JP2007296407A - Pipette tip - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pipette tip capable of effectively preventing clogging at the time of suction of a reagent or the like while preventing the damage of a sample when the reagent or the like is supplied to the sample. <P>SOLUTION: The pipette tip 10 is equipped with a base part 11, a middle part 12 and a tip part 13 and formed into a tapered from its other end 10b toward one end part 13a of the tip part 13. The base part 11 is a region where a pipette (not shown in Fig.) is attached and detached. Further, the tip part 13 is formed so as to extend from the leading end of the middle part 12 and its tip is closed by a base wall (a lower wall in Fig.). Furthermore, through holes K and K are bored in the peripheral wall in the vicinity of the base wall of the tip part 13 at mutually opposed positions. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to pipette tips.

  Various pipette tips used for dispensing reagents and liquid samples have been proposed. In particular, in order to accurately dispense a small amount of reagent or liquid sample and prevent cross-contamination between reagents or samples, those that can be attached to and detached from the tip of the pipette and are used in a disposable manner are widely used. .

This type of pipette tip is generally formed in a generally conical shape that is hollow and tapered, and a hole is formed at the tip so that a reagent or liquid sample can be sucked and discharged. The base end is formed so as to be attachable to the tip of the pipette (see, for example, Patent Documents 1 to 3).
JP 2003-260372 A JP-A-8-266913 JP-A-8-112537

  However, when a reagent or sample is supplied to a container using the above-described conventional pipette tip, the reagent or sample sucked and held in the pipette tip is easily discharged (jetted) directly into the container, and impacts the sample that is the subject. There was a case where it was broken or damaged by applying force. For example, when a reagent is injected from a pipette tip into a container in which a sample has been stored in advance, the reagent is easily ejected vigorously from above the sample. Conversely, when a liquid sample is injected into a container in which a reagent is previously stored, the liquid sample is easily ejected vigorously from vertically above the reagent. In order to avoid this, a careful pipetting operation (pipetting) is required, and workability deteriorates.

  In addition, the conventional pipette tip described above may cause inconvenience not only when the reagent or sample is discharged from the pipette tip but also when the reagent or sample is inhaled into the pipette tip. That is, for example, when gel fragments are washed in a container and then the washing liquid is sucked up into the pipette tip, the gel is sucked together with the washing solution, and the pipette tip may be clogged. In order to avoid this, a careful pipetting operation is required, which deteriorates workability.

  Therefore, the present invention has been made in view of such circumstances, and when supplying a reagent to a sample or supplying a liquid sample to a reagent, the sample can be sufficiently prevented from being damaged and damaged, and the reagent. Another object is to provide a pipette tip that can effectively prevent clogging during inhalation of a sample.

  In order to solve the above problems, a pipette tip according to the present invention is attached to and detached from a pipette, has a substantially cylindrical shape with one end closed, and has an opening on a peripheral wall on the one end side. .

  The pipette tip configured in this way has the tip of the pipette attached to the other end which is the open end, and the pipette operation allows the reagent or liquid sample to pass through the opening formed on the one end side to the inside of the pipette tip. Inhaled into space. At this time, even if an object such as a gel piece is contained in the container in which the reagent or liquid sample is contained, the opening is provided in the peripheral wall, so the reagent or liquid sample is It becomes easy to flow in the lateral direction from above, and it is difficult for such a phenomenon that such an object is caught in the flow and moves to the opening side.

  The reagent and liquid sample thus housed and held in the pipette tip are also discharged to the outside through the opening by the pipetting operation. At this time, since the opening is provided in the peripheral wall of the pipette tip, the reagent or liquid sample is not directly jetted or ejected toward the sample or reagent to which it is supplied, but rather from the peripheral wall in the circumferential direction. After being ejected in this way, the vehicle stalls or collides with the inner wall of a container in which a sample or reagent is stored in advance, and then is supplied to the sample or reagent through the inner wall.

  The shape of the pipette tip is not particularly limited. Specifically, for example, if the diameter is gradually reduced from the other end to the one end, such as a cone shape, the pipette operation is performed. Easy and useful.

  It is preferable that a plurality of openings are provided. In this way, since the reagent or liquid sample is sucked into the pipette tip from the plurality of openings, the flow of the reagent or liquid sample at the time of suction is dispersed and averaged without being biased in a certain direction. Therefore, it is further suppressed that the object is sucked together with the reagent and the liquid sample. In addition, since the reagent and liquid sample are discharged (discharged) from the plurality of openings to the outside of the pipette tip, it is possible to prevent the reagent and liquid sample from being biased and supplied to the sample and reagent. The momentum of the reagent and the liquid sample to be reduced is eased, and the discharge speed is likely to decrease.

  Further, it is more preferable that the total area of the openings is formed so as to be substantially equal to the opening area in a state where one end is not temporarily closed. More specifically, when the opening area in a state where one end is not closed is S, the total area of the openings becomes a value within the range of 0.8 × S to 1.2 × S. preferable.

