JP2002048803A - Container closing unit and bar-code pasting unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a container closing unit which can open the opening of a container by a liquid dispensing device. SOLUTION: The container closing unit is provided with a lid support body which is coupled to the opening of the container having the opening at the upper end and which has a through hole, a lid which opens and closes the through hole in the lid support body, a connection part which partially connects the lid support body to the lid and a protrusion part which protrudes from the surface of the lid. The lid is connected to the lid support body so as to be turned around the connection part, and the protrusion part is formed so as to open the through hole when it receives a force in the horizontal direction.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid dispensing apparatus for dispensing a liquid in a container by automatically opening a lid of the container, and an automatic analyzer provided with such a liquid dispensing apparatus. About.

[0002]

2. Description of the Related Art Samples such as serum and plasma, and reagents for measurement such as reaction reagents and diluents contained in containers are dispensed by a liquid dispensing device such as a dispensing pipette to prepare and analyze a sample. Generally done. In particular, in tests such as a blood coagulation test and an immunological test, an automatic analyzer for continuously dispensing a plurality of samples and measurement reagents and measuring the reaction is used. In these automatic analyzers, the consumption amount of the reagent and the number of requests vary for each measurement item, and therefore, the replacement time of the reagent is also different. Further, in order to set a large number of samples and measure a large number of items, it may take a long time from the start of measurement to the end of measurement. For this reason, there is a case where the measurement reagent or the sample is used in the analyzer for a long time while being set in the device.

If the reagents and the specimens are set and left in the analyzer for a long time as described above, the reagents are deteriorated due to evaporation and drying, dust and the like are mixed, and the analysis results are affected. Therefore, in order to enhance the storage stability, it has been practiced to reduce the opening of the container or keep the container storage cool. However, it is difficult to prevent the deterioration of the reagent and the specimen by itself.

To prevent the deterioration of the reagent, there has been proposed an apparatus provided with a mechanism for automatically closing the opening of the reagent container with a lid except when the reagent is sucked. (A) An automatic analyzer having a function of closing an opening of a reagent container by providing a mechanism provided with a member corresponding to the opening of the reagent container in the analyzer and automatically operating the mechanism is provided by: JP-A-57-185964, JP-A-8-16
No. 0050, Japanese Patent Application Laid-Open No. 10-311835, and the like.

(B) Using a container having a lid connected thereto as a reagent container, a rotating mechanism having a member for catching the lid is provided in the analyzer, and the rotating mechanism is rotated to pull the lid of the reagent container. An automatic analyzer having an opening function is disclosed in JP-A-1-61667 and JP-A-8-94624.

[0006]

In the apparatus of the prior art (a), the mechanism for closing the opening of the container must be configured to correspond to the container, and the configuration of the analyzer is limited. You. If the reagent adheres to the member closing the opening, contamination of the reagent to be used next may occur. Also, since the container and the lid are separate, before and after the measurement of the lid,
It needs to be removed, and the lid must be stored in another place during the measurement, which is troublesome.

In the prior art apparatus (b), a lid is connected to the reagent container in order to solve the problem. However, the automatic analyzer requires a rotating mechanism and a moving mechanism for hooking the lid of the reagent container on the rotating mechanism. Therefore, the structure of the mechanism and the operation control thereof become complicated. In particular, incorporating such a complicated mechanism into the automatic analyzer leads to an increase in the size of the apparatus,
The processing speed is reduced due to the complexity of the operation control. Furthermore, the lid of the reagent container needs to be configured to be kept open even after being opened by the rotation mechanism, and the structure of the container is limited.

It is an object of the present invention to provide a liquid dispensing apparatus capable of opening and closing a lid of a container with a simple configuration and control. It is another object of the present invention to provide a liquid dispensing apparatus that can use a container having a large degree of freedom in structure. Still another object is to provide an automatic analyzer equipped with such a liquid dispensing device.

[0009]

A liquid dispensing apparatus according to the present invention comprises: a dispensing pipette; elevating means for elevating the dispensing pipette; a base holding the elevating means; and a base moving means for moving the base. A liquid dispensing apparatus for aspirating and dispensing a liquid stored in a container installed in the container installation unit by a dispensing mechanism unit having a means, wherein the container has a lid that can be opened and closed by a rotation fulcrum, Is formed on the base of the dispensing mechanism with the claw of the lid of the container pressed against the rotation fulcrum side of the container as the base moves relative to the container. The present invention provides a liquid dispensing apparatus characterized in that a projection capable of opening a lid of a container and maintaining the open state is provided.

