JPH041570A - Automatic analysis apparatus - Google Patents

Abstract

PURPOSE:To allow the rapid execution of processing, such as repairing, by transmitting the abnormality of the apparatus to a remotely disposed signal receiver by using a communicating means connected to a main control computer. CONSTITUTION:The abnormality information is sent through an alarm communicating circuit 38 and an alarm communicating channel 39 to an alarm signal receiving and announcing device 40 in addition to the processing of storing the information to a floppy disk 14, displaying the same on a display 36, and sounding a buzzer, in the same manner as in ordinary abnormality processing in the event of the generation of the abnormality, such as malfunction of the mechanical system of the automatic analysis apparatus or memory defect, during the unmanned operation under the automatic off operation after the inputting of automatic on and off commands of a power source. A distance service engineer or the like is able to know the generation of the abnormality in this way.

Description

[Detailed description of the invention] [Industrial application field] The present invention has an automatic power ON/OFF function.

The present invention relates to a means for transmitting information when an abnormality occurs in an automatic analyzer for blood, urine, etc.

[Conventional technology]

The conventional device did not have a means for transmitting an abnormality from the device main control CPU. For this reason, even if the power is automatically turned on, there is a period of time until the operator is dispatched, or the power is automatically turned off until the power is actually turned off after the operator returns home. During this period, the machine will be unmanned, but even if an abnormality occurs during this unmanned operation, it will be left unattended until an operator is dispatched.

[Problem to be solved by the invention]

Although the above conventional technology may be unmanned, no consideration is given to transmitting abnormality information when an abnormality occurs during unmanned operation, and there is a possibility that abnormalities that occur during unmanned operation may be left unattended until the next day. There was a problem that interfered with the next day's analysis.

The present invention provides a communication system that allows an abnormality that occurs during unmanned operation to be immediately communicated to a person on duty, an operator, or a service person located in a remote location, so that prompt repairs or other measures can be taken. The object of the present invention is to provide an automatic analyzer having the means.

[Means to solve the problem]

In order to achieve the above object, the present invention includes a communication means connected to the main control computer of the analyzer.

[Effect]

The main control computer of the automatic analyzer recognizes all occurrences of abnormalities, such as malfunctions in the mechanisms of the automatic analyzer, and normally stores the abnormality information on a floppy disk, etc., and displays it on the CRT display to notify the operator. Furthermore, in the present invention, since the information is transmitted using a communication means connected to the main control computer, the information can be immediately transmitted to an operator, service person, etc. located far away. As a result, repairs can be carried out quickly and the loss of one hour is reduced.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. In this embodiment, an automatic analyzer control CPU II and a CPU
A memory 13. Floppy disk drive 14
．． Keyboard 16° mechanism control circuit 15. and a sample disk 29 on which a sample container 41 containing a sample to be analyzed is placed, and a reaction container 3 on which the sample is placed on a reaction disk 22.
Sample dispensing device 30. A reagent disk 27 that holds a reagent container 26, a reagent dispensing device 24 that dispenses the reagent in the reagent container 26 into a reaction container 35. A sample syringe 19 for aspirating the sample into the sample dispensing device 30 and discharging it into the first reaction container 35. Reagent syringe 172 for sucking the reagent and discharging it into the reaction container 35
A stirring device 232 for stirring the sample and reagent placed in the chamber; a photometer 20 for measuring the change in absorbance of the reacted reagent and sample; and its light source 25. CRT display 36 for displaying measurement results. Printer 253 for printing results 1 Constant temperature bath 28 to keep the reaction container 35 at a constant temperature, reaction container 3 after analysis
5. Cleaning device 21. Cleaning water supply and absorption device 18 that supplies water to the cleaning device 21 and sucks waste liquid. DC power supply to power these devices2. Power source 9. which is the input of this DC power source. Electromagnetic switch that automatically turns the input of DC power supply 2 into ○N10FF 1. An electromagnetic switch drive circuit 33 that drives this electromagnetic switch 1. Power supply 0N10FF control CPU4 that controls automatic power supply 0N10FF. Clock circuit 32. Automatic analyzer control CPU11 and power ON10 FF control C
5. An inter-CPU communication circuit that controls communication with the PU4.
Remote switch communication circuit 6° that receives and receives control signals from the external remote switch 8 through the communication line 7 Power supply 0N10 FF Power supply 0N1 that supplies power to the F F control CPU 4, clock circuit 32, and remote switch communication circuit 6
0FF DC power supply 3 for control circuit and battery 31 to operate clock circuit 32 in case of power outage Manual power supply ○N
a power supply for the operation, an ON switch 34, and an alarm communication circuit 38 for transmitting abnormality information when an abnormality occurs.
Alarm communication path 39. It is composed of an alarm reception and notification device 40.

Next, the operation of this embodiment will be explained.

In normal analysis, put it in the sample container 41,
The sample set on the sample disk 29 is transferred to the sample dispensing device 30. The sample syringe 19 transfers the necessary reagents to the reaction container 35.
Reagent dispensing device 2 from reagent container 26 on reagent disk 27
4 and the reagent syringe 17, and the stirring device 23
The sample is stirred and reacts with the sample. The reacted sample is measured by a photometer 20, digitized by a LOG amplifier and A/D converter 12, and stored on a memory 13. All of these operations are automatically analyzed and controlled by C.
Controlled by the PUI 1, the analyzed results are processed and stored on the floppy disk 14, simultaneously displayed on the CRT display 36, and printed on the printer 37.

