NOISE SUPPRESSION DEVICE

Abstract

A Noise Suppression device is provided for pneumatic noise producing tools, including jack leg drills, jack hammers and other hand-operated machinery. This device comprises an expansion chamber substantially enclosing a sound source of the noise producing tool. The chamber comprises a lining and, preferably, an acoustic panel to provide sound absorption. In one embodiment, the device also includes a skirting to direct the noise away from the tool. The lining of the expansion chamber may comprise a material such as Thinsulate old filter casing, or other noise absorbing material to absorb at least a portion of the sound, reducing the level of noise emanating from the drill during operation. The device preferably includes an outer shell or protective surface which may comprise a durable material such as HDPE plastic and comprises an inner surface. The device not only reduces muffler noise but also the noise from the tool itself.

Claims

1. A removable noise suppression device for reducing the rate of noise exposure to the user of a hand operated tool, said tool having a noise source, said noise suppression device comprising an inner surface sized and shaped to cover at least a portion of a body of the tool that embodies the noise source, said noise suppression device including a first open end, a second open end, at least one and preferably more than one sound suppressors comprising one or more of an acoustic panel and an echo absorber, at least one liner comprising noise reducing material generally extending between the first open end and the second open end, and a skirt opening away from the second open end.

2. The device of claim 1, said first open end having a first opening, said second open end having a second opening, said first opening smaller than said second opening, said at least one sound suppressor comprising at least one of rubber and mesh.

3. The removable noise suppression device of claim 2 further comprising a shell extending between the first opening and the second opening said shell at least partially covering said at least one sound suppressor.

4. The noise suppressing device of claim 2 further comprising a shell, a first ring at the first end sized to support the first opening, and a second ring at the second end sized to support the second opening, said shell extending between the first ring and the second ring thereby providing a generally conical structure and substantially surrounding said at least one sound suppressor.

5. The noise suppressing device of claim 4 wherein said at least one sound suppressor comprises a generally conical structure sized to fit within and abut generally contiguously with an internal surface of the shell.

6. The noise suppressing device of claim 5 wherein said skirt is associated with the second opening.

7. A noise suppressing device for use with hand-operated machinery said machinery comprising a noise source, said noise suppressing device comprising a first end and a second end, an inner surface comprising a conical shape, and a sound absorbing panel positioned inside and substantially contiguous to the inner surface.

8. The device of claim 7 further comprising at least one liner positioned between the first end and the second end and substantially contiguous to the sound absorbing panel, said inner surface sized to at least partially surround the noise source.

9. The device of claim 3 wherein said hand operated machinery comprises one of a hand-operated drilling machine and hammering machine.

10. The device of claim 1 wherein said inner surface shape is generally a U sized to be inverted over the noise source of the hand operated tool.

11. The device of claim 3 wherein said inner surface shape is generally cylindrical and sized to accept insertion of a portion of the hand operated tool comprising the noise source.

12. The device of claim 3, said hand operated drilling machinery further comprising a drilling rod wherein the outer shape of the noise suppressing device is generally a conical shape and sized to accommodate insertion of at least a portion of the noise source of the hand operated drilling machinery, wherein at least a portion of said drilling rod extends beyond said the outer shape of the noise suppressing device.

13. The device of claim 3 wherein said noise source comprises a motor.

14. The device of claim 3 wherein the hand-operated drilling machinery is a jack leg drill.

15. The device of claim 1 wherein the liner is comprised of one of rubber or wire mesh.

16. The device of claim 1 wherein said hand operated, motorized tool comprises a motor and a drill rod, said device further comprising a first ring at the first end forming the first opening, and a second ring at the second end forming the second opening.

17. A noise suppressing device for use with hand-operated drilling machinery comprising an outer shell, at least one of an acoustic panel and a mesh lining positioned between a first ring near a first end forming a first opening and a second ring near a second end forming a second opening, said at least one of an acoustic panel and a mesh lining substantially covering an inner surface of the outer shell.

18. The device of claim 17 further comprising a neoprene skirting extending past the second opening thereby directing noise further from an operator before exiting the second opening.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0018] FIG. 1 is a side cross section view of a first embodiment of an inventive noise suppression device for use in vertical drilling;

[0019] FIG. 2 is an end view from the second end of the first embodiment of the inventive noise suppression device for use in vertical drilling;

[0020] FIG. 3 is an end view from the first end of the first embodiment of the inventive noise suppression device for use in vertical drilling;

[0021] FIG. 4 is a cross-section view of the first embodiment of the inventive noise suppression device of the present invention showing the first and second rings;

[0022] FIG. 5 is a cross section showing the shell, the first ring and the second ring of the first embodiment of the inventive noise suppression device;

[0023] FIG. 6 is a side view of a second embodiment of the inventive noise suppression device;

[0024] FIG. 7 is a bottom or second endview of the second embodiment of the noise suppression device;

[0025] FIG. 8 is an end view from the first end of the second embodiment of the inventive noise suppression device;

[0026] FIG. 9 is a cross section view of the second embodiment showing the shell;

[0027] FIG. 10 is a cross section showing the shell of the second embodiment;

[0028] FIG. 11 is a side view of a third embodiment of the inventive noise suppression device;

[0029] FIG. 12 is a cross-sectional, top view of the third embodiment;

[0030] FIG. 13 is a side cross-sectional view of the third embodiment;

[0031] FIG. 14 is an end view from a first end of the third embodiment of the inventive noise suppression device;

[0032] FIG. 15 is an end view from a second end of the third embodiment of the inventive noise suppression device;

[0033] FIG. 16 is a side view of a jack leg drill.

