CN108297044B - Intelligent operation platform based on Internet of things sensing technology - Google Patents

Abstract

The application discloses intelligence operation panel based on thing allies oneself with sensing technology, including support body, host computer and utensil frame. The host has an interface for connecting with a display device. Through which it can be connected to a display device on which the content of the current or all preparation steps is displayed. The appliance rack is provided with at least one appliance mounting position, the appliance mounting position is provided with a detection unit connected with a host, the detection unit is used for detecting whether appliances exist on the corresponding appliance mounting position or not and sending detection results to the host, and when appliances are selected, the host can judge whether the current appliances are taken correctly or not according to the detection results of the detection unit. According to the metering validity period recorded in advance, the host can judge whether the appliance is in the metering validity period or not, and further avoid the wrong selection of the appliance. This operation panel accessible display device shows reagent and prepares the step, and the formulator can operate according to the suggestion, has reduced formulator's the operation degree of difficulty, guarantees to prepare zero error of process.

Description

Intelligent operation platform based on Internet of things sensing technology

Technical Field

The present application relates to an intelligent device for reagent preparation, in particular to an operation table for in vitro diagnostic reagent preparation.

Background

The in vitro diagnostic reagent refers to a reagent, a kit, a calibrator, a quality control product and the like which can be used alone or in combination with a matched instrument and used for in vitro detection of human or animal samples. The in vitro diagnostic reagent has various varieties, and the batch production and the production process of various types of reagents are greatly different, for example, the production of the blood cell reagent is large, the process is relatively simple, and the large-scale intelligent production can be carried out. The production of "precision" reagents, such as chemiluminescent reagents, calibrators, quality controls, etc., with low throughput and complex processing must be accomplished manually. The traditional manual operation is discrete, each production step is independent, the continuity of the production process is not strong, and the stability and the production efficiency among product batches are greatly improved. In addition, the process data of the traditional manual operation is completely recorded manually, the production process is completely operated manually, the labor intensity is high, and mistakes are easy to make.

Disclosure of Invention

The application provides an intelligent operation panel based on thing allies oneself with sensing technology.

The application provides an intelligent operation panel includes:

the rack body comprises a support frame and an operation platform;

a host for storing, collecting and processing data, the host having an interface for connecting with a display device and an input device to display the contents of a current or all operation steps;

the appliance rack is provided with at least one appliance mounting position, the appliance mounting position is provided with a detection unit connected with the host, the detection unit is used for detecting whether appliances exist on the corresponding appliance mounting position or not and sending a detection result to the host, and the host judges whether the appliances are taken correctly or not.

As a further alternative of the intelligent operation console, the intelligent operation console further comprises a display device and an input device, wherein the display device is connected with the host and is used for displaying the content of the current or all operation steps sent by the host; the input device is connected with the host and used for inputting instructions to the host.

As a further alternative of the intelligent operation console, the appliance installation positions correspond to identity information used for noting the placed appliances one by one, and after the host sends out an instruction for taking a first appliance and receives a signal that an appliance in a certain appliance installation position is taken away, the host compares the identity information corresponding to the appliance installation position where the appliance is taken away with the first appliance which needs to be taken away currently, and judges whether the taken-away appliance is the first appliance.

As a further alternative of the intelligent operation console, if the identity information corresponding to the appliance installation position of the taken-away appliance is inconsistent with the identity information corresponding to the first appliance, the host sends out an appliance use error reminding signal; and if the identity information corresponding to the appliance installation position of the taken appliance is consistent with the identity information corresponding to the first appliance, continuing to the next step.

As a further alternative of the intelligent operation table, when the first appliance needs to be taken, the host controls the display device to display the identity information of the first appliance and/or the position information of the corresponding appliance mounting position of the first appliance on the appliance rack.

As a further alternative of the intelligent console, when the detection unit detects that the appliance is placed back at the appliance mounting location, the detection unit sends an appliance placing back signal to the host, and the host updates the state of the corresponding appliance mounting location.

As a further alternative of the smart console, the detection unit is an induction sensor and/or a pressure sensor.

As a further alternative of the intelligent operation console, the intelligent operation console further comprises a scanning device, wherein the scanning device is connected with the host and is used for scanning the identity information of the appliances and/or the materials and sending the scanning result to the host, and the host compares the scanned identity information with the identity information of the appliances and/or the materials required in the current preparation step and judges whether the appliances and/or the materials are used correctly.

