CN114252316A

CN114252316A - Intelligent reagent bottle identification method and system and dehydrator

Info

Publication number: CN114252316A
Application number: CN202111575357.9A
Authority: CN
Inventors: 陶光希; 文兆嘉; 王有发; 李庆; 唐玉豪; 何俊峰
Original assignee: Dakewe Shenzhen Medical Equipment Co ltd
Current assignee: Dakewe Shenzhen Medical Equipment Co ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2022-03-29

Abstract

The application relates to an intelligent reagent bottle identification method, a system and a dehydrator, belonging to the field of communication, wherein the intelligent reagent bottle identification method comprises the steps of identifying first identity information pre-bound to a reagent bottle, wherein the first identity information comprises an ID number of the reagent bottle; then judging whether the first identity information is matched with site number information preset by a corresponding site, and if not, outputting first prompt information; and correcting the position of the reagent bottle based on the first prompt message. Because place reagent bottle in the website after, whether can automated inspection match with this website, under the unmatched circumstances, in time remind the user to correct, consequently avoided reagent concentration in the reagent bottle and the emergence of the unmatched circumstances of corresponding website to tissue dehydration's effect has been improved.

Description

Intelligent reagent bottle identification method and system and dehydrator

Technical Field

The application relates to the technical field of communication, in particular to a reagent bottle intelligent identification method and system and a dehydrator.

Background

At present, in the pathological tissue treatment, a tissue dehydrator is generally adopted to dehydrate the pathological tissue. The operating principle of the dehydrator is as follows: the inside of the dehydrator is divided into a plurality of stations, each station is provided with a reagent bottle, a reagent for tissue dehydration is filled in each reagent bottle, and the concentration of the reagent is set from low to high from the first station to the last station; when the tissue is dehydrated, firstly, a reagent in a first station is pumped into a tissue cylinder in a dehydrating machine, so that the tissue is soaked for a period of time, wherein the period of time is a preset period of time; then the reagent is pumped back into the reagent bottle, then the reagent in the second station is pumped into the tissue jar, so that the tissue is soaked for a period of time, and then the reagent is pumped into the reagent bottle again; the same operation is then performed at the remaining stations, thereby completing tissue dehydration.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: since the reagent concentration increases in sequence from the first station to the last station, if the reagent bottle is set at a position different from the corresponding station, the effect of tissue dehydration is reduced.

Disclosure of Invention

In order to avoid the occurrence of the situation that the concentration of the reagent in the reagent bottle is not matched with the corresponding station, and therefore the effect of tissue dehydration is improved, the application provides an intelligent reagent bottle identification method and system and a dehydrator.

In a first aspect, the application provides a reagent bottle intelligent identification method, which adopts the following technical scheme:

an intelligent reagent bottle identification method comprises the following steps:

identifying first identity information pre-bound to the reagent bottle, wherein the first identity information comprises an ID number of the reagent bottle;

judging whether the first identity information is matched with site number information preset by a corresponding site, and if not, outputting first prompt information;

and correcting the position of the reagent bottle based on the first prompt message.

By adopting the technical scheme, firstly, first identity information is bound on each reagent bottle, then the reagent bottles are inserted into a station, the station can identify the first identity information of the reagent bottles, the first identity information is matched with station number information corresponding to the station, if the matching is successful, the position of the reagent bottle is matched with the position of the station, if the matching is failed, first prompt information is output, and a user corrects the sequence of the reagent bottles based on the first prompt information;

because place the reagent bottle in the website after, can automated inspection whether match with this website, under the unmatched circumstances, in time remind the user to correct, consequently avoided the emergence of reagent concentration and the corresponding website unmatched circumstances to tissue dehydration's effect has been improved.

Optionally, the specific step of determining whether the first identity information matches site number information preset by a corresponding site includes:

binding the site number information with corresponding preset second identity information;

and comparing the first identity information with second identity information of the corresponding site, and outputting first prompt information if the first identity information is different from the second identity information.

By adopting the technical scheme, firstly, the station number information and the corresponding second identity information are bound, then after the reagent bottle is inserted into a station, the ID number of the first identity information on the reagent bottle is compared with the ID number in the second identity information one by one, if the first identity information is different from the second identity information, the first prompt information is output if the first identity information is not matched with the second identity information.