DETAILED DESCRIPTION

[0034] Clearly, noise is a problem with hand-operated drilling machinery and other hand-operated motorized tools and has been addressed in various ways with varying levels of success including ear protection for the user, and mufflers associated with the exhaust of the machinery. The present invention will be described herein by reference numbers associated with figures. Two embodiments of the invention are presented as noise suppression devices 10 and 100. The invention is a noise suppression device 10, 100 for use with a drilling device 5 and works by muffling and catching noise using sound dampening materials 12 substantially covered or encased in an outer shell 14. The shell 14 also comprises an inner surface 15 and surrounds or partially surrounds a noise source 16 rather than simply accepting the noise from an exhaust outlet 20, as the prior art teaches. The noise source may comprise a motor 16 and a drill rod 18. (The noise source may, instead, comprise another hand-operated motorized drilling or other tool. Specifically, a first embodiment of the present invention is a noise suppression device 10 that fits over and fully or substantially surrounds at least a portion of a body 22 of the drilling device 5 (which device may comprise a cylinder 30, controls, drill mechanics 34, and, the rod 18). The device may comprise an outer shape which may be conical. (See FIGS. 2 and 3). The noise suppression device 10 includes a first end 40, (to fit over at least a portion of the rod of the drill 18), at least one and preferably more than one sound suppressors 42 such as an acoustic panel or echo absorber, at least one liner 44 comprising noise reducing material such as rubber or mesh, a second end 46 and, usually, a skirt or skirting 48 designed to facilitate sound dissipation. The first embodiment of the noise suppression device 10 may comprise a first ring 50 at the first end 40 forming a first opening 41. Further, or alternatively, the noise suppression device 10 may also comprise a second ring 52 at the second end 46 forming a second opening 47. In the first embodiment, the first opening 41 is smaller than the second opening 47 and/or the first end 40 may be smaller than the second end 46 thereby providing a conical shape. In an embodiment, the first ring 50 and the second ring 52 are covered and separated by at least one of a sound suppressor 42, and mesh liner 44 extending substantially therebetween.

[0035] In a second embodiment shown at FIGS. 6-10, a solid cast shell 14 is employed, thereby eliminating the need for the first ring 50 and second ring 52.

[0036] In a third embodiment as shown in FIGS. 11-15noise suppression device 100 may be designed for horizontal drilling and may comprise arched ribs 500-520 a first arched rib 500 at a first end 400 forming a first opening 410, and a second arched rib 520 at a second and opening 470 at a second end 460 with additional arched ribs similarly oriented therebetween wherein at least one of a sound suppressor 420 and a liner 440 (together, sound dampening materials 12) extend over or under the ribs 500-520, the whole optionally covered by an arched shell 414 wherein a cross-section of the device resembles a semicircular or U-shape increasing in size between the first end 400 and the second end 460, see FIG. 9. In the second embodiment, the at least one of a sound suppressor (acoustic panel) 420 and liner 440 extend to cover the ribs 500-520 (either on the convex side or concave side of the ribs) to form an arch shape, but do not surround the ribs 500-520 in a manner that forms a tube-like structure. The covered (or lined) arch aspect allows the device 100 to be made with less material and comprise less weight while shielding/redirecting noise from the noise source 16 downward and away from the operator. Further, the covered arch shape allows the device 100 to be placed on and stably supported by a horizontal surface for use in horizontal drilling applications. Alternatively, the sound suppressor 420 and liner 440 may extend to cover the ribs 500-520 in a manner that forms a tube-like structure into which the body 22 of a horizontal drilling tool could be inserted. The second embodiment (in tube-like structure or non-tube-like structure) may, optionally, also include a skirt or skirting 480. The skirting 480 is associated with the second end 460 and directs noise away from the drill operator.

[0037] In an embodiment, the skirt or skirting 48 comprises neoprene and may comprise a dimension generally equal to the second opening 47, 470. The skirting may be cone or funnel-like in shape, or may exhibit similar circumference or shape with the second end 46, 460. In an embodiment, shell 14, 414 comprises HDPE plastic or material of similar flexibility, strength, and durability which may include old filter casing material. Inner layer 44, 440 material may include rubber lining, Thinsulate, or old filter casing material as echo absorber material thereby forming an acoustic panel 42, 420. The inventive device may be used for, at least, roof bolting and drilling. With minor adjustment the device may be employed in horizontal bolting and drilling operations, or employed for use with vertically operated jack hammers.

