CN108571552A - A kind of adjustable single-degree-of-freedom damper of rigidity - Google Patents

Abstract

The present invention discloses a kind of adjustable single-degree-of-freedom damper of rigidity.The damper includes a hexahedron air cavity shell, six piston rods, six dielectric elastomeric films and two eddy current retarders；Through-hole there are one being opened up at the middle part in each face of air cavity shell, a piece of dielectric elastomeric film is sealed in each through hole；It is filled with compressed air in air cavity shell；Six piston rod difference faces, six through-hole settings, one end of each piston rod fits closely and is fixedly connected with corresponding dielectric elastomeric film；The central shaft of piston rod is conllinear with the central axis of corresponding through-hole；One end of the separate through-hole of the piston rod of top and bottom is connected by one end of connecting rod and the separate through-hole of the piston rod of side；Two eddy current retarders are separately mounted to the side of the close through-hole of the piston rod positioned at top and bottom, and the piston rod of top and bottom is threaded through the center of corresponding eddy current retarder respectively.The present invention can effectively reduce the rigidity of air spring, and realize that rigidity is adjustable.

Description

A kind of adjustable single-degree-of-freedom damper of rigidity

Technical field

The present invention relates to mechanical engineering vibration isolation and damping technical fields, subtract more particularly to a kind of adjustable single-degree-of-freedom of rigidity Shake device.

Background technology

Damper is the important equipment for being widely used in the industries such as machinery, building and realizing damping effect.The type of damper Very much, such as spring cushion, rubber shock absorber, damping shock absorber, air spring vibration reduction device, magneto-rheological vibration damper and various mixed Close damper etc..Air spring is widely used with its stronger static load ability.

It is well known that only when the frequency w of extraneous vibration is more than damper intrinsic frequency w_n'sTimes when can just play and subtract It shakes effect, therefore in order to adapt to the vibration of different frequency, can be realized by reducing the intrinsic frequency of vibration isolator.Again due to every It shakes the intrinsic frequency of deviceCan by reduce vibration isolator rigidity or increase need by the quality of vibration damping object come Reduce the intrinsic frequency of vibration isolator.Damper load can be caused to increase in view of quality m is increased, therefore reduce rigidity k into relatively reason The selection thought.However the rigidity of air spring is larger, it is limited to the inhibition of low-frequency vibration so as to cause it.

Invention content

The object of the present invention is to provide a kind of adjustable single-degree-of-freedom dampers of rigidity, effectively reduce the rigid of air spring Degree, and realize that rigidity is adjustable.

To achieve the above object, the present invention provides following schemes：

A kind of adjustable single-degree-of-freedom damper of rigidity, including a hexahedron air cavity shell, six piston rods, six Jie Electric elastic membrane and two eddy current retarders；Through-hole there are one being opened up at the middle part in each face of the air cavity shell, each Through hole seals a piece of dielectric elastomeric film；It is filled with compressed air in the air cavity shell；Six piston rods point The through-hole setting of other face six, one end of each piston rod fits closely and fixes with corresponding dielectric elastomeric film Connection；The central shaft of the piston rod is conllinear with the central axis of corresponding through-hole；Positioned at the air cavity case top and bottom One end of separate through-hole of piston rod pass through the separate through-hole of connecting rod and the piston rod positioned at the air cavity housing side One end connects；Two eddy current retarders are separately mounted to the close through-hole of the piston rod positioned at the air cavity case top Side and positioned at the air cavity housing bottom piston rod close through-hole side, be located at the air cavity case top and bottom Piston rod be threaded through the center of corresponding eddy current retarder respectively.

Optionally, each eddy current retarder is including multiple first annular permanent magnets, multiple first annular iron plates and one First copper pipe；Multiple first annular permanent magnets are equidistantly uniformly set in corresponding work with multiple first annular iron plates On stopper rod, the first annular permanent magnet is arranged with the first annular iron plate interval, and multiple first annular permanent magnets It is fixedly connected with corresponding piston rod；First copper pipe is set in the first annular permanent magnet and the first annular iron plate External and described first copper pipe is fixedly connected on the air cavity housing exterior walls；Each first annular permanent magnet is axial charging Magnet, and two adjacent first annular permanent magnets repel each other setting.

Optionally, be each located on the piston rod of the side of the air cavity shell be both provided with the multiple second annular iron plates and One the second copper pipe；Multiple second annular iron plates be equidistantly uniformly set on corresponding piston rod and with corresponding piston Bar is fixedly connected；Second copper pipe is set in outside the described second annular iron plate and second copper pipe be fixedly connected on it is described On air cavity housing exterior walls.

