JPH01242967A - Disposable nozzle with electrode for liquid detection - Google Patents

Abstract

PURPOSE:To detect the real surface of liquid to be sucked without any contamination among samples at a sample suction position by providing an electrode for detecting the liquid level of a sample integrally to a nozzle main body formed of insulating resin. CONSTITUTION:The disposable nozzle 1 is a hollow member made of insulating resin such as ethylene tetrafluoride and linear conductors 2a and 2b are embedded lengthwise in the thick part. A disposable nozzle receiver 4 is conveyed and its tip part 4a is fitted in the internal wall of the base part 1a of the nozzle 1. Then conductors 6a and 6b fitted to the tip part 4a contact the conductors 2a and 2b. Then the nozzle 1 is conveyed onto a sample container together with the nozzle receiver 4 and lowered, so that the conductors 2a and 2b at the tip part 1b contact the liquid surface of the sample. Then a liquid level detecting circuit operates through lead wires 7a and 7b to detect the liquid level. Then the nozzle 1 is lowered to a specific position and sucks the sample by a syringe 9. The nozzle 1 is detached and thrown away.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application J This invention relates to a disposable nozzle with a liquid level detection electrode used for dispensing a sample in an automatic chemical analyzer for analyzing body fluids such as blood.

[Conventional technology]

Traditionally, blood collected from patients and blood donors at hospitals and blood centers has been subjected to biochemical tests such as GOT and GPT, and blood type tests such as ABO and Rh.

Antibody screening to identify irregular antibodies.

We perform tests for infectious diseases such as HBs, HBe, ATL, HIV, and syphilis, and analyze trace amounts of biological components such as α-fetoprotein and carcinoembryonic antigen.

Among the above tests, especially in tests for infectious diseases, used sample nozzles are discarded after use to completely remove the influence of body fluids such as blood from another test subject. ing.

Conventionally, as an automatic chemical analyzer using a disposable sample nozzle, the one disclosed in Japanese Patent Application Laid-Open No. 62-247261 is known. In this device, the pipette arm is moved to a pipette tip (disposable nozzle) exchange position, and the pipette tip is attached.

After that, the pipette tip aspirates the required amount of sample from the sample container at the sample suction position and dispenses it into the reaction vessel.6 Next, in order to remove the influence of the aspirated sample, the pipette tip moves the pipette to the discard position. It is removed from the arm and discarded. A new pipette tip is then attached to the pipette arm.

[Problem to be solved by the invention]

In the above device, in order for the pipette tip to aspirate the required amount of sample from the sample container, it is necessary to detect the liquid level of the sample in advance with a liquid level detection device.

Furthermore, since the liquid level detection device causes contamination of the sample, it has the disadvantage that it is not possible to accurately test for infectious diseases.

An object of the present invention is to provide a disposable nozzle that is integrally provided with an electrode for detecting the liquid level of a sample.

[Means and effects for solving the problem] An electrode for detecting the liquid level of the sample is integrally provided on the nozzle body molded from an insulating resin, and the electrode is in contact with the liquid surface. This allows the liquid level of the sample to be detected.

〔Example〕

An embodiment of the present invention will be described with reference to FIG.

A disposable nozzle (hereinafter referred to as a disposable nozzle) 1 is a hollow member molded from Nil resin of tetrafluoroethylene, and a pair of linear conductors 2a and 2b (for example, copper) is formed in the thick part of the disposable nozzle.

A wire rod made of iron, platinum, etc.) is embedded through the nozzle 1 in the longitudinal direction.

The base 1a of the disposable nozzle 1 is formed in a flange shape with a large diameter, the inner wall of the base 1a widens in a tapered shape, and the tip 1b is formed in a tapered shape.

The conductors 2a and 2b are the inner wall of the base 18 and the tip 1b.
exposed to.

The holder 3 holds a plurality of the above disposable nozzles 1 upright.

Like the disposable nozzle 1, the disposable nozzle receiver 4 is molded from an insulating resin of tetrafluoroethylene, and has a through hole 5 that communicates with the syringe 9.

The distal end portion 4a of the disposable nozzle receiver 4 is formed into a tapered shape so as to fit into the tapered inner wall of the base portion 1a of the disposable nozzle 1.

Conductors 6a and 6b (for example, wires made of copper, iron, platinum, etc.) are disposed on the outer wall of the tip 4a, and are connected to a pair of electrodes exposed on the inner wall of the base 1a of the disposable nozzle 1. configured to make contact.

The conductors 6a, 6b are connected to a liquid level detection circuit (not shown) via lead wires 7a, 7b.

The disposable nozzle receiver 4 is connected to a syringe 9 via a tube 8, and the disposable nozzle receiver (not shown) is transferred to a sample suction position, a discharge position, and a disposal position of the disposable nozzle 1 by a transfer mechanism.

Next, the operation of the fifth embodiment described above will be explained.

The disposable nozzle receiver 4 is transferred by the transfer mechanism to the position of the disposable nozzle 1 held in the holder 3,
The tip 4a of the disposable nozzle receiver 4 is the disposable nozzle 1.
It fits into the inner wall of the base portion 1a.

