1. Field of the Invention
The invention pertains to the field of particulate collectors. More particularly, the invention pertains to a particulate collector for drums.
2. Description of Related Art
In many facilities, powders are mixed together to form a powdery compound product which are either sold outright or are further processed by mixing the powdery compound with other products. This mixing often needs to occur within a hood or a specialized area within the facility due to the particulates that end up in the air during the mixing of powders. The problems that can arise during the mixing process of powders in large volumes include, when the powder is poured into a container, for example drums, the powder particulates billow out and create a mess. The powder particulates can also be harmful if breathed in by users preparing the powdery compounds. Additionally, when the powders or the powdery compound are mixed together, additional particulates are created during the process.
A particulate collector for attachment to a vacuum cleaner and for preventing particulates from spilling over a top of an opening of a drum during mixing of material in the drum, the opening being defined by a rim with an outer lip. The collector has a body with opposing curved ends, the body having an upper rim and a lower rim, an outer surface and an inner surface, the upper rim, lower rim and inner surface defining an inner chamber, the body having a first vacuum port and a second vacuum port extending from the outer surface to the inner surface, a first and a second angled hollow pipe, each having a tubular body with an outer end for attachment to a vacuum cleaner and an inner end mounted to the outside surface of the body and received by the first or second vacuum port, the tubular body having a first portion and a second portion which meet at an angle at a point along the body. When the body of the particulate collector is placed in the opening of the drum, the first angled hollow pipe and the second angled hollow pipe rest on the rim of the opening at the point where the first portion and the second portions meet; such that when a vacuum cleaner is connected to the outer end of the first angled hollow pipe and the outer end of the second angled hollow pipe, particulates which are present in the opening of the drum are sucked into vacuum cleaner.
An inner chamber 30 of the particulate collector 100 of an embodiment of the present invention is shown in
The first vacuum port 2 of the particulate collector receives an inner end of a first angled hollow pipe 6 with a tubular body, which is rotatably secured within the port 2 by an outer washer 8 on the outer surface 23 of the collector and an interior washer 10 on the inner surface 24 of the collector. The first angled hollow pipe 6 preferably has a 45 degree bend defined by a first surface 3 and a second surface 5 of the first angled pipe 6. An outer end of the first angled pipe 6 receives a first vacuum hose 66.
The second vacuum port 4 receives an inner end of a second angled hollow pipe 12 with a tubular body, which is rotatably secured within the port 4 by an outer washer 14 on the outer surface 23 of the collector and an interior washer 16 on the inner surface 24 of the collector. The second angled hollow pipe 12 preferably has a 45 degree bend defined by a first surface 13 and a second surface 15 of the second angled pipe 12. An outer end of the second angled pipe 12 receives a second vacuum hose 68.
By rotatably securing the pipes 2, 12 within the ports 2, 4, the pipes 2, 12 can be rotated 360 degrees relative to the collector 100 to adequately attach vacuum hoses 66, 68 to the outer ends of pipes 2, 12 and place the collector 100 on the drum 60 without having the attached vacuum hoses 66, 68 interfere or get kinked.
A first vacuum hose 66 has a first end coupled to a vacuum cleaner(not shown) and a second end friction fit onto the outer end of the first angled hollow pipe 6 and a second vacuum hose 68 has a first end coupled to the same vacuum cleaner (not shown) as the first vacuum hose 66 and a second end friction fit onto the outer end of the second angled hollow pipe 12. When the vacuum cleaner is turned on, a vacuum is created within the inner chamber 30, and as a result a downward draft is present over the opening 64 of the drum 60. Any billowing dust is caught within the downward draft and is sucked through the first and second pipes 6, 12 and into a vacuum container (not shown) of the vacuum cleaner coupled to the vacuum hoses 66, 68.
In an alternate embodiment, a clip 50 is used to maintain contact between the particulate collector 100 and the outer lip 62 of the drum 60. The clip 50, as shown in
In an alternative embodiment, the particulate collector 100 may be secured to the lip 62 of the drum 60 from the bottom.
While the particulate collector in
The semi-circular shaped body of the particulate collector preferably corresponds to the shape of the outer lip 62 along the rim of the drum 60. The particulate collector 200 in the second embodiment of the present invention is shaped and sized to communicate with only a portion of the outer lip 62 along the rim of the drum 60. The outer edges 225 of the particulate collector 200 are preferably curved outward as shown in
An inner chamber 230 of the particulate collector 200 is defined between an upper protruding rim 221, an inner surface 224, and a lower protruding rim 222. At opposing ends of the particulate collector 200 are slots 232, 234. The slots 232, 234 define an opening 235, 236 that is greater than the thickness of right and left clips 300, 310 to allow movement of the clips 300, 310 within the slots 232, 234. Also present within each of the slots 232, 234 is a stop 240, 242. The opening 243, 244 defined between the slot 232, 234 and the stop 240, 242 is equal to the thickness of the clips 300, 310.
The left clip 300 has a body 304 with a top surface 303, side surface 301, a bottom surface 305 and a lip 306 extending out axially outwards from the bottom surface 305 as shown in
To secure the particulate collector 200 to the drum 60, the particulate collector 200 is placed within the opening 64 of the drum 60 such that the hollow pipes 202, 204 are resting on the outer lip 62 of the drum 60. The left and right clips 300, 310 are then aligned with the outer lip 62 of the drum 60 such that the lips 306, 315 of the clips 300, 310 can slide under the outer lip 62 of the drum 60. Once the lips 306, 315 of the clips 300, 310 are aligned to engage underneath the outer lip 62 of the drum 60, the clips 300, 310 are slid towards the hollow pipes 202, 204 within the slots 232, 234, pulling the particulate collector 200 within the drum 60 and angling the particulate collector 200 within the drum 60 for particulate collection.
Referring to
The particulate collector 400 has a crescent shaped body with curved outer ends 425, an outer surface 423 and an inner surface 424, vacuum ports 437, 438 extend from the outer surface 423 to the inner surface 424, and a collection chamber 431 formed adjacent the outer surface 423. A hollow pipe 402 with an outer end is connected to an opening 401 in the collection chamber 431. The hollow pipe may be integrally formed with the body of the particulate collector as in the second embodiment of secured to the body through washers as in the first embodiment. The hollow pipe 402 is preferably connected to a bottom of the 426 of the collection chamber 431 as shown, although the hollow pipe may be connected to other portions of the collection chamber 431. The hollow pipe 402 is preferably at a 20 degree angle relative to the bottom 426 of the collection chamber 431. The collection chamber 431 is connected to an inner chamber 430 through the vacuum ports 437, 438.
The inner chamber 430 of the particulate collector 400 is defined between an upper protruding rim 421, an inner surface 424, and a lower protruding rim 422. The upper protruding rim 421 and the lower protruding rim 422 are semicircular shaped and preferably corresponds to the shape of the outer lip 62 along the rim of the drum 60 with the back end of the particulate collector extending out from the drum 60. Vacuum ports 437, 438 allow air to flow from the inner chamber 430 and into the collection chamber 431. The particulate collector 400 of the third embodiment of the present invention is shaped and sized to communicate with only a portion of the outer lip 62 along the rim of the drum 60. The outer ends 425 of the particulate collector 400 are preferably curved outward as shown in
At opposing ends of the particulate collector 400 are slots 432, 434. The slots 432, 434 define an opening 435, 436 that is greater than the thickness of right and left clips 300, 310 to allow movement of the clips 300, 310 within the slots 432, 434. Also present within each of the slots 432, 434 is a stop 440, 442. The opening 443, 444 defined between the slot 432, 434 and the stop 440, 442 is equal to the thickness of the clips 300, 310. The left clip 300 has a body 304 with a top surface 303, side surface 301, a bottom surface 305 and a lip 306 extending out axially outwards from the bottom surface 305 as shown in
To secure the particulate collector 400 to the drum 60, the particulate collector 400 is placed within the opening 64 of the drum 62 such that the hollow pipe 402 is hanging outside of the drum 60. The left and right clips 300, 310 are then aligned with the outer lip 62 of the drum 60 such that the lips 306, 315 of the clips 300, 310 can slide under the outer lip 62 of the drum 60. Once the lips 306, 315 of the clips 300, 310 are aligned to engage underneath the outer lip 62 of the drum 60, the clips 300, 310 are slid towards the vacuum port 402 within the slots 232, 234, pulling the particulate collector 400 within the drum 60 and angling the particulate collector 400 within the drum 60 for particulate collection.
Referring to
Accordingly, it is to be understood that the embodiments of the invention herein described are merely illustrative of the application of the principles of the invention. Reference herein to details of the illustrated embodiments is not intended to limit the scope of the claims, which themselves recite those features regarded as essential to the invention.
This application claims one or more inventions which were disclosed in Provisional Application No. 61/721,208, filed Nov. 1, 2012, entitled “PARTICULATE COLLECTOR FOR DRUMS”. The benefit under 35 USC §119(e) of the United States provisional application is hereby claimed, and the aforementioned application is hereby incorporated herein by reference.
Number | Date | Country | |
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61721208 | Nov 2012 | US |