Optionally, fixed in one end far from the air cavity shell of each first copper pipe and second copper pipe One bearing holder (housing, cover) is installed；It is provided with bearing in the bearing holder (housing, cover)；The bearing holder (housing, cover) and the bearing are set in corresponding piston On bar.

Optionally, each piston rod is fixedly connected by the piston of end with corresponding dielectric elastomeric film.

Optionally, the air cavity shell includes the hexahedron air cavity shell and an air cavity end cap of one side opening；The gas Chamber end cap is tightly connected by the opening of diaphragm seal and the hexahedron air cavity shell of one side opening.

Optionally, there are one being all connected with positioned at one end of the separate through-hole of the piston rod of the air cavity case top and bottom Cross pin connector, positioned at one end of the separate through-hole of the piston rod of the air cavity housing side be all connected with there are one one shape pin connect Connector；The both ends of each connecting rod are respectively connected on cross pin connector and one shape pin connector.

Optionally, the piston is fixed on corresponding piston with the dielectric elastomeric film by gasket and hexagon-headed bolt On bar.

According to specific embodiment provided by the invention, the invention discloses following technique effects：The present invention in hexahedron The through hole for the air spring that air cavity shell is formed, which installs dielectric elastomeric film additional, reduces the rigidity of air spring, and can be by changing Become the size of current of dielectric elastomeric film to change the rigidity size of air spring.And negative stiffness machine is built by piston rod and connecting rod Structure further reduced the rigidity of damper.Eddy current retarder is added simultaneously, to further increase damping capacity.

Description of the drawings

It in order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below will be to institute in embodiment Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the present invention Example, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is the overall structure figure of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 2 is the front view of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 3 is the sectional view of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 4 is the knot of the hexahedron air cavity shell of the adjustable single-degree-of-freedom damper embodiment one side opening of rigidity of the present invention Composition；

Fig. 5 is the structure chart of the diaphragm seal of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 6 is the structure chart of the air cavity end cap of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 7 is the structure chart of the dielectric elastomeric film of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 8 is the structure chart of the piston rod of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention；

Fig. 9 is the link mechanism figure of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The object of the present invention is to provide a kind of adjustable single-degree-of-freedom dampers of rigidity, effectively reduce the rigid of air spring Degree, and realize that rigidity is adjustable.

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, below in conjunction with the accompanying drawings and specific real Applying mode, the present invention is described in further detail.

Fig. 1 is the overall structure figure of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Fig. 2 is the front view of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Fig. 3 is the sectional view of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Referring to Fig. 1 to Fig. 3, the adjustable single-degree-of-freedom damper of the rigidity is single-degree-of-freedom (vertical direction) damper, by Air spring, eddy current retarder and negative rigidity mechanism.

Fig. 4 is the knot of the hexahedron air cavity shell of the adjustable single-degree-of-freedom damper embodiment one side opening of rigidity of the present invention Composition.

Fig. 5 is the structure chart of the diaphragm seal of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Fig. 6 is the structure chart of the air cavity end cap of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Fig. 7 is the structure chart of the dielectric elastomeric film of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Fig. 8 is the structure chart of the piston rod of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Referring to Fig. 1 to Fig. 8, air spring forms a closed cavity by hexahedron air cavity shell and dielectric elastomeric film 11. Through-hole there are one being opened up at the middle part in each face of the air cavity shell, a piece of dielectric bullet is sealed in each through hole Property film 11, compressed air is filled in the air cavity shell.The center of each dielectric elastomeric film 11 is recessed the through-hole Interior, edge is fixed on the outer wall of the air cavity shell.The air spring is transmitted by piston rod to be vibrated.The quantity of piston rod It is six, corresponds to six through-holes respectively.Six piston rod difference face six through-hole settings, each piston rod One end fit closely and be fixedly connected with corresponding dielectric elastomeric film 11；The central shaft of the piston rod and corresponding through-hole Central axis it is conllinear.Each piston rod is fixedly connected by the piston of end 12 with corresponding dielectric elastomeric film 11. The piston 12 is fixed on by gasket 14 and hexagon-headed bolt 16 on corresponding piston rod with the dielectric elastomeric film 11.Six The model M8-45 of hex bolt 16.The air cavity shell includes the hexahedron air cavity shell 19 and an air cavity of one side opening End cap 13；The air cavity end cap 13 is sealed by the opening of diaphragm seal 15 and the hexahedron air cavity shell 19 of one side opening to be connected It connects.A bearing holder (housing, cover) 4 is fixedly mounted in the side of the separate through-hole of each eddy current retarder；It is provided in the bearing holder (housing, cover) 4 Bearing 5；The bearing holder (housing, cover) 4 and the bearing 5 are set on corresponding piston rod.

