JPS6323749A - Pipet tip - Google Patents

Abstract

PURPOSE:To improve the separation of liquid in the inside and outside of a tip part by constituting a nearly conical columnar body so that the narrowed angle of the inner circumferential face in the tip side is made smaller than the narrowed angle of the inner circumferential face in a basic body side and a tapered convergent face is formed in the outer circumferential face of a tipmost part. CONSTITUTION:A pipet tip P is constituted of a nearly conical columnar body 1 wherein all parts are formed by transparent or translucent synthetic resin and a knurled part 1a joined to a pipet device main body is formed in the basic end part of the large diametral side and a fine aperture 1b sucking and discharging a reagent or the like is formed in the tipmost part of a small diametral side. The inner circumferential face of the nearly conical columnar body 1 is formed so that it is changed in two steps to comparatively small narrowed angle gamma (about 4 deg.C) in the tip side from comparatively large narrowed angle beta(about 5.5 deg.C) in the basic end side. Further the tapered convergent face 1b is formed in the outer circumferential face of the tipmost part and the tapered angle delta is regulated to 7-10 deg..

Description

Detailed Description of the Invention [Industrial Field of Application] The present invention is directed to a pipette device which is used to aspirate and discharge a fixed amount of blood, reagents, etc. in, for example, blood tests in the medical field and various scientific experiments. The present invention relates to a pipette tip that is attached to and used in a pipette, and more particularly to a pipette tip that is formed of a substantially conical cylindrical body that is connected to a pipette main body at a knurled portion formed at a large-diameter proximal end.

[Conventional technology]

As shown in the front view of FIG. 7(a) and the vertical cross-sectional view of FIG. A knurled portion C for connecting to the pipette device main body (not shown here) is formed at the base end on the large diameter side, and a tip end portion on the small diameter side is formed. A minute opening d is formed in the opening d for aspirating and discharging reagents and the like.

The pipette tips a... are stored in a pipette tip storage case X as shown in the external perspective view of FIG. 8 in a state as shown in the vertical sectional view of FIG. 9.

That is, the pipette tip storage case
A bottom cover made of an opaque or translucent synthetic resin material can be fitted and removed into the lower opening of the pipette tip support stand C, which is formed by forming a large number of pipette tips (8 rows x 12 rows = 96 pieces in this example). At the same time, a top cover E made of a transparent or translucent synthetic resin material is attached to the top of the pipette tip support stand C. As shown in FIG. 9, this pipette tip storage case Lower end step (support step)
, the pipette tips a... are supported by the upper plate part A of the support base C, and after performing autoclave sterilization in that state, the bottom cover and the top cover E are attached to the support base C, and then the paper box is placed. (not shown), etc., and then shipped and transported to the user.

Then, as shown in Figure 10, the user takes out the pipette tip storage case As shown by the arrow m in the figure, first lower the pipe part F, and connect the plurality of (eight in this example) tapered connecting pipe parts G provided at the tips (lower ends) to the - row. The pipette tips a (eight in this example) are attached to the pipette device main body Y by tightly inserting them all at once into the knurled portion C at the upper end of the pipette tips a. Next, the pipette tips a... are removed from the pipette tip storage case X by lifting the pipette device main body Y in which the pipette tips a... have been attached. Thereafter, by inserting the tip of the pipette tip a into a container (not shown) such as a sampling tube containing blood, reagents, etc., and operating the switch lever H with your finger, the blood is removed. After aspirating a fixed amount of blood, reagents, etc., insert the tip of the pipette tip a... from which the blood, reagents, etc. have been aspirated into another container such as a sampling tube (not shown), and then press the switch again. By operating the lever H with a finger, the aspirated blood, reagent, etc. are discharged.

[Problem that the invention seeks to solve]

However, in the pipette tip a of the conventional configuration, when the reagent is aspirated into the pipette tip a and then the pipette tip a is moved out of the reagent container,
The liquid drains poorly at the outer periphery of the tip, resulting in reagents adhering to it, and when the reagent is discharged from inside the pipette tip a, the liquid drains poorly at the inner periphery of the tip, causing reagents to remain inside. If an attempt is made to forcefully discharge the reagent, there are various problems such as the reagent scattering, which tends to cause sampling errors, and is extremely inconvenient to use.

After careful consideration of the cause, we found that in pipette tip a of this conventional configuration, the convergence angle α of the inner and outer circumferential surfaces is
This is presumed to be due to the fact that it is configured so that it remains constant in its longitudinal direction. Note that this constant convergence angle α has conventionally been set at a minimum of approximately 5.5 in order to ensure a predetermined volume while appropriately suppressing the length of the pipette tip a.
' is said to be.

