Imperforate bowl: centrifugal separators – Process
Reexamination Certificate
2000-06-30
2002-10-01
Reifsnyder, David A. (Department: 1723)
Imperforate bowl: centrifugal separators
Process
C494S016000, C494S045000, C422S072000, C422S105000
Reexamination Certificate
active
06458067
ABSTRACT:
AREA OF THE ART
The invention relates to removable liners for centrifuge containers and a method of using such liners for separating solids from suspensions by centrifugation.
DESCRIPTION OF THE PRIOR ART
Centrifugation is a widely used method for separating solid and liquid phases of suspensions. The solid phase is more dense than the liquid phase, and during centrifugation, solids settle at the bottom of the centrifuge container, forming a dense pellet. The lighter liquid phase forms a top layer, also called a supernatant. At the end of centrifugation, the supernatant can be decanted and the pellet harvested or discarded. The initial separation step may be followed by wash steps. During a wash step, the pellet is resuspended in a wash liquid. The resuspended solid component then may be pelleted once again by means of centrifugation and the supernatant wash liquid decanted from the container. In certain applications, this step can be repeated several times with the same or a different wash liquid.
Currently, tube-carrying rotors, as well as bowl-type centrifuge rotors, are available on the market. The following discussion is limited to tube-carrying rotors of which there are three main types: swinging bucket rotors, fixed angle rotors and vertical tube rotors. All three types of tube-carrying rotors include a plurality of symmetrically located cavities, adapted to receive sample containers. Sample containers for centrifugation are manufactured in a variety of sizes, materials, wall thicknesses and sealing means to accommodate chemically active samples and a wide range of operating conditions.
The existing designs of centrifuge containers, however, do not offer an easy access to pellets for their harvesting or disposal. In applications dealing with diluted suspensions, complete harvesting of a pellet can be particularly difficult. In some applications, sample containers have to be cut to retrieve a pellet, which is not always an economically feasible option. Also, existing centrifuge containers cannot accommodate applications where the pellet is a hazardous material (e.g., a biohazard) and a minimal direct handling of the pellet by a technician is desirable. Furthermore, cleaning of the centrifuge containers from the solids remaining on the walls after the pellet is harvested requires laborious and tedious scrubbing and washing. The difficulty of thorough cleaning of the centrifuge container further increases as the dimensions of the neck opening of the container decreases. That is, whereas some types of solid residue may be easily cleaned from wide-mouthed bottles, such residue becomes more difficult to remove where the bottle is of narrow-mouthed construction. Also, the manufacturing of conventional centrifuge containers requires that materials are selected according to their structural strength and fatigue resistance, and not necessarily for their chemical or sterilization resistance. However, the mechanical strength of the materials does not always correspond to their chemical and physical resistance. Consequently, certain chemically aggressive materials cannot be processed in conventional centrifuge containers or require bulky and expensive designs. Finally, when an aseptic procedure is called for, the centrifuge containers have to be sterilized, which often takes 30-60 minutes. This relatively long preparation time of a conventional centrifuge container further decreases efficiency of the sample processing.
The conventional centrifuge container designs, therefore, fail to provide convenient methods for the separation of solids by centrifugation with little or no time required for cleaning and sterilization of the containers prior to the next centrifugal cycle. The conventional designs are also limited to only certain types of samples that can be processed.
SUMMARY OF THE INVENTION
It is an object of the present invention to develop a cost-efficient, rapid and convenient method for the separation of the solids from suspensions by centrifugation. Particularly, it is an object of the present invention to develop a centrifuge container assembly that minimizes the time required for its cleaning, reduces direct exposure of a technician to hazardous pellets and, at the same time, increases the efficiency of the pellet harvesting. It is also an object of the present invention to develop a centrifuge container assembly that provides a sample-tight seal and prevents sample spilling during centrifugation.
These and other objects and advantages are achieved in a removable conformal liner of the present invention. The liner is designed to have a flexible or semi-rigid body with an opening for introducing a sample. When the liner is inserted into an internal cavity of a centrifuge container, the body of the liner conforms to the shape of the interior cavity. The liner body may be made of a material that is sufficiently resilient to allow a reversible deformation of the body by folding, twisting, collapsing, rolling, or pleating. The liner body may be deformed in any way, as long the deformation does not cause irreversible structural damage to the liner. The liner may have a strengthening structure for increasing the strength of the liner body. A liner of this invention may also contain an integrally formed sealing structure for providing a seal between the liner and the centrifuge container when assembled. The sealing structure extends outwardly from the side wall of the liner body and may have an o-ring-like structure.
In another aspect, the present invention provides a removable centrifuge container assembly. The assembly includes a centrifuge container with an interior cavity and an opening, and a removable liner with a flexible or semi-rigid body placed in the container. In one embodiment, the liner body is made of a sufficiently resilient material, which allows a reversible deformation of the liner body. This embodiment is particularly advantageous for use with containers which have a narrow neck. When the liner body is made of a resilient material, it may be deformed in such a way that its dimension is sufficiently reduced so that it can fit through the neck of the container. Once released inside the container, the liner unfolds to allow placement of a sample. The centrifuge container assembly of this invention may also have a retaining-means for retaining the liner in a fixed position within the container. The retaining-means may comprise a first mating element formed on the liner body and a second mating element formed on the container. The first and the second mating elements are capable of engaging each other in order to secure the liner. Alternatively, a top portion of the liner may be draped over the edge of the container opening and secured with a retaining-means, such as a tie wrap or a resilient member.
The present invention also overcomes deficiencies of the prior techniques by providing a method of using removable conformal liners for centrifuge containers in separating the solids from suspensions by centrifugation. In this method, the removable conformal liner of the present invention with a flexible or semi-rigid body is placed into a centrifuge container. Once inside the container, the liner body conforms to the shape of the interior cavity of the container. The step of placing the liner may include deforming the liner body to reduce its dimension and fitting the deformed liner through the container opening. The method may further include a step of immobilizing the liner with a retaining-means. When centrifugation is completed, the liner is removed from the container with the pelleted solids contained in the liner. The pelleted solids on the liner may be either harvested or discarded.
The present invention has been found to provide a number of advantages. The centrifuge container assembly can be used to recover the solids from a broad range of suspensions, which includes, but is not limited to, biological materials, such as cell lysates, blood, urine and culture media, and industrial fluids, such as waste washout liquids and sludge. The invention is particularly a
Dorin Melvin
Moore Patrick Q.
Beckman Coulter Inc.
Hill D. David
May William H.
Reifsnyder David A.
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