CN109509063B - Virtual laboratory operation management method and device without fixed place - Google Patents

Abstract

The invention relates to the technical field of laboratory instrument sharing, in particular to a virtual laboratory operation management method without a fixed place and a device thereof, wherein the method acquires the identity information of an instrument through a cloud platform and distributes unique identity identification information for the instrument; the cloud platform acquires service items of the instrument and binds the identity identification information of the instrument and the service items thereof into service information; the cloud platform sends the service information to a virtual laboratory; the virtual laboratory receives the service information, when the appropriate service information is selected to be added into the virtual laboratory, the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information, and the service request sharing code is used for sharing the instrument and service items thereof on a social platform through the virtual laboratory, so that the technical problem of resource waste caused by long-term idle of the instrument due to asymmetric information of an instrument provider and a demander is solved.

Description

Virtual laboratory operation management method and device without fixed place

Technical Field

The invention relates to the technical field of laboratory instrument sharing, in particular to a virtual laboratory operation management method and a virtual laboratory operation management device without a fixed place.

Background

Laboratory instrument sharing is to emphasize the use of laboratory instruments rather than ownership. The sharing of laboratory instruments is an economic phenomenon that an instrument holder shares idle laboratory instrument resources with other people through a social platform so as to obtain income.

The scientific research instrument has high goods value and strong specialization, mainly takes government funding procurement as a main part, and plays a very important role in promoting the technical level of scientific research and promoting the technological progress. The requirement of economic development and technological innovation is how to open equipment used at a relatively low frequency to the society to exert the maximum value of the equipment while meeting the requirement of an instrument use team, and the equipment is a proposition before governments of various countries.

At present, the domestic instrument market and the analysis and detection market have four contradictions, namely the contradiction that the use frequency of an instrument holder is not high and a non-instrument holder does not have available equipment; the contradiction between the idle state of the instrument holder and the repeated equipment purchase of a third party (a user, a detection mechanism and the like); the contradiction that the national instruments share the instruments in the platform but not share the instruments; and the information of the service provider and the information of the demand side are not symmetrical.

In the process of practice, the inventor finds that the existing laboratory instrument sharing has the following defects:

the information of the provider and the demander of the instrument is asymmetric, so that the resource waste caused by long-term idle of the instrument is caused.

Disclosure of Invention

The invention aims to provide a virtual laboratory operation management method and a virtual laboratory operation management device without a fixed place, and solves the technical problem of resource waste caused by long-term idle of an instrument due to asymmetric information of a provider and a demander of the instrument.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

in a first aspect, a method for virtual laboratory operation management without a fixed site is used in a cloud platform, and the method includes the following steps:

acquiring identity information of an instrument, and allocating unique identity identification information to the instrument;

acquiring a service item of the instrument, and binding the identity identification information of the instrument and the service item thereof into service information;

and sending the service information to a virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects appropriate service information to add to the virtual laboratory.

In a second aspect, a method for virtual laboratory operation management without a fixed site is used in a virtual laboratory, and the method includes the following steps:

receiving service information sent by a cloud platform, wherein the service information is obtained by the cloud platform after a service item of an instrument is obtained, and the identity identification information of the instrument and the service item are bound into the service information; the identification information is the only identification information distributed to the instrument by the cloud platform after the identification information of the instrument is acquired by the cloud platform;

and selecting proper service information to be added into the virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information.

In a third aspect, a virtual laboratory operation management method without a fixed location is used in an instrument intelligent management terminal, and the method includes:

receiving identity identification information sent by a cloud platform, wherein the identity identification information is unique identity identification information distributed for an instrument after the cloud platform acquires the identity information of the instrument;

after the connection with the instrument is established, sending confirmation information carrying the identity identification information to a cloud platform, wherein the confirmation information is used for triggering the cloud platform to acquire a service item of the instrument, binding the service item and the identity identification information into service information and sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add into the virtual laboratory.

In a fourth aspect, a virtual laboratory operation management device without a fixed place is used in a cloud platform, and the device includes:

the first acquisition module is used for acquiring the identity information of the instrument and distributing unique identity identification information to the instrument;

the second acquisition module is used for acquiring the service items of the instrument and binding the identity identification information of the instrument and the service items thereof into service information;

the first sending module is used for sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory.

In a fifth aspect, a fixed-site-free virtual laboratory operations management apparatus for use in a virtual laboratory, the apparatus comprising:

the device comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving service information sent by a cloud platform, and the service information is obtained by the cloud platform after a service item of an instrument is obtained, a virtual laboratory is triggered to bind the identity identification information of the instrument and the service item thereof into service information; the identification information is the only identification information distributed to the instrument by the cloud platform after the identification information of the instrument is acquired by the cloud platform; and

and the selection adding module is used for selecting proper service information to be added into the virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information.

The sixth aspect, a virtual laboratory operation management device of no fixed place, its characterized in that for in the instrument intelligent management terminal, the device includes:

the cloud platform comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving identity identification information sent by the cloud platform, and the identity identification information is the only identity identification information distributed for an instrument after the cloud platform acquires the identity information of the instrument;

the first sending module is used for sending confirmation information carrying the identity identification information to a cloud platform after connection with the instrument is established, the confirmation information is used for triggering the cloud platform to obtain a service item of the instrument, the service item and the identity identification information are bound into service information and sent to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory.

The invention has the following beneficial effects:

the virtual laboratory operation management method without the fixed place, provided by the embodiment of the invention, comprises the steps of obtaining identity information of an instrument through a cloud platform, and distributing unique identity identification information for the instrument; the cloud platform acquires service items of the instrument and binds the identity identification information of the instrument and the service items thereof into service information; the cloud platform sends the service information to a virtual laboratory; the virtual laboratory receives the service information, when the appropriate service information is selected to be added into the virtual laboratory, the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information, and the service request sharing code is used for sharing the instrument and service items thereof on a social platform through the virtual laboratory, so that the technical problem of resource waste caused by long-term idle of the instrument due to asymmetric information of an instrument provider and a demander is solved.

Drawings

FIG. 1 is a schematic block diagram of an implementation environment in which various embodiments of the present invention are implemented;

fig. 2 is a flowchart of a method of virtual laboratory operation management without a fixed location according to an embodiment of the present invention;

fig. 3 is a flowchart of a method for virtual laboratory operation management without a fixed location according to another embodiment of the present invention;

fig. 4 is a flowchart of a method of virtual laboratory operation management without a fixed location according to an embodiment of the present invention;

FIG. 5 is a flow chart of a method of the preferred embodiment of FIG. 4;

fig. 6 is a flowchart of a method of virtual laboratory operation management without a fixed location according to an embodiment of the present invention;

FIG. 7 is a method flow diagram of the preferred embodiment of a virtual laboratory operations management method without a fixed location as provided in FIG. 6;

fig. 8 is a block diagram illustrating a virtual laboratory operation management apparatus without a fixed location according to an embodiment of the present invention;

fig. 9 is a block diagram of a virtual laboratory operation management apparatus without a fixed location according to another embodiment of the present invention;

fig. 10 is a block diagram of a virtual laboratory operation management apparatus without a fixed location according to an embodiment of the present invention.

