This invention relates to the field of vibration control using vibration isolation devices having a combination of elastomeric elements and mounting fixtures.
Isolating vibrations often require the use of snubbed isolators and/or a plurality of isolator devices. The problem is that no isolator provides for a means to specifically avoid hard metal-to-metal impact and associated clicking noise during transient events. When a working elastomer is employed, current isolators typically impact the performance of the elastomer. If space is limited, the isolators usually use less elastomeric product, which further increases the impact on the isolator performance.
Additionally, none of the current isolators provide for a high-load capability and a high-isolation performance while maintaining substantially smaller sizes. There is a need for a snubbed isolator that is capable of three-dimensional damping of vibrations for a structure that it is attached to.
The invention provides for a snubbed isolator and an isolator assembly to reduce vibrations in a structure.
In one aspect, a snubbed isolator is provided. The snubbed isolator comprises an inner member, an outer member, an interlock, an elastomeric element and at least one snubbing elastomeric element. The inner member having a lower member including an upper surface and a base, wherein the base is wider than the upper surface. The inner member having a stem integral with the lower member, the stem including a top, wherein the top is oppositely positioned from the base. The inner member having a surface associated with the top of the stem, the surface being capable of bearing load. The outer member positioned outwardly from the inner member, the outer member having a surface that is wider near the base of the lower member and narrower proximate the upper surface of the lower member. The interlock being between the inner and outer members. The elastomeric element bonded between the inner and outer members. The snubbing elastomeric element bonded to the inner member and positioned to snub against a mounting structure.
In another aspect, an isolator assembly is provided. The isolator assembly comprises a mounting plate and a snubbed isolator device. The mounting plate has a plate contoured surface. The snubbed isolator device is proximate to and capable of being attached to the mounting plate. The snubbed isolator device includes: an inner member, a first elastomeric element, a second elastomeric element and an outer member. The inner member has a first and second side. The first elastomeric element is bonded to the first side and the second elastomeric element is bonded to the second side. The second elastomeric element has a contoured surface proximate the plate contoured surface. The outer member is bonded to the first elastomeric element opposite from the first side, and wherein the outer member is positioned proximate to and capable of being attached to the mounting plate.
In another aspect, an isolator assembly is provided. The isolator assembly comprises a mounting plate and a snubbed isolator device. The mounting plate has a plate contoured surface. The snubbed isolator device is proximate to and capable of being attached to the mounting plate. The snubbed isolator device includes: an inner member, a first elastomeric element, a second elastomeric element and an outer member. The inner member has a first and second side. The first elastomeric element is proximate to the first side and the second elastomeric element is proximate to the second side. The second elastomeric element has a contoured surface bonded to the plate contoured surface. The outer member is bonded to the first elastomeric element opposite from the first side, and wherein the outer member is proximate to and capable of being attached to the mounting plate.
In another aspect, an isolator assembly is provided. The isolator assembly comprises a mounting plate and a snubbed isolator device. The mounting plate has a plate contoured surface. The snubbed isolator device is proximate to and capable of being attached to the mounting plate. The snubbed isolator device includes: an inner member, a first elastomeric element, a second elastomeric element and an outer member. The inner member has a first and second side. The first elastomeric element is proximate to the first side and the second elastomeric element is bonded to the second side. The second elastomeric element has a contoured surface proximate the plate contoured surface. The outer member is bonded to the first elastomeric element opposite from the first side, and wherein the outer member is proximate to and capable of being attached to the mounting plate.
In another aspect, an isolator assembly is provided. The isolator assembly comprises a mounting plate and a snubbed isolator device. The mounting plate has a plate contoured surface. The snubbed isolator device is proximate to and capable of being attached to the mounting plate. The snubbed isolator device includes: an inner member, a first elastomeric element, a second elastomeric element and an outer member. The inner member has a first and second side. The first elastomeric element is bonded to the first side and the second elastomeric element is proximate to the second side. The second elastomeric element has a contoured surface bonded to the plate contoured surface. The outer member is proximate the first elastomeric element opposite from the first side, and wherein the outer member is proximate to and capable of being attached to the mounting plate.
