JPH0351760A - Automatic analyzer - Google Patents

Abstract

PURPOSE:To perform smooth operation by changing operating instructions from an operating part to an analyzing part based on the state of the analyzing part. CONSTITUTION:When analysis is performed, analyzing conditions 3b and analyzing items 3c of specimens are set with a keyboard 5. Then the start of the analysis is instructed with the keyboard 5. An analyzing-part operating instruction 3d, the conditions 3b and the items 3c are sent into an analyzing part 2 through a communicating path 3. Thus the analysis is started. In the analyzing part 2, a specimen supply part 12 is controlled based on the item 3c. An analysis mechanism group 10 is controlled based on the conditions 3b. Measured result data 3f are obtained in a measured- data receiving part 11. The data 3f are sent into an operating part 1 through the communicating path 3 and displayed on a display device 4. The data are printed with a printer 6 and stored in a hard disk 7. Even when the instruction 3d is awaited, the analyzing part 2 returns a state 3g of the analyzing part 2 to the operating part 1 for a question 3e for the state of the operating part 1 for every six seconds which are matched with the analyzing cycles. Thus, the time from the restarting of the power source of the operating part to the state wherein the analysis is possible is shortened. Therefore, highly efficient analysis and smooth operation can carried out for the inspection center.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an automatic analyzer, and particularly to an automatic analyzer comprising a plurality of computers.

[Conventional technology]

Automation of clinical biochemical tests has progressed, and automatic biochemical analyzers have also made great progress in recent years. Automatic biochemical analyzers are progressing to meet the demands for saving human labor and ease of use, and in addition to automating the analysis itself, maintenance functions have also been automated. 1 analysis 1 maintenance function! There are two types of functions: a function to confirm operation after an abnormality has occurred and repaired, such as checking the structure, and a daily maintenance function such as cleaning the flow path system.

Among these, some of the latter's daily maintenance functions are 1g before the start of analysis! This is necessary for preparation, and in consideration of the inconvenience of daily operation, it is automatically executed after the automatic analyzer is powered on.

On the other hand, in order to satisfy the high performance of large automatic analyzers with high processing capacity, for example, the part that performs analysis (hereinafter referred to as
In many cases, computers are placed in the analysis section (hereinafter referred to as the analysis section) and the section that performs data management and man-machine interface (hereinafter referred to as the operation section), and the processing is distributed and controlled. The relationship between the operation section and the analysis section is as follows. The analysis section always performs one analysis and maintenance operation according to commands from the operation section. for example,
When the operator presses a key to start analysis at the operation section, the operation section computer instructs the analysis section computer to execute the analysis. Also, when the power is turned on.

The operation unit instructs the analysis unit to perform the above-mentioned daily maintenance operation when the power is turned on, and in accordance with this command, the analysis unit performs the
Perform daily maintenance operations.

Now, with conventional equipment, if the operator accidentally turns off the power to the control unit, when the power is turned back on, the power is turned off again even though the analysis unit is ready to start analysis. Performs daily maintenance operations at power-on. This is a huge waste of time for testing laboratories and testing centers that need to process a large number of specimens within a limited amount of time.

[Problem to be solved by the invention]

The above-mentioned conventional technology does not take into account the process of restarting the power supply after the preparation for analysis is completed, resulting in a problem of wasted time.

An object of the present invention is to provide an automatic analyzer that can reduce such time wastage and facilitate smooth laboratory operations.

[Means to solve the problem]

In order to achieve the above object, the operation section is configured to know the state of the analysis section, and the operation command from the operation section to the analysis section is changed depending on the state of the analysis section.

The processing until the analysis section is ready to start analysis is as follows.

(1) Wait for an instruction to load the analyzer program onto the analyzer's storage device.

There are two cases of program loading:

(2) The analysis section has an external storage device, in which the analysis section program is stored. (2) The analysis section program is stored in the external storage device of the operation section.

(2) Wait for a daily maintenance operation and execution command when the power is turned on, that is, a preparation operation execution command until analysis can start.

(3) Wait for an instruction to start analysis or other maintenance operations.