Detailed Description

The present invention is described in detail below with reference to specific embodiments and drawings, and it should be noted that the features of the embodiments and examples of the present invention may be combined with each other without conflict, and the scope of the present invention is not limited thereto.

Referring to fig. 1, a method flow chart of a virtual laboratory operation management method without a fixed location according to various embodiments of the present invention is shown. The implementation environment includes: the system comprises a user intelligent terminal 100, a cloud platform 200 and an instrument intelligent management terminal 300.

The user smart terminal 100 may be a mobile phone, a tablet computer, a laptop computer, a desktop computer, a smart watch, a smart bracelet, etc.

The user intelligent terminal 100 may be installed with an application client or installed with a browser through which a web client of an application is accessed. The client is all terminal equipment with an internet function of a user, and mainly provides a test or lease request to the cloud platform and collects results. The application client and the web page client are collectively referred to as the client in the embodiment of the present invention, and are not stated below.

The client can be a client with a function of displaying data information, or a client with a function of displaying data information and a social function, or a client with a function of displaying data information and a game function, or a client with a function of displaying data information and a function of sending and receiving mails, or a client with a function of displaying data information and a service function of inquiring information. When the client is a client with the data display function and other functions, the fixed telephone account and other electronic accounts of the user are bound or associated with each other.

The user intelligent terminal 100 may also be installed with an application client of a virtual laboratory or a browser, and access the web client of the application through the browser. The client is all terminal equipment with the internet function of a user, and is mainly used for receiving instruments sent by the cloud platform and detection service information provided by the instruments, adding interested service items into a virtual laboratory of the client, and sharing the service items in a sharing link or two-dimensional code mode. In the embodiment of the invention, the application program client of the virtual laboratory and the webpage client of the virtual laboratory are called as the virtual laboratory, and are not stated below.

The cloud platform 200 is in limited or wireless connection with the user intelligent terminal 100 and the instrument intelligent management terminal 300, and includes a basic server and an application program, where the basic server includes a server providing a remote storage service, an integration service, and an identity management service.

The system is used for monitoring, managing and allocating instrument equipment, and receiving and responding to a test or lease request of a client.

The intelligent instrument management terminal 300 can be connected with an instrument through communication ports such as a network cable serial port and the like, is connected with a cloud platform through the internet, can apply for binding a unique Identification (ID) for the instrument to the cloud platform through the intelligent instrument management terminal 300, and can upload the state of the instrument to the cloud platform at regular time.

It should be noted that, in the embodiments of the present invention, the terms referred to are:

the identification information is a unique identification ID distributed by the cloud platform for each bound instrument, and the instrument, an order made by the instrument, the state information of the instrument and the like are bound together through the identification ID.

The order payment information is mainly used for providing the client with the related information of the order to be paid, and the order payment information may include one or more of the type of equipment, the identification information, the amount of money to be paid, the time and date, and the like.

The following describes and explains a scheme of a virtual laboratory operation management method without a fixed location according to an embodiment of the present invention in detail by using several specific embodiments.

Referring to fig. 2, a method for virtual laboratory operation management without a fixed location according to an embodiment of the present invention is shown, including the following steps:

step 201, a cloud platform acquires identity information of an instrument and distributes unique identity identification information to the instrument;

the identity information of the instrument comprises information such as the type and model of the instrument and can also comprise information such as the location of the instrument. The identification information may be an identification ID, a code in the form of a graphical pattern, or other type of unique identification that can represent the instrument.

Step 202, a cloud platform acquires service items of an instrument, and binds identity identification information of the instrument and the service items thereof into service information;

the service item is a service item that can be provided by the instrument, such as a detection service of isotopes and the like.

Step 203, the cloud platform sends the service information to a virtual laboratory;

and the cloud platform pushes the service information to each virtual laboratory to remind each virtual laboratory of adding new service information. The service information in the virtual laboratory is formed by binding the instruments of the service items with the cloud platform, the instruments are added into the corresponding virtual laboratory after being bound with the cloud platform, and the instruments and other instruments added into the virtual laboratory form a virtual laboratory together.

And 204, the virtual laboratory receives the service information, and when appropriate service information is selected and added into the virtual laboratory, the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information.

The virtual laboratory manager can add interested instruments and services thereof into a virtual laboratory of the virtual laboratory manager, and the virtual laboratory shares the service request sharing code through other social clients in the intelligent management terminal to achieve the purpose of sharing. The virtual laboratory manager can increase or decrease the service items of the virtual laboratory and share the detection items of the virtual laboratory, such as a common social platform: microblogs, WeChats, QQ, facebook, linkedin, and the like. The virtual laboratory manager can customize the name, service content classification and sequencing and the like of the laboratory according to needs.

The service request sharing code carries the identity identification information and the address link of the instrument with the bound service. The virtual laboratory manager adds the appropriate service into the virtual laboratory for sharing, and the appropriate service can be shared in a sharing link mode or in an identification code sharing mode. The demander can establish communication connection with the cloud platform through the service request sharing code and send a service request to the cloud platform.

The steps 201, 202, and 203 may implement a method for sharing instruments on the cloud platform side separately, and the step 204 may implement a method for sharing instruments on the virtual laboratory side separately.

In summary, in the virtual laboratory operation management method without a fixed location provided in the embodiments of the present invention, identity information of an instrument is obtained through a cloud platform, and unique identity identification information is allocated to the instrument; the cloud platform acquires service items of the instrument and binds the identity identification information of the instrument and the service items thereof into service information; the cloud platform sends the service information to a virtual laboratory; the virtual laboratory receives the service information, when the appropriate service information is selected to be added into the virtual laboratory, the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information, and the service request sharing code is used for sharing the instrument and service items thereof on a social platform through the virtual laboratory, so that the technical problem of resource waste caused by long-term idle of the instrument due to asymmetric information of an instrument provider and a demander is solved.

Referring to fig. 3, preferably, after the cloud platform acquires the identity information of the instrument and allocates unique identity information to the instrument, the method further includes the following steps:

step 2011, the cloud platform sends the identification information to the instrument intelligent management terminal;

the intelligent instrument management terminal is in wired or wireless connection with the cloud platform, can be a single chip microcomputer serving as a core, and can acquire working state information of the instrument by using a signal detection technology to realize effective and timely recording. Or a computer terminal or a mobile phone terminal used with the sensor. The method is used for monitoring the running state of the instrument equipment of the instrument and the bottom layer of related information, monitoring test data, receiving cloud platform information, responding to cloud platform instructions and the like.