In another aspect, an isolator assembly is provided. The isolator assembly comprises a common mounting plate and at least two snubbed isolator devices. The common mounting plate has at least two plate contoured surfaces. The snubbed isolator devices are proximate to and capable of being attached to the common mounting plate, wherein each snubbed isolator device includes: an inner member, a first elastomeric element, a second elastomeric element and an outer member. The inner member has a first and second side. The first elastomeric element is bonded to the first side and the second elastomeric element is bonded to the second side. The second elastomeric element has a contoured surface proximate the plate contoured surface. The outer member is bonded to the first elastomeric element opposite from the first side, and wherein the outer member is proximate to and capable of being attached to the common mounting plate.
Numerous objects and advantages of the invention will become apparent as the following detailed description of the preferred embodiments is read in conjunction with the drawings, which illustrate such embodiments.
Reference is made in detail to the present embodiments of the invention, examples of which are illustrated in the accompanying drawings.
Generally, the invention provides an isolator having a mating interface between an inner and outer member with an elastomeric element between and having an additional elastomeric element providing snubbing capability to the isolator. The snubbed isolator is able to provide elastomer pre-compression within the bonded isolator, thereby improving the overall fatigue life of the snubbed isolator. The contoured geometry of the snubbed isolator and the interface between the inner member, outer member and elastomeric elements also provides multi-direction stiffness control. An assembly of side-by-side snubbed isolator devices can support an applied moment. This one-piece assembly is easier to install, compared to using individual snubbed isolator devices.
Referring to
Snubbed isolator 10 is interlocked by the outer diameter of base 32 of inner member 12 being greater than the diameter of exit hole 20 of outer member 14. This interlocking interference between base 32 and exit hole 20 is interlock 200. Interlock 200 prevents inner member 12 from being pulled out of outer member 14.
As illustrated in
Channel 30 of stem 24 is sized with a diameter D4. D4 is determined by the use of snubbed isolator 10 and is positioned between flange 28 and upper surface 27. Flange 28 carries load on load-bearing surface 31, and it is used for mating components. Diameter D5 in
Stem 24 can be modified to incorporate other features or interfaces (keyways, grooves, flanges, helical wire inserts, etc.). In the embodiment illustrated in
Inner member 12 and outer member 14, in the embodiment illustrated in
Referring to snubbed isolator 10 illustrated in
Table 1 indicates that D3 is sufficiently sized to accept a #10-32 threaded bolt or other mounting device. It is known to those having skill in the art that any mounting device can be made to be compatible with D3.
Referring to snubbed isolator 10 illustrated in
As illustrated, snubbed isolator 10 has cavity 44 positioned below inner member 12. Cavity 44 has a cavity depth of DP2. Base elastomer 34, or snubbing elastomeric element 34, of inner member 12 extends into a portion of cavity 44.
Mounting plate 22 of snubbed isolator 10 is illustrated as having curved ends with the radius of end curve being R1.
Table 1 below refers to the embodiment illustrated in
In use, the snubbing feature of snubbed isolator 10 eliminates “clicking” noises due to metal-to-metal contact. It also reduces wear on the contacting metal components. Snubbing, in general, limits deflection for protection of the isolator “working elastomer”. The snubbing feature is particularly useful when a soft isolator is desired, with limited envelope available for clearance. A large load-bearing area on the inner member stem distributes clamping and application forces, while reducing stress on mating components. This is particularly useful with the use of advance composite materials.
Referring to
Snubbed isolator device 102 is comprised of inner member 108, outer member 110, inner elastomeric element 112 and outer elastomeric element 114. Elastomeric elements 112 and 114 are pre-compressed. In one embodiment, elastomeric element 114 is bonded between inner member 108 and outer member 110.
Inner member 108 includes stem 116 and conical member 118. Stem 116 is sized according to design need. Stem 116 is sized to provide a load-bearing capacity based upon a particular design need of the end use. As illustrated, stem 116 has stem hole 117. Stem hole 117 provides for mounting capabilities, such as a non-limiting example of a screw (not shown) being secured therethrough. Other mounting device configurations are considered such as bolts and rivets. Conical member 118 of inner member 108 includes first side 120 and second side 122. Elastomer elements 114 and 112 are bonded on both first side 120 and second side 122, respectively, of inner member 108.