As a further alternative of the intelligent operation console, after the host sends an instruction to take a certain appliance or a certain material and receives scanning information fed back by the scanning device, the host compares the scanning information with the identity information of the certain appliance or the certain material stored in the host; if the identity information is inconsistent, sending out a reminding signal of appliance use error or material error; if the identity information is consistent in comparison, the next step is continued.

As a further alternative of the smart console, the scanning device is a scanner that can recognize two-dimensional codes and/or bar codes.

As a further alternative of the intelligent operation table, the intelligent operation table further comprises a weighing device, wherein the weighing device is connected with the host computer and sends a weighing result to the host computer; when the host sends a weighing instruction and receives a feedback weighing result, comparing the weighing result with the weight in the current weighing instruction, and judging whether the weighing is correct or not;

and/or the stirring device is arranged on the operation platform.

As a further alternative of the intelligent operation platform, the intelligent operation platform further comprises a test instrument, the test instrument can be in communication connection with the host, and when the test instrument receives a test instruction, the test instrument tests the reagent and sends a test result to the host.

As a further alternative of the intelligent operation platform, the operation platform comprises a scanning area, a preparation area and a weighing area, wherein a scanning device is placed in the scanning area, a stirring device is placed in the preparation area, a weighing device is placed in the weighing area, and at least one of the scanning area, the preparation area and the weighing area is correspondingly provided with a prompting unit for prompting the abnormal use state of the equipment in the current operation area and/or the corresponding area.

As a further alternative of the intelligent operation platform, the operation platform further comprises a detection area, and a test instrument is placed in the detection area.

The beneficial effect of this application is:

the application provides an intelligent operation platform includes support body, host computer and utensil frame. The host collects and processes data, having interfaces for interfacing with a display device and an input device. Through which the content of the current or all compounding steps can be displayed on a display device and the compounder can input instructions to the host computer through an input device. The appliance rack is provided with at least one appliance mounting position, the appliance mounting position is provided with a detection unit connected with a host, the detection unit is used for detecting whether appliances exist on the corresponding appliance mounting position or not and sending detection results to the host, and when appliances are selected, the host can judge whether the current appliances are taken correctly or not according to the detection results of the detection unit. According to the metering validity period recorded in advance, the host can judge whether the appliance is in the metering validity period or not, and further avoid the wrong selection of the appliance. And the host can display the reagent preparation steps on the display device in sequence, and a formulator can operate according to the prompt of the host, so that the operation difficulty of the formulator is reduced, and zero errors in the preparation process are ensured.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent console according to the present application;

FIG. 2 is a schematic side view of the embodiment of FIG. 1;

fig. 3 is a schematic structural view of an embodiment of the appliance rack of the present application.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. The present application may be embodied in many different forms and is not limited to the embodiments described in the present embodiment. The following detailed description is provided to facilitate a more thorough understanding of the present disclosure, and the words used to indicate orientation, top, bottom, left, right, etc. are used solely to describe the illustrated structure in connection with the accompanying figures.

One skilled in the relevant art will recognize, however, that one or more of the specific details can be omitted, or other methods, components, or materials can be used. In some instances, some embodiments are not described or not described in detail.

Furthermore, the technical features, aspects or characteristics described herein may be combined in any suitable manner in one or more embodiments. It will be readily appreciated by those of skill in the art that the order of the steps or operations of the methods associated with the embodiments provided herein may be varied. Thus, any ordering in the figures and embodiments is for illustrative purposes only and does not imply that a certain order is required unless explicitly stated to require that an order be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

Example (b):

the embodiment provides an intelligent operation panel based on an internet of things sensing technology.

Referring to fig. 1 and 2, the smart console includes a frame body 10, a main body 20, a display device 30, an input device 40, and an appliance frame 50.

The frame 10 includes an operation platform 11 and a support frame 12. The host 20 collects and processes data, the display device 30 is connected with the host 20, the host 20 controls the display device 30 to send out preparation steps of corresponding reagents and prompt information, and the input device 40 is connected with the host 20 and used for inputting instructions to the host 20.

The host 20 can display the reagent preparation steps on the display device 30 in sequence, and a formulator can operate according to the prompt of the host 20, so that the operation difficulty of the formulator is reduced, misoperation is avoided, and the working efficiency of the formulator is improved.