Optionally, the reagent bottle intelligent identification method further includes:

binding the first reagent information of the reagent bottle with the second identity information of the corresponding station; wherein the first reagent information includes a first reagent name and a first concentration value;

under the condition that the dehydrator does not work, second reagent information of the reagent bottle is obtained; wherein the second reagent information includes a second reagent name and a second concentration value;

judging whether the second reagent information is matched with the first reagent information or not in the state that the first identity information is matched with the site number information of the corresponding site, and if not, outputting second prompt information;

and matching the second reagent information with the first reagent information based on the second prompt information.

By adopting the technical scheme, after a reagent bottle is inserted into a station, if the first identity information of the reagent bottle is matched with the station number of the station, the obtained second reagent information of the reagent bottle is compared with the first reagent information, and if the first identity information of the reagent bottle is different from the first reagent information, second prompt information is output to remind a user, so that the user can match the second reagent information with the first reagent information.

Optionally, the specific way of matching the second reagent name with the first reagent name includes:

modifying the first reagent information, or modifying the second reagent information.

under the condition that the tissue is dehydrated once according to a preset starting sequence of a first station, judging whether a corresponding reagent bottle on the station moves;

and if the reagent bottles move, the stations corresponding to the moved reagent bottles are started at last, and the rest stations are started according to a preset second station starting sequence.

By adopting the technical scheme, the tissue is dehydrated once according to the preset starting sequence of the first station; after the tissue is dehydrated for one time, whether a reagent bottle moves is judged, if yes, the station where the reagent bottle moves is started at last, and the rest stations are started according to a preset second station starting sequence, so that the operation of a user is reduced, and the tissue dehydration efficiency is improved.

In a second aspect, the present application provides a reagent bottle intelligent recognition system, which adopts the following technical scheme:

a reagent bottle intelligent identification system, comprising:

the electronic tag stores first identity information of the reagent bottle;

the reader is in communication connection with the electronic tag and identifies the first identity information;

and the judging module is in communication connection with the reader and is used for judging whether the first identity information is matched with the corresponding preset site number information or not, and outputting first prompt information under the condition of unmatched first identity information and corresponding preset site number information.

By adopting the technical scheme, after the reagent bottle is inserted into a station, the reader can identify first identity information stored in the electronic tag and transmit the first identity information to the judging module, the judging module can judge whether the first identity information is matched with station number information of the station, and if the first identity information is not matched with the station number information of the station, first prompt information is output to prompt a user to correct the first identity information;

because place the reagent bottle in the website after, can whether match with this website by automated inspection, under the unmatched circumstances, in time remind the user to correct, consequently avoided the emergence of reagent concentration and the website mismatch condition that corresponds to the effect of tissue dehydration has been improved.

Optionally, the reagent bottle intelligent recognition system further includes:

and the display screen is in communication connection with the judging module and is used for displaying the first prompt message.

By adopting the technical scheme, the user can know the first prompt message more intuitively.

In a third aspect, the present application provides a computer device, which adopts the following technical solution:

a computer device, comprising:

the memory is used for storing the intelligent reagent bottle identification program;

and the processor is used for executing the reagent bottle intelligent identification program stored in the memory so as to realize the steps of the reagent bottle intelligent identification method.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer readable storage medium storing a computer program that can be loaded by a processor and execute the above-described intelligent reagent bottle identification method.

In a fifth aspect, the present application provides a dehydrator, which adopts the following technical scheme:

a dehydrator comprises a reagent bottle assembly, a reagent bottle detection module and a shell, wherein a plurality of stations are arranged in the shell; the reagent bottle assembly comprises a reagent bottle and a first identity information storage module arranged on the side wall of the reagent bottle, and the reagent bottle is detachably connected with the station; the reagent bottle detection modules are arranged in the stations, and the number of the reagent bottle detection modules is equal to that of the stations; after the reagent bottle is installed on the station, the reagent bottle detection module can identify the first identity information stored in the first identity information storage module.