Outer member 110 includes conical member 124. In the embodiment above, conical member 124 of outer member 110 is bonded to elastomeric element 114, which is also bonded to first side 120 of conical member 118. Outer member 110 is in contact with mounting plate 103. Elastomeric element 112 is bonded to second side 122 of conical member 118 and is in contact with plate contoured surface 106 of mounting plate 103.
Snubbed isolator devices 102 of isolator assembly 100 are interlocked by the outer diameter of base 126 of inner member 108 being greater than the diameter of exit hole 128 of outer member 110. Interlock 200, as represented in
One elastomer section 114 is positioned to mechanically react against outer member 110 and other elastomer section 112 is positioned to mechanically react against mounting plate 103 at contoured surface 106. In this embodiment, elastomer 112 is not bonded to mounting plate 103.
Mounting plate 103 and adjacent elastomer member 112 have a contoured interface for multi-direction load capability. The contoured interface is where contoured surface 106 and elastomer member 112 are proximate to each other. Contoured surface 106 of mounting plate 103 is capable of reacting load in multiple directions.
Mounting plate 103 material is ideally thermoplastic or a composite to reduce both the per-unit cost and weight. However, mounting plate 103 material may also be metal.
When installed, the snubbed isolator device 102 pull out load (axial tension) is supported by inner member 108 and outer member 110. As illustrated, mounting plate 103 is not in a load path.
The embodiment illustrated in
Other embodiments of isolator assembly 100 include snubbed isolator device 102 which is comprised of inner member 108, outer member 110, inner elastomeric element 112 and outer elastomeric element 114. Elastomeric elements 112 and 114 are pre-compressed. In one embodiment, elastomeric element 114 is bonded between inner member 108 and outer member 110 and elastomeric element 112 is only bonded to inner member 108. In another embodiment, elastomeric element 114 is bonded to outer member 110 and elastomeric element 112 is bonded to inner member 108. In another embodiment, elastomeric element 114 is bonded to outer member 110 and elastomeric element 112 is bonded to contoured surface 106 of mounting plate 103. In another embodiment, elastomeric element 114 is bonded to inner member 108 and elastomeric element 112 is bonded to contoured surface 106 of mounting plate 103. Other combinations available but not addressed for the sake of brevity.
Referring to
Each snubbed isolator device 102 is comprised of inner member 108, outer member 110, inner elastomeric element 112 and outer elastomeric element 114. Elastomeric elements 112 and 114 are pre-compressed. Elastomeric element 114 is bonded between inner member 108 and outer member 110.
Inner member 108 includes stem 116 and conical member 118. Stem 116 is sized according to design need. Stem 116 is sized to provide a load-bearing capacity based upon a particular design need of the end use. As illustrated, stem 116 has stem hole 117. Stem hole 117 provides for mounting capabilities, such as a non-limiting example of a screw (not shown) being secured therethrough. Other mounting device configurations are considered such as bolts and rivets. Conical member 118 of inner member 108 includes first side 120 and second side 122. Elastomer elements 114 and 112 are bonded on both first side 120 and second side 122, respectively, of inner member 108.
Outer member 110 includes conical member 124. Conical member 124 of outer member 110 is bonded to elastomeric element 114, which is also bonded to first side 120 of conical member 118. Outer member 110 is in contact with common mounting plate 104. Elastomeric element 112 is bonded to second side 122 of conical member 118 and is in contact with contoured surface 106 of common mounting plate 104.
Snubbed isolator devices 102 of isolator assembly 100 are interlocked by the outer diameter of base 126 of inner member 108 being greater than the diameter of exit hole 128 of outer member 110. Interlock 200 prevents inner member 108 from being pulled out of outer member 110.
