澳大利亚专利AU2013203059A1 Noise damper

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专利摘要:
NOISE DAMPER Noise dampers (70) of sound absorbent material are inserted on the metal grid beams (21) in a suspended ceiling (22). Hangers (40), embedded in a structural ceiling, that support the beams, are insulated from the beams by the noise dampers. Sound vibrations generated in the structural ceiling, which is often a floor, are not transmitted through the hangers, to the suspended ceiling, or to the room, below, but are absorbed in the dampers before reaching the grid beams.
公开号:AU2013203059A1
申请号:U2013203059
申请日:2013-04-09
公开日:2013-05-02
发明作者:Joshua L. Neal；William J. Platt；Brett W. Sareyka
申请人:Worthington Armstrong Venture；
IPC主号:E04B9-06

专利说明:
1 NOISE DAMPER FIELD [0001] The invention relates to noise control in suspended ceilings. Such suspended ceilings have a grid of intersecting metal beams that are suspended by hangers from a structural ceiling. Panels or drywall sheets are supported on the grid. [0002] Noise generated in the structural ceiling, which is frequently a floor for the space above, is transmitted by sound vibrations passing downward through the hangers, which form a sound path, to the grid of the suspended ceiling. The suspended ceiling, which includes panels or drywall sheets attached to the beams in the grid, forms a receiver for the sound vibrations, which broadcasts the resulting unwanted noise to the space below. [0003] The invention deals with deadening such sound vibrations coming down the hangers. BACKGROUND [0004] Suspended ceilings are constructed in a special way so that the ceilings are extremely stable. Over many years, a standard way of constructing such ceilings has evolved. Suspended ceilings are constructed at a building site by individually embedding an anchor, such as an eye bolt, into the structural ceiling, and then attaching a hanger, such as a wire, to the anchor, by twisting the wire about the anchor. The anchor is secured explosively, or by any other means, such as bolting into the structural ceiling. The lower end of the hanger is attached to a metal beam in a grid that supports panels, or drywall sheets, by looping the hanger through a hole in the web of the beam and twisting the loop closed around the bulb and a segment of the beam. [0005] The substantial weight of the suspended ceiling is spread among numerous hangers that are spaced every few feet along the main beams in the grid. Each hanger must be individually secured to the structural ceiling, and to the grid beam, by an installer who must keep the grid of interconnected main and cross beams level at a desired height. Much time and effort is required to hang a suspended ceiling grid from a structural ceiling.
2 [0006] Much more time and effort is required where sound attenuator devices that dampen the vibrations coming down a hanger sound path, from noise generated in a structural ceiling, are used. [0007] In the prior art, to control noise in a suspended ceiling, a noise attenuator is individually inserted by the installer, about midway in the length of a wire hanger that is cut into two segments. An upper segment of the wire hanger is first secured at its top to the structural ceiling, and at its bottom, to a top terminal in the attenuator. A lower segment of the wire hanger is connected at the top to a bottom terminal in the attenuator, and then, at the bottom of the lower segment, to the grid beam. [0008] In such prior art attenuator, the upper and lower metal terminals are separated from each other by a suitable amount of sound vibration damping material, such as gum rubber. Sound vibrations coming down the wire hanger sound path from the structural ceiling, which frequently serves as a floor for the building level above, are absorbed in the noise attenuator. [0009] The insertion of such prior art noise attenuators in a wire hanger that must be divided into two segments is time and labor consuming, since the normally single segment of a wire hanger must not only be divided into two segments, but each segment must then be secured to the noise attenuator by passing the hanger through an attenuator terminal, and then twisting the hanger back around the segment. Thus, instead of just two attachments of a single segment of a wire hanger at an upper end to the structural ceiling, and at its lower end to a grid beam itself, as in prior art suspended ceilings with no noise attenuation, there are two additional attachments involving threading the wire hanger through a hole, and then twisting the wire hanger back upon itself, to the noise attenuator. [0010] Such manual cutting, threading, and twisting must be individually custom performed by the installer of the grid in the field during the construction of the ceiling, since good judgment must be exerted at each wire hanger to keep the grid level, through controlling the length of the wire hanger suspensions.
3 OBJECT OF THE INVENTION [0011] It is the object of the present invention to substantially overcome or at least ameliorate one or more of the above disadvantages or to provide a useful alternative. SUMMARY OF THE INVENTION [0012] According to a first aspect of the present invention there is disclosed herein a ceiling structure comprising: a. a structural ceiling that is a source of noise vibrations; b. hangers that form a noise path for the noise vibrations, and that extend downward from the structural ceiling; and c. a suspended ceiling that includes grid beams, supported by the hangers, that is a receiver for the noise vibrations; the ceiling further comprising a knock-out in a web of a grid beam, a noise damper of flexible sound vibration damping material inserted into the knock-out, that insulates a hanger from the grid beam and absorbs the noise vibrations coming