The conductors 6a and 6b attached to the tip 4a of the disposable nozzle receiver 4 come into contact with the conductors 2a and 2b exposed on the inner wall of the base 1a of the disposable nozzle 1.

Next, the disposable nozzle 1 is transferred together with the disposable nozzle receiver 4 onto a sample container (not shown), and is lowered so that the exposed conductors 2a and 2b at the tip of the disposable nozzle 1 are exposed to the sample. Contact with liquid surface.

When the conductors 2a, 2b contact the liquid surface, the lead wires 7a,
A liquid level detection circuit is activated via 7b to detect the liquid level. Thereafter, the disposable nozzle 1 is lowered to a predetermined position in order to aspirate the required amount of sample, and the syringe 9 is used to aspirate the disposable nozzle 1 through the tube 8 connected to the through hole 5 provided in the disposable nozzle receiver 4. Aspirate the sample into the chamber.

After the above operation, the disposable nozzle 1 is removed from the disposable nozzle receiver 4 and discarded.

[Second Embodiment] Next, a second embodiment of the disposable nozzle will be described with reference to FIG. Components that are the same as those in FIG. 1 are designated by the same reference numerals and their explanation will be omitted.

The disposable nozzle 1 is integrally molded in a hollow shape from an insulating resin of tetrafluoroethylene, and has a tip portion 1d to a base portion 1c.
A pair of conductive materials (for example, CdO, SnO,

Coated with metal compounds such as 2C and 2d.

It constitutes an electrode.

[Third Example] With reference to FIG. 3, FIG. 4(a), and FIG. 4(b),
A third embodiment of the disposable nozzle will be described.

The same parts as in FIG. 1 are given the same reference numerals and explanations will be omitted.

In FIG. 3, the disposable nozzle 1 consists of conductive resin parts 11a and llb (for example, acrylic resin mixed with conductive particles such as copper and carbon) and insulating resin parts 12a and 12b of tetrafluoroethylene. It is integrally molded into a sandwich-like hollow shape.

The conductive portions 11a and llb constitute electrodes.

Next, a method for manufacturing the above-mentioned disposable nozzle 1 will be explained.

As shown in FIG. 4(a), the halves 12a and 12b of the disposable nozzle 1 are separately molded with insulating resin, and the
In a mold 13 shown in FIG. 1, the half portions 12a and 12b are placed facing each other with a gap between them at P and L (parting lines).

゛ Next, the conductive resin portion 1 is injected into the gap using the nozzle 14 of a known injection machine.
1a and llb are formed to form the disposable nozzle 1.

[Fourth Embodiment] FIG. 5 shows a fourth embodiment of the disposable nozzle, in which the tips of the conductors 15a and 15b are connected to the disposable nozzle 1.
The distal end portion 18 is not disposed on the same surface, but is disposed with a predetermined difference in level.

In the drawings, the conductor is provided on the outer periphery of the disposable nozzle 1, but it is also possible to arrange the conductor with a step on the inner wall.

By setting the above step to the required amount of sample to be aspirated, the syringe 9 can be sucked when the disposable nozzle 1 detects the liquid level of the sample, eliminating the need to lower the disposable nozzle 1. Then, the required amount of sample can be aspirated into the disposable nozzle 1.

〔Effect of the invention〕

Since the disposable nozzle is integrally provided with an electrode for detecting the liquid level, there is no need to separately provide a liquid level detection mechanism.

There is no contamination between samples at the sample suction position, and the true liquid level to be aspirated can be detected.

[Brief explanation of the drawing]

Fig. 1 is a diagram schematically showing an apparatus using an embodiment of the disposable nozzle of the present invention, Fig. 2 is a sectional view showing a second embodiment of the invention, and Fig. 3 is a diagram showing a third embodiment of the invention. A perspective view showing an example, FIG. FIG. 1...Disposable nozzle 2a, 2b, 2c, 2
d...Conductor 6a, 6b...Conductor 11a,
llb...Conductive resin portion 12a, 12b=・NA
AIf resin part 15a, 15b - conductor h...
Step! ! Figure 4(a)] B 5 bad

Claims (1)

[Claims] 1. In a nozzle device used for dispensing a sample in an automatic chemical analyzer, an electrode for detecting the liquid level of the sample is integrally provided on the nozzle body molded from an insulating resin. A disposable nozzle with a liquid level detection electrode. 2. The disposable nozzle with an electrode for liquid level detection according to claim 1, wherein the electrode is constructed by embedding a conductive wire in a thick part of the nozzle body molded from an insulating resin. 3. The disposable nozzle with an electrode for liquid level detection according to claim 1, wherein the electrode is formed by coating the circumferential surface of the nozzle body made of an insulating resin with a conductive material. 4. The liquid according to claim 1, wherein the nozzle body is formed from a part molded with conductive resin and a part molded with insulating resin, and the part molded with conductive resin is configured as an electrode. Disposable nozzle with electrode for surface detection.