Drawings

FIG. 1 is a block diagram of the intelligent identification device for reagent bottles according to the present invention;

FIG. 2 is a block flow diagram of an embodiment of a method for intelligent identification of reagent bottles according to the present application;

FIG. 3 is a block flow diagram of one embodiment of step S120 of FIG. 2;

FIG. 4 is a block flow diagram of another embodiment of a method for intelligent identification of reagent bottles according to the present application;

FIG. 5 is a block flow diagram of another embodiment of a method for intelligent identification of reagent bottles according to the present application;

FIG. 6 is a block diagram of the configuration of an embodiment of the intelligent reagent bottle identification system according to the present invention;

FIG. 7 is a block diagram of another embodiment of the intelligent reagent bottle identification system of the present application;

FIG. 8 is a schematic diagram of the overall structure of the dehydrator of the present application;

fig. 9 is an exploded view of the connection between the reagent bottle and the reagent bottle detection module.

Description of reference numerals: 110. a processor; 120. a dehydrator; 130. an RFID module; 131. an electronic tag; 132. a reader; 140. a judgment module; 150. a display screen; 160. an information binding module; 170. an input module; 190. exchanging the module; 210. a reagent bottle assembly; 211. a reagent bottle; 212. a first identity information storage module; 220. a reagent bottle detection module; 230. a housing; 231. a station; 240. clamping a plate; 250. a clamping rod; 260. and (4) an upper computer.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 9 in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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.

In order to realize the intelligent reagent bottle identification method, referring to fig. 1, the present application provides an intelligent reagent bottle identification device, which may include a processor 110, a dehydrator 120, and an RFID module 130, where the RFID module 130 includes an electronic tag 131 and a reader 132, an ID number unique to the reagent bottle 211 is stored in the electronic tag 131, the reader 132 is configured to identify the ID number, and the electronic tag 131 and the reader 132 are in communication connection; the electronic tag 131 is arranged on the outer side wall of the reagent bottle 211, and the reader 132 is arranged in the station of the dehydrator 120, wherein the reader 132 is in communication connection with the processor 110; reagent bottle 211 is installed in the station of dehydrator 120, reader 132 recognizes the ID number of reagent bottle 211 thereon, and transmits the ID number to processor 110, and processor 110 determines whether the ID number matches the corresponding preset station number information, if yes, the position of reagent bottle 211 is correctly placed, and if no, processor 110 outputs first prompt information, so that the user corrects the position of reagent bottle 211. It should be noted that the processor 110 may be the processor 110 in the intelligent terminal, and the intelligent terminal may be a computer, a tablet, a mobile phone, or other display devices; the processor 110 may also be the processor 110 within the upper computer 260; the first prompt message can be displayed on a display screen of the intelligent terminal or the upper computer 260. In addition, processor 110 may also control the operation of dehydrator 120.

In order to avoid the occurrence of the situation that the reagent concentration does not match the corresponding site, and thus improve the effect of tissue dehydration, referring to fig. 2, the present application provides a reagent bottle intelligent identification method, which may include, as an embodiment of the reagent bottle intelligent identification method, steps S110 to S130:

s110, identifying first identity information pre-bound to the reagent bottle, wherein the first identity information comprises an ID number of the reagent bottle; for example, the ID number of a reagent bottle may be 1478404059.

S120, judging whether the first identity information is matched with site number information preset by a corresponding site, and if not, outputting first prompt information;

for example, if the station number 1 corresponding to the reagent bottle having the ID number of 1478404059 is used, the reagent bottle is to be set in the station 1, but if the reagent bottle is set in the station 2, the ID number of the reagent bottle does not match the station number information of the station 2; in addition, the first prompt message can be a warning sign for the failure of reagent bottle identification.

And S130, correcting the position of the reagent bottle based on the first prompt message.

In addition, referring to fig. 3, as a specific embodiment of S120, steps S121 to S122 may be included:

s121, binding the site number information with corresponding preset second identity information;

for example, the site number information of the 2 site is 2, and the second identity information of the reagent bottle bound thereto should be 1428039425.

S122, comparing the first identity information with second identity information of a corresponding site, and outputting first prompt information if the first identity information is different from the second identity information;

for example, if the first identity information installed in the 2-site is 1478404059, the characters in the two strings of 1478404059 and 1428039425 are compared one by one, and if there is a character different from each other, it indicates that the reagent bottle is not the reagent bottle required by the 2-site; at this time, first prompt information is output to prompt a user that the identification of the reagent bottle fails, so that the user corrects the position of the reagent bottle.