Referring to fig. 1, the display device 30 may be a display screen, and the display is fixed on the platform of the operation platform 11 by a rotatable supporting column and a deformable supporting rod, and the angle can be adjusted arbitrarily according to the needs of the operator, which is convenient for use and reduces the occupied area of the platform of the operation platform 11. The display displays the operation process of each step in real time according to the reagent preparation process, wherein all the steps can be displayed, only the current step can be displayed, or both the steps can be displayed. The display device 30 can also display information such as weighing, scanning, etc. collected during the compounding process.

The input device 40 may be a keyboard, a touch screen, a handwriting screen, or other input devices. In fig. 1, the input device 40 is accommodated under the operation platform 11, not shown, and can be drawn out from under the operation platform 11 when in use.

The display device 30 and the input device 40 may also be external devices of the console, that is, the console does not include the display device 30 and the input device 40, the host 20 has an interface for connecting the display device 30 and the input device 40, and the host 20 can be connected to the external display device 30 and the external input device 40 through the interface.

The detection equipment and the preparation equipment on the operation table are integrated with a manual preparation system, and the preparation process is prompted to be executed by the system. The operation panel is stainless steel material, and the purpose is to avoid the operation panel self can not produce or adsorb the dust, guarantees the cleanliness factor of preparation environment. The display and the operation platform can be totally enclosed by the same stainless steel material, dust particles cannot be accumulated outside and in the display, the display is easy to clean, and a clean environment is kept for a production area.

The universal wheels 121 and the foot cups 122 are arranged at four corners of the bottom of the support frame 12, and the foot cups 122 have a threaded lifting structure capable of being lifted and lowered. When the scaffold 10 needs to be moved, the foot cup 122 is lifted, the universal wheel 121 is contacted with the ground, and the whole scaffold 10 can be freely moved. After moving to a proper position, the foot cup 122 is lowered to make the universal wheel 121 leave the ground, and the frame body 10 is fixed.

In addition, referring to fig. 1 and 3, the appliance rack 50 employs the technology of internet of things, the appliance rack 50 has at least one appliance mounting location 52, and the appliance mounting location 52 is mostly a groove matching with the appearance of the appliance. The appliance mounting position 52 is provided with a detection unit 53 connected with the main machine 20, and the detection unit 53 is used for detecting whether an appliance exists on the corresponding appliance mounting position 52 or not and sending the detection result to the main machine 20. When selecting an appliance, the host 20 can determine whether the current appliance is used correctly according to the detection result of the detection unit 53. And the host can also judge whether the current appliance is in the metering validity period according to the metering validity period recorded in advance, thereby avoiding the wrong selection of the appliance and avoiding the problem of failed preparation caused by the wrong selection of the appliance.

Specifically, when determining whether or not an appliance has been selected incorrectly, the appliance mounting positions 52 may be associated with identification information for identifying the appliance to be placed, where the one-to-one correspondence is that the position information (e.g., a number) of the appliance mounting position 52 and the identification information of the appliance to be placed are stored in the host 20 in advance, that is, each appliance mounting position 52 uniquely corresponds to one appliance. The identity information is used to reflect the type, nature, etc. of the target object, which includes the name, number, or other relevant information of the target object. It can be understood that when the host 20 receives the signal of removing the appliance fed back by the detecting unit 53 on a certain appliance mounting location 52, it can know what appliance is removed from the appliance mounting location 52.

The position information of the appliance installation site 52 and the identity information of the appliance placed in the appliance installation site can be set by the input device in advance, so that the appliance installation site 52 can be used for storing different appliances in different preparation processes.

When the host 20 sends an instruction to take the first appliance and receives the information that the appliance in a certain appliance mounting position 52 is taken away, the host 20 compares the identity information corresponding to the appliance mounting position 52 where the appliance is taken away with the first appliance which needs to be taken away currently, and determines whether the taken-away appliance is the first appliance.

If the identity information corresponding to the appliance mounting position 52 of the taken appliance is inconsistent with the identity information corresponding to the first appliance, sending out a warning signal that the appliance is used wrongly; if the identity information corresponding to the appliance-mounting location 52 from which the appliance has been removed is identical to the identity information corresponding to the first appliance, the next step is continued.

The warning signal of the appliance use error can be displayed on the display device 30, and can also be reminded in other forms, such as an acoustic and optical warning unit.