down the hanger, having a) a raised insert on a lower segment of the damper that conforms in shape to the knock out in the web of the grid beam; b) a lower lip at the bottom of the raised insert that engages a lower section of the knock out to secure the bottom of the damper to the grid beam; c) an upper lip at the top of the raised insert capable of securing the raised insert in the knock-out when the lower lip on the raised insert is engaged with the lower portion of the knock-out; and d) an inverted U-shaped upper portion of the noise damper that extends from the raised insert over the bulb of the grid beam to, along with the lower section of the noise damper including the raised insert on such lower section, isolate the grid beam from a hanger that extends through a hole in the lower section of the damper. [0013] According to a second aspect of the present invention there is disclosed herein a method of inserting a ceiling structure according to the first aspect, the method comprising: a) first inserting the lower lip through knock-out to secure the bottom of the noise damper in the knock-out; and 4 b) then securing the upper lip at the top of the raised insert to an upper portion of the knock-out, while extending the inverted U-shaped upper portion of the noise damper over the bulb of the grid beam. [0014] Preferably a noise damper, of material that deadens sound vibrations coming down a hanger, is inserted between the grid beam and a hanger in the construction of the suspended ceiling. [0015] Preferably the noise damper insulates the entire hanger attached to the structural ceiling from contact with the metal grid beam in the suspended ceiling, so the sound vibrations passing down the hanger are deadened in the noise damper. The noise damper, however, does not interfere with the structural support of the grid beam and suspended ceiling by the hangers, which are generally of wire, but permissibly of other material having adequate tensile strength to support the suspended ceiling. [0016] The time required to install a suspended ceiling with preferred embodiments of the present invention is virtually the same as the time required to install a prior art suspended ceiling without any noise damping. In preferred embodiments of the present invention, the noise damper, which is of a resilient, sound vibration deadening material, can be merely inserted into place, and the hanger attached to the beam by looping a wire hanger through a knock-out in the beam, as done in the prior art in a suspended ceiling that is not sound dampened. [0017] The knock-out can be shaped so the stress that the suspended ceiling imparts to the hanger where it passes through the knock-out is distributed over a section of the noise damper, rather than concentrated at the site of the hanger. BRIEF DESCRIPTION OF THE DRAWINGS [0018] Preferred embodiments of the present invention will now be described, by way of examples only, with reference to the accompanying drawings wherein: [0019] Figure 1 is a perspective view of an embodiment noise damper. [0020] Figure 2 is an elevational view comparing: 5 (a) a prior art suspended ceiling segment without noise damping; (b) a prior art ceiling segment with noise damping; and (c) a suspended ceiling with the noise damper of the invention. [0021] Figure 3 is a side elevational view of a noise damper in place on a grid beam with a wire hanger looped through the noise damper and beam. [0022] Figure 4 is an exploded perspective view of a section of a grid beam showing a knock out that seats a conforming raised section of a noise damper. [0023] Figure 5 is an enlarged sectional view taken on the line 5-5 in Figure 3. [0024] Figure 6 is a perspective view of another embodiment of the invention. [0025] Figure 7 is a suspended ceiling with the embodiment of the invention shown in Figure 6, along with related prior art. [0026] Figure 8 is a side view of the noise damper of Figure 6 inserted into a beam. [0027] Figure 9 is a perspective view of the noise damper of Figure 6 about to be inserted into a beam. [0028] Figure 10 is a perspective view of the embodiment of the invention shown in Figure 6, showing the first contact of the noise damper being inserted into a beam. [0029] Figure 11 is an elevational view of the noise damper shown in Figure 6 in its initial contact with the beam, when being inserted into the beam. [0030] Figure 12 is an elevational sectional view showing the noise damper of Figure 6 inserted into a beam, with the top of the damper hooked over the bulb of the beam. [0031] Figure 13 is a sectional elevational view of the noise damper shown in Figure 6 inserted into the beam, with a hanger looped through the damper.
6 [0032] Figure 14 is a view taken on the line 14-14 of Figure 13. DESCRIPTION OF PREFERRED EMBODIMENTS [0033] Although the invention is illustrated with hangers of wires, which is the predominant material used to suspend present day ceilings, the invention can be used with other forms of hangers, such as rods, or chains. [0034] In Figure 2, there is shown comparatively (a) a prior art ceiling without noise damping; (b) a prior art ceiling with noise damping; and (c) the noise dampened suspended ceiling of the present invention. In a prior art suspended ceiling installation without noise damping, (Fig. 2a), the suspended ceiling 43, is hung from a structural ceiling 22, by wire hangers 40 embedded in the structural ceiling at the top, and looped through about the grid beam 21 at the bottom. A single length of wire hanger 40 is used. [0035] In Figure 2b, a wire hanger is cut in two into segments, 23 and 24, and secured to the structural ceiling 22 and suspended ceiling 43 as shown. A grid beam 21 is suspended from structural ceiling 22 by an upper wire segment 23 and a lower wire segment 24, connected