The intelligent management terminal of the instrument obtains the identity identification information, all state information sent to the cloud management platform by the intelligent management terminal of the instrument equipment comprises the identity identification information, the corresponding instrument, an order made by the instrument, the state of the instrument and the like are organically combined together through the identity identification information and are presented through the virtual laboratory, and therefore a manager or an instrument owner can check the identity identification information at any time.

Step 2012, after the instrument intelligent management terminal establishes connection with the instrument, sending confirmation information carrying the identity identification information to a cloud platform;

and connecting the intelligent instrument management terminal with the instrument through a serial port. The intelligent instrument management terminal can detect the running state of the instrument in real time, feed corresponding state information back to the cloud platform, and simultaneously can collect corresponding experimental data and send the experimental data to the cloud platform.

And when the connection between the instrument intelligent management terminal and the instrument fails or the communication between the instrument intelligent management terminal and the cloud platform fails, acquiring the recorded relevant information of the instrument and distributing unique identification information for the instrument. The input mode can be a mode of manually inputting corresponding information by logging in a cloud platform, and can also be a mode of voice input and the like. And simultaneously, the cloud platform distributes unique identification information for the instrument.

To sum up, this preferred embodiment adopts the running state of instrument intelligent management terminal detecting instrument, can be more convenient to the operating condition of cloud platform transmission instrument, can monitor the operating condition of instrument at any time, type into more accurate, timely than the manual work, can gather experimental data simultaneously, make data truer and more reliable, also can liberate the manpower, realize the automation. However, when the instrument is not connected with the instrument intelligent management terminal or the instrument intelligent management terminal fails to communicate with the cloud platform when sending a fault, the instrument holder can log in the cloud platform by himself and update the relevant information manually.

Referring to fig. 4, preferably, after step 204 in the above embodiment, the method further includes the following steps:

step 401, a client acquires an address link of service information through a service request sharing code;

and the client side requests the address link of the service information obtained by the sharing code through the service shared by the virtual laboratory.

If a user needs to acquire the right to use an instrument, the client needs to acquire the identity information of a target instrument and send a service request carrying the identity information to the cloud platform, so that the cloud platform can detect and judge whether the instrument is in an idle and available state, and when the instrument is in the idle state, an order is created. The phenomenon that an order is created when the instrument is not detected and judged to be usable or not is avoided, otherwise, the phenomenon that information of a supply party and a demand party is asymmetric is caused, so that a user can wait blindly, and the distribution of the using condition of the instrument is uneven.

Step 402, a client sends a service request to a cloud platform, wherein the service request carries the service information;

the service request is used for requesting the cloud platform to feed back a request whether the instrument can provide the corresponding service.

The user checks the instrument provided by the cloud platform and the corresponding service thereof by utilizing the client, when the required instrument type is searched, the system can automatically match out a similar instrument type for the user to select, click the picture or the corresponding connection of the required instrument, and jump the page to a detail interface, when the user clicks the picture or the corresponding connection of the instrument, the client obtains the identity identification information of the instrument and simultaneously sends a service request carrying the identity identification information to the cloud platform.

Step 403, the cloud platform finds out a corresponding instrument according to the identification information in the service information, and determines whether the instrument is in an idle state according to the instrument state information of the instrument;

after receiving the service request, the cloud platform searches the state information of the instrument through the identity identification information carried in the service request, and then judges whether the current instrument is in an idle state.

Step 404, when the cloud platform judges that the instrument is in an idle state, sending order payment information to the client;

and when the cloud platform judges that the instrument is in an idle state, the cloud platform pushes order payment information to the intelligent user terminal so as to create an order. The order payment information comprises information such as type and model of an instrument, identity information, geographic position, order creation time, amount to be paid and the like.

In step 405, the client creates an order according to the order payment information.

The steps 401, 402, and 405 may implement the method for sharing the instrument on the client side separately, and the steps 403 and 404 may implement the method for sharing the instrument on the cloud platform side separately.

According to the preferred embodiment of the virtual laboratory operation management method without the fixed place, the service request is sent to the cloud platform through the service request sharing code shared by the virtual laboratory; the cloud platform searches out a corresponding instrument according to the identity identification information in the service information, and judges whether the instrument is in an idle state or not according to the instrument state information of the instrument; the client side creates an order according to the order payment information, requests corresponding services through the shared corresponding links, and completes payment creation of the order. The service demander only needs to establish an order through the client to establish a transaction relation with the instrument provider, the traditional complex process of on-the-spot transaction is broken, and the service demander can carry out a test in person subsequently or carry out a mailing test in a logistics mode.

Referring to fig. 5, preferably, the method for acquiring the instrument status information of the instrument in step 403 further includes the following steps:

4031, the intelligent management terminal sends state information of an instrument to a cloud platform, wherein the state information of the instrument is information of the current working state of the instrument bound with the intelligent management terminal and detected by the intelligent management terminal;

the instrument state information is mainly used for reflecting the working state of the current instrument, such as the current queuing number of the instrument, the use state of the instrument, whether the instrument is in a maintenance state and the like.

When the model of the instrument is bound with the cloud platform, the cloud platform allocates a unique Identification (ID) to the instrument, and if the platform cannot automatically acquire the ID and the state of the instrument, the ID, the state and other information can be manually input; and binding the intelligent management terminal of the instrument with the instrument, detecting the working state of the instrument through the intelligent management terminal of the instrument and collecting corresponding detection data.

In order to achieve the purpose of creating an order in an idle state of an instrument, the working state of the corresponding instrument needs to be monitored, so that the instrument is bound with an intelligent instrument management terminal, and instrument state information of the instrument is monitored through the intelligent instrument management terminal. The instrument state information is dynamic information of the instrument obtained by the instrument intelligent management terminal through detection, and the cloud platform further analyzes and judges whether the instrument is in an idle state or not according to the instrument state information. The dynamic information of the instrument comprises whether the instrument is shut down, standby or not and the like. For example, in the case of connecting the instrument intelligent management terminal and the instrument bound with the instrument intelligent management terminal through a communication interface, the communication interface may be RS485, USB, a wired or wireless network interface. When the instrument intelligent management terminal cannot be connected with the instrument through the communication interface or the instrument intelligent management terminal acquires the running log of the instrument through the communication interface, the instrument intelligent management terminal sends the acquired related data to the cloud platform, and the cloud platform judges whether the instrument is in an idle state currently according to the fed-back instrument state information.

And when the binding of the instrument and the instrument intelligent management terminal fails, acquiring the recorded information of the current working state. Under the condition that corresponding instrument state information cannot be automatically detected and acquired through the instrument intelligent management terminal, information of the current working state of the corresponding instrument can be input through the cloud platform.

Referring again to fig. 5, preferably, after the client creates the order according to the order payment information, the method further includes the following steps:

step 406, when the intelligent instrument management terminal detects that the instrument bound with the intelligent instrument management terminal is in a working state, order confirmation information is sent to the cloud platform; when the cloud platform judges that the instrument is in an idle state, sending order payment information to the client;

when the intelligent terminal of the instrument device scans that the instrument device is detecting, the intelligent terminal of the instrument device sends an order confirmation message to the cloud platform to confirm whether the current instrument device is the service for carrying out the order on the platform.