Referring to fig. 3, the front end of the tool rack 50 may be provided with a tool mounting position 52 for a tool such as a pipette, a measuring cylinder, a beaker, and a wash bottle, as required, and the detection unit 53 is an induction sensor. Each of the appliance mounting sites 52 is provided with an appliance sensing sensor, such as an infrared sensor or the like, capable of sensing the presence of an appliance. The detection unit 53 may be another detection device such as a pressure sensor.

During the dispensing process, the host 20 issues a command to take a first appliance, which may be, for example, a name indicating the first appliance and/or a corresponding appliance mounting location 52 of the first appliance on the appliance rack 50. The first appliance may be any kind of appliance.

When the detection unit 53 detects that the appliance is placed back to the appliance mounting location 52, it sends an appliance placing back signal to the host 20, and the host 20 updates the status of the corresponding appliance mounting location 52, such as "without appliance" to "with appliance", and vice versa, such as "with appliance" to "without appliance". This function allows for signal feedback when the device is removed or replaced, which avoids misuse of the device during reagent dispensing.

Referring to fig. 1 and 3, the tool rack 50 is fixed on the top of the operation platform 11 and is made of the same stainless steel material as the operation platform 11. The top of the tool rack 50 may be provided with a consumable placing cavity 51 for placing consumables. In addition, a space 54 is left at the bottom of the rack 50 for installing a movable drawer, which can also be used for placing consumables, such as pipette tips, disposable pipettes, etc., thereby fully utilizing the space of the rack 50.

Referring to fig. 1 and 2, the kit further includes a control cabinet 110, the control cabinet 110 is located below the table top of the operation platform 11, a host 20 (e.g., an industrial host), a power supply 120, a communication module 130, and the like are disposed in the control cabinet 110, the host 20 is provided with a communication interface, a power supply interface input device interface, and a display device interface, the host 20 in the control cabinet 110 is connected to the communication module 130 through the communication interface and can interact with each device on the operation platform 11 through the communication module 130, and the host 20 is used for guiding the in vitro diagnostic reagent preparation operation, so as to ensure the consistency and continuity of the preparation process.

Further, the table top of the operation platform 11 can be divided into three functional areas according to functions, and the scanning area, the detection area, the preparation area and the weighing area are sequentially arranged from left to right in fig. 1. The equipment such as scanning device 60 has been placed in this scanning area, equipment such as weighing device 70 has been placed in the weighing area, equipment such as testing instrument 80 has been placed in the detection zone, the equipment that is used for preparing such as agitating unit 90 has been placed in the preparation district, this scanning area, detection zone, preparation district and weighing district at least one regional correspondence is provided with suggestion unit 160 for the normal and/or abnormal user state of suggestion current operation place region and corresponding regional interior equipment.

The prompting unit 160 may be a light prompting unit, such as a signal light, which indicates that the current operation is not in the area corresponding to the signal light when the signal light is turned off. When the signal lamp is on, the signal lamp indicates that the current operation needs to be carried out in the operation area corresponding to the signal lamp or the instrument or tool to be used currently is in the area. In addition, the signal lamp can display at least two colors (such as white and red), and when the signal lamp displays the first color (such as white) to represent that the equipment in the current corresponding area is normal, the signal lamp can be used. When the signal lamp displays a second color (e.g., red) representing equipment failure in the area corresponding to the signal lamp.

In addition, when the device in a certain area is abnormally used, for example, the device required for the current operation is not the device in the area, but the device in the area is used incorrectly, the signal lamp corresponding to the area may display a certain color for prompting, for example, the color may be the red color or the third color.

In addition to the zone-by-zone indication, the scanning device 60, the weighing device 70, the test instrument 80 and the stirring device 90 may be provided with a special indication unit, such as the above-mentioned signal lamp, for indicating the current equipment use status, which includes a normal use status and/or an abnormal use status, which may be a malfunction or an erroneous use.

Referring to fig. 1, the scan area of the present embodiment includes a scanning device 60. The scanning device 60 is connected to the host 20, and is configured to scan the identity information of the appliance and/or the material, and send the scanning result to the host 20, and the host 20 compares the scanned identity information with the identity information of the appliance and/or the material required in the current preparation step, and determines whether the appliance and/or the material is used correctly.