  In this way, the reagent and the liquid sample are discharged to the outside of the pipette tip with substantially the same discharge pressure as when using a conventional pipette tip having no opening and one end opened. Therefore, the discharge speed of the reagent or the liquid sample is reduced as compared with the case where the opening area of the opening is smaller while maintaining a sufficient discharge pressure. In addition, the discharge amount can be controlled more easily than when the opening area of the opening is larger, and a large amount of reagent or liquid sample is prevented from being discharged to the sample or reagent at a time.

  Furthermore, it is preferable that a notch or a notch is formed on the peripheral wall on the other end side.

  With such a configuration, when a reagent or liquid sample is inhaled into the pipette tip and / or when they are discharged from the pipette tip, for example, they can be locked or fitted with them through the notch or the notch. By fixing to a holding tool, a holding tool or the like, the entire pipette tip is positioned so as to be always fixed in the circumferential direction and the height direction (axial direction). Therefore, it is possible to always inhale and discharge the reagent and liquid sample at a fixed position. In particular, it is possible to prevent the pipette tip from touching a sample or reagent stored in a container in advance, the distance between the sample or reagent and the opening, or the pipette tip from being tilted during discharge. . Accordingly, it is possible to prevent the reagent or liquid sample in the pipette tip from being jetted directly to the sample or reagent.

  According to the pipette tip of the present invention, when a reagent is supplied to a sample or a liquid sample is supplied to a reagent, breakage and damage of the sample can be sufficiently prevented. In addition, clogging when a reagent or sample is inhaled can be effectively prevented. Thus, the operability during the pipette operation can be significantly improved.

  Hereinafter, embodiments of the present invention will be described in detail. The positional relationship such as up, down, left, and right is based on the positional relationship shown in the drawings unless otherwise specified. Further, the dimensional ratios in the drawings are not limited to the illustrated ratios.

  1A and 1B are schematic views showing a preferred embodiment of a pipette tip according to the present invention, which are a front view and a side view, respectively. The pipette tip 10 includes a base part 11, a middle part 12, and a tip part 13, and is formed to be tapered so that the diameter gradually decreases from the other end 10b toward the one end 13a. The base 11 has a diameter larger than that of the middle portion 12, and the pipette tip 10 is attached to and detached from the pipette when the tip of a pipette (not shown) is detachably fitted. Yes. The base 11 is provided with a stopper 14 slightly closer to the inside from the other end 10b, and the tip of the pipette abuts there. Further, two notches 15 are formed on the end portion of the base portion 11 on the middle portion 12 side so as to face each other.

  The middle portion 12 is a portion that connects the base portion 11 and the distal end portion 13, has a diameter smaller than that of the base portion 11 and is relatively long. The tip portion 13 is formed so as to extend from the tip of the middle portion 12, and the tip (one end 13a of the pipette tip 10) is closed by a bottom wall (the lower wall in the drawing). In addition, through holes K and K (both openings) are formed in the peripheral wall near the bottom wall of the tip portion 13 at positions facing each other. Here, the opening area of the through holes K and K is not particularly limited, but the total area of the through holes K and K is substantially equal to the opening area S in a state where the one end 13a is not temporarily closed. It is preferable to be formed in such a manner, and it is particularly preferable to be formed so as to have a value within the range of 0.8 × S to 1.2 × S.

  Here, FIG. 2 is a front view (partially sectional view) showing a state where the reagent is supplied from the pipette tip 10 to the biological sample 30 accommodated in the container 20. In this example, the reagent is inhaled into the pipette tip 10. In the pipette tip 10, the notch portion 15 is fitted into the holder 40, and the middle portion 12 and the tip portion 13 are loosely inserted into the container 20. The holder 40 is fixed, and the pipette tip 10 held by the holder 40 is placed at the same height without rotating with respect to the container 20.

  In this state, when a pipette (not shown) is operated so as to discharge the reagent in the pipette tip 10, the reagent moves along the dotted line Y <b> 1 toward the tip portion 13, The flow is divided near the bottom wall, separated into two hands as indicated by an arrow Y2 in the figure, and discharged to the outside through the through holes K and K. The reagent discharged from the through holes K, K is discharged and supplied to the biological sample 30 in the container 20 while drawing a parabolic trajectory corresponding to the discharge pressure and gravity.

  According to the pipette tip 10 configured in this manner, the open end of the tip portion 13 is closed by the bottom wall, and the through holes K and K are formed in the peripheral wall near the bottom wall. When the reagent stored and held in the container 20 is supplied to the biological sample in the container 20, the reagent is not directly ejected toward the biological sample 30, but in a state where the ejection speed is sufficiently reduced (ie, stalled). To be discharged. Therefore, since the impact applied to the biological sample 30 can be reduced, the biological sample 30 can be sufficiently prevented from being broken or damaged.

  Further, two through-holes K, K are provided opposite to each other, in other words, since the through-holes K, K are arranged on the peripheral wall every 180 °, two directions facing the biological sample 30 are provided. The reagent is supplied from. Therefore, the reagent can be prevented from being supplied to the biological sample 30 only from a certain direction, the reagent can be supplied more uniformly to the biological sample 30, and the momentum of the discharged reagent can be reduced. It becomes easier to lower the discharge speed.