One elastomer section 114 is positioned to mechanically react against outer member 110 and other elastomer section 112 is positioned to mechanically react against common mounting plate 104 at contoured surface 106. In this embodiment, elastomer 112 is not bonded to common mounting plate 104.
Common mounting plate 104 and adjacent elastomer member 112 have a contoured interface for multi-direction load capability. The contoured interface is where contoured surface 106 and elastomer member 112 are proximate to each other. Contoured surface 106 of common mounting plate 104 are capable of reacting load in multiple directions.
Common mounting plate 104 material is ideally thermoplastic or a composite to reduce both the per-unit cost and weight. However, common mounting plate 104 material may also be metal.
When installed, the snubbed isolator device 102 pull out load (axial tension) is supported by inner member 108 and outer member 110. As illustrated, common mounting plate 104 is not in a load path. With respect to the pull out load for the embodiment where elastomeric element 112 is not bonded to contoured surface 106, inner member 108, elastomeric element 114, and outer member 110 define the load path of snubbed isolator device 102, where inner member 108 provides a load to elastomeric element 114 which in turn provides a load to outer member 110.
The embodiment illustrated in
Referring to snubbed isolator assembly 100 illustrated in
D8 illustrates the diameter of the beginning of the outer conical surface 134 of outer member 110. Stem hole 117 is a hole disposed through stem 116. D9 illustrates the inner diameter of stem hole 117. Stem hole center 136 is the center of the hole in stem 116 when viewed from the plan view. The distance between stem hole center 136 and an outer hole center of mounting hole 130 is W4.
Referring to isolator assembly 100 illustrated in
As illustrated, isolator assembly 100 has cavity 138 positioned below stem 116. Stem 116, stem hole 117 and cavity 138, in combination, provides for a point to secure devices to isolator assembly 100. Note, any securing device used with isolator assembly 100 does not have to extend into cavity 138.
Common mounting plate 104 of isolator assembly 100 is illustrated as having curved ends for each snubbed isolator device 102. These curved ends align with the radius R2 of the curve of mounting plate 22 of snubbed isolator device 102.
Table 2 below refers to the embodiment illustrated in
The use of common mounting plate 104 provides for isolator assembly 100 as a one-piece device to improve the ease of installation. Opposing elastomer sections 112 and 114 on each side of the conical member 118 of inner member 108 provide for snubbing in all directions, while maintaining vibration isolation. In this configuration, one side is always in a compressive state. Pre-compressing the elastomer significantly reduces fatigue of the elastomer associated with long-term use and greatly increases the life of the isolator assembly. The interface between un-bonded elastomeric element 112 and contoured surface 106 of common mounting plate 104 provides for an increase of the axial compression and radial load capability of isolator assembly 100. The contoured interface provides both axial and radial load capability with axial-to-radial stiffness control
Other embodiments of the current invention will be apparent to those skilled in the art from a consideration of this specification or practice of the invention disclosed herein. Thus, the present invention is well adapted to carry out the objects and attain the ends and advantages mentioned as well as those inherent therein. While preferred embodiments of the present invention have been illustrated for the purpose of the present disclosure, changes in the arrangement and construction of parts and the performance of steps can be made by those skilled in the art, which changes are encompassed within the scope and spirit of the present invention as defined by the appended claims.
The present application claims priority to U.S. Provisional Patent Application No. 61/786,877 filed on Mar. 15, 2013 by Rawson et al., entitled “VIBRATION ISOLATION MEMBER”, and the present application claims priority to co-pending U.S. Provisional Patent Application No. 61/694,002 filed on Aug. 28, 2012 by Rawson et al., entitled “VIBRATION ISOLATION MEMBER”, and the present application claims priority to co-pending U.S. Provisional Patent Application No. 61/694,018 filed on Aug. 28, 2012 by Rawson et al., entitled “VIBRATION ISOLATION MEMBER”, all of which are incorporated by reference herein as if reproduced in their entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/US2013/057068 | 8/28/2013 | WO | 00 |
Number | Date | Country | |
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61786877 | Mar 2013 | US | |
61694018 | Aug 2012 | US | |
61694002 | Aug 2012 | US |