The scanning device 60 may be a scanner that can recognize two-dimensional codes and/or bar codes. When the host 20 sends a step of taking a certain appliance or a step of taking a certain material and receives the scanning information fed back by the scanning device 60, comparing the scanning information with the information of the certain appliance or the identity information of the certain material; if the identity information is inconsistent, sending out a reminding signal of appliance use error or material error; if the identity information is consistent in comparison, the next step is continued.

Referring to fig. 1, a bar code scanner is used as an example, which is located in the scanning area and is used to scan the bar code of the material and the bar code of the appliance before weighing the material to determine whether the material and the appliance are correct.

Referring to fig. 1, the weighing area is provided with a weighing device 70, and the weighing device 70 is connected to the host 20 and transmits the weighing result to the host 20.

When the host 20 sends a weighing instruction and receives a feedback weighing result, the weighing result is compared with the weight in the weighing instruction to judge whether the weighing is correct. An accurate weight value or a weighing range can be given in the instruction, and if the weighed weight is not equal to the weight in the instruction or is not in the weighing range, prompt can be made until the weighed weight meets the requirement.

Referring to fig. 1, the weighing device 70 is embedded in the operation platform, and the weighing device 70 is located at the same level as the operation platform 11, so as to facilitate weighing and cleaning of the objects. The weighing device 70 is connected with the host computer 20, and automatically collects and uploads weighing data. The front side of the weighing device 70 is provided with an operation panel on which buttons for switching, peeling, confirming, etc. are provided.

Referring to fig. 1, a testing apparatus 80 for testing a reagent is disposed in the detection area, the testing apparatus 80 is capable of establishing a communication connection with the host 20, and when receiving a testing instruction, the testing apparatus tests the reagent and sends a testing result to the host 20. The testing device 80 can be a pH meter, a conductivity meter, a spectrophotometer, an osmometer, etc., and the testing device 80 automatically uploads test data to the host computer 20 through the communication module 130. Meanwhile, the host 20 may also manage the measurement validity of all the test instruments 80.

Referring to fig. 1, a stirring device 90 is disposed in the preparation area. The stirring device 90 is installed on the operation platform 11, and the present embodiment takes a magnetic stirrer as an example, and may be one or more. The agitator 90 is located at the same level as the table of the operation platform 11 to facilitate the transfer and agitation of the container. According to the needs, magnetic stirrers can be installed with overhead stirrer 90, so that the stirrer body is overhead and the stirring shaft extends downwards to meet the requirements of different stirring modes.

Of course, in other embodiments, any number of weighing devices 70, test instruments 80, stirring devices 90 and the like may be selected and integrated with the operation platform 11.

In other embodiments, no detection area may be provided, and after the operation platform 11 completes the preparation process, the detection test is completed on an external testing apparatus.

Further, referring to fig. 1, a placing table 150 may be further disposed on the operating platform 11, which is located at the upper right of the weighing device 70, is made of stainless steel material the same as that of the operating platform 11, and can be used for placing liquid materials, purified water, etc. so as to conveniently and timely supplement the materials or purified water during weighing. The object placing table 150 can be freely detached and moved left and right, and the space of the operation table is utilized to the greatest extent.

Meanwhile, the auxiliary cart 140 can be provided, the two same auxiliary carts can be respectively positioned on two sides of the operating platform, the auxiliary cart 140 and the operating platform 11 are made of the same material, are made of stainless steel, and are divided into an upper layer and a lower layer, the upper layer is provided with handrails, and the lower layer is connected with four wheels. The auxiliary cart 140 may house spare equipment, materials, utensils, etc.

The embodiment can integrate the whole process operation of reagent preparation to the operation platform 11 to complete, and realize the high-efficiency continuous production of the precise reagent under the prompt of a manual preparation system. The application range is wide, and the preparation of precise reagents can be realized. And the preparation system is perfectly combined with the production process, so that visual guidance of the whole production process is realized. And data such as weighing, testing, instrument taking and the like are automatically acquired, so that the production time is saved. The operation table utilizes the idea of the Internet of things, the host machine is used for integrally controlling all the parts, and the preparation steps are distinguished, so that the error operation in the production process is reduced or even avoided.

Furthermore, the operating platform standardizes the production process, assists product research and development and shortens the product development period. Meanwhile, the production and use area can be reduced, and the operation space is saved.

According to the console provided in this example, several reagent formulation process steps are provided below.