Furthermore, an automatic analyzer according to the present invention is provided with the above-described liquid dispensing device.

The dispensing pipette in the present invention has a pipette body and a liquid measuring means such as a syringe or a pump connected to the pipette body. For example, in an automatic analyzer, it is preferable to operate as follows. . That is, when the pipette body is inserted into the sample container or the reagent container that is the suction source, the liquid quantification unit connected to the pipette body starts the suction operation to dispense a certain amount of the sample or the reagent, When the pipette body is moved toward the reaction container, which is the discharge destination, and inserted into the reaction container, the liquid metering unit starts the discharging operation, and dispenses a predetermined amount of the sample or the reagent. Next, washing water or air is supplied to the pipette body and discharged from the tip. Alternatively, conversely, the washing water is sucked and discharged from the tip. The pipette body thus washed is relatively moved again between the sample container, the reagent container, and the reaction container.

The pipette lifting / lowering means in the present invention is preferably one capable of precisely moving the pipette vertically by driving a belt wound around a pulley or a ball screw. The base moving means in the present invention is preferably one that can precisely move the base in the horizontal direction by driving a belt wound around a pulley, a ball screw, or the like.

The container installation section in the present invention refers to a portion on which a rack for holding a sample container is mounted, a portion where a sample container is transported by a transport device, and a portion on which a reagent container is mounted. One that can also move the container installation part as needed is used.

The container according to the present invention is a container having an opening at an upper part, and a lid which can be opened and closed by a rotating fulcrum is connected to the container.
The lid is configured to close the opening of the container. The lid is preferably configured to be able to seal the reagent container.

The claw portion formed on the lid refers to a portion protruding outside the lid. In order to keep the lid open, a valley, such as a V-shape, is formed between the claw and the lid as viewed from the rotation fulcrum side of the lid. For this reason, it is preferable that the claw portion is formed so as to protrude from the rotation fulcrum of the lid. The shape of the claw is appropriately selected so as to correspond to the shape of the protrusion of the dispensing mechanism.

[0016] The container is configured such that the opening and closing direction of the lid is oriented when installed in the container installation section. For example, when the container body and the lid are integrally formed, or when the lid is not integrated and the lid can be attached to the container body only in one direction, the container may be moved to the container installation portion. The shapes of the container and the container installation portion are appropriately selected so that the container can be installed only in the direction. If the relative direction of the lid is not determined when the lid is attached to the container body, for example, by adopting a structure in which a plurality of containers can connect the lid, when the container is installed, The opening and closing direction can be directed.

In the present invention, the projection provided on the base of the dispensing mechanism section is defined by applying a claw of the lid from the side opposite to the rotation fulcrum of the lid as the dispensing mechanism section moves relative to the container. A part that can hold the open state of the lid by moving the base to the rotation fulcrum side of the lid and pressing the claw of the lid to open the lid, and entering between the lid and the claw of the lid. is there. If the shape is selected to be compatible with the lid and the claw of the lid, a simple projection may be provided on the base. Alternatively, if it is configured to normally retract and protrude only when necessary, the degree of freedom in arrangement and structure of the dispensing mechanism and the reagent increases. For example, using an air cylinder or a solenoid, the piston can be reciprocated up and down linearly with the piston as a protruding portion.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a perspective view showing a main part of an automatic analyzer according to one embodiment of the present invention. The basic configuration of a reaction system, a measurement system, and the like is the same as a conventionally known device. The automatic analyzer 10 mainly includes a dispensing mechanism 12, a sample setting unit 14, a reagent setting unit 16, a reaction container setting unit 18, and a measuring unit 20. The dispensing mechanism unit 12 includes the base 2
A dispensing pipette elevating unit 26 for moving the dispensing pipette 24 provided in the apparatus 2 and a base moving unit 28 for moving the base 22 in two directions of XY axes.

The dispensing pipette 24 is held at its upper end by a holding section 30, and the upper end of the pipetting pipette is connected to a liquid metering section 31 (see FIG. 2) via a tube. The liquid metering section 31 is a syringe driven by a motor here. A cleaning liquid chamber for supplying a cleaning liquid is connected to the syringe via a valve.

The pipette elevating unit 26 is provided with a pair of pulleys 32 and 34 provided on the base 22 so as to be vertically separated from each other.
And a motor 35 for driving one of the pulleys 32 and 34 to rotate, and a belt 36 stretched between the pulleys 32 and 34
, And is configured by fixing the holding portion 30 of the pipette 24 to the belt 36.

