Disclosure of Invention
In order to solve the above technical problems, a first aspect of the present invention discloses a wake-up control method for an automatic analyzer, so as to effectively shorten the waiting time for sample detection and improve the detection efficiency.
The second aspect of the invention also discloses a control system of the automatic analyzer, which can realize the awakening control method;
the third aspect of the invention also discloses an automatic analyzer capable of executing the awakening control method.
The awakening control method of the automatic analyzer disclosed by the invention comprises the following steps:
entering an active state in response to the wake-up signal to:
and executing a set item after each functional unit of the automatic analyzer is powered on according to a preset power-on time sequence, and entering a sample waiting state after the set item is finished.
Preferably, in the wake-up control method, the setting items include factory setting items and user setting items.
Preferably, in the wake-up control method, the factory setting items include temperature control and reset control, wherein,
the temperature control comprises the following steps: starting a temperature control unit to control the temperature of the automatic analysis within a preset temperature range;
the reset control is as follows: and controlling each functional unit of the automatic analyzer to reset.
Preferably, in the wake-up control method, the user setting item includes blending system function detection and/or pipeline system function detection.
The invention discloses a control system of an automatic analyzer, comprising:
the wake-up timing module is used for receiving and storing the preset starting-up time set by a user and sending a wake-up signal at the preset starting-up time;
the signal receiving module is used for receiving and receiving the wake-up signal;
the system starting module is used for starting the control system after the signal receiving module receives the wake-up signal;
the power-on time sequence control module is used for powering on each functional unit of the automatic analyzer according to a preset power-on time sequence after the control system is started;
the setting item storage module is used for storing the setting items which need to be automatically executed after the control system is started;
and the setting item control module is used for controlling the corresponding functional units to execute the setting items after the functional units of the automatic analyzer are powered on.
Preferably, in the control system, the setting item storage module includes a factory setting storage module and a user setting storage module.
Preferably, in the control system, the factory setting items stored in the factory setting storage module include temperature control and reset control, wherein,
the temperature control comprises the following steps: starting a temperature control unit to control the temperature of the automatic analysis within a preset temperature range;
the reset control is as follows: and controlling each functional unit of the automatic analyzer to reset.
Preferably, in the control system, the user setting items stored in the user setting storage module include:
and (3) detecting functions of the blending system and/or the pipeline system.
The automatic analyzer comprises an analyzer body and a controller for controlling the analyzer body to work, wherein after receiving a wake-up signal, the controller powers on all functional units of the automatic analyzer according to a preset power-on sequence, and starts a temperature control unit after the power-on is completed so as to control the temperature of automatic analysis within a preset temperature range; and after the temperature control unit is started, the controller controls the resetting of each functional unit of the automatic analyzer.
Preferably, in the above automatic analyzer, the controller is a control chip built in the automatic analyzer, or the controller is a computer provided separately from the analyzer body, and the controller is connected to the analyzer body in a communication manner.
Preferably, in the automatic analyzer, the controller receives the wake-up signal through a network.
Preferably, in the automatic analyzer, the wake-up signal is sent by a real-time clock on the controller.
Compared with the prior art, in the wake-up control method for the automatic analyzer disclosed by the invention, besides the system can be wakened up at the preset time, the set items before sample detection are automatically executed after the system is started up, and after the set items are completed, the whole automatic analyzer enters a sample waiting state, which means that the sample detection can be directly carried out after the sample is put in. Obviously, the waiting time of the automatic analyzer can be effectively reduced, the detection efficiency is improved, the condition of instant detection can be adapted, and the requirement of emergency treatment can be met in medical inspection.
Detailed Description
Although the automatic wake-up mode is applied without manual start-up of an operator, the current automatic analyzer is always in a standby state after automatic wake-up, and the automatic analyzer needs to be manually started to perform preparation work before testing after the arrival of a worker, so that the current automatic wake-up mode still does not substantially solve the problems of low test efficiency and long test waiting time.