[0038] To use the noise suppressing device 10 in a vertical drilling operation, the drill rod 18 of a jack leg drill 5, e.g., (See FIG. 11) is inserted through the second opening 47 through the ring 52 in the second end 46 of the device 10 and there through such that at least a portion of the drill rod 18 extends through the first end 40 of device 10 and the first ring 50 and first opening 41. Upon proper positioning, the drill rod 18 preferably extends at least in part past the first end 40 to be used in a drilling operation while at least a portion and preferably most of the noise source 16 remains positioned between the first opening 41 and the second opening 47 of the noise suppressing device 10. At least one sound suppressor such as echo absorber 42 and/or one or more rubber or mesh liner 44 is positioned in the shell 14, thereby suppressing some of the noise produced by the noise source 16 while the jack leg drill 5 is in operation. In a preferred embodiment, neoprene skirting 48 extends past the second opening 47 thereby directing the remaining noise further from the operator before exiting, and reducing its negative effects.

[0039] There are two ways to install the noise suppressing device 100 in a horizontal drilling operation. The first includes securing or placing the noise suppressing device 100 on a generally horizontal surface thereafter inserting the drill rod 18 of a drill through the first arched rib 500 at the first end 400, and through the second arched rib 520 at the second end 460. Alternatively, the drill comprising a drill rod 18 could be positioned first, with the noise suppressing device 100 placed over the drill 5 thereafter and, optionally, secured there. The covered arch shape allows the device 100 to be placed on and stably supported by a horizontal surface for use in horizontal drilling applications. Other than these factors, the vertical and horizontal embodiments may share common features.

[0040] Testing of the inventive device 10 shows measurable reduction in dba exposure from 104 to 97 during roof bolting. Reduction in dba translates to more work time per worker before the sound limit is reached. Data below shows three sets of data. Data for employee numbers 1-8 reports noise exposure to these employees when using typical noise reduction equipment. Data for employee numbers 9-17 was collected from employees using a first version of the noise suppression device, while data for employee numbers 18-23 was collected from employees using a second version of the noise suppression device. Data in terms of dosimeter reading (dosage) and number of bolts worked is presented.

TABLE-US-00002 Dosim- Em- Date eter ployee Dose Comments Oct. 15, 2018 103 1. 211 w/o noise reduction equipment 1/2 days Oct. 15, 2018 104 2. 278 w/o noise reduction equipment 1/2 days Oct. 16, 2018 103 3. 74.35 first model & restricted hours or bolts Oct. 16, 2018 102 4. 115.4 42 bolts Oct. 17, 2018 101 5. 119.7 22 bolts and rework-pulled due to dosage Oct. 17, 2018 103 6. 104.7 22 bolts and rework-pulled due to dosage Oct. 22, 2018 101 7. 85.55 Oct. 22, 2018 103 8. 121.4 28 bolts (8:00-12:40), drive haul truck Oct. 23, 2018 PSC 9. 89.2 53 bolts Oct. 23, 2018 101 10. 26.63 60 bolts Oct. 23, 2018 PSC 11. 49.46 60 bolts Oct. 23, 2018 102 12. 24.49 50+ bolts Oct. 26, 2018 101 13. 71.58 29 bolts (12:22-5:25) Oct. 26, 2018 102 14. 60.85 29 bolts (12:22-5:30) Oct. 26, 2018 103 15. 72.0 29 bolts (12:22-5:30) Oct. 26, 2018 104 16. 70.75 21 bolts (6:30-12:01) Oct. 28, 2018 102 17. 56.34 60 bolts Oct. 29, 2018 102 18. 91.0 Started dosimeter @ 10:39; 42 bolts Oct. 30, 2018 PSC 19. 63.71 77 bolts Oct. 30, 2018 102 20. 102.0 77 bolts Oct. 30, 2018 MSHA 21. 97.88 77 BOLTS Oct. 31, 2018 103 22. 56.21 84 bolts Oct. 31, 2018 102 23. 48.6 Rework Oct. 31, 2018 MSHA 24. 58.88 84 bolts

[0041] Specifically, the study showed that production measured in bolts drilled increased from 22 bolts on average up to 80 bolts, and resulted in a reduction in noise exposure from average in dba from 138 to 75 db. While the study is not statistically designed, the results point to the possibility of greatly increased productivity when the inventive noise suppression device is used.

[0042] While the effectiveness of the device 10 is increased by including all of the claimed features, there may be specific uses that may achieve adequate sound reduction with fewer sound suppressors, or without the skirting, or with other adjustments which are considered to be within the scope of this invention.

[0043] Although the present invention has been particularly described with reference to implementations discussed above, various changes, modifications and substitutes can be made. Accordingly, it will be appreciated that in numerous instances some features of the invention can be employed without a corresponding use of other features. Further, variations can be take the number and arrangement of components illustrated in the figures discussed above. The foregoing description of embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise from disclosed. Many modifications and variations are possible in light of this disclosure. It is intended that the scope of the invention be limited not by this detailed description, but rather by the claims appended hereto.