JPH0413658Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to an automatic chemical analyzer equipped with a low-temperature reagent storage containing reagent containers for supplying analytical reagents at any time. The present invention relates to an automatic chemical analyzer equipped with a low-temperature reagent storage housing reagent containers for automatically supplying analytical reagents for automatically chemically analyzing samples such as specimens.

(B) Prior Art Enzymes specifically activate and react with their substrates, and are therefore used as analytical reagents for component analysis of samples such as blood, urine, and body fluids. However, since enzyme reagents generally tend to lose their activity, they must be stored at low temperatures of, for example, 0 to 4°C before use. Therefore, in conventional automatic analyzers, a low-temperature reagent storage equipped with a cooling device has been proposed, and containers containing reagents that require refrigeration, such as enzyme solutions, are stored in this storage, and the reagents are transferred to a reagent dispenser at any time. supplying.

By the way, when replacing reagents or taking out reagents, it is necessary to open the opening/closing door.
Dew condensed on the ceiling and eventually dripped into the reagent container, diluting the reagent and causing abnormal analytical values.

Therefore, it may be possible to slope the ceiling of the low temperature reagent storage so that the dew condensed on the ceiling flows down the ceiling surface, but if the ceiling is slightly sloped, the condensed drops will flow down. Dripping into the reagent container cannot be prevented, and dilution of the reagent cannot be avoided. However, forming a ceiling with a large slope is undesirable due to the space factor, and preventing condensed drops from dripping into the reagent container from the ceiling remains an immediate problem. Ta.

(c) Purpose The present invention prevents condensed drops from dripping into reagent containers in the low-temperature reagent storage of a conventional automatic chemical analyzer. To provide an automatic chemical analyzer equipped with a low-temperature reagent storage that flows down the ceiling surface without causing damage to the space factor.

(D) Configuration The present invention is an automatic chemical analyzer equipped with a low-temperature reagent storage, in which the inside of the low-temperature reagent storage is partitioned by partition members such as a partition wall having a communication part, a ceiling member, and a receiving plate. The lower surface of the ceiling member that forms a ventilation chamber, a cooling chamber, a reagent container storage chamber, and a liquid supply chamber and partitions the cooling chamber and the reagent container storage chamber is covered with a material that is easily wetted by water so as to form a rough surface to absorb water. In order to make it easier to use and not to damage the space factor,
The cooling chamber and the reagent container accommodating chamber are inclined toward the side of the communication path where the cooling chamber and the reagent container storage chamber communicate with each other, so that the dew condensed on the ceiling surface is allowed to flow down the ceiling surface without dripping into the reagent container.

That is, the present invention provides an automatic chemical analyzer equipped with a low-temperature reagent storage, in which a ventilation chamber, a cooling chamber, a reagent container storage chamber, and a liquid feeding chamber are connected in sequence in a part of the case of the low-temperature reagent storage. The ceiling member, which is formed in order from the top and partitions the cooling chamber and the reagent container storage chamber, has a lower surface covered with a fiber material that is easily wetted by water, and slopes toward the communication path that communicates the cooling chamber and the reagent container storage chamber. , a low-temperature reagent storage characterized in that a gutter is provided at the end on the side of the communication path, and the reagent container receiving plate that partitions the reagent container storage chamber and the liquid feeding chamber is directly arranged with the reagent container. Located in an automatic chemical analyzer.

In the present invention, the ventilation chamber is provided above the cooling chamber, and the cooling chamber is placed above the reagent container storage chamber and partially communicates with the reagent container storage chamber through the ceiling member of the reagent container storage chamber. There is. The ceiling member of the reagent container storage chamber is formed to also serve as a floor member of the cooling chamber, and is inclined toward the side communicating with the reagent container storage chamber.

The airflow from the blow chamber flows into the cooling chamber where it is cooled and at least partially dehumidified. In the present invention, the airflow cooled in the cooling chamber and at least partially dehumidified flows into the reagent container storage chamber.

A material that forms a fibrous rough surface and is easily wetted by water is provided on the lower surface that covers the ceiling of the reagent container storage chamber. Materials for forming such a rough surface include those having a fibrous rough surface, for example,
Fiber materials such as non-woven fabrics, woven fabrics, or knitted fabrics. Typical examples of these materials include felts, nonwoven fabrics, cords, knitted fabrics, and woven fabrics made of fiber materials such as cotton fibers, chemical fibers, and glass fibers.

In the case of non-woven fabrics, it is preferable that the fibers are fine.
Furthermore, in the case of strings, knitted fabrics, and woven fabrics, it is preferable that the weaves and stitches be fine. When formed on such a fibrous rough surface, it is possible to absorb dew condensation by capillary action and prevent the dew from dripping.

These materials with rough surfaces that are easily wetted by water are fixed to the ceiling using adhesive or other fixing means, and the position is above the reagent container receiver or at an appropriate location extending from the above position to the entire ceiling. good.

It is preferable for the ceiling to be slightly inclined, since this allows condensed drops to flow down the surface and increases the space factor. In order to cause the dew condensation to flow down, it may be allowed to flow down the inner wall, or a gutter or the like may be formed at the end of the ceiling to guide it to a drainage channel.

