CN207212968U - A kind of submissive hinge of pectination damping structure breach type - Google Patents
A kind of submissive hinge of pectination damping structure breach type Download PDFInfo
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- CN207212968U CN207212968U CN201721097368.XU CN201721097368U CN207212968U CN 207212968 U CN207212968 U CN 207212968U CN 201721097368 U CN201721097368 U CN 201721097368U CN 207212968 U CN207212968 U CN 207212968U
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- hinge
- breach
- pectinate texture
- submissive
- pectination
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Abstract
The utility model discloses a kind of submissive hinge of pectination damping structure breach type, including left side hinge connection end, breach hinge, left side pectinate texture, viscoelastic damping material, right side pectinate texture, right side side hinge connection end;One end of left side pectinate texture is fixed on the left of the breach of breach hinge in side wall;One end of left side pectinate texture is fixed on the left of the breach of breach hinge in side wall;Left side pectinate texture is extended from left to right with parallel equidistant gap along the breach of breach hinge;One end of right side pectinate texture is fixed in the breach right sidewall of breach hinge;Right side pectinate texture is extended from right to left with parallel equidistant gap along the breach of breach hinge;This submissive hinge meets the requirement of the rigidity of submissive hinge, rotation precision and rotational angle;Technological means is simple and easy, using the power consumption effect of visco-elastic damping material, realizes the vibration suppression to submissive hinge.
Description
Technical field
It the utility model is related to submissive in the precision assembly technical field such as precision positioning, accurate measurement and precision manufactureing
Hinge, more particularly to a kind of submissive hinge of pectination damping structure breach type.
Background technology
Precision assembly technical field reaches micro-nano rank for positioning accuracy request, is being positioned such that the requirement of precision
Under, conventional rigid mechanism needs to transmit the characteristic of power or motion just into further raising positioning precision by kinematic pair in itself
Obstacle.So the reason for is:1st, kinematic pair can have certain mismachining tolerance in process, so as to cause between kinematic pair
The generation of gap;2nd, kinematic pair continuous phase mutual friction of meeting during power or motion is transmitted, can cause the abrasion of kinematic pair;3、
When under miniature scale, kinematic pair is not easy to assemble.And compliant mechanism because its using self-deformation come the transmission transmitting or change power
Mode, obtain fast development in precision assembly field quickly.Submissive hinge is the key component of compliant mechanism again.Common is submissive
Hinge is usually the submissive hinge of breach type, including just round submissive hinge, the round submissive hinge in angle, the submissive hinge of ellipse, leaf
Submissive hinge of type etc..There is advantages below compared with traditional rigid hinge:First, submissive hinge is passed using the deformation of itself
Power is passed or changes, without assembling, so that its structure is compacter;Secondly, submissive hinge does not have the fortune of traditional rigid hinge
Dynamic pair, also eliminates the need for gap and the abrasion of the kinematic pair of rigid hinge, so that its positioning is accurate higher.Based on submissive hinge
Above-mentioned advantage, it is in precision positioning, accurate measurement and precision manufactureing, such as micro-clamp, bridge-type enlarger, and 3RRR is accurate fixed
The precision assembly technical field such as bit platform, AFM is widely used.But the submissive hinge structural damping of itself
Very little, almost it can be ignored, this prevents submissive hinge to being shaken in precision assembly due to remaining caused by high frequency pumping
Quiver and play good inhibiting effect.
To solve this problem, people improve its dynamic frequently with the mode for increasing structural damping to submissive hinge
Energy.It is in submissive hinge surface additional layer visco-elastic damping material that the mode of increase structural damping, which has a variety of, conventional one kind,
(visco-elastic damping material is high molecular polymer and the compound system of various additives, can be by the extruding of itself, shearing, curved
Song deformation dissipates energy in a manner of heat energy, and also known as it has damping characteristic).Such as a kind of U-shaped occurred in the market
Submissive hinge, the mode of visco-elastic damping material is pasted on hinge increases structural damping.But this mode does not apply to simultaneously
The other kinds of submissive hinge of breach type.
