CN207213111U - Vibration damping support device for the gear-box of wind power generating set - Google Patents
Vibration damping support device for the gear-box of wind power generating set Download PDFInfo
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- CN207213111U CN207213111U CN201721208820.5U CN201721208820U CN207213111U CN 207213111 U CN207213111 U CN 207213111U CN 201721208820 U CN201721208820 U CN 201721208820U CN 207213111 U CN207213111 U CN 207213111U
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- vibration damping
- support device
- housing
- damping support
- shell
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Abstract
The utility model discloses a kind of vibration damping support device of the gear-box for wind power generating set, including:The housing of cylinder;Mandrel, its one end extends out through housing, for being connected with gear-box;It is arranged in housing and is spaced two elastic components turned up the soil and be set on mandrel.The two elastic components are configured to volute spring, and its taper direction is arranged to opposite each other.Wherein, housing includes upper half-shell and housing lower half, at least one boss for including the frustum form in center in them.
Description
Technical field
It the utility model is related to a kind of vibration damping support device of the gear-box for wind power generating set.
Background technology
Wind energy has received the extensive attention of countries in the world as a kind of regenerative resource of cleaning.Wind-power electricity generation is
Refer to the kinetic energy kept watch and be converted into electric energy.It is very environmentally friendly using wind-power electricity generation, and can caused by electric energy it is very huge.With the world
Wind-power market maximization, the development trend of offshore, the high-power wind-driven generator group of MW class will turn into main flow.
When the blade of blower fan is rotated and swung, wheel hub can give each transmission parts of Wind turbines to transmit very big effect
Power, so as to cause the vibration of each parts and produce noise.Therefore, the design of the damping system of all parts is particularly heavy
Will.In order to ensure the even running of each parts in the transmission system of wind power generating set, and system operation institute is reduced as far as possible
Caused noise and vibration is, it is necessary to using corresponding vibration damping anti-noise measure.Wherein, the vibration damping of gear-box is particularly important, it is necessary to sets
Count suitable vibration reduction support.In order to buffer the torsional moment that main shaft passes to gear-box, the vibration-damping supporting structure of gear-box needs
Load it is larger reversely larger bearing capacity is provided as far as possible.
In the prior art, the vibration damping support device of gear-box includes housing.Mandrel extends out out of housing, and is used for
It is connected with ring flange, to bear the vibration from gear-box by ring flange.In the inside of housing, two volute spring arrangements
On mandrel, to provide effectiveness in vibration suppression.For the sake of processing and installation convenience, housing is usually disposed as including upper and lower two half-shells
Body, they are bolted.
It is also required to be designed as because the whole height of housing is higher, therefore for connecting the bolt of upper and lower two half shells
It is longer.However, due to being connected with ring flange above mandrel, the ring flange can produce an interference effect in height, cause
Long bolt can not be inserted from above into bolt hole, thus brings many troubles in assembling.
Further, since volute spring and mandrel are arranged in the housing of vibration damping support device, it is necessary to bear larger shake
Power, therefore housing needs have very high strength and stiffness.In this case, the weight of housing is inevitably very
Greatly.This is obviously unfavorable for further improving effectiveness in vibration suppression.
Utility model content
For above-mentioned technical problem, the utility model aims to provide a kind of vibration damping of the gear-box for wind power generating set
Support meanss, it can be convenient for assembly, while lighter in weight.
Therefore, according to the utility model, there is provided a kind of vibration damping support device of gear-box for wind power generating set,
Including:The housing of cylinder;Mandrel, one end of the mandrel extends out through the housing, for being connected with gear-box;
It is arranged in the housing and is spaced two elastic components turned up the soil and be set on the mandrel, described two equal structures of elastic component
Make and be arranged to opposite each other for volute spring, its taper direction.Wherein, the housing includes upper half-shell and housing lower half, institute
State at least one boss for including the frustum form in center in upper half-shell and housing lower half.
In a preferred embodiment, the height of the boss is chosen to (0.05-0.1) * H, and wherein H is the upper half
The height of housing or housing lower half.
In a preferred embodiment, the upper half-shell and housing lower half are respectively provided with circumferentially is arranged on outside it in uniform way
Some U-lags of all sides, connector link together the upper half-shell and housing lower half through the U-lag, its
In, each U-lag includes the circular arc portion of radially inner side, and the slot-open-section of radial outside, wherein, the notch
The width divided is more than the diameter of the connector.
