The present disclosure relates, generally, to an apparatus and methods for piercing a centrifuge tube. More particularly, the present disclosure relates to a fixture for facilitating the piercing of the centrifuge tube.
In labs, for example, chemical labs, biomedical labs, hospital labs, etc., separation of different chemicals or different phases of a substance are carried out in centrifuge tubes. In order to remove the gradient materials from the centrifuge tube, a bottom of the centrifuge tube is pierced by using a needle. In so doing, a user, generally hold the centrifuge tube in one hand and pierce the centrifuge tube via the needle using other hand. Therefore, it is not easy to pierce the centrifuge tube bottom with a syringe needle correctly and safely.
Hence, there is a need for an apparatus that facilitate the piercing of a centrifuge tube with a syringe needle safely and expediently.
In a first aspect, a fixture for facilitating a piercing of a centrifuge tube is disclosed. The centrifuge tube includes a bottom portion and a sidewall extending from the bottom portion. The fixture includes a frame having a base, an elongated member, and a plate. The elongated member extends substantially perpendicular to the base and is configured to support the bottom portion of the centrifuge tube. Also, the elongated member defines a bore for receiving a needle for piercing the bottom portion of the centrifuge tube. The plate is engaged with the frame and is disposed spaced apart from the base. Also, the plate is disposed substantially parallel to the base. Further, the plate defines an opening disposed coaxial with the bore for receiving and supporting the centrifuge tube.
In an embodiment, a method for piercing a centrifuge tube employing the fixture is disclosed. The method includes placing the needle inside the bore of the elongated member, and inserting the centrifuge tube though the opening to place the bottom portion of the centrifuge tube on the elongated member. The method further includes tapping the centrifuge tube to facilitate the piercing of the bottom portion of the centrifuge tube by the needle.
In a second aspect, a fixture for facilitating a piercing of a centrifuge tube is disclosed. The centrifuge tube includes a bottom portion and a sidewall extending from the bottom portion. The fixture includes a frame having a base, an elongated member, and a plate. The elongated member extends substantially perpendicularly to the base and is configured to support the bottom portion of the centrifuge tube. Also, the elongated member defines a bore for receiving a needle for piercing the bottom portion of the centrifuge tube. Further, the plate is engaged with the frame and is disposed spaced apart from the base. The plate is also disposed substantially parallel to the base. Further, the plate defines an opening disposed coaxial with the bore for receiving and supporting the centrifuge tube. Furthermore, at least one of the elongated member or the plate includes a slit for facilitating an insertion of the needle inside the bore.
In another aspect, a fixture for facilitating a piercing of a centrifuge tube is disclosed. The centrifuge tube includes a bottom portion and a sidewall extending from the bottom portion. The fixture includes a frame having a base, an elongated member, a first plate, and a second plate. The elongated member extends substantially perpendicular to the base and is configured to support the bottom portion of the centrifuge tube. The elongated member defines a bore for receiving a needle for piercing the bottom portion of the centrifuge tube. Further, the first plate is engaged with the frame and is disposed spaced apart from the base. Also, the first plate is disposed substantially parallel to the base. The first plate defines an opening disposed coaxial with the bore for receiving and supporting the centrifuge tube. Further, at least one of the elongated member or the first plate includes a slit for facilitating an insertion of the needle inside the bore. Furthermore, the second plate is engaged with the frame and is disposed space apart from the first plate. Also, the second plate is disposed substantially parallel to the first plate. Further, the first plate is disposed between the base and the second plate and defines a cavity disposed coaxial with the opening for receiving and supporting the centrifuge tube.
The following terms are used in the specification with the following meanings:
“Centrifuge tube” refers to a tube or container, containing liquid having separate components, e.g., different densities, viscosities, shapes or sizes. In embodiments, besides liquid there can be solid (sediments collected at the bottom). The components can be separated by using centrifugation, the rapid rotation of the tube around a fixed axis to separate into components.
The present disclosure relates to a fixture for facilitating a piercing in the bottom portion of a centrifuge tube safely. The piercing of the centrifuge tube may be performed for facilitating an extraction of one or more gradient materials from the centrifuge tube after the needle is inserted (by piercing the hemispherical or conical bottom).
In embodiments, the fixture can be constructed out of any of metal, e.g., steel, aluminum, etc., metal alloys, engineering thermoplastics, wood, and the like. The fixture is provided with a frame and a horizontal plate engaged with the frame. The plate has an opening for receiving and supporting the centrifuge tube. The piercing of the centrifuge tube is via the use of a needle (for subsequent connection to a syringe).
In operation, the centrifuge tube is held in place by the fixture, with the hemispherical or conical bottom being brought in contact with the needle held in a stand-up position, with the sharp tip pointed upward. By pressing the centrifuge tube with a light tap, the hemispherical or conical bottom is pierced by the needle. After the tip (hemispherical or conical bottom) of the centrifuge tube is pierced with the needle connected hereto, a syringe can be attached to the needle to extract the desired component(s) from the centrifuge tube. The desired component(s) are extracted according to the density or gradient separation of the components in the tube.
It should be noted that the fixture may have more than one horizontal plate, e.g., two or three plates, and the plates are removable (for swapping in and out), for holding centrifuge tubes of different lengths or sizes.
Reference will be made to the figures, showing various embodiments of the fixture and methods for using thereof.