Hereinafter, one embodiment of the present invention will be described with reference to the accompanying drawings, but the technical scope of the present invention is as follows:
This explanation is not intended to be limiting in any way.

(E) Embodiment The figure shows a sectional view of an embodiment of the low temperature reagent storage of the automatic chemical analyzer of the present invention.

In the reagent storage 1, a fan 3 for gas agitation is provided in a ventilation chamber 4 in a case 2. The ventilation chamber 4 is partitioned off from the cooling chamber 6 by a partition wall 5, leaving a communication section 7. This cooling chamber 6 is provided with a cooling coil 8 connected to a refrigeration circuit (not shown), and the cooling chamber 6 is connected to a reagent container storage chamber 9 and its ceiling member 10 through a communication path It is partitioned off with only . A cloth 12 made of chemical fiber is stretched over the entire lower side of the ceiling member 10, and a gutter 13 for receiving drops flowing down is formed at the lower end of the cloth 12.

The reagent container storage chamber 9 is provided with a reagent container receiving plate 14 , and the reagent container 15 is provided with the reagent container receiving plate 1 .
It is placed at a predetermined position on the container 4 in an open state.
One end 17 of the dispensing tube 16 is inserted into the reagent container 15 through the opening 18 of the reagent container 15. One end 17 of the dispensing tube 16 is shaped like a filter and extends outward through a hole 20 in the case 2 via a valve 19 . The valve 19 has check valves arranged in opposite directions on the inlet side and the outlet side.
When the pump 21 is suctioning, the inlet side is open and the outlet side is closed, and when the pump 21 is extruding, the inlet side is closed and the outlet side is open. Opening/closing doors 22 and 23 are provided at the front of the case 2, and the opening/closing door 22 is opened to replace the reagent container or replenish the reagent. The opening/closing door 23 is provided for maintenance or repair of pumps and the like.

Since the low-temperature reagent storage of this example is formed as described above, the airflow from the ventilation chamber 4 is sent to the cooling chamber 6, where it is cooled and at least partially dehumidified. This dehumidified cold air can flow into the reagent container storage chamber and volatilize the drops that have formed on the ceiling member.

Further, even if the door 23 is opened and outside air enters and moisture condenses on the ceiling member 10, the condensed drops are retained on the chemical fiber cloth 12, and the cloth 12
, and can be guided to the gutter 13 and discharged.

Therefore, in the low-temperature reagent storage of this example, condensed drops are prevented from dripping.

(F) Effect This invention has a low-temperature reagent storage in an automatic chemical analyzer, in which parts of the reagent storage are connected in sequence to form a ventilation chamber, a cooling chamber, and a reagent container storage chamber, so that the reagent is cooled by a cooling coil in the cooling chamber. The at least partially dehumidified cold air can enter the reagent container storage chamber and volatilize at least a portion of the droplets formed within the reagent container storage chamber.

Furthermore, the present invention provides a simple improvement in that in a low-temperature reagent storage in an automatic chemical analyzer, the ceiling located above the reagent container receptacle is covered with a material having a rough surface that is easily wetted by water. Since the coating material retains the dew drops, it is possible to prevent the condensed drops from dripping. Therefore, the reagent is not diluted by dripping when dispensing the reagent, and no abnormality in analysis values occurs due to dilution of the reagent.

In this way, the present invention prevents the damage caused by dripping, which was considered difficult to prevent in conventional automatic chemical analyzers equipped with low-temperature reagent storage, and avoids abnormalities in analytical values as much as possible. The impact on

[Brief explanation of drawings]

The figure shows a cross-sectional view of one embodiment of the low temperature reagent storage of the automatic chemical analyzer of the present invention. Regarding the codes, 1 is the reagent storage, 2 is the case, and 3
is a fan, 4 is a ventilation chamber, 5 is a partition wall, 6 is a cooling chamber,
7 is a communication part, 8 is a cooling coil, 9 is a reagent container storage chamber, 10 is a ceiling member, 11 is a communication path, 12 is a cloth, 13 is a gutter, 14 is a reagent container receiving plate, 15 is a reagent container, and 16 is a Dispensing tube, 17 is an end filter, 18
19 is a container opening, 19 is a valve, 20 is a hole in the case, 21 is a pump, and 22 and 23 are opening/closing doors.

Claims (1)

[Scope of utility model registration request] In an automatic chemical analyzer equipped with a low-temperature reagent storage, the inside of the case of the low-temperature reagent storage includes a ventilation chamber, a cooling chamber, a reagent container storage chamber, and a liquid feeding chamber, which are connected in sequence from above in that order. The ceiling member that partitions the cooling chamber and the reagent container storage chamber has a lower surface covered with a fiber material that is easily wetted by water, and is sloped toward the communication path that passes through the cooling chamber and the reagent container storage chamber, and the ceiling member that partitions the cooling chamber and the reagent container storage chamber is sloped toward the communication path that passes through the cooling chamber and the reagent container storage chamber. 1. An automatic chemical analyzer equipped with a low-temperature reagent storage, characterized in that a gutter is provided in the reagent storage chamber, and a reagent container receiving plate that partitions a reagent container storage chamber and a liquid feeding chamber is directly placed with a reagent container.