In a preferred embodiment, the diameter of the circular arc portion is more than the width of the slot-open-section.
In a preferred embodiment, the substrate diameter of a circle of the boss is than the bottom land center institute by each U-lag
Imaginary diameter of a circle small (0.5-1) the * R, wherein R of composition are the radius of the circular arc portion of the U-lag.
In a preferred embodiment, it is at least one including being opened in outside it in the upper half-shell and housing lower half
Through hole on all sides, the through hole in the vertical direction are in the region of the elastic component.
In a preferred embodiment, the through hole is formed as mounting hole, its Longitudinal extending direction and vertical direction weight
Close.
In a preferred embodiment, the mandrel includes shoulder, and the shoulder both sides are equipped with inclined-plane, to install
The volute spring.
In a preferred embodiment, the mandrel is connected by ring flange with gear-box.
Brief description of the drawings
Embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings, in figure:
Fig. 1 shows the overall structure diagram according to vibration damping support device of the present utility model.
Fig. 2 shows the viewgraph of cross-section of the upper half-shell in vibration damping support device of the present utility model.
Fig. 3 shows the stereogram of the upper half-shell in vibration damping support device of the present utility model.
Embodiment
The utility model is described further below in conjunction with the drawings and specific embodiments.It should be noted that this reality
It is to be directed to institute's reference with the new middle Directional terms used or determiner " on ", " under ", "left", "right", " interior ", " outer " etc.
Accompanying drawing for.They are not used to limit the absolute position of involved parts, but can change as the case may be.
Fig. 1 shows the overall structure of vibration damping support device 100, and the vibration damping support device 100 is particularly useful for wind-force
The vibration damping of the gear-box of generating set.As illustrated, the vibration damping support device 100 includes housing.In this embodiment, housing bag
Upper half-shell 10 and housing lower half 20 are included, they have collectively constituted a complete confined space.
Vibration damping support device 100 also includes mandrel 30, and it is positioned partially in housing, and is placed through upper half-shell 10
Opening 11 in top and extended out from housing.The upper end of mandrel 30 is connected on ring flange 40, and passes through ring flange 40
Bear the torsional moment from vibration source (such as gear-box of wind power generating set).The region in housing on mandrel 30 is set
There is shoulder 31, its both sides is respectively equipped with inclined-plane.
The elastic component 50 in top and the elastic component 50 being below are disposed with the inner space of housing.The two
Elastic component is configured to volute spring, and their taper direction is opposite each other, is respectively facing the axle of upper shell 10 and lower house 20
It is gradually reduced, and is arranged on the inclined-plane of the both sides of shoulder 31 laterally.Two elastic components 50 use and are embedded with metal bone
The elastic rubbery body of frame.Metallic framework is generally formed by the metal partion (metp) of multiple substantially equalitys each other.Mandrel 30, the and of ring flange 40
The structure of the elastic component 50 of volute spring formula is well known to the skilled artisan in the art, for the sake of saving length, herein
In omit its detailed description.
As described above, the housing of vibration damping support device 100 includes upper half-shell 10 and housing lower half 20.The two half shells
With substantially the same structure, therefore hereinafter illustrated for convenience of for the sake of by taking upper half-shell 10 as an example.Such as without spy
Do not mentionlet alone bright, all structural descriptions for upper half-shell 10 are applied to housing lower half 20.
Fig. 2 and 3 respectively illustrates the cross section of the upper half-shell 10 in vibration damping support device 100 of the present utility model
View and stereogram.As illustrated, upper half-shell 10 is constructed to the form of generally cylindrical body.It is outside in the week of upper half-shell 10
Side is provided with the substantially u-shaped groove 12 of a circle.Preferably, U-lag 12 is arranged uniformly in the circumferential direction, and along upper half-shell 10
Axially through whole upper half-shell 10 (as shown in Figure 3).In the illustrated embodiment, it is disposed with 16 U-lags 12 altogether, adjacent two
22.5 degree are spaced between individual U-lag 12.One circle U-shaped of outer circumferential of these U-lags 12 with being similarly disposed at housing lower half 20
Groove 12 is in alignment with each other (see Fig. 1), and unshowned connector (such as bolt-nut connector) extends there through, so as to by upper half shell
Body 10 and housing lower half 20 are connected to each other.