The protruding part is the piston 3 of the air cylinder 40.
Consists of eight. The air cylinder 40 creates a state in which the piston 38 projects and a state in which the piston 38 is retracted by operating air supplied from the outside.

FIG. 2 is a block diagram of a main part of the automatic analyzer 10. Reference numeral 42 denotes a control unit including a microcomputer having a CPU, a ROM, a RAM, a timer, a counter, and the like. The control unit 42 includes a pipette elevating unit 26,
Driving source 4 for liquid metering section 31, base moving section 28, projecting section 38
0, various positioning sensors and the like are connected, and furthermore, an operation unit 44 capable of key input and an output unit 46 for displaying measurement results and the like.
Is connected.

FIG. 3 is a perspective view of a reagent unit 60 comprising a plurality of reagent containers 50, 56 and 58 used in the present invention. FIG. 4 is a perspective view showing a disassembled state of the reagent unit. FIG. 5 shows a state where the opening 59 of the reagent container is sealed by the lid 52, and FIG.
9 shows an open state. The lid 52 of the reagent container has a structure that can be rotated and opened and closed by a rotation fulcrum 54 of a support 53 attached to the container body 51. A claw 55 is provided on the upper surface of the lid 52. Note that the structures of the lid 52, the support 53, the rotation fulcrum 54, the claw 55, and the fitting portions 62 and 64 described later are common to the reagent containers 50, 56, and 58. Lid support 53 of reagent container 50
Are provided with fitting portions 62 and 64 so that they can be connected to the lid supports of the adjacent reagent containers 56 and 58. By connecting two or more reagent containers to each other and storing them as reagent units in the reagent setting unit 16, the opening and closing directions of the lids of the containers are defined. The lid 52 is configured to strongly press the container body 51 side to seal the opening 59 of the container body 51. Then, in this state, the reagent unit 60 is stored in the cool box. When installing in the apparatus, the hermetically closed state is released by hand, and the opening 59 of the container body is closed by the weight of the lid.

The operation of the automatic analyzer 10 of this embodiment will be described. First, the base 22 is moved to the sample mounting unit 14 by the base moving unit 28, and the dispensing pipette 24 is lowered to aspirate a predetermined amount of the sample in the sample container. Thereafter, the dispensing pipette 24 moves up, the base 22 moves horizontally to the reaction vessel setting unit 18, and the dispensing pipette 24 descends to dispense the aspirated sample.

Next, the suction operation of the reagent will be described with reference to FIGS. 7 (a) to 7 (f). FIG. 7 is a diagram for explaining the lid opening / closing operation. (A) The base 22 moves toward the reagent setting section 16 (moves to the left in the figure). Before reaching the reagent installation section 16, the piston 38 of the air cylinder 40 is projected. (B) With the horizontal movement of the base 22, the projecting portion 38 comes into contact with the claw portion 55 of the reagent container 50 and is pressed to the left, thereby rotating the lid 52 counterclockwise around the rotation fulcrum 54 to thereby form the lid 56. Open. (C) The base 22 stops, the dispensing pipette 24 descends, and the reagent is quantitatively collected from the reagent container 50. Meanwhile, protrusion 3
8 is located in the V-shaped valley 57 formed by the claw portion 55 and the upper surface of the lid 52, so that the lid 52 is held with the container opening 59 opened. (D) When the quantitative collection is completed, the pipetting pipette 24 is raised. (E) As the base 22 moves to the right, the projecting portion 38 comes into contact with the upper surface of the lid 52 of the reagent container 50 and presses to the right, thereby rotating the lid 52 clockwise around the rotation fulcrum 54. Cover 52 is closed. (F) The piston 38 of the air cylinder 40 is retracted.
The base 22 moves to the reaction container setting section 18 and dispenses the sucked reagent into the sample.

Although the example in which the protruding portion expands and contracts has been described above, a rod-like member 66 that does not expand and contract may be used as shown in FIG. The basic functions are the same.

The automatic analyzer used in the present invention has a projecting portion added to the base of the dispensing mechanism and a claw portion added to the lid of the container. The lid can be opened and closed with a simple structure. Also, since the dispensing operation does not need to be particularly changed, the operation control is easy, and there is no danger of lowering the processing speed.

Further, since the lid of the reagent container is held in an open state, there is no problem that the lid closes during suction of the pipetting pipette.