Step 407, the cloud platform receives the order confirmation information and judges whether the order service is matched with the working state of the instrument;

step 408, when the cloud platform confirms that the order service is matched with the working state of the instrument, sending confirmation information to the intelligent instrument management terminal, and turning to step 4081; otherwise, sending a negative confirmation message to the intelligent instrument management terminal, and turning to step 4082;

4081, the intelligent management terminal receives the confirmation information, and collects and stores the detection data in real time;

when the cloud platform returns information to confirm that the instrument is performing platform order service, the intelligent terminal of the instrument device collects real-time detection data of the instrument device through a communication port connected with the instrument device, and the collected detection data are temporarily stored in a storage module of the intelligent terminal of the instrument device.

Step 40811, the intelligent management terminal of the instrument sends the detection data to a cloud platform;

when the intelligent terminal of the instrument device scans that the instrument device stops detecting or receives an order service completion notice pushed by the cloud platform, the stored data is encrypted and then uploaded to the cloud platform. The encryption is in the form of block chain encryption.

When the client side extracts the detection data, a data index extraction code needs to be input, the data index extraction code is sent to the cloud platform by the user intelligent terminal, the cloud platform extracts the data structure stored in the block chain through the data index extraction code and sends the data structure to the client side, and the whole process has no human intervention, so that the accuracy of the data is guaranteed.

Preferably, after the instrument intelligent management terminal sends the detection data to the cloud platform, a preset service commission is issued to the virtual laboratory.

Any order generated through the virtual laboratory sharing link returns sharing commissions with corresponding proportions according to the amount of the order and the platform rules after the order is completed.

4082, the intelligent management terminal monitors an operation log of the instrument and sends order confirmation information to the cloud platform at regular time;

when the instrument is detected to be doing business irrelevant to the platform, the intelligent terminal of the instrument equipment does not collect data of the current instrument equipment, only monitors an instrument running log, and sends order confirmation information to the cloud platform at regular time.

According to the preferred embodiment of the virtual laboratory operation management method without the fixed place, after an order is created and a transaction relation is established, when an intelligent instrument management terminal detects that an instrument is in a working state, confirmation information can be actively sent to a cloud platform to confirm whether the working state of the instrument is matched with the order service or not, and when the working state of the instrument is matched with the order service, the intelligent instrument management terminal collects and stores detection data in real time and sends the detection data to the cloud platform in time; and when the instrument is not matched with the cloud platform, the intelligent instrument management terminal monitors the running log of the instrument and sends order confirmation information to the cloud platform at regular time. The preferred embodiment further perfects the function of monitoring the running state of the instrument bound with the intelligent instrument management terminal by the intelligent instrument management terminal in the instrument sharing process, collects monitoring data in real time when order service is carried out, and can feed back real-time dynamic information of the instrument to the cloud platform in time.

Referring to fig. 6, a flow chart of a method for sharing an isotope analyzer is shown, and the present embodiment is described by taking an isotope analyzer as an example. The method comprises the following specific steps:

601, acquiring identity information of an instrument by a cloud platform, and distributing unique identity identification information to the instrument;

adding relevant information of the isotope analyzer into a cloud platform, automatically allocating a unique Identification (ID) for the isotope analyzer by the cloud platform, and matching with an instrument intelligent management terminal.

Step 602, the cloud platform sends the identification information to the instrument intelligent management terminal;

and writing the identification ID of the isotope analyzer into the intelligent management terminal of the isotope analyzer.

Step 603, after the instrument intelligent management terminal is connected with the instrument, sending confirmation information carrying the identity identification information to a cloud platform;

and connecting the intelligent instrument management terminal with the isotope analyzer through a serial port. After the isotope analyzer is bound with the intelligent instrument management terminal, the intelligent instrument management terminal acquires the running log information of the isotope analyzer as instrument state information. The normal communication between the intelligent management terminal of the instrument and the isotope analyzer is ensured, and the wireless network of the intelligent management terminal of the instrument is set. The intelligent instrument management terminal can send instrument state information of the instrument to the cloud platform in real time.

Step 604, after receiving the confirmation information, the cloud platform acquires a service item of the instrument, and binds the identification information of the instrument and the service item thereof into service information;

the detection and inspection service provided by the isotope analyzer is added to the platform, and after the commission proportion of each service item is set, the detection service items provided by the isotope analyzer can be placed into the service sharing pool.

Step 605, the cloud platform sends the service information to the virtual laboratory;

the cloud platform informs all virtual laboratory administrators registered by the platform in a pushing mode.

Step 606, a virtual laboratory terminal selects appropriate service information to add to a corresponding virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a corresponding service request sharing code, and the service request sharing code carries an address link of the service information;

when the administrator of the virtual laboratory is interested in the detection service items provided by the isotope analyzers, the detection service items are added to the virtual laboratory and are shared through the social channel.

Referring to fig. 7, a flow chart of a method for sharing among isotope analyzers is further illustrated, as follows:

step 607, the client obtains the address link of the service information through the service request sharing code;

step 608, the client sends a service request to the cloud platform, wherein the service request carries the service information;

the user can check the sharing link of the related service information through the client, and when the user needs the isotope analyzer and clicks the related connection, the user obtains the identity identification information of the isotope analyzer and sends a corresponding service request to the cloud platform.

Step 609, the instrument intelligent management terminal sends instrument state information of the isotope analyzer to the cloud platform, wherein the instrument state information is information of the current working state of the isotope analyzer bound with the instrument intelligent management terminal and detected by the instrument intelligent management terminal;

step 610, finding out a corresponding isotope analyzer according to the identification information in the service information, and judging whether the isotope analyzer is in an idle state or not according to the instrument state information of the isotope analyzer;

611, when the cloud platform determines that the isotope analyzer is in an idle state, sending order payment information to the client;

the order payment information comprises the current state, the precision, the order queuing state, the detection service period, the estimated completion time, the mailing address and other information of the instrument.

Step 612, the client creates an order according to the order payment information;

after the order is created, the user posts the sample according to the address provided in the order.

Step 613, the cloud platform detects the instrument state change of the isotope analyzer in the order and sends an instrument state change confirmation request to the instrument intelligent management terminal;

the instrument state change confirmation request is a confirmation request sent by the cloud platform to the instrument intelligent management terminal after the instrument state in the order of the cloud platform is found to be changed, so as to further confirm whether the working state of the instrument is consistent with the changed order information.

And after the service provider receives the sample, detecting the sample according to the construction period provided by the cloud platform, and changing the instrument state information of the isotope analyzer in the order when the detection is started. And when detecting that the instrument state information in the order is changed, the cloud platform sends an instrument state change request to the intelligent terminal.