When applying vibration to damper in the vertical direction, it is located at the piston rod of upper and lower surface under the guiding of bearing 5 Along the axially reciprocating of piston rod, and hexahedron air cavity shell can play the role of isolation vibration at this time.

Dielectric elastomeric film 11 of the present invention is applied not only to seal gas spring, can also be by changing size of current Change the rigidity of dielectric elastomeric film 11, to changing the rigidity size of air spring.

Referring to Fig. 1 to Fig. 3, the quantity of piston rod is 6, respectively four horizontal piston bars 18 and two vertical piston bars 3.Horizontal piston bar 18 is piston rod corresponding with the side of air cavity shell, vertical piston bar 3 be with the top of air cavity shell and The corresponding piston rod in bottom.Eddy current retarder is that quantity is two, and two eddy current retarders are separately mounted to be located at two The side of the close through-hole of vertical piston bar 3, two vertical piston bars 3 are threaded through the center of corresponding eddy current retarder respectively.

Each eddy current retarder includes multiple first annular permanent magnets 8, multiple first annular iron plates 9 and first bronze medal Pipe 7；Multiple first annular permanent magnets 8 are equidistantly uniformly set in corresponding vertical with multiple first annular iron plates 9 On piston rod 3, the first annular permanent magnet 8 and the first annular iron plate 9 interval are arranged, and it is multiple it is described it is first annular forever Magnet 8 is fixedly connected with corresponding vertical piston bar 3；First copper pipe 7 is set in the first annular permanent magnet 8 and described Outside first annular iron plate 9 and first copper pipe 7 is fixedly connected on the air cavity housing exterior walls；Each first annular permanent magnetism Iron 8 is the magnet of axial charging, and two adjacent first annular permanent magnets 8 repel each other setting, to enhance vortex intensity.Institute State one fewer than the quantity of the first annular permanent magnet 8 of the quantity of first annular iron plate 9.An embodiment of the invention In, the quantity of first annular permanent magnet 8 is 3, and the quantity of first annular iron plate 9 is 2.In vertical eddy current retarder, the One annular iron plate 9 plays magnetic conduction.

The multiple second annular iron plates 21 and second copper pipe 22 are both provided on each horizontal piston bar 18；It is multiple The second annular iron plate 21 be equidistantly uniformly set on corresponding horizontal piston bar 18 and with corresponding horizontal piston bar 18 It is fixedly connected；Second copper pipe 22 is set in 21 outside of the second annular iron plate and the second copper pipe 22 is fixedly connected on the air cavity shell On outer wall.

First copper pipe 7 and the second copper pipe 22 are fixedly connected by M4-12 hexagon socket head cap screws 6 with air cavity shell.M4- simultaneously Dielectric elastomeric film 11 is also fixed on air cavity shell by 12 hexagon socket head cap screws 6.

Bearing holder (housing, cover) 4 and the fixed form of eddy current retarder are：Bearing holder (housing, cover) 4 is fixed on by M5-25 hexagon socket head cap screws 10 On one copper pipe 7 or the second copper pipe 22.

When piston rod drives first annular permanent magnet 8 to be axially moved in the first copper pipe 7, meeting in the first copper pipe 7 Inductive loop is generated, the relative motion of annular magnet can be hindered by being vortexed the damping force of generation, to play the role of vibration damping.

Fig. 9 is 2 structure chart of connecting rod of the adjustable single-degree-of-freedom damper embodiment of rigidity of the present invention.

Referring to Fig. 1 to Fig. 3 and Fig. 9, negative rigidity mechanism is located at air cavity by four 18, eight, horizontal piston bar, 2, four, connecting rods The dielectric elastomeric film 11 of housing side forms.One end of the separate through-hole of each vertical piston bar 3 passes through connecting rod 2 and each cross It is connected to one end of the separate through-hole of piston rod 18；

One end of separate the through-hole of each vertical piston bar 3 be all connected with there are one cross pin connector 1, each horizontal piston One end of the separate through-hole of bar 18 is all connected with there are one one shape pin connector 17；The both ends of each connecting rod 2 are respectively connected to ten On word pin connection head 1 and one shape pin connector 17.

When applying pressure in the vertical direction to damper, dielectric elastomeric film 11 at the top and bottom of air spring by Squeeze, at this time four be located at air cavity housing side dielectric elastomeric films 11 can expand outward, to push horizontal piston bar 18 to Outer movement, horizontal piston bar 18 drive vertical piston bar 3 to move downward, thus achieve the effect that negative stiffness again.Conversely, when to subtracting When the device that shakes applies pulling force straight up, negative rigidity mechanism can give 3 one upward thrusts of vertical piston bar.Thus negative stiffness machine The negative stiffness of structure is combined with the positive rigidity of air spring can have the function that reduce system stiffness, to reduce vibration insulating system Intrinsic frequency.