  Furthermore, since the total area of the through holes K, K is substantially the same as the opening area when the one end 13a is not closed, the conventional pipette having no opening and one end opened. Reagents and liquid samples are discharged to the outside with a discharge pressure substantially equal to the tip. Therefore, the discharge speed of the reagent or the liquid sample can be reduced as compared with the case where the total area of the through holes K and K is smaller while maintaining a sufficient discharge pressure. Moreover, compared with the case where the total area of the through-holes K and K is larger, it is easier to control the discharge amount, and a large amount of reagent or liquid sample can be prevented from being discharged to the biological sample 30 at a time (at once). . Therefore, since the impact applied to the biological sample 30 can be further reduced, it is possible to further suppress the biological sample 30 from being broken or damaged. As a result, when a reagent or a liquid sample is discharged from the pipette tip 10, an excessively careful pipetting operation is not required, so that the operability can be improved.

  Furthermore, the notch 15 is fitted in the holder 40, and thereby the pipette tip 10 is always positioned in a fixed direction in the circumferential direction and the height direction (axial direction). Therefore, it is possible to always perform inhalation and ejection of the reagent and the liquid sample under a fixed geometric condition in such a fixed state. Therefore, the biological sample 30 accommodated in the container 20 and the pipette tip may be in contact with each other undesirably, or the distance between the biological sample 30 and the through hole K may be too close, or the pipette tip 10 may be tilted. Is prevented. As a result, the reagent in the pipette tip 10 is prevented from being directly sprayed onto the biological sample 30, thereby preventing the biological sample 30 from being broken or damaged more reliably. Further, since the pipette tip 10 is fixed, the handleability and operability of the pipette can be improved.

  Further, as described above, the pipette tip 10 is extremely useful not only when the reagent or the like is discharged from the pipette tip 10 but also when the reagent or the like is inhaled. For example, in FIG. 2, the biological sample 30 is a fragment or fragment of a gel containing protein or DNA, and after washing the gel by discharging the washing liquid from the pipette tip 10, Is sucked into the pipette tip 10 from two directions opposite to the direction indicated by the arrow Y2. As described above, since the gel piece as the biological sample 30 flows into the pipette tip 10 from the side to the side, it is prevented that the gel piece is caught and moved to the through holes K, K side. The Therefore, it is possible to prevent the through holes K and K from being clogged with the gel pieces.

  In addition, since the two through holes K are formed, the flow of the cleaning liquid is dispersed as compared with the case of one through hole. Therefore, the flow rate of the cleaning liquid sucked into the pipette tip 10 is reduced, and clogging of the through holes K and K due to the gel pieces can be more effectively suppressed. Further, as a result of the above, when a reagent or liquid sample is inhaled into the pipette tip 10, an excessively careful pipetting operation is not required, so that the operability can be improved in this respect.

  In addition, this invention is not limited to embodiment mentioned above, A various deformation | transformation is possible in the limit which does not change the summary. For example, the pipette tip 10 may have a rectangular tube shape and does not necessarily have to be tapered. Moreover, although it is desirable to provide a plurality of through holes K, a single through hole K may be provided, and the number of through holes K is not limited to the illustration, and three or more may be provided. Further, it is not necessary to provide the cutouts 15, and the cutouts 15 may be provided only at one place, or may be provided at three or more places. Furthermore, the notch 15 may be a narrower notch, that is, a notch.

  As described above, the pipette tip according to the present invention has a substantially cylindrical shape with one end closed, and has an opening in the peripheral wall on the one end side, so that a reagent or liquid sample is supplied to the sample or reagent. In doing so, the impact caused by the ejection can be sufficiently reduced. Therefore, breakage and damage of the sample can be sufficiently prevented. In addition, clogging when a reagent or sample is inhaled can be effectively prevented. Thus, the operability and handling at the time of pipetting can be remarkably improved.

(A) And (B) is a schematic diagram which shows suitable one Embodiment of the pipette tip by this invention, It is a front view and a side view, respectively. 4 is a front view (partially sectional view) showing a state in which a reagent is supplied from the pipette tip 10 to the biological sample 30 accommodated in the container 20. FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Pipette tip, 10b ... The other end, 11 ... Base part, 12 ... Middle part, 13 ... Tip part, 13a ... One end, 14 ... Stopper, 15, 15 ... Notch part, 20 ... Container, 30 ... Biological sample, 40 ... retainer, K ... through hole (opening).

Claims (5)

A pipette tip attached to and detached from a pipette,
It has a substantially cylindrical shape with one end closed, and has an opening in the peripheral wall on the one end side.
Pipette tip. It is formed so that the diameter gradually decreases from the other end toward the one end.
The pipette tip according to claim 1. A plurality of the openings are provided.
The pipette tip according to claim 1 or 2. The total area of the opening is formed so as to be substantially equivalent to the opening area in a state where the one end is not temporarily closed,
The pipette tip according to any one of claims 1 to 3. A notch or notch is formed in the peripheral wall on the other end side.
The pipette tip according to any one of claims 1 to 4.

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