In the above embodiment, the reagent container has a structure in which the reagent container is closed when the lid is pressed against the opening. In FIG. 7 (e), after the lid 52 is rotated clockwise by the movement of the projection 38 accompanying the horizontal movement of the base 22 and closed, the projection 38 presses the lid 52 downward. For example, it is possible to automatically seal the reagent container. By performing this control at the end of the measurement operation, drying and deterioration of the reagent can be further prevented. Further, at the time of resuming the measurement, the closed state of the lid 52 may be released by the movement of the protruding portion 38 accompanying the horizontal movement of the base 22, and the lid 52 may be rotated counterclockwise to be opened. When the measurement is completed, if the lid 52 is pressed downward by the protrusion 38 as described above and the reagent container is automatically sealed, the contents of the reagent container taken out of the automatic analyzer are spilled. Without fear, it can be stored in the cool box as it is.

[0030]

The liquid dispensing apparatus of the present invention has a relatively simple structure in which a claw portion is provided on a lid of a container and a protruding portion is provided on a base of a dispensing mechanism. Can be opened and the open state can be maintained. When the protruding portion can be extended and retracted, it is possible to construct a device having more flexibility. In the case of using a container configured such that the direction of opening and closing the lid of the container is determined, the operation of opening and closing the container can be further simplified.

[Brief description of the drawings]

FIG. 1 is a perspective view of a main part of an automatic analyzer according to an embodiment of the present invention.

FIG. 2 is a main part block diagram of an automatic analyzer according to an embodiment of the present invention.

FIG. 3 is a perspective view of an example of a reagent unit used in the present invention.

FIG. 4 is a perspective view showing a disassembled state of an example of a reagent unit used in the present invention.

FIG. 5 is a perspective view showing a state in which an opening is sealed in an example of the reagent container used in the present invention.

FIG. 6 is a perspective view showing an example of a reagent container used in the present invention in which an opening is open.

FIG. 7 is a diagram showing an opening / closing operation of a lid of a reagent container in the embodiment of the present invention.

FIG. 8 is a view showing another embodiment of the protrusion of the present invention.

[Explanation of symbols]

 12 dispensing mechanism section 14 sample setting section 16 reagent setting section 18 reaction vessel setting section 20 measuring section 22 base 24 dispensing pipette 26 dispensing pipette elevating section 28 base moving section 38, 66 projecting section 50, 56, 58 reagent Container 52 Lid 54 Rotating fulcrum 55 Claw

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2G058 BB07 BB12 CE02 EA02 EA04 EA07 EB01 ED02 FB05 3E006 BA05 CA01 GA02 GA09 3E084 AA12 AA24 AB01 BA03 CA01 CB02 CB04 CC03 DA01 DB11 DC03 FA06 FA09 GB06 LA18 LB02 LB07 LB07 LD

Claims (8)

[Claims] 1. A lid support having a through-hole coupled to an opening of a container having an opening at an upper end, a lid for opening and closing the through-hole of the lid support, and a lid support and a lid partially formed. A container opening / closing unit comprising: a connecting portion to be connected; and a projecting portion projecting from an upper surface of the lid, wherein the container is connected to the lid support so that the lid rotates about the connecting portion, and the projecting portion has a horizontal direction. A container opening / closing unit formed so as to open a through hole by receiving a force. 2. The container opening / closing unit according to claim 1, wherein the lid support and the lid are connected such that a locus drawn by the rotation of the lid is drawn on a vertical plane. 3. The container opening / closing unit according to claim 1, wherein the lid support, the lid, and the connection portion are integrally formed. 4. The lid support according to claim 1, wherein the lid support includes a first fitting portion and a second fitting portion formed to be fittable to the first fitting portion. Container opening and closing unit. 5. The container opening / closing unit according to claim 4, wherein
Or a second fitting portion formed to be fittable with the second fitting portion.
A bar code sticking unit comprising the fitting part or the first fitting part of the above, and a bar code sticking part to which a bar code is stuck. 6. A container opening and closing unit comprising a plurality of container opening and closing units according to claim 4. 7. A container opening / closing unit with a barcode attaching section, wherein the container opening / closing unit according to claim 4 or 6 is connected to the barcode attaching unit according to claim 5. 8. A dispensing pipette for dispensing a liquid, elevating means for elevating and lowering the dispensing pipette, a base holding the elevating means, a base moving means for moving the base, and provided on the base. The container opening / closing unit according to claim 1, wherein the through-hole is opened by horizontal movement of the base projection of the liquid dispensing device having the base projection.