The content of the invention
The shortcomings that the purpose of this utility model is to overcome above-mentioned prior art and deficiency, there is provided a kind of pectination damping structure
The submissive hinge of breach type.The utility model increases pectinate texture in the indentation, there of the submissive hinge of breach type, does not influence former breach type
The scope of application of submissive hinge;The utility model is in the case where meeting the requirement of submissive hinge stiffness, rotation precision and rotational angle, profit
With the damping characteristic of visco-elastic damping material, further increase the structural damping of submissive hinge.
The utility model is achieved through the following technical solutions:
A kind of submissive hinge of pectination damping structure breach type, including left side hinge connection end 1, breach hinge 2, left side pectination
Structure 3, viscoelastic damping material 4, right side pectinate texture 5, right side side hinge connection end 6;
One end of the left side pectinate texture 3 is fixed on the left of the breach of breach hinge 2 in side wall;Left side pectinate texture 3
With parallel equidistant gap, extend from left to right along the breach of breach hinge 2;
One end of the right side pectinate texture 5 is fixed in the breach right sidewall of breach hinge 2;Right side pectinate texture 5
With parallel equidistant gap, extend from right to left along the breach of breach hinge 2;
The left side pectinate texture 3 and right side pectinate texture 5 are respectively at 2 distribution symmetrical above and below of breach hinge;
The viscoelastic damping material 4 is filled between left side pectinate texture 3 and right side pectinate texture 5;
Left side hinge connection end 1 and right side hinge connection end 6 can be used as input or output end, when wherein one end is strong
Input, produce displacement output when, breach hinge 2 will deform;Now, because of left side pectinate texture 3, right side pectinate texture
5 are separately fixed at the not homonymy of breach hinge 2, and relative motion can be produced between left side pectinate texture 3 and right side pectinate texture 5,
The viscoelastic damping material 4 between left side pectinate texture 3 and right side pectinate texture 5 is set to produce detrusion.
The left side pectinate texture 3, right side pectinate texture 5, viscoelastic damping material 4 are used as a cell array, it
It is staggered from front to back along breach hinge 2.
The breach hinge 2 is just round submissive hinge.The breach hinge 2 can also be the submissive hinge of blade profile.
Viscoelastic damping material 4 is also filled with the breach hinge 2.
The viscoelastic damping material 4 is only filled between left side pectinate texture 3 and right side pectinate texture 5.
The left side hinge connection end 1, breach hinge 2, left side pectinate texture 3, right side pectinate texture 5 and right side side hinge
Connection end 6 is integrated.
The utility model is had the following advantages and effect relative to prior art:
When the submissive hinge of breach type by external force when being deformed:
(1) because left side pectinate texture, right side pectinate texture are separately fixed at the not homonymy of the breach of the submissive hinge of breach type,
Relative motion can be produced between left side pectinate texture and right side pectinate texture;
(2) by viscous between left side pectinate texture and visco-elastic damping material and right side pectinate texture and viscoelastic material
The adhesiveness of elastic damping material itself connects, and ensure that between left side pectinate texture and visco-elastic damping material and right
Relative displacement will not be produced between side pectinate texture and visco-elastic damping material, or caused relative displacement is very small to ignore
Disregard;
(3) left side pectinate texture and right side pectinate texture between relative motion, meeting and drive be located at left side pectinate texture
Visco-elastic damping material between the pectinate texture of right side produces detrusion;
(4) fixed interval (FI) that the breach of left side pectinate texture, right side pectinate texture and the submissive hinge of breach type is kept, ensures
Left side pectinate texture, right side pectinate texture will not contact with the submissive hinge of breach type;
(5) between left side pectinate texture and the submissive hinge of breach type and the submissive hinge of right side pectinate texture and breach type is protected
The fixed interval (FI) held can produce change, so that positioned at left side pectinate texture and the submissive hinge of breach type and right side pectinate texture
Visco-elastic damping material between the submissive hinge of breach type produces crimp.
The extruding and detrusion of visco-elastic damping material cause the internal friction of visco-elastic damping material, utilize viscoplasticity
The power consumption effect of damping material, realizes the vibration suppression to submissive hinge.
In summary, the utility model increases pectinate texture in the indentation, there of the submissive hinge of breach type, does not influence former breach
The scope of application of the submissive hinge of type;
It is simple for structure, just with processing, implementing.