When the analyzer is in state (1) or (2), the state changes from (1) to (2) or from (2) to (3) when it receives a command from the operation and finishes executing the process according to the command. When the power is turned on, the operating unit inquires of the state of the analyzer 1 to the analyzer 1, and based on the response, if (1), the change is made to the analyzer 1. A program load command is issued, and if (2), a preparation operation execution command is issued. If (3), do nothing. When an operator inputs an operation start, a command to perform the operation is issued.

(Operation) When the operation unit restarts the power supply, the operation command given to the analysis unit is to perform the minimum necessary operation.

If the state of the analysis section shows that the analysis section program is on the storage device on the analysis section and one analysis section program is executable, then ■ The analysis section has an external storage device and the analysis section program is stored on the external storage device. If the analysis program is stored in the program, there is no need to access the storage device for reading one analysis program, and the access time can be eliminated.

(2) If the analysis section program is stored in an external storage device of the operation section, the storage device access time for reading the analysis program at the operation section and the time for transferring the analysis section program from the operation section to the analysis section can be deleted.

If it is known that the preparatory operations up to the start of analysis by the analysis unit are completed, unnecessary re-execution of these preparatory operations can be avoided.

〔Example〕

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

FIG. 1 shows a configuration diagram of an embodiment of the present invention.

In the apparatus, an operation section 1 and an analysis section 2 are connected through a communication path 3. The operation section 1 is composed of an operation section central processing unit 8, a display device 4 serving as a man-machine interface, a keyboard 5, a printer 6, and a hard disk 7. Analysis section 2 is the analysis section central processing unit! ! 9 and analysis mechanism group 10. It is composed of a measurement data acquisition section 11 and a sample supply section 12. Further, the following communication data flows through the communication path 3. Communication data from the operation unit 1 to the analysis unit 2 includes an analysis unit program 3a, analysis conditions 3b, sample analysis items 3c,
There are an analysis section operation start command 3d and an analysis section state adjustment 3e.6 Communication data from the analysis section 2 to the operation section 1 includes measurement result data 3f and an analysis section state 3g.

Next, the flow of processing in normal times will be explained. In normal times, the operating unit 12 and the analyzing unit 2 are powered on almost simultaneously. After the operation section 1 reads an operation section program from the hard disk 7, the operation section central processing unit 8 executes this operation section program. Next, after reading the analysis section program from the hard disk 7 and completing transmission to the analysis section 2 via the communication path 3, the analysis section central processing unit 9 executes this analysis section program.

Thereafter, after performing a preparatory operation when the power is turned on, the analysis section waits for an analysis section operation start command 3d such as the start of analysis or maintenance operation (detailed processing when the power is turned on will be described later).

When performing an analysis, the operator uses the keyboard 5 to set the analysis conditions 3b and the analysis items 3c for the sample, and then uses the keyboard 5 to instruct the start of the analysis. As a result, the analysis condition 3b and the analysis item 3C of the sample are sent to the communication path 3 along with the analysis start command 3d indicating the start of analysis to the analysis section 2, and the analysis section 2 starts executing the analysis. The analysis section 2 controls the specimen supply section 12 according to the analysis items 3C of the specimen, controls the analysis mechanism group 10 according to the 1 analysis conditions 3b, and obtains measurement result data 3f from the measurement data acquisition section 11.

The measurement result data 3f is sent to the operation unit 1 via the communication path 3, displayed on the display device 4, printed on the printer 6, and stored on the hard disk 7.

By the way, not only during the analysis operation, but also when the analysis unit operation start command 3
Even when waiting for d, the analysis section 2 reports the status of the analysis section 2 to the operation section 1 at regular intervals. Specifically, in the embodiment of the present invention, every 6 seconds according to one analysis cycle,
The operation unit 1 sends an analysis unit status adjustment 3e to the analysis unit 2,
In response to this, the analysis section 2 returns the analysis section status 3g to the operation section 1.

Now, if the operating section 1 becomes inoperable due to a power cut, the analysis section state adjustment 3e from the operating section 1 will no longer be sent to the analyzing section 2. In other words, communication is interrupted. At this time, if the analyzer 2 is in the process of performing one analysis operation or another maintenance operation, it immediately stops its operation and enters a state of waiting for an analyzer operation start command 3d from the operation unit 1.

