Ventilation – Workstation ventilator
Reexamination Certificate
2001-04-17
2002-08-13
Joyce, Harold (Department: 3749)
Ventilation
Workstation ventilator
C141S093000, C454S056000
Reexamination Certificate
active
06431975
ABSTRACT:
BACKGROUND OF THE INVENTION
(1). Field of the Invention
The present invention relates to improved fume hoods or ventilated workstations, and in particular to fume hoods having a floor opening through which the upper end of a container is inserted into the hood enclosure.
(2). Description of the Prior Art
Fume hoods or vented workstations are used in laboratories and other environments to manipulate materials that might generate noxious or dangerous gases or fumes without releasing the materials or components or fumes therefrom into the work environment. Generally, these workstations are comprised of an enclosure or chamber in which materials are handled, and means for drawing air through a front opening in the enclosure. The operator also uses this front opening as the means of access into the enclosure. The enclosure also includes an exhaust opening, frequently communicating with a filter, to remove contaminants from air exhausted from the chamber.
The fume hood is normally comprised of side and top walls, which may be of transparent material, such as Plexiglas™ or other clear plastic, a rear wall with an exhaust opening, and a planar bottom wall or floor. The front edges of the top, side and bottom walls may form an operator access opening. A slidable or hinged door may be positioned to cover, or vary the size of, the access opening. Generally, the hood is configured, and air vanes are often added, so that air enters the access door and is exhausted through the exhaust opening, with generally laminar airflow being maintained within the chamber to avoid air turbulence that could disturb the materials being manipulated.
Escape of contaminated air from the hood chamber through the access opening into the work environment is prevented by maintaining a pressure differential between the chamber, or hood interior, and the work environment, or hood exterior, so that air continually flows from the hood exterior through the access opening into the hood interior. A sufficient air velocity at the access opening, known as the “face velocity,” must be maintained to prevent contaminated air from escaping.
Contaminated air is exhausted from a fume hood through an exhaust conduit that includes a vacuum source to draw the air through the exhaust conduit. Generally, this vacuum source is comprised of an exhaust fan positioned within the conduit, and an electric motor to turn the fan. The gas may be exhausted to the exterior environment when toxic contaminants are not present. In many instances, however, the air will be conveyed through a filter, such as a HEPA filter, to remove contaminants from the air.
When working with hazardous or toxic material, there is frequently a need to remove materials from a container, to insert materials into a container, or to transfer material from one container to another container. Some of these containers, which may be carboys, drums, or the like, are quite large and difficult to maneuver. Therefore, placement of one or more of these containers into a fume hood to prevent escape of hazardous materials into the surrounding environment, as well as their subsequent removal, and the insertion or transfer of materials to or from these containers, can be difficult, if not impossible.
Thus, a need exists for an apparatus to facilitate the addition, removal or transfer of hazardous materials to or from large containers within a controlled environment, so that the materials will not be inadvertently discharged into the work environment.
SUMMARY OF THE INVENTION
The present invention addresses this need by providing a fume hood that is uniquely configured to receive the access-opening upper portion of a large container within the hood enclosure, thereby providing access from within the hood enclosure to the container's contents. Basically, the fume hood is comprised of an enclosure having walls that define a chamber that includes at least one container-receiving opening in the floor of the enclosure. The enclosure is supported so that a large container having a top opening through which material can be added to, or removed from, can be positioned beneath the enclosure and then raised upwardly, so that the upper section of the container projects through the opening and into the enclosure.
The operator can then open the container from within the enclosure, remove or add material, and then close the container. The container is then lowered to separate the container from the enclosure. As a result, the opening into the container is at all times within the fume hood enclosure when the container is open, thereby preventing hazardous materials from escaping from outside the hood enclosure. As used herein, the term “hazardous” is broadly intended to include all materials, whether in powder, liquid or gaseous form, where escape beyond a confined area is undesirable, and the term “container” is intended to include all containers for such materials.
The fume hood is generally comprised of the enclosure and a plenum at the rear of the enclosure to receive contaminated air from the enclosure. When used, an exhaust conduit will be connected to the plenum to convey contaminated air to a remote location, which may include a filtration means. A base or support is used to position the enclosure at a level permitting insertion of a hazardous materials container beneath the enclosure.
Generally, the enclosure includes a pair of spaced, parallel side walls; rear and upper walls joining the side walls; and the aforementioned bottom wall or floor, that together define the work chamber of the enclosure. The front edges of the side, upper and bottom walls together define an access opening or inlet into the chamber through which the operator can manipulate material within the chamber. Air also enters the chamber through this access opening.
The enclosure may also include a moveable closure or door to vary the size of the access opening. An air exhaust opening leading to an exhaust plenum is preferably located on the opposite side of the chamber from the access opening, so that air flows across the chamber from the access opening to the discharge opening. The sidewalls, front and/or upper walls of the enclosure are preferably of a clear, impact resistant plastic to facilitate viewing of the chamber contents.
The bottom wall or floor of the enclosure is preferably comprised of a planar work surface with rear and side edges joining the rear and side walls, respectively, of the enclosure. At least one container-receiving opening extends through the floor. Preferably, the opening is large enough to accommodate the largest container to be used, and is of a shape corresponding to the cross-section of the container. That is, a round hole will preferably be used for cylindrical containers, such as drums or carboys, while a rectangular hole will be used for rectangular containers, such as boxes.
In order to accommodate containers of different sizes, and to ensure that an airtight seal is formed around the container when the upper section of the container is inserted through the opening, detachable rings or frames may be secured around the periphery of the opening, to change the size of the opening.
Each ring or frame also includes an attached, inwardly extending, flexible ring or member that forms a flexible seal between the container and the floor when the container is inserted through the flexible member. It will be understood, of course, that the flexible member may be attached directly to the floor, if the enclosure is to be used to manipulate the contents of only one size container.
Depending upon the desired use, the enclosure floor can include one opening, or two or more openings. Thus, when the need is to remove material from a single container, so that the material can be placed within a smaller container inside the enclosure, or otherwise used, only one opening will be required. Similarly, one opening is all that is needed if material is to be removed from smaller containers in the enclosure and inserted into a larger container that extends into the enclosure. In both instances, the enclo
,MacCord Mason PLLC
Flow Sciences, Inc.
Joyce Harold
LandOfFree
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