Step 614, the intelligent management terminal of the instrument receives the request for confirming the change of the state of the instrument and detects the working state of the isotope analyzer;

the instrument intelligent management terminal detects that the isotope analyzer is running.

Step 615, the intelligent management terminal of the instrument sends the detected working state of the isotope analyzer as instrument state information to the cloud platform;

step 616, the cloud platform receives the instrument state information and judges whether the instrument state is matched with the instrument state changed by the order;

and the cloud platform detects that the instrument state information is matched with the instrument state changed by the order.

Step 617, when the matching is confirmed, sending confirmation information to the instrument intelligent management terminal, wherein the confirmation information is used for triggering the instrument intelligent management terminal to collect and store detection data in real time;

preferably, when the instrument state does not match with the instrument state changed by the order, warning information is sent to the service provider to prompt the service provider to troubleshoot the fault.

And when the intelligent management terminal of the instrument receives the confirmation information, the test data of the isotope analyzer is collected in real time.

Step 618, the intelligent management terminal sends the detection data collected by the intelligent management terminal to the cloud platform.

And sending the test data acquired by the intelligent instrument management terminal to a cloud platform.

Preferably, when the isotope analyzer is determined to be in the non-idle state in step 610, the method further includes the following steps:

the cloud platform estimates waiting time according to a service period and the number of queuing people preset by the system;

if the estimated waiting time is too long, automatically matching the information of the instruments of the same type;

and the cloud platform sends the estimated waiting time and the matched same type instrument information to the client, wherein the estimated waiting time is used for triggering the establishment of an order when the client selects, and the same type instrument information is used for triggering the client to send a new service request to the cloud platform when the client selects.

In summary, according to the sharing method provided by the present invention, a user adds an isotope analyzer to a cloud platform, the cloud platform allocates a unique identification code to the isotope analyzer, and sends the identification code to an intelligent management terminal of an instrument connected to the isotope analyzer, the intelligent management terminal of the instrument feeds back status information of the isotope analyzer to the cloud platform in real time, the cloud platform obtains service items provided by the isotope analyzer and pushes the isotope analyzer and the service item information thereof to each virtual laboratory, the virtual laboratory selects an appropriate isotope analyzer and service items thereof to add to its own laboratory, shares corresponding service information by way of sharing links, and creates a corresponding order when the isotope analyzer is in an idle state; and testing by using the idle isotope analyzers, and when detecting that the instrument state change of the isotope analyzers in the order is matched with the instrument state information, acquiring test data in real time by using the instrument intelligent management terminal and uploading the test data to the cloud platform. Through the mode, the service provider can enable all virtual laboratories on the platform to share and issue by putting the services which can be provided by the service provider into the cloud platform, and then the purposes of propaganda service and expansion of business opportunities are achieved. The service demand party can also obtain idle shared resources in time by the sharing mode, and the embarrassment of queuing is avoided. By the sharing method, an effective bridge can be established between the service demand side and the service provider side, and the technical problem of asymmetric information between supply and demand relations is solved.

Referring to fig. 8, a virtual laboratory operation management apparatus without a fixed location according to an embodiment of the present invention is shown, and is used in a cloud platform, the apparatus includes:

a first obtaining module 801, configured to obtain identity information of an instrument, and assign unique identity identification information to the instrument;

a second obtaining module 802, configured to obtain a service item of the instrument, and bind the identification information of the instrument and the service item thereof as service information;

a first sending module 803, configured to send the service information to a virtual laboratory, where the service information is used to trigger the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects appropriate service information to add to the virtual laboratory.

Preferably, after the first obtaining module, the method further includes:

a second sending module 8011, configured to send the identity identification information to an intelligent management terminal of an instrument, where the identity identification information is used to trigger the intelligent management terminal of the instrument to establish a connection with the instrument, and send the confirmation information carrying the identity identification information to a cloud platform;

a first receiving module 8012, configured to receive confirmation information sent by the instrument intelligent management terminal, where the confirmation information is used to trigger the cloud platform to obtain a service item of the instrument, and bind identity identification information of the instrument and the service item thereof as service information;

preferably, after the first transmitting module, the apparatus further comprises:

a second receiving module 804, configured to receive a service request that carries the service information and is sent by a client, where the service request is an address link of the service information that is obtained by the client through a service request sharing code;

an idle determination module 805, configured to find a corresponding instrument according to the identification information in the service information, and determine whether the instrument is in an idle state according to instrument state information of the instrument;

an order creating module 806, configured to send order payment information to the client when it is determined that the instrument is in an idle state, where the order payment information is used to trigger the client to create an order.

Preferably, after the second receiving module, the apparatus further comprises:

a third receiving module 8041, configured to receive state information of an instrument sent by the instrument intelligent management terminal, where the instrument state information is information of a current working state of an instrument bound to the instrument detected by the instrument intelligent management terminal;

preferably, after the order creating module, the apparatus further comprises:

a third sending module 80611, configured to send an instrument state change confirmation request to the intelligent instrument management terminal, where the instrument state change confirmation request is a request triggered when the instrument state in the order is changed, and the instrument state change confirmation request is used to trigger the intelligent instrument management terminal to feed back instrument state information of the instrument to the cloud platform;

a fourth receiving module 80612, configured to receive the instrument state information, where the instrument state information is used to trigger a cloud platform to determine whether the instrument state matches the instrument state that is changed in the order;

a fourth sending module 80613, configured to send confirmation information to an intelligent instrument management terminal when the instrument state matches the changed instrument state in the order, where the confirmation information is used to trigger the intelligent instrument management terminal to collect detection data of an instrument in real time;

a fifth receiving module 80614, configured to receive the detection data acquired by the instrument intelligent management terminal.

Preferably, after the order creating module, the apparatus further comprises:

a sixth receiving module 80621, configured to receive order confirmation information sent by the instrument intelligent management terminal, where the order confirmation information is confirmation information triggered when the instrument intelligent management terminal detects that an instrument bound to the instrument intelligent management terminal is in a working state;

a matching confirmation module 80622, configured to determine whether the order service matches the operating state of the instrument;

a fifth sending module 80623, configured to send confirmation information to the instrument intelligent management terminal when the matching is confirmed, where the confirmation information is used to trigger the instrument intelligent management terminal to collect and store detection data in real time;

a seventh receiving module 80624, configured to receive the detection data sent by the instrument intelligent management terminal.

Preferably, the idle determination module further includes:

the pre-estimation waiting module 8051 is used for pre-estimating waiting time according to a service period and the number of queuing people preset by the system when judging that the current instrument is in a non-idle state;

the matching module 8052 is used for automatically matching the information of the instruments of the same type when the estimated waiting time is too long;

a sixth sending module 8053, configured to send the estimated waiting time and the matched information of the instruments of the same type to the client, where the estimated waiting time is used to trigger the client to create an order when the client selects, and the information of the instruments of the same type is used to trigger the client to send a new service request to the cloud platform when the client selects.