The structural damping of the submissive hinge of breach type is effectively raised, has reached the effect of vibration suppression.
The structural damping parametrization of the submissive hinge of breach type, reaches to vibration suppression and more accurately controls.
Brief description of the drawings
Fig. 1 is the dimensional structure diagram one of the utility model embodiment 1.
Fig. 2 is Fig. 1 overlooking the structure diagram.
Fig. 3 is the dimensional structure diagram two of embodiment 1.
Fig. 4 is Fig. 3 overlooking the structure diagram.
Fig. 5 is the dimensional structure diagram of the utility model embodiment 2.
Fig. 6 is Fig. 5 overlooking the structure diagram.
Embodiment
The utility model is more specifically described in detail with reference to specific embodiment.
Embodiment 1
As shown in Figures 1 to 4.The utility model discloses a kind of submissive hinge of pectination damping structure breach type, its feature exists
In:Including left side hinge connection end 1, breach hinge 2, left side pectinate texture 3, viscoelastic damping material 4, right side pectinate texture
5th, right side side hinge connection end 6;
One end of the left side pectinate texture 3 is fixed on the left of the breach of breach hinge 2 in side wall;Left side pectinate texture 3
With parallel equidistant gap, extend from left to right along the breach of breach hinge 2;
One end of the right side pectinate texture 5 is fixed in the breach right sidewall of breach hinge 2;Right side pectinate texture 5
With parallel equidistant gap, extend from right to left along the breach of breach hinge 2;
The left side pectinate texture 3 and right side pectinate texture 5 are respectively at 2 distribution symmetrical above and below of breach hinge;
The viscoelastic damping material 4 is filled between left side pectinate texture 3 and right side pectinate texture 5;
Left side hinge connection end 1 and right side hinge connection end 6 can be as inputs or output end (depending on the mechanism connected
Depending on working condition), when the input that wherein one end is strong, when producing displacement output, breach hinge 2 will deform;Now,
Because left side pectinate texture 3, right side pectinate texture 5 are separately fixed at the not homonymy of breach hinge 2, left side pectinate texture 3 and right side
Relative motion can be produced between pectinate texture 5, hinders the viscoplasticity between left side pectinate texture 3 and right side pectinate texture 5
Damping material layer 4 produces detrusion.
The left side pectinate texture 3, right side pectinate texture 5, viscoelastic damping material 4 are used as a cell array, it
It is staggered from front to back along breach hinge 2.
The breach hinge 2 is just round submissive hinge.
Viscoelastic damping material 4 is also filled with the breach hinge 2.
The left side hinge connection end 1, breach hinge 2, left side pectinate texture 3, right side pectinate texture 5 and right side side hinge
Connection end 6 is integrated.
By viscoelastic damping material 4, the adhesiveness of itself has connected left side pectinate texture 3 with right side pectinate texture 5
Come, make that relative displacement, or production will not be produced between left side pectinate texture 3, right side pectinate texture 5 and viscoelastic damping material 4
Raw relative displacement is very small to be can be ignored.
The fixed interval (FI) that left side pectinate texture 3, right side pectinate texture 5 are kept with breach hinge 2, it ensure that left side pectination knot
Structure 3, right side pectinate texture 5 will not contact with breach hinge 2.
Viscoelastic damping between left side pectinate texture 3 and breach hinge 2 and right side pectinate texture 5 and breach hinge 2
Material layer 4 can produce crimp.
Shearing, the crimp of viscoelastic damping material 4 cause the internal friction of visco-elastic damping material, cause energy
Loss, realizes the vibration suppression to submissive hinge.
As shown in Fig. 3 and Fig. 4;It can pass through:
(1) adjust the thickness h 1 of pectinate texture, the width t3 of left side pectinate texture 3, right side pectinate texture width t1 with
And the width t2 of viscoelastic damping material 4 adjusts the detrusion of visco-elastic damping material;
(2) the gap h2 of pectinate texture and breach hinge 2 is adjusted to adjust positioned at left side pectinate texture 3 and breach hinge 2
And between right side pectinate texture 5 and breach hinge 2 viscoelastic damping material 4 crimp.This example is applied to submissive
Hinge high frequency flutter degree is higher, and higher situation is required to structural damping.