Referring to
Referring to
The elongated member 104 is adapted to support the centrifuge tube 200 and extends substantially perpendicularly to the base 110. In an embodiment, the elongated member 104 is a hollow member including a first longitudinal end 130, a second longitudinal end 132, a wall 136 having an outer surface 138 and an inner surface 140. The second longitudinal end 132 is coupled or attached to the base 110. In an embodiment, the second longitudinal end 132 (i.e. the elongated member 104) may be fixedly attached to the base 110. Alternatively, the second longitudinal end 132 (i.e., the elongated member 104) may be removably attached to the base 110 using one or more fasteners, or it can be screwed onto the base 110 (not shown). Further, the inner surface 140 of the wall 136 defines a bore 142 extending in a longitudinal direction. The bore 142 extends from the first longitudinal end 130 towards the second longitudinal end 132. In an embodiment, the bore 142 may extend from the first longitudinal end 130 to the second longitudinal end 132, and is therefore defined a through hole. The bore 142 is adapted to receive the needle 300 for facilitating the piercing of the centrifuge tube 200 supported by the first longitudinal end 130 of the elongated member 104. In certain embodiment, the elongated member 104 may include a slit 150 (hereinafter referred to a first slit 150) extending through the wall 136 from the outer surface 138 to the inner surface 140 to facilitate an insertion or placement of the needle 300 inside the bore 142. As shown, the first slit 150 extends from the first longitudinal end 130, and may extend along a partial length of the elongated member 104. In certain scenarios, the first slit 150 may extend along a full length of the elongated member 104.
Further, the first plate 106 is adapted to support the sidewall 204 of the centrifuge tube 200 within the fixture 100 and is engaged/coupled to the side structure 112 of the frame 102. In an embodiment, the first plate 106 is fixedly attached to the side structure 112. Alternatively, the first plate 106 is removably engaged with the side structure 112. To facilitate a removable engagement of the first plate 106 with the frame 102, the side structure 112 may include a retention structure 152 (shown in
Further, the first plate 106 is disposed substantially parallel to the base 110, and is located spaced apart (i.e. at a distance) from the base 110, thereby defining a gap 160 (hereinafter referred to as a first gap 160) between the first plate 106 and the base 110. A shape of the first plate 106 may be similar to the shape of the base 110, and may include a rectangular shape. Further, the first plate 106 may include one or more free edges, for example a free edge 164, a first surface 166, and a second surface 168 (best shown in
Additionally, or optionally, the fixture 100 may include a second plate 184 adapted to hold/support the sidewall 204 of the centrifuge tube 200 within the fixture 100. The second plate 184 is engaged/coupled to the side structure 112 of the frame 102 and is disposed substantially parallel to the first plate 106. In an embodiment, the second plate 184 is fixedly attached to the side structure 112. Alternatively, the second plate 184 is removably engaged with the side structure 112. To facilitate the removable engagement of the second plate 184 with the side structure 112 (i.e. the frame 102), the side structure 112 may include a retention structure 186 (best shown in
As illustrated, the second plate 184 is located spaced apart (i.e. at a distance) from the base 110 such that the first plate 106 is disposed between the base 110 and the second plate 184. In this manner, a gap 190 (hereinafter referred to as a second gap 190), best shown in
In an embodiment, one or more components or structure of the fixture 100 can be made from stainless steel. Although, the fixture 100 made of stainless steel is contemplated, it may be appreciated that fixture 100 can be made of any other material, such as, but not limited to, fiber reinforce composites, plastics, any metal, alloys, or any other material known in the art.
In certain implementations, the fixture 100 may be utilized in labs, for example, chemical labs, biomedical labs, hospital labs, or any other place where the piercing of a tube, such as the centrifuge tube 200, is necessary for removing one or more gradient materials disposed/stored inside the tube.
Referring to
Referring to
A method for piercing the centrifuge tube 200 using the fixture 100 is now explained. For piercing the centrifuge tube 200, an operator or user places the needle 300 inside the bore 142. For so doing, the operator or user may insert the needle 300 inside the bore 142 through the first slit 150 and/or the second slit 180. The needle 300 may be placed inside the bore 142 such that a portion of a bevel 302 (shown in
This written description uses examples to disclose the invention, including the best mode, and also to enable any person skilled in the art to make and use the invention. The patentable scope is defined by the claims, and can include other examples that occur to those skilled in the art. Such other examples are intended to be within the scope of the claims if they have structural elements that do not differ from the literal language of the claims, or if they include equivalent structural elements with insubstantial differences from the literal languages of the claims. All citations referred herein are expressly incorporated herein by reference.
As used herein, the term “include” and its grammatical variants are intended to be non-limiting, such that recitation of items in a list is not to the exclusion of other like items that can be substituted or added to the listed items. The terms “comprises” and/or “comprising,” when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. Although the terms “comprising” and “including” have been used herein to describe various aspects, the terms “consisting essentially of” and “consisting of” can be used in place of “comprising” and “including” to provide for more specific aspects of the disclosure and are also disclosed.
Unless otherwise defined, all terms have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The singular forms “a,” “an,” and “the,” include plural references unless expressly and unequivocally limited to one referent.
This application claims benefit to U.S. Provisional Application No. 62/971,525 with a filing date of Feb. 7, 2020, the entire disclosure of which is incorporated herein by reference.
Number | Date | Country | |
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62971525 | Feb 2020 | US |