Taking a full-automatic chemiluminescence immunoassay analyzer commonly used in the medical field as an example, although the system is started, a user still needs to manually start a temperature control function and observe a temperature control state displayed in real time before sample detection, and the system waits for completing temperature control within 30 minutes and enabling the temperature to tend to be balanced; in the process of waiting for the system to control the temperature, the user also needs to manually start the whole machine to run home detection (whole machine reset detection) and blending detection, and according to the needs of sample detection, the user also may need to manually start the pipeline filling function and the like, and these early preparation works probably need half an hour of time, which still seriously affects the detection efficiency of the sample.
Therefore, shortening the waiting time for sample detection and enabling the automatic analyzer to enter the working state as soon as possible are technical problems that the inventors want to solve, and after a large number of tests of theoretical design and practical application, the inventors finally develop an effective wake-up control method.
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The following embodiments are specifically described by taking a chemiluminescence immunoassay analyzer used in the medical field as an example, and other automatic analyzers may be implemented by referring to the idea of the following embodiments.
As shown in fig. 1, the wake-up control method for an automatic analyzer disclosed in this embodiment includes the steps of:
s1) responding to the wake-up signal, and entering a working state;
s2) powering on each functional unit of the automatic analyzer according to a preset power-on sequence;
s3), the setting items are executed, and the sample waiting state is entered after all the setting items are completed.
It should be noted that, the setting items include factory setting items and user setting items, in fact, after starting up at every time, no matter what kind of sample detection is performed, the chemiluminescence immunoassay analyzer needs to be temperature-controlled and adjusted first, so that the temperature of the chemiluminescence immunoassay analyzer reaches the requirement, in addition, before sample detection, the whole machine home detection (whole machine reset detection) needs to be operated, the whole machine home detection can reset each functional module, thereby ensuring the sample detection result to be accurate and reliable, therefore, the temperature control and reset control of the chemiluminescence immunoassay analyzer after starting up at every time become necessary items, the factory setting items can be set as temperature control and reset control, wherein, the temperature control is: starting a temperature control unit to control the temperature of the automatic analysis within a preset temperature range; the reset control is as follows: and controlling the resetting of each functional unit of the automatic analyzer.
Compared with the prior art, in the wake-up control method for the automatic analyzer disclosed in the above embodiment, in addition to waking up the system to start up at a predetermined time, the set items before sample detection are automatically executed after the system is started up, and after the set items are completed, the entire automatic analyzer enters a sample waiting state, specifically, the sample waiting state refers to a state of waiting for the sample to be put into the automatic analyzer, which means that the sample detection can be directly performed after the sample is put into the automatic analyzer. Obviously, the waiting time of the automatic analyzer in use can be effectively reduced, the detection efficiency is improved, the condition of instant detection can be adapted, and the requirement of emergency treatment can be met in medical inspection.
In the chemiluminescence immunoassay analyzer, the user setting items include but are not limited to blending system function detection and pipeline system function detection, subdivided small items can be selected by a user in the pipeline system function detection, such as pipeline filling, pipeline cleaning and the like, and the pipeline filling option is also selected when the user sets automatic awakening, so that the pipeline filling can be automatically performed after the chemiluminescence immunoassay analyzer is awakened.
Of course, depending on the type and function of the autoanalyzer, the user setting items may be changed accordingly.
The embodiment of the invention also discloses a control system of the automatic analyzer, which comprises:
the awakening timing module 2 is used for receiving and storing the preset startup time set by the user and sending an awakening signal at the preset startup time;
the signal receiving module is used for receiving and receiving the wake-up signal;
the system starting module is used for starting the control system after the signal receiving module receives the wake-up signal;
the power-on time sequence control module 3 is used for powering on each functional unit of the automatic analyzer according to a preset power-on time sequence after the control system is started;
the setting item storage module 4 is used for storing the setting items which need to be automatically executed after the control system is started;
and the setting item control module is used for controlling the corresponding functional units to execute the setting items after the functional units of the automatic analyzer are powered on.