Preferably, the apparatus further comprises:

a commission issuance module 807 for issuing a predetermined service commission to the virtual laboratory.

In summary, according to the virtual laboratory operation management apparatus without a fixed location provided in the embodiments of the present invention, the cloud platform is used to obtain the identity information of an instrument, and unique identity identification information is allocated to the instrument; the cloud platform acquires service items of the instrument and binds the identity identification information of the instrument and the service items thereof into service information; the cloud platform sends the service information to a virtual laboratory; the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory, and the service request sharing code can share the instrument and service items thereof on the social platform through the virtual laboratory, so that the technical problem of resource waste caused by long-term idle of the instrument due to asymmetric information of an instrument provider and a demander is solved.

Referring to fig. 9, a virtual laboratory operation management apparatus without a fixed location according to another embodiment of the present invention is shown, which is used in a virtual laboratory, and includes:

the first receiving module 901 is configured to receive service information sent by a cloud platform, where the service information is service information obtained by the cloud platform after acquiring a service item of an instrument, and triggers a virtual laboratory to bind identity identification information of the instrument and the service item thereof to the service information; the identity identification information is the only identity identification information distributed to the instrument by the cloud platform after the identity information of the instrument is acquired by the cloud platform;

a selecting and adding module 902, configured to select appropriate service information to add to the virtual laboratory, where the service information is used to trigger the virtual laboratory to generate a service request sharing code carrying an address link of the service information.

Preferably, after selecting the adding module, the apparatus further comprises:

a second receiving module 903, configured to receive a preset commission issued by the cloud platform, where the commission is issued by the cloud platform after the detection data is acquired, and the detection data is manually entered or acquired by the instrument intelligent management terminal in real time.

And when the intelligent instrument management terminal confirms that the working state of the instrument bound with the intelligent instrument management terminal is matched with the order service, triggering the detection data acquired by the intelligent instrument management terminal in real time.

In summary, according to the virtual laboratory operation management device without a fixed location provided in the embodiments of the present invention, the virtual laboratory receives the service information sent by the cloud platform, where the service information is a service item of an instrument acquired by the cloud platform, and triggers the virtual laboratory to bind the identification information of the instrument and the service item thereof as the service information; the identification information is the only identification information distributed to the instrument by the cloud platform after the identification information of the instrument is acquired by the cloud platform; and then, selecting proper service information to be added into the virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information, so that the technical problem of resource waste caused by long-term idle of an instrument due to asymmetric information of a provider and a demander of the instrument is solved.

Referring to fig. 10, a virtual laboratory operation management device without a fixed location according to an embodiment of the present invention is shown, and is used in an instrument intelligent management terminal, where the device includes:

a first receiving module 1001, configured to receive identity identification information sent by a cloud platform, where the identity identification information is unique identity identification information allocated to an instrument after the cloud platform acquires the identity information of the instrument;

the first sending module 1002 is configured to send, after establishing connection with the instrument, confirmation information carrying the identity information to a cloud platform, where the confirmation information is used to trigger the cloud platform to obtain a service item of the instrument, and bind the service item and the identity information as service information and send the service information to a virtual laboratory, and the service information is used to trigger the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects appropriate service information to add to the virtual laboratory.

Preferably, after the first transmitting module, the apparatus further comprises:

a second sending module 1003, configured to send instrument state information to the cloud platform, where the instrument state information is information of a current working state of an instrument bound to the instrument, and is detected by the instrument intelligent management terminal, and is used to trigger the cloud platform to determine whether the instrument is in an idle state according to current working state information of the instrument, which is matched with identity identification information of the instrument carried in service information, when the cloud platform receives a service request, which is sent by a client and carries the service information, and send order payment information to the client when the cloud platform determines that the instrument is in the idle state, where the order payment information is used to trigger the client to create an order.

Preferably, after the second sending module, the apparatus further comprises:

a second receiving module 100311, configured to receive an instrument state change confirmation request sent by the cloud platform, where the instrument state change confirmation request is a confirmation request triggered by changing an instrument state of the order;

a third sending module 100312, configured to detect a working state of the instrument, and send instrument state information to the cloud platform; the instrument state information is used for triggering the cloud platform to send confirmation information to an instrument intelligent management terminal when the instrument state information is judged to be matched with the instrument state changed by the order;

and a third receiving module 100313, configured to receive the confirmation information and collect detection data of the instrument in real time.

Preferably, after the second sending module, the apparatus further comprises:

a fourth sending module 100321, configured to send order processing confirmation information to the cloud platform, where the order processing confirmation information is confirmation information triggered when the instrument intelligent management terminal detects that an instrument bound to the order processing confirmation information is in a working state; the order processing confirmation information is used for triggering feedback of confirmation information after the cloud platform confirms that the working state of the instrument is matched with order service;

a fourth receiving module 100322, configured to receive the confirmation information, and collect and store detection data of the instrument in real time;

a fifth sending module 100323, configured to send the detection data to the cloud platform.

In summary, according to the virtual laboratory operation management device without a fixed location provided by the embodiment of the present invention, the intelligent management terminal of the instrument receives the identification information sent by the cloud platform, where the identification information is the only identification information allocated to the instrument by the cloud platform after the cloud platform obtains the identification information of the instrument; and then after connection with the instrument is established, sending confirmation information carrying the identity identification information to a cloud platform, wherein the confirmation information is used for triggering the cloud platform to acquire a service item of the instrument, binding the service item and the identity identification information into service information and sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add into the virtual laboratory, so that the technical problem of resource waste caused by long-term idle of the instrument due to asymmetric information of a provider and a demander of the instrument is solved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (22)

1. A virtual laboratory operation management method without a fixed place is used in a cloud platform, and comprises the following steps:

acquiring identity information of an instrument, and allocating unique identity identification information to the instrument;

acquiring a service item of the instrument, and binding the identity identification information of the instrument and the service item thereof into service information;

sending the service information to a virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory;

after acquiring the identity information of the instrument and allocating unique identity identification information to the instrument, the method further comprises the following steps:

sending the identity identification information to an instrument intelligent management terminal, wherein the identity identification information is used for triggering the instrument intelligent management terminal to establish connection with the instrument;

after the instrument intelligent management terminal is connected with an instrument, receiving confirmation information which is sent by the instrument intelligent management terminal and carries the identity identification information, wherein the confirmation information is used for triggering the cloud platform to acquire a service item of the instrument;

and when the connection between the instrument intelligent management terminal and the instrument fails or the communication between the instrument intelligent management terminal and the cloud platform fails, acquiring the recorded relevant information of the instrument and distributing unique identification information for the instrument.

2. The operation management method for virtual laboratories without fixed locations according to claim 1, further comprising the following steps after said service information is sent to the virtual laboratory:

receiving a service request which is sent by a client and carries the service information, wherein the service request is an address link of the service information acquired by the client through a service request sharing code;

finding out a corresponding instrument according to the identity identification information in the service information, and judging whether the instrument is in an idle state or not according to the instrument state information of the instrument;

and when the instrument is judged to be in an idle state, sending order payment information to the client, wherein the order payment information is used for triggering the client to create an order.