As shown in Fig. 2 U-lag 12 includes the circular arc portion 12A positioned at radially inner side, and opening wide positioned at radial outside
Slot-open-section 12B.Slot-open-section 12B width is arranged to be slightly larger than the company for being used for connecting upper half-shell 10 and housing lower half 20
The diameter of fitting (such as bolt), so that connector can be inserted into U-lag 12 from shown in side along arrow A.Additionally, it is preferred that
It is that circular arc portion 12A diameter is chosen to the width slightly larger than slot-open-section 12B so that bolt can be in U-lag 12 freely
Ground rotates.
Because the height of housing is typically greater than housing the distance between to ring flange, therefore, for connecting upper half-shell
10 and the connector (such as bolt) of housing lower half 20 can not be assembled because of the interference effect of ring flange above housing, because
And bring great inconvenience to assembly working.According to the utility model, by being provided in upper half-shell 10 and housing lower half 20
U-lag 12 as described above, connector just can be radially inserted into U-lag 12 from side, so as to connect upper half shell
Body 10 and housing lower half 20.Therefore, the interference effect of ring flange is avoided, and is capable of the dress of upper half-shell 10 and housing lower half 20
With can easily carry out.
In addition, by opening up U-lag 12 as described above in upper half-shell 10 and the circumferential lateral surface of housing lower half 20, have
Eliminate to effect a part of material of upper half-shell 10 and housing lower half 20 so that upper half-shell 10 and the weight of housing lower half 20
Great mitigation is obtained.Simultaneously as U-lag 12 is only opened in the circumferential lateral surface of housing, therefore the rigidity of whole housing
Will not be significantly affected with intensity.By this design, the overall weight of vibration damping support device 100 is dropped simultaneously
It is low, be advantageous to the raising of effectiveness in vibration suppression.
In order to further mitigate the overall weight of vibration damping support device 100, according to the utility model, in upper half-shell 10
A part for radial outside has been cut off on top surface, has formd the boss 13 of a frustum form in center, such as Fig. 1 and
Shown in 3.The substrate diameter of a circle of the boss 13 is slightly less than the straight of the imaginary circle that is made up of the bottom land center of each U-lag 12
Footpath.Preferably, the substrate diameter of a circle of the boss 13 is than the imaginary diameter of a circle that is made up of the bottom land center of each U-lag 12
Small (0.5-1) * R, wherein R are the circular arc portion 12A of U-lag 12 radius.In addition, the height of the boss 13 for example may be selected to
(0.05-0.1) * H, wherein H are the height of upper half-shell 10.By this design, on the one hand can mitigate to greatest extent on
The weight of half shell 10, it on the other hand can ensure that upper half-shell 10 has enough strength and stiffness, because its center
The thickness in region keeps constant.
It is although not shown in figure, it being understood, however, that if desired, can also be on the bottom surface of housing lower half 20
Similar boss is formed by material removal.
In order to further mitigate the overall weight of vibration damping support device 100, according to the utility model, in upper half-shell 10
Through hole 16 is provided with (between i.e. two neighboring U-lag 12) in circumferential lateral surface 15, as shown in figs. 1 and 3.The through hole 16 radially runs through
The side wall of upper half-shell 10.So, the portion of material of upper half-shell 10 is on the one hand eliminated by perforate, alleviates vibration damping branch
The overall weight of support arrangement 100.On the other hand, by properly selecting the position of through hole 16 so that through hole 16 is in vertical direction
In the upper region in elastic component 50, so as to easily observe the working condition of elastic component 50 by through hole 16.Such as
Known to a person skilled in the art, elastic component 50 is the strength member of vibration damping support device 100, and it is continually by very big friendship
Varying stress, working environment is severe, easily breaks down.By setting through hole 16, it becomes possible to which easily observing elastic component 50 is
It is no to occur damaging or run improper, so as to take appropriate maintenance measures, or even change elastic component 50.
In one embodiment, through hole 16 is preferably formed to mounting hole, the Longitudinal extending direction of the mounting hole with it is vertical
Direction overlaps.So, the more multizone of elastic component 50 is able to observe that by through hole 16, so as to preferably to elastic component 50
Working condition judged.The quantity of through hole 16 can be as the case may be needs select, be arranged circumferentially for
Preferably.
According to the utility model, by the upper half-shell 10 of vibration damping support device 100 and the outer circumferential side of housing lower half 20
One circle U-lag 12 is provided on face, connector (such as bolt) just can be radially inserted into U-lag 12 from side, from
And upper half-shell 10 and housing lower half 20 can be easily connected, avoid the interference effect of ring flange.Meanwhile these U-lags
12 also act the effect for the overall weight for mitigating vibration damping support device 100, are advantageous to the raising of effectiveness in vibration suppression.