Embodiment 2
As shown in Figure 5, Figure 6.For the present embodiment in addition to following characteristics, other features are same as Example 1.
The breach hinge 2 is the submissive hinge of blade profile.
The viscoelastic damping material 4 is only filled between left side pectinate texture 3 and right side pectinate texture 5.
The viscoelastic damping material 4 of this example is only filled between left side pectinate texture 3 and right side pectinate texture 5.Its
Influence to the rigidity of the former submissive hinge of breach type, rotation precision and rotational angle is smaller.This example is applied to large deformation, big resistance
In the case of Buddhist nun.
As described above, it can preferably realize the utility model.
Embodiment of the present utility model is simultaneously not restricted to the described embodiments, and other are any without departing from of the present utility model
Spirit Essence with made under principle change, modification, replacement, combine, simplification, should be equivalent substitute mode, be included in
Within the scope of protection of the utility model.
Claims (7)
- A kind of 1. submissive hinge of pectination damping structure breach type, it is characterised in that:Cut with scissors including left side hinge connection end (1), breach Chain (2), left side pectinate texture (3), viscoelastic damping material (4), right side pectinate texture (5), right side side hinge connection end (6);One end of the left side pectinate texture (3) is fixed on the left of the breach of breach hinge (2) in side wall;Left side pectinate texture (3) with parallel equidistant gap, the breach along breach hinge (2) extends from left to right;One end of the right side pectinate texture (5) is fixed in the breach right sidewall of breach hinge (2);Right side pectinate texture (5) with parallel equidistant gap, the breach along breach hinge (2) extends from right to left;The left side pectinate texture (3) and right side pectinate texture (5) are respectively at breach hinge (2) distribution symmetrical above and below;The viscoelastic damping material (4) is filled between left side pectinate texture (3) and right side pectinate texture (5);Left side hinge connection end (1) and right side hinge connection end (6) can be used as input or output end, when wherein one end is strong Input, produce displacement output when, breach hinge (2) will deform;Now, because of left side pectinate texture (3), right side pectination Structure (5) is separately fixed at the not homonymy of breach hinge (2), can be produced between left side pectinate texture (3) and right side pectinate texture (5) Raw relative motion, produces the viscoelastic damping material (4) between left side pectinate texture (3) and right side pectinate texture (5) Raw detrusion.
- 2. the submissive hinge of pectination damping structure breach type according to claim 1, it is characterised in that:The left side pectinate texture (3), right side pectinate texture (5), viscoelastic damping material (4) are used as a cell array, and they are along breach hinge (2) by preceding To rear staggered.
- 3. the submissive hinge of pectination damping structure breach type according to claim 2, it is characterised in that:The breach hinge (2) Notch geometry be just round submissive hinge.
- 4. the submissive hinge of pectination damping structure breach type according to claim 3, it is characterised in that:The breach hinge (2) Inside it is also filled with viscoelastic damping material (4).
- 5. the submissive hinge of pectination damping structure breach type according to claim 2, it is characterised in that:The breach hinge (2) Notch geometry be the submissive hinge of blade profile.
- 6. the submissive hinge of pectination damping structure breach type according to claim 5, it is characterised in that:The viscoelastic damping material The bed of material (4) is only filled between left side pectinate texture (3) and right side pectinate texture (5).
- 7. the submissive hinge of pectination damping structure breach type according to any one of claim 1 to 6, it is characterised in that:It is described Left side hinge connection end (1), breach hinge (2), left side pectinate texture (3), right side pectinate texture (5) and the hinge connection of right side side End (6) is integrated.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107401558A (en) * | 2017-08-30 | 2017-11-28 | 华南理工大学 | A kind of submissive hinge of pectination damping structure breach type |
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2017
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107401558A (en) * | 2017-08-30 | 2017-11-28 | 华南理工大学 | A kind of submissive hinge of pectination damping structure breach type |
CN107401558B (en) * | 2017-08-30 | 2024-01-23 | 华南理工大学 | Notch type compliant hinge with comb-shaped damping structure |
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Granted publication date: 20180410 Termination date: 20200830 |
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CF01 | Termination of patent right due to non-payment of annual fee |