As will be understood with reference to fig. 2 and 4, before the user turns off, the next wake-up time of the automatic analyzer is set to 9:00 am on tuesday through the setting interface, the user turns off after the setting is completed, when the time reaches 9:00 am on Tuesday, the wake-up timing module 2 sends a wake-up signal to the signal receiving module and the power-on timing control module 3, after receiving the wake-up signal, the control system starts, the power-on time sequence control module 3 controls each functional module of the automatic analyzer to be powered on according to a preset power-on time sequence, the power-on time sequence control module 3 feeds back a signal that the system is successfully started to the wake-up timing module 2 after the control system is successfully started, and after the power-on is completed, the power-on time sequence control module 3 feeds back a signal that the power-on is completed to the wake-up timing module, then the setting item control module controls the corresponding functional unit to execute the setting item according to the task list on the setting item storage module 4.
It should be noted that the entire control system may be entirely located inside the automatic analyzer, or a part of the control system may be disposed inside the automatic analyzer and another part may be disposed outside the automatic analyzer, or the control system may be entirely disposed outside the automatic analyzer. In the control system disclosed in the embodiment of the invention, the power-on time sequence control module 3 is arranged inside the automatic analyzer, the awakening timing module 2 is arranged outside the automatic analyzer and is in communication connection with the power-on time sequence control module 3 through a network, the rest modules of the control system are served by a controller of an external computer, the computer is actually equivalent to an upper computer, and forms a user operation end 1, corresponding operation software is installed in the upper computer, and the upper computer is in communication connection with the automatic analyzer and the awakening timing module 2 through a wired or wireless mode, as shown in fig. 3.
The setting items comprise factory setting items and user setting items, correspondingly, a factory setting storage module and a user setting storage module can be set, the factory setting items stored in the factory setting storage module comprise temperature control and reset control, wherein,
the temperature control is as follows: starting the temperature control unit to control the automatically analyzed temperature within a preset temperature range, and displaying the temperature in real time through a display device in the temperature control execution process so that a user can master the real-time temperature;
the reset control is as follows: and controlling the reset of each functional unit of the automatic analyzer, such as the reset of components such as a motor, a pump, a valve and the like.
The user setting items stored in the user setting storage module include, but are not limited to, blending system function detection and pipeline system function detection, as shown in fig. 4, the setting items may form a task list, in the execution process, the priority of the factory setting items is higher than that of the user setting items, and the execution sequence of the user setting items may be changed.
The invention also discloses an automatic analyzer, which comprises an analyzer body and a controller for controlling the operation of the analyzer body, wherein after receiving the wake-up signal, the controller powers on each functional unit of the automatic analyzer according to a preset power-on time sequence, and starts a temperature control unit after the power-on is finished so as to control the temperature of the automatic analysis within a preset temperature range; after the temperature control unit is started, the controller controls the reset of each functional unit of the automatic analyzer.
It can be known from the above embodiments that the temperature control and the reset control are the indispensable items for starting the automatic chemiluminescence immunoassay analyzer, the automatic chemiluminescence immunoassay analyzer automatically executes the indispensable items after being awakened, and after the indispensable items are completed, the whole automatic chemiluminescence immunoassay analyzer enters a sample waiting state, which means that the sample can be directly detected after being put in the sample. Obviously, the waiting time of the automatic analyzer in use can be effectively reduced, the detection efficiency is improved, the condition of instant detection can be adapted, and the requirement of emergency treatment can be met in medical inspection.
Those skilled in the art will appreciate that the controller may be a control chip built in the automatic analyzer, or may be a computer separately provided from the analyzer body, and the computer is in communication connection with the analyzer body.
The awakening mode is not only one, for example, the awakening timing module 2 sends the MAC address to the computer, and the computer is awakened, namely the awakening of the external computer is realized through the Wake On LAN function; in addition, an RTC (Real Time Clock) on a mainboard of the computer can be used for timing, and the RTC sends out a wake-up signal to start the computer.
The automatic analyzer, the wake-up control method thereof and the control system thereof disclosed by the present invention are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.