In addition, according to the utility model, in the top surface and/or housing lower half of the upper half-shell 10 of vibration damping support device 100
Boss is formed by excision material on 20 bottom surface, so as to also alleviate the whole of vibration damping support device 100 to a certain extent
Body weight.
In addition, according to the utility model, in the upper half-shell 10 of vibration damping support device 100 and/or the side of housing lower half 20
Through hole 16 is provided with face, so as to alleviate the overall weight of vibration damping support device 100 to a certain extent.Meanwhile these through holes
16 provide the convenient means for observing the elastic component 50 in housing, and facility can monitor the work shape of elastic component 50 in time
Condition.
Simple structure is had according to vibration damping support device of the present utility model, had convenient for assembly, mitigation weight good
Good effect.
Finally it should be noted that the foregoing is only preferred embodiment of the present utility model, do not form to this
Any restrictions of utility model.Although the utility model is described in detail with reference to foregoing embodiments, for
For those skilled in the art, the technical scheme described in previous embodiment can still be modified, or to wherein
Some technical characteristics carry out equivalent substitution.All any modifications within the spirit and principles of the utility model, made, equally replace
Change, improve, all should include within the scope of protection of the utility model.
Claims (9)
1. a kind of vibration damping support device of gear-box for wind power generating set, including:
The housing of cylinder;
Mandrel, one end of the mandrel extends out through the housing, for being connected with the gear-box;
It is arranged in the housing and is spaced two elastic components turned up the soil and be set on the mandrel, described two elastic components
Be configured to volute spring, its taper direction be arranged to it is opposite each other,
Wherein, the housing includes upper half-shell and housing lower half, at least one bag in the upper half-shell and housing lower half
Include the boss of the frustum form in center.
2. vibration damping support device according to claim 1, it is characterised in that the height of the boss is chosen to (0.05-
0.1) * H, wherein H are the upper half-shell or the height of housing lower half.
3. vibration damping support device according to claim 1 or 2, it is characterised in that the upper half-shell and housing lower half are equal
With the circumferential some U-lags for being arranged on its circumferential lateral surface in uniform way, connector is through the U-lag and by the upper half-shell
Linked together with housing lower half, wherein, each U-lag includes the circular arc portion of radially inner side, and radial outside
Slot-open-section, wherein, the width of the slot-open-section is more than the diameter of the connector.
4. vibration damping support device according to claim 3, it is characterised in that the diameter of the circular arc portion is more than the groove
The width of oral area point.
5. vibration damping support device according to claim 3, it is characterised in that the substrate diameter of a circle ratio of the boss is by each
Imaginary diameter of a circle small (0.5-1) the * R, wherein R that the bottom land center of individual U-lag is formed are the circular arc portion of the U-lag
Radius.
6. vibration damping support device according to claim 1 or 2, it is characterised in that in the upper half-shell and housing lower half
At least one through hole including being opened in its circumferential lateral surface, the through hole in the vertical direction is in the area of the elastic component
In domain.
7. vibration damping support device according to claim 6, it is characterised in that the through hole is formed as mounting hole, its longitudinal direction
Bearing of trend overlaps with vertical direction.
8. vibration damping support device according to claim 1 or 2, it is characterised in that the mandrel includes shoulder, the shoulder
Both sides are equipped with inclined-plane, to install the volute spring respectively.
9. vibration damping support device according to claim 1 or 2, it is characterised in that the mandrel passes through ring flange and gear
Case is connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721208820.5U CN207213111U (en) | 2017-09-20 | 2017-09-20 | Vibration damping support device for the gear-box of wind power generating set |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721208820.5U CN207213111U (en) | 2017-09-20 | 2017-09-20 | Vibration damping support device for the gear-box of wind power generating set |
Publications (1)
Publication Number | Publication Date |
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CN207213111U true CN207213111U (en) | 2018-04-10 |
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ID=61821865
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721208820.5U Active CN207213111U (en) | 2017-09-20 | 2017-09-20 | Vibration damping support device for the gear-box of wind power generating set |
Country Status (1)
Country | Link |
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CN (1) | CN207213111U (en) |
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2017
- 2017-09-20 CN CN201721208820.5U patent/CN207213111U/en active Active
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