Chemical apparatus and process disinfecting – deodorizing – preser – Analyzer – structured indicator – or manipulative laboratory... – Sample mechanical transport means in or for automated...
Reexamination Certificate
2001-02-22
2004-05-18
Warden, Jill (Department: 1743)
Chemical apparatus and process disinfecting, deodorizing, preser
Analyzer, structured indicator, or manipulative laboratory...
Sample mechanical transport means in or for automated...
C422S068100, C366S127000
Reexamination Certificate
active
06737021
ABSTRACT:
BACKGROUND OF THE INVENTION
The resent invention relates to the automatic analyzer which uses reagent or the like to analyze the components of the specimen as objects of analysis, and particularly to the automatic analyzer provided with an agitator to ensure that reagent required for analysis of specimen components is mixed with the specimen.
To mix reagent with the specimen in the agitator of the conventional automatic analyzer, an agitating rod
61
having a spatula-shaped tip is inserted into the reaction vessel where reagent is mixed with the specimen, and the agitating rod is rotated or moved in reciprocating motion.
For example, the agitating rod
61
having a spatula-shaped tip is inserted into the reaction vessel
11
containing a mixture of reagent and specimen as shown in FIG.
9
(
a
), and the agitating rod
61
is rotated by an actuator
60
. Or the agitating rod
61
having a spatula-shaped tip is inserted into the reaction vessel
11
containing a mixture of reagent and specimen as shown in FIG.
9
(
b
), and the agitating rod
61
is moved in reciprocating motion by an actuator
60
.
When this conventional automatic analyzer is used, a trace amount of chemicals or specimens deposited on the agitating rod will cause a phenomenon called carry-over which affects the result of the next analysis. This requires some means to clean the agitating rod.
Official Gazette of Japanese Patent Laid-Open NO.311204/1997 discloses an example of using a piezoelectric element as dispensing nozzle cleaning means. The cleaning means disclosed in this Journal gives mechanical oscillation to the nozzle itself to remove reagent or specimen deposited on the dispensing nozzle. It uses oscillation of the piezoelectric element to improve nozzle cleaning effect. This is not effective as an agitating means to promote mixing between reagent and specimen.
To reduce physical loads of the specimen provider or to cut down system running costs for the automatic analyzer, efforts are made to reduce the amount of the specimen and reagent required for analysis of each item.
In this case, if the amount of the specimen and reagent is reduced in the reaction vessel having the same capacity as that of the conventional reaction vessel as shown in FIG.
10
(
b
), the area which light to be measured passes by will be smaller than when the amount of the specimen and reagent shown in FIG.
10
(
a
) is not reduce. This will result in reduced measuring accuracy.
To get an accurate measurement of the reduced amount of the specimen and reagent, it is necessary to reduce the capacity of the reaction vessel and to secure the liquid level of the specimen and reagent and light transmission area, as shown in FIG.
10
(
c
).
However, it becomes difficult to physically insert and to reciprocate the agitating rod due to reduced capacity of the reaction vessel in case of the automatic analyzer using the reaction vessel having a reduced capacity, where the agitating rod having a spatula-shaped tip in the agitator to mix the reagent with the specimen is inserted into said reaction vessel to rotate the agitating rod or move it in reciprocating motion. Therefore, an agitation mechanism to agitate the reagent with the specimen without using the agitating rod becomes to be needed.
Furthermore, even if the agitating rod is cleaned, it is impossible to completely eliminate the phenomenon of carry-over where a trace amount of specimen or reagent is carried over to the next analysis. It is also impossible to eliminate the possibility of water for cleaning being brought into the reaction vessel by the agitating rod.
Said carry-over and transfer of cleaning water into the vessel will have some adverse effect on the result of analysis when the capacity of the reaction vessel is reduced and the quality of reagent and specimen is decreased.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an automatic analyzer which is capable of effective agitation of the reagent and specimen, in a case to be difficult to insert the agitation rod because of a small capacity of the reaction vessel, by a method to agitate the reagent and specimen without touching thereto and without carry-over between specimens or water brought into the next process, thereby ensuring highly reliable results of analysis.
The above object can be attained by the present invention which is configured as described below:
(1) An automatic analyzer comprises the following:
an analyzer unit to analyze the components of a specimen to be analyzed,
a heat insulating bath to support a reaction vessel and to hold the heat insulating medium to keep a constant temperature of liquid mixture between said specimen for analysis stored in said reaction vessel and reagent or others,
a controller to administer and control the entire system including said analyzer unit,
an agitator installed on the side of the reaction vessel supported by said heat insulating bath, wherein
said agitator comprises multiple ultrasonic generators to generate lateral ultrasonic wave and a reflecting means to reflect ultrasonic wave from said ultrasonic generators and to irradiate lower ultrasonic wave toward the liquid level of liquid mixture from the bottom of said reaction vessel, and
said agitator mixes and agitates the specimen in the reaction vessel, reagent or the like using the swirling flow generated by acoustic radiation pressure by coordination between said lateral ultrasonic wave and lower ultrasonic wave, and
an ultrasonic generator drive circuit to supply drive power to said ultrasonic generator.
(2) An automatic analyzer comprises the following:
an analyzer unit to analyze the components of a specimen to be analyzed,
a heat insulating bath to support a reaction vessel and to hold the heat insulating medium to keep a constant temperature of liquid mixture between said specimen for analysis stored in said reaction vessel and reagent or others,
wherein the bottom is inclined with respect to said liquid mixture level to serve as an ultrasonic wave reflecting means,
a controller to administer and control the entire system including said analyzer unit,
an agitator installed on the side of the reaction vessel supported by said heat insulating bath, wherein
said agitator comprises multiple ultrasonic generators to generate lateral ultrasonic wave, and
said agitator mixes and agitates the specimen in the reaction vessel, reagent or the like using the swirling flow generated by acoustic radiation pressure by coordination between lower ultrasonic wave and said lateral ultrasonic wave;
wherein said lower ultrasonic wave is generated when ultrasonic wave generated from said ultrasonic generator is reflected against the bottom of said heat insulating bath, and said lower ultrasonic wave is irradiated from the bottom of said reaction vessel toward the liquid mixture level, and
an ultrasonic generator drive circuit to supply drive power to said ultrasonic generator.
(3) An automatic analyzer comprises the following:
an analyzer unit to analyze the components of a specimen to be analyzed,
a reaction vessel storing the specimen for analysis and liquid mixture with reagent or the like, wherein the bottom is inclined with respect to said liquid mixture level to serve as an ultrasonic wave reflecting means,
a heat insulating bath to support a reaction vessel and to hold the heat insulating medium to keep a constant temperature of liquid mixture between said specimen for analysis stored in said reaction vessel and reagent or others,
a controller to administer and control the entire system including said analyzer unit,
an agitator installed on the side of the reaction vessel supported by said heat insulating bath, wherein
said agitator comprises multiple ultrasonic generators to generate lateral ultrasonic wave, and
said agitator mixes and agitates the specimen in the reaction vessel, reagent or the like using the swirling flow generated by acoustic radiation pressure by coordination between lower ultrasonic wave and said lateral ultrasonic wave;
wherein said lower ultrasonic wave is generated whe
Kambara Katsuhiro
Katou Hajime
Shibuya Takeshi
Uchida Hiroyasu
Watari Shigenori
Gordon Brian R.
Hitachi , Ltd.
Mattingly Stanger & Malur, P.C.
Warden Jill
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