In addition, the first prompt message can also comprise current reagent information, failure reasons and treatment measures; for example, after a reagent bottle is installed in the site 1, the reagent bottle does not match the site 1, so that a first prompt message is output to prompt a user that the reagent bottle identification fails, and current reagent information is displayed, wherein the failure is caused by the fact that the reagent bottle cannot match the site, and the processing measure is to request the reagent bottle to be inserted into the site 2.

As another embodiment of the reagent bottle intelligent recognition method, referring to fig. 4, the reagent bottle intelligent recognition method may further include steps S210 to S240 of:

s210, binding the first reagent information of the reagent bottle with the second identity information of the corresponding station; wherein the first reagent information includes a first reagent name and a first concentration value;

for example, a 1-site binding is 85% ethanol, a 2-site binding is 90% ethanol, a 3-site binding is xylene, and the first concentration value may not be set; taking 2 sites as an example, the site information of 2 sites is: site number information 2, second identity information 1428039425, reagent bottle type 90% ethanol. It should be noted that, the user may modify the pre-bound first reagent information according to a requirement, for example, ethanol may be modified to xylene, and 85% ethanol may be modified to 90% ethanol.

S220, acquiring second reagent information of the reagent bottle; and when the dehydrator is not in operation, acquiring second reagent information of each reagent bottle, wherein the second reagent information comprises a second reagent name and a second concentration value.

S230, judging whether the second reagent information is matched with the first reagent information or not in the state that the first identity information is matched with the site number information of the corresponding site, and if not, outputting second prompt information;

after the reagent bottles are installed at the corresponding sites according to the correct positions, judging whether the second reagent information is matched with the first reagent information bound to the corresponding sites; taking site 1 as an example, the first reagent information of site 1 is 85% ethanol, but the second reagent information of the reagent bottle mounted thereon is xylene or 90% ethanol, and the two do not match, so that the second prompt information is output to prompt the user that the second reagent information does not match the site. It can be seen that the second reagent information does not match the site as long as the second reagent name or the second concentration value in the second reagent information is different.

It should be noted that the second reagent information on the reagent bottle may be included in the first identity information bound to the reagent bottle.

S240, based on the second prompt message, matching the second reagent message with the first reagent message;

for example, the user may modify the first reagent name of the 1-site binding to xylene, or change the reagent in the reagent bottle and modify the second reagent name of the reagent bottle binding.

As another embodiment of the reagent bottle intelligent recognition method, referring to fig. 5, the reagent bottle intelligent recognition method may further include steps S310 to S320:

s310, judging whether the corresponding reagent bottle on the station moves under the condition that the tissue is dehydrated once according to a preset starting sequence of the first station;

for example, the first site start sequence may be that the sites are started in sequence from the smaller site to the larger site; the judgment mode can be that whether the concentration of the reagent in the reagent bottle is greater than or equal to the concentration of the reagent in the reagent bottle before the corresponding station is started or not is judged; if yes, the reagent bottle can be judged to move; wherein, the movement includes but is not limited to one or more of the movement of the reagent bottle, the change of the reagent name and the change of the reagent concentration. In addition, for the detection of the concentration of the present application, the density of the reagent can be measured by a densitometer, and then the concentration of the reagent can be found according to the density of the reagent and a concentration comparison table.

S320, if the reagent bottles move, the stations corresponding to the moved reagent bottles are started at last, and the rest stations are started according to a preset second station starting sequence; the second station start-up sequence may be such that stations start in order from smaller to larger station numbers.

For example, there are 3 stations to dehydrate the tissue in total, and when the tissue is dehydrated for the first time, the 1 station dehydrates the tissue first, then the 2 station dehydrates the tissue, and the 3 station dehydrates the tissue; after the tissue is dehydrated for the first time, if a user finds that the reagent in the 1-station reagent bottle is seriously polluted and the reagent is replaced again, the 2-station dehydrates the tissue firstly according to a preset starting sequence of the second station, and then when the 3-station dehydrates the tissue, the 1-station dehydrates the tissue finally.

In other embodiments, the first prompt message and the second prompt message may be emitted by an audible and visual alarm or by separate audible alarms.

The implementation principle of the embodiment of the application is as follows: the method comprises the steps that first identity information is bound on each reagent bottle, then the reagent bottles are inserted into a station, the station can identify the first identity information of the reagent bottles and match the first identity information with station number information corresponding to the station, if the matching is successful, the position of the reagent bottle is matched with the position of the station, if the matching is failed, first prompt information is output, and the sequence of the reagent bottles is corrected by a user based on the first prompt information.