to a sound attenuator 25. The upper wire segment 23 is looped through an eye bolt 26 explosively embedded in the structural ceiling 22, and manually twisted to close the loop 27. Similar connections are made to sound attenuator 25 at the bottom of segment 23 and at the top of the lower segment 24. At the bottom of the lower segment 24, there is formed a loop 27 that passes through a hole 28 in the web 29 of grid beam 21. The loop 27 is closed by twisting the wire hanger segment 24. [0036] In the present invention, as shown in Fig. 2c, a single length of wire hanger 40 is used to suspend a beam 21 at suspension points along the beam 21. A noise damper 41 is inserted onto grid beam 21 between the suspension loop 42 at the bottom of wire hanger 40 and the grid beam 21, to insulate the beam 21 from the wire hanger 40. The noise damper 41 of the invention deadens the sound vibrations from structural ceiling 22 as they travel down the wire hanger 40, before the vibrations reach the metal grid beam 21, in the suspended ceiling 43, which would serve as a receiver that would broadcast the noise to the space below.
7 [0037] At the top, the wire hanger 40 is looped through eye bolt 26 explosively embedded in structural ceiling 22, and the loop 44 is twisted closed. The lower end of wire hanger 40 is passed through hole 61 in noise damper 41 on grid beam 21, and passes through knock-out 46. [0038] Noise damper 41 has an inverted U-shaped upper portion 47 conforming in cross section to the bulb 48 of the grid beam 21, as seen particularly in Figure 5. A flat lower portion 51 is intended to lie along the web 29 of the grid beam 21 as seen in Figure 5. [0039] A raised insert 53 on flat lower portion 51 is shaped to conform to a knock-out 46, desirably with the shape of an arch 56 at the top. Lip retainers 57 hold the raised insert 53 firmly in the knock-out 46. An angled lip 58 on the U-shaped clip portion 47 retains such U shaped portion 47 of the noise damper 41 on the bulb 48 of the grid beam 21. A hole 61 that receives wire hanger 40 extends through the raised insert 53 and knock-out 46. [0040] The noise damper 41 is injection molded into one resilient integral piece from a vibration deadening material. An example of such a material is thermoplastic vulcanizate, an elastomer, that includes carbon black and a paraffin wax. Such material, in pellet form, is injection molded into the form of the noise damper 41 insert of the invention. The noise damper 41, when molded, is flexible, and can readily expand when being inserted onto the grid beam 21, to envelope the grid beam 21 as depicted in the drawings. [0041] The noise damper 41 is inserted onto the beam by passing the inverted U-shape portion 47 vertically downward over the bulb 48 of grid beam 21 to seat raised insert 53 in knock-out 46. The noise damper 41 expands while being inserted onto the grid beam 21, and contracts to the position about the beam 21, and into knockout 46, as shown particularly in Figures 3 and 5. [0042] A single length of wire hanger 40, which has been embedded previously in the structured ceiling, is then looped through the hole 61 in the noise damper 41, as shown in Figure 5, and then twisted at 62 to close the loop. [0043] In this manner, the metal wire hanger 40 is insulated from metal grid beam 21, while still structurally supporting the grid beam 21.
8 [0044] A series of wire hangers 40 and noise dampers 41 are applied at, for instance, four (4) foot intervals along the main grid beams 21. The knock-outs 46 may be pre-punched at more frequent intervals, along the beam, and the noise dampers 41 inserted selectively. The knock outs 46 do not appreciatively affect the strength of the grid beams 21. [0045] By means of the present invention, as set forth above, the hanger 40 which acts as a sound path from the structural ceiling 22 noise source to the suspended ceiling 43 which acts as a receiver is interrupted and dampened by the noise damper 41 of the invention. [0046] The noise dampers 41 can be inserted at the job site as the grid beams 21 are being hung, or in the alternative, the noise dampers 41 can be inserted on the grid beams 21 before the grid beams 21 themselves are shipped to the job site. [0047] In case of a fire, even though the noise dampers 41 of the invention are destroyed, wire hangers 40 continue to support the grid beams 21, since the wire hangers 40 remain attached to the grid beams 21. [0048] In Figures 6 through 14, there is shown another noise damper embodiment 70 wherein raised insert 71 conforms in shape to knock-out 73 and has at the bottom thereof a lower lip 72 that extends behind the knock-out 73 when the bottom of raised insert 71 is forced through the knock-out 73. This secures the bottom of the raised insert 71 to the web 29 of the grid beam 21, as seen in Figures 9, 10, and 11. [0049] The top of the raised insert 71 is then forced through the knock-out 73 into the position shown in Figure 12, wherein upper lip 77, along with lower lip 72, secures the raised insert 71 in the knock-out 73. As the raised insert 71 is being forced into knock-out 73, as described above, inverted U-shaped upper portion 75 is also being extended over bulb 48 of grid beam 21, as seen in Figure 11, into the position shown in Figure 12, wherein the noise damper embodiment 70 is locked into knock-out 73 in web 29 of grid beam 21, and inverted U-shaped upper portion 75 of noise damper embodiment 70 is hooked over bulb 48 of grid beam 21. [0050] Hanger 40 is then looped through hole 80 of noise damper embodiment 70, and twisted closed, as seen in Figure 13.
9 [0051] As seen in Figures 13 and 14, hanger 40 is isolated from grid beam 21 by noise damper embodiment 70, with sound waves coming down the hanger being absorbed into noise damper embodiment 70.