The power for the automatic analyzer control CPU 1 and the devices connected to it are supplied from a DC power supply 2, and when the power is turned on manually, the power ON switch 3 is used.
Input 4 manually. When turning on the power for the first time, that is, the automatic ON time is the automatic analyzer control CPU 11J:
IJ, power ON switch 34 is manually turned on even when the power is not set to 0N10FF control CPU 4. Then, by this signal, the power supply 0N10FF control CPU4
, and the electromagnetic switch 1 is turned on by the electromagnetic switch drive circuit 33. The automatic analyzer is now powered ON.
Load the program and analysis parameters from the floppy disk 14 into the memory 13.

By operating the reaction disk 22 and other mechanical parts to the initial position,
Waiting for a command from the keyboard 16 When the automatic ON time has already been set in the power ON10FF control CPU 4, the power ON10FF control CPU 4 checks the clock circuit 32, and when the set time comes, the power is turned off. The 0N10FF control CPU 4 turns on the electromagnetic switch 1 using the electromagnetic switch drive circuit 33, and the automatic analyzer starts up in the same way. Next, when the power is turned off, enter the termination command from the keyboard 16 and the cell will be cleaned.

After performing operations such as dispensing device cleaning according to preset operations, the automatic analyzer control CPU 11
A completion message is sent through the U-to-U communication circuit 5, and the power is turned ON1.
0FF Send to the control CPU4.

In response, the power ON/○FF control CPU 4 uses the electromagnetic switch drive circuit 33 to turn the electromagnetic switch 1 to 0FF.
L. Finish. Now, during unattended operation during automatic power ON and automatic OFF operation after inputting the OFF command,
When an abnormality occurs such as mechanical malfunction or memory failure of the automatic analyzer, the same processing as normal abnormality processing is performed: ■ Storing on the floppy disk 14, ■ Displaying on the CRT display 36, and ■ Sounding the buzzer. In addition, the alarm communication circuit 38. Abnormality information is sent to the alarm reception 9 reporting device 4o through the alarm communication path 39.

This allows service personnel who are far away to know that an abnormality has occurred.

Relay as alarm communication circuit 38, alarm communication path 3
9 as a pair of electric wires, alarm reception 2 as a reporting device,
A buzzer and lamp may also be used.

In this case, it can be configured very inexpensively.

Further, it is also possible to use a serial communication circuit and a modem device as the alarm communication circuit 38, a public telephone line as the alarm communication path 39, and a modem device and a personal computer as the alarm reception 2 broadcast device. In this case, it can be sent over very long distances, and detailed information regarding abnormalities can be sent.

〔Effect of the invention〕

According to the present invention, even during unmanned operation, the occurrence of an abnormality can be immediately notified to a person located far away, so repairs can be carried out immediately, and the downtime of the equipment can be minimized. be.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention. 1... Electromagnetic switch or semiconductor switch, 2...
DC power supply, 3...Power supply 0N10FF control circuit power supply,
4...Power ON10 FF control CPU, 5-CP
U communication circuit, 6... communication circuit for remote switch,
7... Communication line for remote switch, 8... Remote switch (or host computer), 9... Power supply, 10... CPU bus, 11... Automatic analyzer control CPU, 12... LOG Amplifier and A/D converter, 13... Memory, 14... Floppy disk drive, 15... Mechanism control circuit, 16... Keyboard, 17... Reagent syringe, 18... Cleaning water supply, Water absorption device, 19... Sample syringe, 20...
Photometer, 21... Cleaning device, 22... Reaction disk, 23... Stirring device, 24... Reagent dispensing device, 25
... light source, 26 ... reagent container, 27 ... reagent disk, 28 ... constant temperature bath, 29 ... sample disk, 30 ... sample dispensing device, 31 ... battery, 32
... Clock circuit, 33 ... Electromagnetic switch drive circuit, 3
4...Power ON switch, 35...Reaction container, 36...
・・CRT display, 37・・Printer, 38・
...Alarm communication circuit, 39...Alarm communication path, 4
0...Alarm reception 9 timely reporting device, 41...Sample container.

Claims (1)

[Claims] 1. A function that automatically turns on the power by a timer or a communication function connected to a battery-backed power control CPU, and automatically or
In an automatic analyzer that automatically dispenses and analyzes samples such as blood or urine, which has the function of automatically turning off the power using the timer or communication function described above, the communication means connected to the main control computer of the automatic analyzer is 1. An automatic analysis device having a function of transmitting an abnormality of the device to a remotely located receiving device using the communication means. 2. In the automatic analyzer according to claim 1, as an abnormality communication means connected to the main control computer,
An automatic analysis device characterized by using an electromagnetic relay, wiring, and a buzzer or lamp. 3. In the automatic analyzer according to claim 1, the communication means for transmitting the abnormality includes a serial communication device, a modulation/demodulation device (
MODEM), an automatic analysis device characterized by using a public communication line such as a telephone line.