Based on the above method embodiment, the present application provides a reagent bottle intelligent recognition system, and with reference to fig. 6, as an implementation manner of the reagent bottle intelligent recognition system, the reagent bottle intelligent recognition system may include:

an electronic tag 131 storing first identity information of the reagent bottle 211;

a reader 132, communicatively coupled to the electronic tag 131, for identifying the first identity information;

the determining module 140 is communicatively connected to the reader 132, and configured to determine whether the first identity information matches the preset site number information, and output the first prompt information if the first identity information does not match the preset site number information.

In addition, the reagent bottle intelligent recognition system may further include a display screen 150, and the display screen 150 is in communication connection with the judgment module 140 and is used for displaying the first prompt message.

Referring to fig. 7, as another embodiment of the reagent bottle intelligent recognition system, the reagent bottle intelligent recognition system may further include: the information binding module 160 is configured to bind the site number information with the corresponding preset second identity information, and bind the first reagent name with the corresponding second identity information;

an input module 170 provides input functionality and enables a user to modify the associated first reagent name.

For example, after the user inputs a first reagent name, site number information corresponding to the first reagent name, a first concentration value, and corresponding second identity information through the input module 170, the user may bind a key by one key to realize the association of the information of the four; then, the judgment module 140 compares the acquired first identity information with the second identity information of the site corresponding to the reagent bottle 211, and if the acquired first identity information is not matched with the second identity information, outputs first prompt information to prompt the user to correct the first identity information.

In addition, the input module 170 may be a peripheral device such as a keyboard and a mouse, or may be a touch screen with a display function; if the touch screen is a touch screen, the touch screen can be used as the display screen 150 or the input module 170.

In addition, the reader 132 may also obtain a second reagent name and a second concentration value of the reagent bottle on the corresponding site, then the determining module 140 determines whether the second reagent name is matched with the first reagent name and the first concentration value is matched with the second concentration value in a state that the first identity information of the reagent bottle 211 is matched with the site number of the corresponding site, and outputs a second prompt message in a case that there is a mismatch; and then the display 150 displays a second prompt.

In addition, the reagent bottle intelligent recognition system can also comprise a replacement module 190, and the replacement module 190 is in communication connection with the judgment module 140; when the concentration obtaining module 180 completes one-time complete dehydration of the tissue, if the determining module 140 determines that the reagent bottle at one station has moved, the exchanging module 190 will start according to a preset starting sequence of the second station, and sequentially dehydrate the tissue at the corresponding station.

It should be noted that the exchanging module 190, the judging module 140 and the information binding module 160 are all implemented by computer programs.

The implementation principle of the embodiment of the application is as follows: after the reagent bottle 211 is inserted into a station, the reader 132 recognizes the first identity information stored in the electronic tag 131, and transmits the first identity information to the determining module 140, and the determining module 140 determines whether the first identity information matches with the station number information preset in the corresponding station, and if not, outputs a first prompt message to prompt the user to correct the first identity information.

The third embodiment of the present application further provides a dehydrator, referring to fig. 8 and 9, as an embodiment of the dehydrator, the dehydrator may include a reagent bottle assembly 210, a reagent bottle detection module 220, and a housing 230, wherein a plurality of stations 231 are disposed in the housing 230, the reagent bottle detection modules 220 are mounted in the stations 231, and the number of the reagent bottle detection modules 220 is the same as the number of the stations 231; the reagent bottle assembly 210 includes a reagent bottle 211 and a first identity information storage module 212 installed on a sidewall of the reagent bottle 211, the reagent bottle 211 being detachably connected to the station 231; the first identity information storage module 212 stores the first identity information corresponding to the reagent bottle 211, and the reagent bottle detection module 220 can recognize the first identity information after the reagent bottle 211 is installed in the station 231.

As an embodiment of the first identity information storage module 212, the first identity information storage module 212 may be an electronic tag; as an embodiment of the reagent bottle testing module 220, the reagent bottle testing module 220 may be a reader.