权利要求:
Claims (2)
[1] 1. A ceiling structure comprising: a. a structural ceiling that is a source of noise vibrations; b. hangers that form a noise path for the noise vibrations, and that extend downward from the structural ceiling; and c. a suspended ceiling that includes grid beams, supported by the hangers, that is a receiver for the noise vibrations; the ceiling further comprising: a knock-out in a web of a grid beam, a noise damper of flexible sound vibration damping material inserted into the knock-out, that insulates a hanger from the grid beam and absorbs the noise vibrations coming down the hanger, having a) a raised insert on a lower segment of the damper that conforms in shape to the knock out in the web of the grid beam; b) a lower lip at the bottom of the raised insert that engages a lower section of the knock out to secure the bottom of the damper to the grid beam; c) an upper lip at the top of the raised insert capable of securing the raised insert in the knock-out when the lower lip on the raised insert is engaged with the lower portion of the knock-out; and d) an inverted U-shaped upper portion of the noise damper that extends from the raised insert over the bulb of the grid beam to, along with the lower section of the noise damper, including the raised insert on such lower section, isolate the grid beam from a hanger that extends through a hole in the lower section of the damper.
[2] 2. A method of inserting a ceiling structure according to claim 1, the method comprising: a) first inserting the lower lip through knock-out to secure the bottom of the noise damper in the knock-out; and b) then securing the upper lip at the top of the raised insert to an upper portion of the knock-out, while extending the inverted U-shaped upper portion of the noise damper over the bulb of the grid beam. Worthing Armstrong Venture Patent Attorneys for the Applicant/Nominated Person SPRUSON & FERGUSON

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法律状态:
2014-02-06| FGA| Letters patent sealed or granted (standard patent)|

2018-03-01| MK14| Patent ceased section 143(a) (annual fees not paid) or expired|

优先权:

申请号 | 申请日 | 专利标题

US13/136,983||2011-08-16||

AU2012211331A|AU2012211331B2|2011-08-16|2012-08-02|Noise damper|

US13/694,944||2013-01-23||

US13/694,944|US8667756B1|2013-01-23|2013-01-23|Noise damper|

AU2013203059A|AU2013203059B2|2011-08-16|2013-04-09|Noise damper|AU2013203059A| AU2013203059B2|2011-08-16|2013-04-09|Noise damper|

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