The present invention has been made in view of the above-mentioned conventional problems and based on the results of consideration thereof, and its purpose is to ensure a sufficient predetermined volume without unduly increasing the length of the pipette tip. However, the objective is to solve the problem of liquid drainage inside and outside the tip, which has conventionally occurred.

Means for Solving Problem c] In order to achieve the above object, the present invention has been developed as shown in FIG.
, (b), in a pipette tip P consisting of a substantially conical cylindrical body 1 connected to the pipette device main body at a low left portion 1a formed at the base end on the large diameter side, the substantially conical The cylindrical body 1 is formed such that the convergence angle γ of the inner circumferential surface at its distal end is smaller than the convergence angle β of the inner circumferential surface at its proximal end, and the approximately conical cylindrical body 1 is A feature is that a tapered surface 1b is formed on the outer circumferential surface at the most distal end.

[Effect]

The effects achieved by the above feature configuration are as follows.

That is, according to the pipette tip P according to the present invention, the convergence angle γ of the inner circumferential surface on the distal end side is formed to be smaller than the convergence angle β of the inner circumferential surface on the proximal end side. When discharging reagents, etc. from inside the chip P, the liquid drains very well at the inner periphery of the tip, and as in the past, reagents, etc. remain inside or scatter due to forced discharge operations. This inconvenience can now be resolved.

Furthermore, simply reducing the convergence angle γ of the inner circumferential surface on the distal end side will not result in the same problem as shown in FIG. 1(a).

As shown by the imaginary line in (b), the angle of convergence of the outer circumferential surface at the leading edge becomes smaller, and the liquid leakage at the outer edge becomes worse than before, or the outer diameter of the leading edge becomes large. This may make it difficult to insert a fine sampling tube into a container (not shown), but the pipette tip P according to the present invention has a tapered surface 1b on the outer circumferential surface at its most distal end. Since it is formed, such an inconvenience does not occur,
It is possible to easily cut one piece at the outer periphery of the cutting edge, and it is also possible to cut containers such as fine sampling tubes (
(not shown) without any problem.

Furthermore, in the pipette tip P according to the present invention, instead of reducing the overall convergence angle of the inner circumferential surface, only the convergence angle γ of the inner circumferential surface on the tip side, which affects liquid drainage, is reduced. Therefore, the predetermined capacity can be sufficiently secured without unduly increasing the length of the pipette tip.

(Examples) Hereinafter, various specific examples of the present invention will be described based on the drawings (FIGS. 2 to 6).

The front view of FIG. 2(a) and the longitudinal sectional view of FIG. 2(b) show the first embodiment of the pipette tip P according to the present invention,
The entire body consists of a substantially conical cylindrical body 1 made of a transparent or translucent synthetic resin material (such as polypropylene), and a pipette main body (not shown here) is attached to the base end on the large diameter side. A knurled portion 1a for connection is formed, and a minute opening 1b for aspirating and discharging reagents and the like is formed at the tip end on the small diameter side.

The inner circumferential surface of the substantially conical cylindrical body 1 has a relatively large convergence angle β (in this example, about s, s'; however, it can be larger) on the proximal side, and a relatively small convergence angle β on the distal side. It is formed to change in two steps to the convergence angle γ (approximately 46 in this example; however, it may be less than that). In addition, the change in the convergence angle of the inner circumferential surface from large to small (β−γ
) Position (2) is set relatively below the substantially conical cylindrical body 1 (in this example, at a position approximately 3/1 height from the tip thereof).

Further, a tapered surface 1b is formed on the outer circumferential surface of the substantially conical cylindrical body 1 at its most distal end. The tapering angle δ is set to a relatively large value of 7@ to 10''.

As is clear from FIG. 2(B), the low left portion 1a is formed such that its outer circumferential surface changes in diameter in two steps from an upper large diameter portion to a lower small diameter portion.
As shown in Figure 3 (a) and (b), there are two types of pipette tip storage cases that are currently popular in Japan, namely, pipette tip support stand C as shown in Figure 3 (a).
Pipette tip storage case Bipe with large diameter hole B2 7) Chip storage case ×
It can be stored using either of the two.