In order to realize the detachable connection of the reagent bottle 211 and the station 231, a clamping rod 250 is fixedly connected to the upper side wall of the reagent bottle 211; an integrally formed clamping plate 240 is fixedly connected in the station 231, one end of the clamping plate 240 close to the reagent bottle 211 is elastically arranged, and a clamping port in a shape like a Chinese character 'ba' is formed in the clamping plate 240; the clamping rod 250 can be clamped in the clamping plate 240 through a clamping interface, so that the reagent bottle 211 and the station 231 can be installed; the fixed connection can be a welding, bolt connection and other installation modes.

Referring to fig. 8, the inside of the housing 230 is divided into upper and lower spaces, and reagent bottles 211 can be mounted in both the upper and lower spaces, and after the reagent bottles 211 are mounted in the station 231, the lower reagent bottle 211 abuts against the inner wall of the housing 230, and the upper reagent bottle 211 abuts against the partition wall of the housing 230.

In addition, the outer top wall of the shell 230 is also provided with an upper computer 260, and the upper computer 260 is in communication connection with the reagent bottle detection module 220 and is used for processing various data transmitted by the reagent bottle detection module 220 and controlling the operation of the dehydrator 120; wherein the intelligent reagent bottle identification system is embedded in the upper computer 260.

A fourth embodiment of the present application provides a computer device that may include a memory and a processor; the memory is used for storing the reagent bottle intelligent identification program;

the processor is used for executing the reagent bottle intelligent identification program stored in the memory so as to realize the steps of the reagent bottle intelligent identification method.

The memory can be connected with the processor through a communication bus in a communication mode, and the communication bus can be an address bus, a data bus, a control bus and the like.

Additionally, the memory may include Random Access Memory (RAM) and may also include non-volatile memory (NVM), such as at least one disk memory.

And the processor may be a general-purpose processor including a Central Processing Unit (CPU), a Network Processor (NP), etc.; but may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc.

The fifth embodiment of the present application further provides a computer-readable storage medium, which stores a computer program that can be loaded by a processor and execute the above reagent bottle intelligent identification method. The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device including one or more available media integrated servers, data centers, and the like. Among other things, the available media may be magnetic media (e.g., floppy disks, hard disks, magnetic tape), optical media (e.g., DVDs), or semiconductor media (e.g., solid state disks).

The foregoing is a preferred embodiment in its own right and not intended to limit the scope of the application, and any feature disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims

1. An intelligent reagent bottle identification method is characterized by comprising the following steps:

2. The reagent bottle intelligent identification method according to claim 1, wherein the specific step of judging whether the first identity information matches site number information preset in a corresponding site comprises:

3. The intelligent reagent bottle identification method according to claim 2, further comprising:

4. The reagent bottle intelligent recognition method of claim 3, wherein the specific way of matching the second reagent information with the first reagent information comprises:

5. The reagent bottle intelligent recognition method according to any one of claims 1 to 4, further comprising:

6. The utility model provides a reagent bottle intelligent recognition system which characterized in that includes:

an electronic tag (131) which stores first identity information of the reagent bottle (211);

a reader (132) communicatively coupled to the electronic tag (131) to identify the first identity information;

and the judging module (140) is in communication connection with the reader (132) and is used for judging whether the first identity information is matched with the corresponding preset site number information or not and outputting first prompt information under the condition of no match.

7. The reagent bottle intelligent recognition system of claim 6, wherein the reagent bottle (211) intelligent recognition system further comprises a display screen (150), and the display screen (150) is in communication connection with the judgment module (140) and is used for displaying the first prompt message.

8. A computer device, comprising:

a processor for executing the intelligent reagent bottle identification program stored in the memory to realize the steps of the intelligent reagent bottle identification method according to any one of claims 1 to 5.

9. A computer-readable storage medium, in which a computer program capable of being loaded by a processor and executing the method for intelligent identification of reagent bottles according to any one of claims 1 to 5 is stored.

10. The dehydrator is characterized by comprising a reagent bottle assembly (210), a reagent bottle detection module (220) and a shell (230), wherein a plurality of stations (231) are arranged in the shell (230); wherein the reagent bottle assembly (210) comprises a reagent bottle (211) and a first identity information storage module (212) arranged on the side wall of the reagent bottle (211), and the reagent bottle (211) is detachably connected with the station (231); the reagent bottle detection modules (220) are arranged in the stations (231), and the number of the reagent bottle detection modules (220) is equal to that of the stations (231); the reagent bottle detecting module (220) can recognize the first identity information stored in the first identity information storage module (212) after the reagent bottle (211) is mounted at the station (231).