3. The operation management method of the virtual laboratory without the fixed place according to claim 2, wherein the method for acquiring the instrument state information of the instrument comprises the following steps:

receiving state information of an instrument sent by an intelligent instrument management terminal, wherein the state information of the instrument is the information of the current working state of the instrument bound with the intelligent instrument management terminal and detected by the intelligent instrument management terminal;

and when the binding of the instrument and the instrument intelligent management terminal fails, acquiring the recorded information of the current working state.

4. The method for virtual laboratory operation management without fixed site according to claim 2, wherein when it is determined that the instrument is in an idle state, sending order payment information to the client, wherein the order payment information is used for triggering the client to create an order, further comprising the following steps:

sending an instrument state change confirmation request to an instrument intelligent management terminal, wherein the instrument state change confirmation request is a request triggered when the instrument state in the order is changed, and the instrument state change confirmation request is used for triggering the instrument intelligent management terminal to feed back instrument state information of the instrument to the cloud platform;

receiving the instrument state information, wherein the instrument state information is used for triggering a cloud platform to judge whether the instrument state is matched with the changed instrument state in the order;

when the instrument state is matched with the changed instrument state in the order, sending confirmation information to an instrument intelligent management terminal, wherein the confirmation information is used for triggering the instrument intelligent management terminal to acquire detection data of the instrument in real time;

and receiving the detection data acquired by the intelligent instrument management terminal.

5. The method for virtual laboratory operation management without fixed site according to claim 2, wherein when it is determined that the instrument is in an idle state, sending order payment information to the client, wherein the order payment information is used for triggering the client to create an order, further comprising the following steps:

receiving order confirmation information sent by an instrument intelligent management terminal, wherein the order confirmation information is triggered when the instrument intelligent management terminal detects that an instrument bound with the instrument intelligent management terminal is in a working state;

judging whether the order service is matched with the working state of the instrument;

when the matching is confirmed, sending confirmation information to the intelligent instrument management terminal, wherein the confirmation information is used for triggering the intelligent instrument management terminal to collect and store detection data in real time;

and receiving the detection data sent by the intelligent instrument management terminal.

6. The method for virtual laboratory operation management without fixed locations according to any one of claims 2 to 5, wherein after determining whether the instrument is in an idle state, the method further comprises the following steps:

when the current instrument is judged to be in a non-idle state, the waiting time is estimated according to a service period and the number of queuing people preset by the system;

if the estimated waiting time is too long, automatically matching the information of the instruments of the same type;

and sending the estimated waiting time and the matched same-type instrument information to the client, wherein the estimated waiting time is used for triggering the client to create an order when the client selects, and the same-type instrument information is used for triggering the client to send a new service request to the cloud platform when the client selects.

7. The method for virtual laboratory operation management without fixed location according to any one of claims 4 or 5, further comprising the following steps after receiving the detection data sent by the instrument intelligent management terminal:

a pre-established service commission is issued to the virtual laboratory.

8. A virtual laboratory operation management method without a fixed place is used in a virtual laboratory, and comprises the following steps:

receiving service information sent by a cloud platform, wherein the service information is obtained by the cloud platform after a service item of an instrument is obtained, and a virtual laboratory is triggered to bind the identity identification information of the instrument and the service item thereof into service information; the identification information is the only identification information distributed to the instrument by the cloud platform after the identification information of the instrument is acquired by the cloud platform;

selecting proper service information to be added into the virtual laboratory, wherein the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information;

wherein after the selecting the appropriate service information to add to the virtual laboratory, further comprising:

receiving a preset commission issued by the cloud platform, wherein the commission is issued by the cloud platform after detection data is acquired, and the detection data is manually input or acquired by an instrument intelligent management terminal in real time.

9. A virtual laboratory operation management method without fixed places is characterized by being used in an instrument intelligent management terminal and comprising the following steps:

receiving identity identification information sent by a cloud platform, wherein the identity identification information is unique identity identification information distributed for an instrument after the cloud platform acquires the identity information of the instrument;

after the connection with the instrument is established, sending confirmation information carrying the identity identification information to a cloud platform, wherein the confirmation information is used for triggering the cloud platform to acquire a service item of the instrument, binding the service item and the identity identification information into service information and sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information when the virtual laboratory selects proper service information to add into the virtual laboratory;

after establishing connection with the instrument and sending confirmation information carrying the identity identification information to a cloud platform, the method further comprises the following steps:

the method comprises the steps of sending instrument state information to a cloud platform, wherein the instrument state information is information of a current working state of an instrument bound with the instrument and detected by an instrument intelligent management terminal, and is used for triggering the cloud platform to judge whether the instrument is in an idle state or not according to the current working state information of the instrument matched with identity identification information of the instrument carried in service information when the cloud platform receives a service request which is sent by a client and carries the service information, and sending order payment information to the client when the cloud platform judges that the instrument is in the idle state, wherein the order payment information is used for triggering the client to create an order.

10. The virtual laboratory operation management method without a fixed place according to claim 9, further comprising the following steps after the instrument status information is sent to the cloud platform:

receiving an instrument state change confirmation request sent by the cloud platform, wherein the instrument state change confirmation request is a confirmation request triggered by changing the instrument state of the order;

detecting the working state of the instrument and sending instrument state information to the cloud platform; the instrument state information is used for triggering the cloud platform to send confirmation information to an instrument intelligent management terminal when the instrument state information is judged to be matched with the instrument state changed by the order;

and receiving the confirmation information, and acquiring the detection data of the instrument in real time.

11. The virtual laboratory operation management method without a fixed place according to claim 9, further comprising the following steps after the instrument status information is sent to the cloud platform:

sending order processing confirmation information to the cloud platform, wherein the order processing confirmation information is triggered when the intelligent instrument management terminal detects that an instrument bound with the intelligent instrument management terminal is in a working state; the order processing confirmation information is used for triggering feedback of confirmation information after the cloud platform confirms that the working state of the instrument is matched with order service;

receiving the confirmation information, and acquiring and storing detection data of the instrument in real time;

and sending the detection data to the cloud platform.

12. A virtual laboratory operation management device without a fixed place is used in a cloud platform, and comprises:

the first acquisition module is used for acquiring the identity information of the instrument and distributing unique identity identification information to the instrument;

the second acquisition module is used for acquiring the service items of the instrument and binding the identity identification information of the instrument and the service items thereof into service information;

the first sending module is used for sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying an address link of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory;

wherein, after the first obtaining module, the apparatus further comprises:

the second sending module is used for sending the identity identification information to the instrument intelligent management terminal, and the identity identification information is used for triggering the instrument intelligent management terminal to establish connection with the instrument;

the first receiving module is used for receiving confirmation information which is sent by the intelligent instrument management terminal and carries the identity identification information after the intelligent instrument management terminal is connected with the instrument, and the confirmation information is used for triggering the cloud platform to acquire a service item of the instrument.