Furthermore, as is clear from FIG. 2(b), the low left portion 1a is also formed so that its inner circumferential surface changes in diameter in two steps from the upper large diameter portion to the lower small diameter portion. , As shown in Figures 4 (a) and (b), there are two types of pipette device bodies Y that are currently popular in Japan, namely, relatively small diameter connecting tubes as shown in Figure 4 (a). Department G,
A so-called Gilson type pipette device body YI equipped with
Also, it can be applied to either a so-called Esopendorf type pipetting device main body Y2 having a relatively large diameter connecting tube portion G2 as shown in FIG. 4(B).

FIG. 5 shows a pipette tip P according to the second embodiment,
The outer peripheral surface of the knurled portion 1a is formed so that the diameter changes in two steps from an upper large diameter portion corresponding to the one pipette tip storage case X2 to a lower small diameter portion corresponding to the other pipette tip storage case Xl. , 2 & 11 ribs 1d..., le... from one inclined reference outer peripheral surface IC.
・(6 each in this example) are installed upright. The other configurations are the same as those of the first embodiment.

Incidentally, in the first and second embodiments described above, the convergence angle of the inner circumferential surface of the substantially conical cylindrical body 1 is changed in two steps so that it becomes smaller toward the tip end.
It may be changed to three or more stages.

FIG. 6 shows a pipette tip P according to the third embodiment, in which the convergence angle of the inner peripheral surface of the substantially conical cylindrical body 1 is not changed stepwise, but continuously so that it becomes smaller toward the tip. (in other words, it changes into a smooth curve). The other configurations are the same as those of the first embodiment.

〔Effect of the invention〕

As is clear from the detailed description above, according to the pipette tip of the present invention, the convergence angle of the inner circumferential surface on the distal end side is smaller than the convergence angle of the inner circumferential surface on the proximal end side. By forming a tapered surface on the outer circumferential surface at the most distal end of the substantially conical cylindrical body, a predetermined capacity can be sufficiently secured without unduly increasing the length of the pipette tip. However, the liquid drainage at both the inner and outer periphery of the tip is very good, and unlike conventional methods, reagents, etc. remain inside, and reagents scatter due to forced discharge operations. Alternatively, reagents etc. may adhere to the outer periphery of the tip.
This has resulted in the excellent effect of being able to eliminate the inconveniences that lead to sampling errors.

[Brief explanation of the drawing]

The first [ff1 (a) and (b) are a front view and a longitudinal cross-sectional view (views corresponding to claims) showing the basic structure of a pipette tip according to the present invention. In addition, FIGS. 2 to 6 show various specific embodiments of the present invention, and Part 2 (A) and (B) show a front view and longitudinal sectional view of the first embodiment, and FIG. ). (B) is a vertical cross-sectional view for explaining the two types of storage state examples, FIGS. FIG. 5 is a partially cutaway front view of the second embodiment, and FIG. 6 is a partially cutaway front view of the third embodiment. In addition, FIGS. 8 to 10 are for explaining the technical background of the present invention and the problems of the prior art.
FIG. 8 is an external perspective view of a general pipette tip storage case, FIG. 9 is a longitudinal sectional view (corresponding to the IX-IX line arrow view in FIG. 8) showing the pipette tip storage state, and FIG. FIG. 10 is a partially sectional whole front view for explaining the usage state. P... Pipette tip, 1... Approximately conical cylindrical body, 1a... Low left part, 1b...
...Tapered taper surface, γ... Convergence angle of the inner circumferential surface on the distal end side, β... Convergence angle of the inner circumferential surface on the proximal end side.

Claims (1)

[Scope of Claims] [1] A pipette tip consisting of a substantially conical cylindrical body connected to a pipette device main body at a knurled portion formed at a proximal end portion on the large diameter side, the substantially conical cylindrical body comprising: The converging angle of the inner circumferential surface on the distal end side is smaller than the converging angle of the inner circumferential surface on the proximal end side, and the outer circumferential surface at the distal end of the substantially conical cylindrical body is tapered. A pipette tip characterized by forming a tapered surface. [2] The pipette tip according to claim [1], wherein the convergence angle of the inner circumferential surface of the substantially conical cylindrical body is changed in a plurality of steps so that it becomes smaller toward the distal end. [3] The pipette tip according to claim [1], wherein the convergence angle of the inner circumferential surface of the substantially conical cylindrical body is continuously changed so as to become smaller toward the distal end. [4] Claim No. 4, wherein the converging angle of the inner circumferential surface of the substantially conical cylindrical body on the tip side is 4° or less.
The pipette tip according to any one of Items 1 to 3.