Cross pin connector 1 and one shape pin connector 17 are connect by pin with connecting rod 2, and connecting rod 2 can only turn around axis pin It is dynamic.

The effect of apparatus of the present invention is due to the use of air spring, and the static load ability of whole device is stronger.It can be with Change the positive rigidity size of entire vibration absorber by changing the electric current on dielectric elastomeric film 11, passes through a negative rigidity mechanism The rigidity of entire vibration absorber is reduced, and adds eddy current retarder to improve effectiveness in vibration suppression, to make effectiveness in vibration suppression significantly Enhancing.

Principle and implementation of the present invention are described for specific case used herein, and above example is said The bright method and its core concept for being merely used to help understand the present invention；Meanwhile for those of ordinary skill in the art, foundation The thought of the present invention, there will be changes in the specific implementation manner and application range.In conclusion the content of the present specification is not It is interpreted as limitation of the present invention.

Claims (8)

1. a kind of adjustable single-degree-of-freedom damper of rigidity, which is characterized in that including a hexahedron air cavity shell, six pistons Bar, six dielectric elastomeric films and two eddy current retarders；It is logical there are one being opened up at the middle part in each face of the air cavity shell Hole seals a piece of dielectric elastomeric film in each through hole；It is filled with compressed air in the air cavity shell；Described in six Piston rod distinguishes the through-hole setting of face six, and one end of each piston rod is closely pasted with corresponding dielectric elastomeric film Merging is fixedly connected；The central shaft of the piston rod is conllinear with the central axis of corresponding through-hole；Positioned at air cavity shell top One end of the separate through-hole of the piston rod in portion and bottom is remote with the piston rod positioned at the air cavity housing side by connecting rod One end connection from through-hole；Two eddy current retarders are separately mounted to leaning on for the piston rod positioned at the air cavity case top The side of nearly through-hole and positioned at the air cavity housing bottom piston rod close through-hole side, positioned at air cavity shell top The piston rod of portion and bottom is threaded through the center of corresponding eddy current retarder respectively.

2. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 1, which is characterized in that each eddy current damping Device includes multiple first annular permanent magnets, multiple first annular iron plates and first copper pipe；It is multiple it is described it is first annular forever Magnet is equidistantly uniformly set on corresponding piston rod with multiple first annular iron plates, the first annular permanent magnet with The first annular iron plate interval setting, and multiple first annular permanent magnets are fixedly connected with corresponding piston rod；It is described First copper pipe is set in the first annular permanent magnet and is fixedly connected with the first annular iron plate outside and first copper pipe On the air cavity housing exterior walls；Each first annular permanent magnet is the magnet of axial charging, and two adjacent the first rings Shape permanent magnet repels each other setting.

3. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 2, which is characterized in that each positioned at described The multiple second annular iron plates and second copper pipe are both provided on the piston rod of the side of air cavity shell；Multiple second rings Shape iron plate is equidistantly uniformly set on corresponding piston rod and is fixedly connected with corresponding piston rod；Second copper pipe is arranged Outside the described second annular iron plate and second copper pipe is fixedly connected on the air cavity housing exterior walls.

4. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 1, which is characterized in that each described A bearing holder (housing, cover) is fixedly mounted in one end far from the air cavity shell of one copper pipe and second copper pipe；In the bearing holder (housing, cover) It is provided with bearing；The bearing holder (housing, cover) and the bearing are set on corresponding piston rod.

5. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 1, which is characterized in that each piston Bar is fixedly connected by the piston of end with corresponding dielectric elastomeric film.

6. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 1, which is characterized in that the air cavity shell Include the hexahedron air cavity shell and an air cavity end cap of one side opening；The air cavity end cap is opened by diaphragm seal with described on one side The opening of the hexahedron air cavity shell of mouth is tightly connected.

7. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 1, which is characterized in that be located at the air cavity One end of the separate through-hole of the piston rod of case top and bottom is all connected with there are one cross pin connector, is located at the air cavity shell One end of the separate through-hole of the piston rod of body side surface is all connected with there are one one shape pin connector；The both ends of each connecting rod respectively connect It is connected on cross pin connector and one shape pin connector.

8. the adjustable single-degree-of-freedom damper of a kind of rigidity according to claim 5, which is characterized in that the piston and institute Electric elastic membrane is given an account of to be fixed on corresponding piston rod by gasket and hexagon-headed bolt.