The first preparation method comprises the following steps:

preparation before production: protection before production is performed according to the prompt of the display device 30.

Taking appliances: the beaker is taken from the utensil rack 50 according to the prompt on the display device 30, and after the utensil is taken correctly, the next action is automatically triggered. Specifically, through data transmission of the sensor on the appliance rack 50, the system determines the correctness of the taken appliance and the effective period of metering, if the correctness is determined, the next action is executed, and if the correctness is determined, the system prompts to take the appliance again.

Adding water: and (3) placing the taken preparation beaker on a weighing device 70, peeling, and weighing the purified water for production according to the water adding amount prompted by the system.

Weighing: the auxiliary cart 140 is used to push the corresponding material to the operating platform 11 according to the prompt, the bar code of the corresponding solid material is scanned according to the system prompt on the display device 30, and then the solid material is weighed on the weighing device 70, and the system automatically records the weighing record.

Stirring: the preparation beaker is placed on a magnetic stirrer 90, a clean rotor is added, the stirrer 90 is turned on, and the stirring is started by adjusting the rotating speed.

Feeding: and (4) according to the material delivery sequence prompted in the preparation step, sequentially putting the weighed materials into a preparation beaker, and rinsing according to a method prompted by a system.

And (3) detection: after the materials are fully dissolved, a pH meter is used for carrying out pH detection on the prepared reagent according to the process requirements, and the detection result of the pH meter is directly uploaded to a system. And finishing the preparation after the detection result is qualified.

The second preparation method comprises the following steps:

preparation before production: pre-production protection is performed according to the prompt on the display device 30.

Taking appliances: the beaker is taken from the utensil rack 50 according to the prompt on the display device 30, and the next action is prompted after the utensil is taken correctly.

Weighing: the bar code of the required material is scanned according to the system prompt on the display device 30, the solid material and the liquid material are accurately weighed on the weighing device 70 in sequence according to the prompt, and the system automatically uploads the weighing data.

Pre-dissolving: transferring the weighed solid material and liquid material into the same clean beaker, sealing the beaker, protecting from light, placing the beaker on a magnetic stirrer 90, setting stirring parameters according to system prompts, and starting stirring for pre-dissolving.

Dissolving: weighing the liquid material 2 according to the preparation prompt, transferring the pre-dissolved reagent into a clean preparation barrel, and washing the residual reagent in the pre-dissolved beaker to the preparation barrel by using the liquid material 2. The overhead stirrer 90 parameters were adjusted and stirring was performed using the overhead stirrer 90.

And (3) detection: after the dissolution is finished, a small amount of reagent is taken to carry out absorbance value detection on a spectrophotometer, the concentration of the reagent is adjusted according to the detection result, and the detection result is automatically uploaded to a system.

And (3) filtering: and after the detection is qualified, the preparation enters a filtering step, reagent filtering is executed according to a filtering prompt, and all preparation actions are completed after the filtering is completed.

The third preparation method comprises the following steps:

preparation before production: pre-production protection is performed according to the prompt on the display device 30.

Taking appliances: according to the prompt on the display device 30, the beaker and the pipette are taken from the tool rack 50, and after the tool is taken correctly, the next action is prompted.

Preparing an intermediate reagent:

preparing a solution A: and (3) sequentially adding liquid materials into the beaker A by using a liquid transfer device according to the requirements of the reagent formula, and starting stirring.

Preparing a solution B: weighing solid materials according to the requirements of the reagent formula, adding the solid materials into the beaker B, taking liquid materials by using a liquid transfer device, adding the liquid materials into the beaker B, and starting stirring.

Preparing a semi-finished product reagent: the intermediate reagent solution A is added to the intermediate reagent solution B, and the mixture is continuously stirred.

Ultrasonic: and (3) weighing the semi-finished product reagent by using a special ultrasonic plastic beaker, setting ultrasonic intensity and ultrasonic time according to the prompt of a preparation system, carrying out ultrasonic treatment in an ultrasonic instrument under the ice bath condition, and continuing stirring after the ultrasonic treatment is finished. The purpose of the sonication here is to break up the semi-finished reagents for subsequent handling.

And (3) detection: and taking the sample after the ultrasonic treatment according to the prompt, detecting the absorbance value, and directly uploading the detection result to the system. And finishing the preparation after the result is qualified.