13. The virtual laboratory operation management device without fixed place according to claim 12, characterized in that after the first sending module, the device further comprises:

the second receiving module is used for receiving a service request which is sent by a client and carries the service information, wherein the service request is an address link of the service information acquired by the client through a service request sharing code;

the idle judgment module is used for searching out a corresponding instrument according to the identity identification information in the service information and judging whether the instrument is in an idle state or not according to the instrument state information of the instrument;

and the order creating module is used for sending order payment information to the client when the instrument is judged to be in an idle state, wherein the order payment information is used for triggering the client to create an order.

14. The virtual laboratory operation management device without fixed place according to claim 12, characterized in that after the second receiving module, the device further comprises:

and the third receiving module is used for receiving the state information of the instrument, which is sent by the intelligent instrument management terminal, and the state information of the instrument is the information of the current working state of the instrument bound with the intelligent instrument management terminal and detected by the intelligent instrument management terminal.

15. The virtual laboratory operations management apparatus without a fixed location of claim 12, wherein after the order creation module, the apparatus further comprises:

a third sending module, configured to send an instrument state change confirmation request to an instrument intelligent management terminal, where the instrument state change confirmation request is a request triggered when an instrument state in the order is changed, and the instrument state change confirmation request is used to trigger the instrument intelligent management terminal to feed back instrument state information of the instrument to the cloud platform;

a fourth receiving module, configured to receive the instrument state information, where the instrument state information is used to trigger a cloud platform to determine whether the instrument state matches the instrument state that is changed in the order;

the fourth sending module is used for sending confirmation information to the intelligent instrument management terminal when the instrument state is matched with the changed instrument state in the order, wherein the confirmation information is used for triggering the intelligent instrument management terminal to acquire detection data of the instrument in real time;

and the fifth receiving module is used for receiving the detection data acquired by the intelligent instrument management terminal.

16. The virtual laboratory operations management apparatus without a fixed location of claim 12, wherein after the order creation module, the apparatus further comprises:

the sixth receiving module is used for receiving order confirmation information sent by the instrument intelligent management terminal, wherein the order confirmation information is confirmation information triggered when the instrument intelligent management terminal detects that an instrument bound with the instrument intelligent management terminal is in a working state;

the matching confirmation module is used for judging whether the order service is matched with the working state of the instrument;

the fifth sending module is used for sending confirmation information to the intelligent instrument management terminal when the matching is confirmed, wherein the confirmation information is used for triggering the intelligent instrument management terminal to collect and store detection data in real time;

and the seventh receiving module is used for receiving the detection data sent by the instrument intelligent management terminal.

17. The virtual laboratory operation management device without a fixed place according to claim 13, wherein said idle determination module further comprises:

the pre-estimation waiting module is used for pre-estimating waiting time according to a service period and the number of queuing people preset by the system when judging that the current instrument is in a non-idle state;

the matching module is used for automatically matching the information of the instruments of the same type if the estimated waiting time is too long;

and the sixth sending module is used for sending the estimated waiting time and the matched same-type instrument information to the client, wherein the estimated waiting time is used for triggering the client to create an order when the client selects, and the same-type instrument information is used for triggering the client to send a new service request to the cloud platform when the client selects.

18. The virtual laboratory operation management device without fixed site according to any one of claims 15 or 16, characterized in that the device further comprises:

and the commission issuing module is used for issuing a preset service commission to the virtual laboratory.

19. A virtual laboratory operation management device without a fixed place is used in a virtual laboratory, and comprises:

the device comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving service information sent by a cloud platform, and the service information is obtained by the cloud platform after a service item of an instrument is acquired, and a virtual laboratory is triggered to bind the identity identification information of the instrument and the service item thereof into the service information; the identification information is the only identification information distributed to the instrument by the cloud platform after the identification information of the instrument is acquired by the cloud platform;

the virtual laboratory is triggered to generate a service request sharing code carrying address links of service information;

after the adding module is selected, the method further comprises the following steps:

the second receiving module is used for receiving a preset commission issued by the cloud platform, wherein the commission is issued by the cloud platform after the detection data is acquired, and the detection data is manually input or acquired by the instrument intelligent management terminal in real time.

20. The utility model provides a virtual laboratory operation management device of no fixed place, its characterized in that for in instrument intelligent management terminal, the device includes:

the cloud platform comprises a first receiving module and a second receiving module, wherein the first receiving module is used for receiving identity identification information sent by the cloud platform, and the identity identification information is the only identity identification information distributed to an instrument after the cloud platform acquires the identity information of the instrument;

the first sending module is used for sending confirmation information carrying the identity identification information to a cloud platform after connection with the instrument is established, wherein the confirmation information is used for triggering the cloud platform to obtain a service item of the instrument, binding the service item and the identity identification information into service information and sending the service information to a virtual laboratory, and the service information is used for triggering the virtual laboratory to generate a service request sharing code carrying address links of the service information when the virtual laboratory selects proper service information to add to the virtual laboratory;

wherein, after the first sending module, the method further comprises:

the second sending module is used for sending instrument state information to the cloud platform, wherein the instrument state information is information of a current working state of an instrument bound with the instrument and detected by the instrument intelligent management terminal, and is used for triggering the cloud platform to judge whether the instrument is in an idle state or not according to the current working state information of the instrument matched with identity identification information of the instrument carried in service information when the cloud platform receives a service request which is sent by a client and carries the service information, and sending order payment information to the client when the cloud platform judges that the instrument is in the idle state, wherein the order payment information is used for triggering the client to create an order.

21. The virtual laboratory operation management device without fixed place according to claim 20, further comprising, after the second sending module:

a second receiving module, configured to receive an instrument state change confirmation request sent by the cloud platform, where the instrument state change confirmation request is a confirmation request triggered by changing an instrument state of the order;

the third sending module is used for detecting the working state of the instrument and sending the instrument state information to the cloud platform; the instrument state information is used for triggering the cloud platform to send confirmation information to an instrument intelligent management terminal when the instrument state information is judged to be matched with the instrument state changed by the order;

and the third receiving module is used for receiving the confirmation information and acquiring the detection data of the instrument in real time.

22. The virtual laboratory operation management device without fixed place according to claim 20, further comprising, after the second sending module:

the fourth sending module is used for sending order processing confirmation information to the cloud platform, wherein the order processing confirmation information is triggered when the intelligent instrument management terminal detects that an instrument bound with the intelligent instrument management terminal is in a working state; the order processing confirmation information is used for triggering feedback of confirmation information after the cloud platform confirms that the working state of the instrument is matched with order service;

the fourth receiving module is used for receiving the confirmation information, and acquiring and storing the detection data of the instrument in real time;

and the fifth sending module is used for sending the detection data to the cloud platform.

Images