4 when synchronous with gear 2
Caused by speed ratio it is poor, to realize slow down output.
If gear 1, gear 2, gear 3 and gear 4 diameter be respectively d1、d2、d3、d4, replaced respectively with pitch diameter respectively
Module can obtain, and the reduction ratio formula under the program is:
η=d1d4/(d2d4-d1d3)
And meet relationship
d1+d2=d3+d4
By the reduction ratio calculation formula it is found that by controlling d1With d3Difference, it can be achieved that different reduction ratio control.d1
With d3Difference it is smaller, big retarding ratio more easy to implement;d1= d3When, reduction ratio is infinity.Therefore, close modulus can be used
D is reduced in combination1With d3Between difference.Nonstandard gear can also be used, to reduce d1With d3Between difference.
Fig. 2 is second embodiment of the present invention, in the present embodiment, ZiWith ZoUsing non-mirror image Path of Force Transfer.With reference to figure 2,
In retarder described in the present embodiment, input gear group Zi is made of gear 1, gear 2, gear 5, input shaft 6, input shaft 9;It is defeated
Go out gear set ZoIt is made of gear 3, gear 4 and output shaft 8.Input gear group ZiWith output gear group ZoIn, in addition to gear 5
Each gear is all external gear, and gear 5 is internal gear.Gear 2 is input gear group ZiOutput wheel G1, gear 3 is output gear group
ZoWheel for inputting G2。
Input gear group ZiIn, input shaft 6 is connected with gear 1, and drives 1 rotation of gear;Input shaft 9 is connected with gear 5,
And drive 5 rotation of gear.Gear 2 is meshed with gear 1, gear 9 simultaneously, under the common driving of gear 1 and gear 5, realizes
Revolution and rotation.
Optionally, input shaft 6 can be fixed with shell.
Output gear group ZoIn, gear 3 is meshed with gear 4, and output shaft 8 is connected with gear 4, and the rotation of gear 4 is defeated
Go out.
Gear 3 is connect with gear 2 by fixation kit 7.Fixation kit 7 can be common fastener, also can by gear 2 with
Gear 3 is integrally formed, at this time without fixation kit 7.Gear 3 keeps synchronous with the revolution of gear 2 and rotation, but gear 3 and gear 2
Diameter have it is a small amount of poor.Gear 4 is driven to move by gear 3, by diameter difference institute of the compensation gear 3 of gear 4 when synchronous with gear 2
Caused by speed ratio it is poor, to realize slow down output.
It is alternatively possible to which directly the rotation of gear 2 is exported.
If gear 1, gear 2, gear 3 and gear 4 diameter be respectively d1、d2、d3、d4.It can obtain, the deceleration under the program
Than same embodiment 1.
Fig. 3 is the third embodiment of the present invention, in the present embodiment, ZiWith ZoUsing mirror image Path of Force Transfer.With reference to figure 3, institute
State input gear group ZiBy input shaft 2, external gear 3, internal gear 4 forms, and output end G of the external gear 3 as input gear1.Institute
State output gear group ZoIt is made of external gear 1, internal gear 6 and output shaft 7, and external gear 1 is as input terminal output gear G2.It is defeated
Enter gear set ZiWith output gear group ZoBetween connected by fastener 5.Preferably, external gear 3 and external gear 1 also can integrally at
Type.
Input gear group ZiIn, input shaft 2 is connected with external gear 3, and external gear 3 is intermeshed with internal gear 4, and is being inputted
Under the driving of axis 2, revolution and rotation are done around internal gear 4.External gear 3 drives the revolution of external gear 1 and rotation, and external gear 3 simultaneously
There are a small amount of difference with the diameter of external gear 1.Internal gear 6 is engaged with external gear 3, compensates differences in motion caused by a small amount of difference, and
Output shaft 7 is driven, realizes and slows down.
If d1, d3, d4, d6The respectively pitch diameter of gear 1, gear 3, gear 4, gear 6, the then deceleration under the program
Than for
η=d1d4/(d2d4-d1d3)
With embodiment 1 it is found that by controlling d1With d3Between difference, it can be achieved that reduction ratio control.d1With d3Between difference
Not smaller, reduction ratio is bigger.d1= d3When, reduction ratio is infinity.
Fig. 4 is the 4th embodiment of the present invention, in the present embodiment, ZiWith ZoUsing non-mirror image Path of Force Transfer.Reference chart
4, the input gear group ZiIt is made of external gear 1, internal gear 4, input shaft 7, wherein external gear 1 is the defeated of input gear group
Outlet G1.The output gear group ZoIt is made of external gear 6, internal gear 3 and output shaft 5.Wherein, external gear 6 inputs for output end
Gear G2.In input gear group Zi, external gear 1 is intermeshed with internal gear 4, and external gear 1 is realized under the drive of input shaft 7
Revolution and rotation.Output gear group ZoIn, external gear 6 is connected with output shaft 5, and is intermeshed with internal gear 3, and can be along internal tooth
3 revolution of wheel and rotation.External gear 1 is connected with internal gear 3 by fastening connection piece 2, and poor with certain size.External gear 1
Under the driving of drive shaft 7, the revolution of internal gear 3 and rotation are driven, the lack of exercise during this is compensated by external gear 6, and lead to
The output movement of output shaft 5 is crossed, realizes and slows down.
Reduction ratio calculating is carried out to the present embodiment, formula is the same as embodiment 3.
The above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although with reference to preferred embodiment to this hair
It is bright to be described in detail, it will be understood by those of ordinary skill in the art that, it can modify to technical scheme of the present invention
Or equivalent replacement should all cover the claim in the present invention without departing from the objective and range of technical solution of the present invention
In range.
Claims (4)
1. a kind of differential compensating pinion retarder, which is characterized in that the retarder includes at least at least one set of input gear group
Z i , at least one set of output gear group Z o ;Input gear group Z i Including at least one input shaft, one has revolution Ω simultaneouslyi1With oneself
Turn Ωr1Gear G1, output gear group Z o There is revolution Ω simultaneously including at least one output shaft and oneo1With rotation Ωo2's
Gear G2, and G1With G2It is connected or is connected by mechanism.
2. differential compensating pinion retarder described in claim 1, it is characterised in that:Input gear group ZiIt is inputted including at least one
Axis, and other gears or mechanism driving gear G1Realize revolution and rotation.
3. differential compensating pinion retarder described in claim 1, it is characterised in that:Output gear group ZoOther gears or machine
Structure is in G2Driving is lower to realize output.
4. differential compensating pinion retarder described in claim 1, it is characterised in that:The retarder is by controlling G1With G2Between
Parameter difference control reduction ratio.
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CN201820139425.4U CN207762197U (en) | 2018-01-27 | 2018-01-27 | A kind of differential compensating pinion retarder |
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CN201820139425.4U CN207762197U (en) | 2018-01-27 | 2018-01-27 | A kind of differential compensating pinion retarder |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109931369A (en) * | 2019-04-16 | 2019-06-25 | 高昌德 | A kind of synchronization discrepancy benefit retarder |
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2018
- 2018-01-27 CN CN201820139425.4U patent/CN207762197U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109931369A (en) * | 2019-04-16 | 2019-06-25 | 高昌德 | A kind of synchronization discrepancy benefit retarder |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180824 Termination date: 20190127 |