For reagent blending with relatively simple process, on the basis of the invention, relatively independent equipment can be replaced by automatic equipment, and the automatic blending process can be realized by integrating with a system, namely, the processes of automatic water adding, automatic weighing, automatic feeding, automatic stirring, automatic detection and the like can be realized.

The foregoing is a more detailed description of the present invention that is presented in conjunction with specific embodiments, and the practice of the invention is not to be considered limited to those descriptions. It will be apparent to those skilled in the art that a number of simple derivations or substitutions can be made without departing from the inventive concept.

Claims (11)

1. The utility model provides an intelligence operation panel based on thing allies oneself with sensing technology which characterized in that includes:

the rack body comprises a support frame and an operation platform;

a host for storing, collecting and processing data, the host having an interface for connecting with a display device and an input device to display the contents of a current or all operation steps;

the appliance rack is provided with at least one appliance mounting position, the appliance mounting positions correspond to identity information for indicating the placed appliances one by one, and the identity information is set through an input device; the device mounting positions are provided with detection units connected with the host computer, and the detection units are used for detecting whether the devices exist on the corresponding device mounting positions and sending detection results to the host computer;

the host machine can display the reagent preparation step on the display device to prompt a configurator to operate, and sends an instruction for taking a first appliance according to the requirement of the reagent preparation step, and after the host machine sends the instruction for taking the first appliance and receives a signal that the appliance in a certain appliance mounting position is taken away, the host machine compares the identity information corresponding to the appliance mounting position where the appliance is taken away with the first appliance which needs to be taken away currently, and judges whether the taken-away appliance is the first appliance.

2. The intelligent console of claim 1, further comprising a display device and an input device, wherein the display device is connected to the host computer and is used for displaying the content of the current or all operation steps sent by the host computer; the input device is connected with the host and used for inputting instructions to the host.

3. The intelligent console as claimed in claim 1, wherein if the identity information corresponding to the appliance mounting position where the appliance is taken away is not consistent with the identity information corresponding to the first appliance, the host computer sends out an appliance use error reminding signal; and if the identity information corresponding to the appliance installation position of the taken appliance is consistent with the identity information corresponding to the first appliance, continuing to the next step.

4. The intelligent console of claim 1, wherein when the first appliance is required to be accessed, the host computer controls the display device to display the identity information of the first appliance and/or the position information of the corresponding appliance mounting position of the first appliance on the appliance rack.

5. The smart console of claim 1, wherein when the detection unit detects that the appliance is replaced at the appliance mounting location, the detection unit sends an appliance replacement signal to the host computer, and the host computer updates the status of the corresponding appliance mounting location.

6. The intelligent console of claim 1, further comprising a scanning device connected to the host for scanning identity information of appliances and/or materials and sending the scanning result to the host, wherein the host compares the scanned identity information with identity information of appliances and/or materials required in the current preparation step to determine whether the appliances and/or materials are used correctly.

7. The intelligent console of claim 6, wherein when the host computer issues an instruction to take an appliance or a material and receives the scanning information fed back by the scanning device, the host computer compares the scanning information with the identity information of the appliance or the material stored in the host computer; if the identity information is inconsistent in comparison, a warning signal that the appliance is used wrongly or the material is wrong is sent out; if the identity information is consistent in comparison, the next step is continued.

8. The intelligent console of claim 1, further comprising a weighing device, wherein the weighing device is connected with the host computer and sends the weighing result to the host computer; when the host sends a weighing instruction and receives a feedback weighing result, comparing the weighing result with the weight in the current weighing instruction, and judging whether the weighing is correct or not;

and/or the stirring device is arranged on the operation platform.

9. The intelligent console of claim 1, further comprising a testing instrument, wherein the testing instrument is capable of establishing a communication link with the host, testing the reagent when the testing instrument receives the test command, and sending the test result to the host.

10. The intelligent operation platform according to claim 1, wherein the operation platform comprises a scanning area, a preparation area and a weighing area, the scanning area is provided with a scanning device, the preparation area is provided with a stirring device, the weighing area is provided with a weighing device, and at least one of the scanning area, the preparation area and the weighing area is correspondingly provided with a prompting unit for prompting the abnormal use state of the equipment in the current operation area and/or the corresponding area.

11. The smart console of claim 10 wherein the console further comprises a detection zone, wherein a test instrument is positioned in the detection zone.

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