The processing when the power of the analyzer 9 is turned on will be explained with reference to the state transition diagram of the analyzer shown in FIG. When the power is turned on, the analysis section 2 checks the main storage device and the operation of the control section of the communication path 3, and then enters the reception waiting state 1 of the analysis section program 3a.
It becomes 02. When the reception of the analysis section program 3a is completed, the analysis section central processing unit 9 starts executing the analysis section program, and then the analysis section 2 enters a state 103 in which it waits for a command to start the preparation operation at power-on. In this state, upon receiving a power-on preparation operation start command, the analysis section 2 executes the preparation operation 104, and after finishing the preparation operation enters a reception waiting state 105 for the first analysis section operation start command 3d. In this state, an analysis start command or an analysis unit operation start command such as a maintenance operation start command 3d
When the analysis unit 2 receives the information, it executes the respective operations 106.
, After the operation is completed, the state 106 returns to the state 106 in which the analyzer operation start command 3d is received. When one communication path 3 is cut off as described above, the following state transition occurs.

(1) If a communication interruption occurs in the state 104 in which the preparation operation is being executed, the state transitions to the state 103 where the state waits for a command to start the preparation operation at power-on.

(2) If a communication interruption occurs in the state 106 during execution of an analysis operation or maintenance operation, a transition is made to a state 105 waiting for an instruction to start analysis section operation.

Next, FIG. 3 shows a processing flow diagram when the power of the operation section 1 is turned on, and the instructions to the analysis section 2 when the power of the operation section 1 is turned on will be seen.

The operating section 1 first performs hardware checks such as checking the main storage device and checking the operation of the control section of the communication path 3, and then performs a hardware check at step 201. The operating unit program is read from the hard disk 7 into the main storage device and this operating unit program is executed 202°. After this, the operating unit 1 performs 1 analysis unit state adjustment 3e for the analysis unit and 1 analysis unit status/a 13g. get 2
03° The following processing is performed based on this analyzer state 3g.

(1) If the analyzer state 3g is in the state 103 of waiting for a command to start the preparation operation when the power is turned on, issue the command to start the preparation operation 2
04゜(2) If the analyzer state 3g is the analyzer operation start command waiting state 105, nothing is done.205゜In the embodiment of the present invention, the above case (2) occurs frequently. The time required to read the analyzer program from the operation unit hard disk, the communication time, and the preparation operation time can be reduced by 10 to 20 minutes in total.

Note that the 5 analysis section program is approximately 2MB and takes approximately 5 minutes to read and communicate, and approximately 5 to 15 minutes for preparation operations such as resetting the mechanism.
It takes a minute.

In the embodiment of the present invention, there is one operation section and one analysis section, but it can be easily inferred that the same thing can be applied to an analyzer configured with a plurality of analysis sections.

〔Effect of the invention〕

According to the present invention, the time from when the power to the operating unit is restarted to when analysis becomes possible is shortened, making it more efficient for laboratories and test centers that need to process a large number of specimens within a limited time. Good analysis of.

Able to operate smoothly.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram of an embodiment of the present invention, FIG. 2 is a state transition diagram of the analysis section, and FIG. 3 is a processing flow diagram when the operation section is powered on. 1... Operation section, 2... Analysis section. 3... Communication channel. 38~ 1st prisoner-4・Kisuke first cause 05

Claims (1)

[Claims] 1. Setting an analysis section for measuring the concentration of components in a liquid sample and various analysis conditions for conducting analysis in the analysis section, and
It consists of an operation section that outputs the analysis results output from the analysis section, and a communication path that connects the analysis section and the operation section and exchanges the various analysis conditions and analysis results. In an automatic analyzer in which a section executes analysis operations, etc., when the operation section is restarted after becoming inoperable due to power cut, etc., depending on the state of the analysis section,
An automatic analyzer characterized by changing the processing of the analysis section. 2. In claim 1, when the analysis section is in a state where the program already exists in the main storage of the analysis section, the program is retransferred from the operation section or from the analysis section external storage. An automatic analyzer characterized in that the re-reading of the data is not performed. 3. In claim 1, when the analysis section has already completed the necessary operation when the power is turned on, the operation section is not instructed to perform the operation again when the operation section is restarted. An automatic analyzer characterized by: