CN117252549A

CN117252549A - Binding method, device and equipment for sample and detection item

Info

Publication number: CN117252549A
Application number: CN202311264355.7A
Authority: CN
Inventors: 袁海波; 左红; 彭敬舒
Original assignee: Sichuan Qiruike Technology Co Ltd
Current assignee: Sichuan Qiruike Technology Co Ltd
Priority date: 2023-09-26
Filing date: 2023-09-26
Publication date: 2023-12-19

Abstract

The invention discloses a binding method, a device and equipment for a sample and a detection item, wherein a user scans a sample label of a sample to be bound, corresponding order information is obtained through the sample label, a sample set to be bound and a detection item set to be detected are determined, and binding between each sample in the sample set to be bound and each detection item in the detection item set to be detected is automatically completed through a preset rule by a detection server, so that the items are fast bound under the detection scene of large sample quantity to be detected and a large number of items to be detected, and the manual workload is reduced.

Description

Binding method, device and equipment for sample and detection item

Technical Field

The present invention relates to the field of detection technologies, and in particular, to a method, an apparatus, and a device for binding a sample and a detection item.

Background

Along with informatization and digitization of detection service of a detection mechanism, the detection service needs to track which detection items are detected by each sample to be detected in sequence, so that a binding relation needs to be established between the sample to be detected and the detection items. However, in some detection scenes with large sample quantity and many items to be detected, the detection efficiency is obviously reduced due to the fact that the manual workload of the detection personnel is increased in a geometric progression mode in a mode that the detection personnel scans the code samples to bind each detection item one by one. Therefore, in a detection scenario where the amount of sample to be detected is large and there are many items to be detected, how to quickly receive the sample and the binding item becomes a problem to be solved.

Disclosure of Invention

The invention aims to solve the problems and provide a binding method, a binding device and binding equipment for a sample and detection items.

The invention realizes the above purpose through the following technical scheme:

a binding method of a sample and a detection item is executed by a detection server and comprises the following steps:

receiving an order information acquisition request sent by a code scanning device, wherein the order information acquisition request comprises a sample label of a first sample;

acquiring a consignment list to which a first sample belongs according to a sample label, and acquiring consignment list information corresponding to the consignment list, wherein the consignment list information comprises consignment information, sample information and detection item information;

determining a sample set to be bound corresponding to the order, wherein the sample set to be bound comprises all samples to be bound corresponding to the order;

determining a first detection item set corresponding to the order;

transmitting an order information acquisition response to the code scanning device based on the order information acquisition request transmitted by the code scanning device, wherein the order information acquisition response comprises order information, a sample set to be bound and a first detection item set;

Acquiring a sample binding request sent by a code scanning device, wherein the sample binding request comprises a second sample set and a second detection item set selected by a user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

and establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set, and updating the state of each sample in the second sample set to be a bound state.

The further scheme is that the method for determining the sample set to be bound corresponding to the order specifically comprises the following steps: and determining the sample in the received state corresponding to the order as a sample to be bound, and determining all the samples to be bound corresponding to the order as a sample set to be bound corresponding to the order.

The determining the first detection item set corresponding to the order specifically comprises the following steps: and determining all detection items included in the order as a first detection item set.

The determining the first detection item set corresponding to the order specifically comprises the following steps: and determining all detection items which correspond to the order and meet the first preset rule as a first detection item set, wherein the first preset rule is a preset specific rule.

All detection items meeting a first preset rule, which are included in the order, are determined to be a first detection item set, specifically: and determining all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, as a first detection item set.

Further, the method for establishing the binding relation between each sample in the second sample set and each detection item in the second detection item set includes: and establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a preset specific rule different from the first preset rule.

Further, if the detection items corresponding to the order include the sample types, the sample numbers and the test orders of the samples to be detected of the detection items, the second preset rule is that the sum of the sample numbers of all the detection items with the same test orders and the same sample types is smaller than the model number of the sample types.

The second preset rules include any one of the following and combinations thereof: the test sequence of the latest detected items of the target sample should be smaller than the test sequence of the target detection items; or alternatively, the first and second heat exchangers may be,

the number of the bound samples of the target detection item is smaller than the number of the bound samples of the target detection item; or alternatively, the first and second heat exchangers may be,

the sample model of the target sample is the same as the sample model required for the test item.

The second aspect of the present invention provides a binding method for a sample and a detection item, which is executed by a code scanning device, and includes the following steps:

Scanning a sample label of a first sample, wherein the first sample is a sample to be bound;

sending an order information acquisition request to a detection server according to the sample label;

receiving an order information acquisition response sent by a detection server, wherein the order information acquisition response comprises order information, a sample set to be bound and a first detection item set;

acquiring a sample binding request sent by a user, wherein the sample binding request comprises a second sample set and a second detection item set selected by the user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

and sending a sample binding request sent by a user to the detection server.

A third aspect of the present invention provides a detection server, including:

the receiving module is used for receiving an order information acquisition request sent by the code scanning device, wherein the order information acquisition request comprises a sample label of the first sample; the sample binding request comprises a second sample set and a second detection item set, wherein the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

The acquisition module is used for acquiring the order form information corresponding to the order form according to the order form of the first sample, wherein the order form information comprises order information, sample information and detection item information;

the first determining module is used for determining a sample set to be bound corresponding to the order, wherein the sample set to be bound comprises all samples to be bound corresponding to the order;

the second determining module is used for determining a first detection item set corresponding to the order;

the code scanning device comprises a code scanning device, a transmitting module and a code scanning device, wherein the code scanning device is used for scanning code, and the code scanning device is used for scanning code;

and the binding module is used for establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set, and updating the state of each sample in the second sample set into a bound state.

The first determining module is used for determining that the sample in the received state corresponding to the order is the sample to be bound, and determining that all the samples to be bound corresponding to the order are the sample set to be bound corresponding to the order.

The second determining module is further configured to determine that all detection items included in the order are the first detection item set.

The second determining module is used for determining that all detection items which meet a first preset rule and correspond to the order form are a first detection item set, and the first preset rule is a preset specific rule.

The second determining module is used for determining that all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, are the first detection item set.

The binding module establishes a binding relationship between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a preset specific rule different from the first preset rule.

Further, the second preset rule includes any one or a combination of the following: the test sequence of the latest detected items of the target sample should be smaller than the test sequence of the target detection items; or alternatively, the first and second heat exchangers may be,

A fourth aspect of the present invention provides a code scanning device, including:

the code scanning module is used for scanning a sample label of a first sample, wherein the first sample is a sample to be bound;

the sending module is used for sending an order information acquisition request to the detection server according to the sample label;

the receiving module is used for receiving the order information acquisition response sent by the detection server; the order information acquisition response comprises order information, a sample set to be bound and a first detection item set;

the interaction module is used for acquiring a sample binding request sent by a user, wherein the sample binding request comprises a second sample set and a second detection item set selected by the user; the second sample set is a subset of the sample set to be bound; the second detection item set is a subset of the first detection item set;

and the sending module is also used for sending a sample binding request sent by the user to the detection server.

A fifth aspect of the present invention provides an electronic device, comprising: a processor, a memory for storing a processor executable computer program, the processor implementing the following method by running the executable computer program:

acquiring a delegate list to which a first sample belongs according to a sample label, and acquiring delegate list information corresponding to the delegate list, wherein the delegate list information comprises delegate information, sample information and detection item information;

determining a first detection item set corresponding to the order;

and establishing a binding relationship between each sample in the second sample set and each detection item in the second detection item set. The state of each sample in the second set of samples is updated to a bound state.

A sixth aspect of the invention provides a computer readable storage medium comprising a stored computer program which when executed by a processor performs the method steps of:

acquiring order information corresponding to an order to which a first sample belongs according to a sample label, wherein the order information comprises order information, sample information and detection item information;

determining a first detection item set corresponding to the order;

A seventh aspect of the present invention provides an electronic device, comprising: a processor, a memory for storing a processor executable computer program, the processor implementing the steps of the method by running the executable computer program:

and sending a sample binding request sent by a user to the detection server.

An eighth aspect of the present invention provides a computer readable storage medium comprising a stored computer program which when executed by a processor performs the steps of:

and sending a sample binding request sent by a user to the detection server.

The invention has the beneficial effects that:

according to the method, the device and the equipment for binding the sample and the detection item, a user scans the sample label of the sample to be bound, corresponding order information is obtained through the sample label, the sample set to be bound and the item set to be detected are determined, and binding between each sample in the sample set to be bound and each detection item in the item set to be detected is automatically completed through a preset rule by a detection server, so that the items are fast bound under the detection scene of large sample quantity to be detected and a large number of items to be detected, and the manual workload is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following description will briefly explain the practical drawings required in the embodiments or the prior art description, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a flowchart of a method for binding a sample and a detection item applicable to a detection server in an embodiment of the present invention;

FIG. 2 is a flowchart of a method for binding a sample and a detection item suitable for a code scanning device according to an embodiment of the present invention;

FIG. 3 is a block diagram of a detection server according to an embodiment of the present invention;

fig. 4 is a block diagram of a code scanning device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, based on the examples herein, which are within the scope of the invention as defined by the claims, will be within the scope of the invention as defined by the claims.

First, the implementation scene of the invention is described: typical inspection scenarios involve customers, inspection institutions, inspection personnel of inspection institutions, and inspection systems. The client is an organization or a person entrusting the detection mechanism to detect and authenticate the sample; the detection mechanism may include different departments or divisions, such as: the system comprises a sample management room, an environment and service life laboratory, an electromagnetic compatibility laboratory, a RoHS and physicochemical laboratory, a safety laboratory and other departments, wherein each department or department is responsible for detecting different detection projects. The inspection staff is the staff of the inspection institution, which is entrusted by the customer to the inspection certification of the sample.

The detection system consists of a client entrusting end, a code scanning device, a detection service end and a detection front end. The client entrusting end is used for detecting and authenticating the product by the client entrusting detection center, and the client entrusting end can be a webpage end suitable for the use of a client or a mobile application suitable for the use of the client and installed on the mobile computing equipment. The code scanning device can be a bar code scanner, an RFID reader, a palm computer PDA such as a POS machine and the like, and can also be mobile computing equipment such as a smart phone, a tablet personal computer and the like. The code scanning device may be provided with a detection application for a detection person of the detection mechanism, the detection application having a code scanning function. The code scanning device can be one or a plurality of code scanning devices. Each code scanning device corresponds to different detection departments. The detection server may be a physical server, a cloud server, a server cluster, or other computing devices, and is configured to process detection service logic of the detection system. The detection front end is an interface for interaction between a detection person and a detection service end of the detection mechanism, and can be a webpage end suitable for the detection person of the detection mechanism or a mobile application on a mobile computing device suitable for the detection person of the detection mechanism. The code scanning device and the detection front end can be the same device or different devices.

In a typical testing scenario, a customer submits an order to a testing authority for testing certification of its samples/products through a customer client. The detection mechanism reviews the order submitted by the customer and decides whether to accept the order. After the detection mechanism receives the entrusted samples, a detection personnel of the detection mechanism assigns unique sample numbers and sample labels to each received sample. And a detection personnel of the detection mechanism sequentially detects or inspects the items required to be detected or inspected by the sample and gives a corresponding report.

FIG. 1 is a flowchart of a method for binding a sample to a test item, which is suitable for a test server, according to an exemplary embodiment. As shown in fig. 1, a method for binding a sample and a detection item is provided, which is executed by a detection server, and the method includes the steps of:

s101, receiving an order information acquisition request sent by a code scanning device, wherein the order information acquisition request comprises a sample label of a first sample;

in particular, the sample label is one of a bar code, a two-dimensional code and an RFID electronic label, the sample label comprises a sample number of a first sample, and the sample number is unique in an order or is unique in a detection system applying the method or the device or is unique between the detection system and an interactive IT system thereof.

Preferably, the sample tag includes a two-dimensional code, where the two-dimensional code may include basic information of the sample, and may also include a resource locator URI, through which the basic information of the sample may be obtained, and/or order information corresponding to the sample, and/or detection item information corresponding to the sample;

in particular, the sample label may include, in addition to the two-dimensional code, one or any combination of a sample number, an order unit, an order time, and a distribution department, so that a detector can obtain basic information of the sample or the order through the sample label.

Preferably, a detector scans a sample label of a first sample through a code scanning device, the code scanning device analyzes the sample label of the first sample, a request is initiated to a detection server through a resource locator URI obtained through analysis, and the request is used as an order information acquisition request sent to the detection server by the code scanning device.

S102, acquiring order information corresponding to the order according to the order to which the first sample belongs, wherein the order information comprises order information, sample information and detection item information;

S103, determining a sample set to be bound corresponding to the order, wherein the sample set to be bound comprises all samples to be bound corresponding to the order;

s104, determining a first detection item set corresponding to the order;

s105, transmitting an order information acquisition response to the code scanning device based on the order information acquisition request transmitted by the code scanning device, wherein the order information acquisition response comprises the order information, the sample set to be bound and the first detection item set;

s106, acquiring a sample binding request sent by a code scanning device, wherein the sample binding request comprises a second sample set and a second detection item set selected by a user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

and S107, establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set, and updating the state of each sample in the second sample set to be a bound state.

In a certain embodiment, the determining the sample set to be bound corresponding to the order specifically includes: and determining the sample in the received state corresponding to the order as a sample to be bound, and determining all the samples to be bound corresponding to the order as a sample set to be bound corresponding to the order.

In an embodiment, the determining the first detection item set corresponding to the order specifically includes: and determining all detection items included in the order as a first detection item set.

In an embodiment, the determining the first detection item set corresponding to the order specifically includes: determining that all detection items, corresponding to the order, meeting a first preset rule are a first detection item set, wherein the first preset rule is a specific rule preconfigured by a system, for example, if each detection item, corresponding to the order, comprises the number of bound samples and the number of samples to be bound, the first preset rule is that the number of the bound samples of the detection items is smaller than the number of the samples to be bound of the detection items.

Further, the determining that all detection items included in the order and meeting the first preset rule are a first detection item set specifically includes: and determining all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, as a first detection item set.

In one embodiment, the establishing a binding relationship between each sample in the second sample set and each test item in the second test item set includes: and establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a specific rule which is preset by a system and is different from the first preset rule, for example, if the detection item corresponding to the order includes a sample model number, a sample number and a test sequence of the sample to be detected of the detection item, the second preset rule is that the sum of the sample number of all the detection items with the same test sequence and the same sample model number is smaller than the model number of the sample model. Or,

The second preset rule includes any one of the following and combinations thereof: the test sequence of the latest detected items of the target sample should be smaller than the test sequence of the target detection items; or alternatively, the first and second heat exchangers may be,

According to the embodiment, through the sample label to be bound by the code scanning of the user, corresponding order information is obtained through the sample label, the sample set to be bound and the item set to be detected are determined, and through the preset specific rule, binding between each sample in the sample set to be bound and each detection item in the item set to be detected is automatically completed by the detection server, so that the items are fast bound under the detection scene of large sample quantity to be detected and more items to be detected, and the manual workload is reduced.

FIG. 2 is a flowchart of a method for binding a sample to a test item, which is suitable for a code scanner, according to an exemplary embodiment. As shown in fig. 2, a binding method of a sample and a detection item is provided, which is executed by a code scanning device, and the method includes the steps of:

s201, scanning a sample label of a first sample, wherein the first sample is a sample to be bound;

S202, sending an order information acquisition request to a detection server according to the sample label;

s203, receiving an order information acquisition response sent by a detection server, wherein the order information acquisition response comprises the order information, the sample set to be bound and the first detection item set;

s204, acquiring a sample binding request sent by a user, wherein the sample binding request comprises a second sample set and a second detection item set selected by the user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

s205, sending a sample binding request sent by a user to a detection server.

FIG. 3 is a block diagram of a detection server in an exemplary embodiment; as shown in fig. 3, a detection server 30 is provided, where the detection server 30 includes the following modules:

a receiving module 301, configured to receive an order information acquisition request sent by a code scanning device, where the order information acquisition request includes a sample tag of a first sample;

the acquiring module 302 is configured to acquire, according to the sample tag, a order to which the first sample belongs, and acquire order information corresponding to the order, where the order information includes order information, sample information, and detection item information;

A first determining module 303, configured to determine a to-be-bound sample set corresponding to the order, where the to-be-bound sample set includes all to-be-bound samples corresponding to the order;

a second determining module 304, configured to determine a first detection item set corresponding to the order;

a sending module 305, configured to send an order information acquisition response to the code scanning device based on an order information acquisition request sent by the code scanning device, where the order information acquisition response includes the order information, the sample set to be bound, and the first detection item set;

the receiving module 301 is further configured to obtain a sample binding request sent by the code scanning device, where the sample binding request includes a second sample set and a second detection item set selected by a user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

and a binding module 306, configured to establish a binding relationship between each sample in the second sample set and each detection item in the second detection item set, and update the state of each sample in the second sample set to be a bound state.

In an embodiment, the first determining module 303 is specifically configured to: determining a sample in a received state corresponding to the order as a sample to be bound; and determining all to-be-bound samples corresponding to the order as a to-be-bound sample set corresponding to the order.

In an embodiment, the second determining module 304 is specifically configured to: and determining all detection items included in the order as a first detection item set.

In an embodiment, the second determining module 304 is specifically configured to: determining that all detection items, corresponding to the order, meeting a first preset rule are a first detection item set, wherein the first preset rule is a specific rule preconfigured by a system, for example, if each detection item, corresponding to the order, comprises the number of bound samples and the number of samples to be bound, the first preset rule is that the number of the bound samples of the detection items is smaller than the number of the samples to be bound of the detection items.

Further, the second determining module 304 is specifically configured to: and determining all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, as a first detection item set.

In one embodiment, the binding module 306 is specifically configured to: and establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a specific rule which is preset by a system and is different from the first preset rule, for example, if the detection item corresponding to the order includes a sample model number, a sample number and a test sequence of the sample to be detected of the detection item, the second preset rule is that the sum of the sample number of all the detection items with the same test sequence and the same sample model number is smaller than the model number of the sample model. Or,

The second preset rule includes any one or combination of the following: the test sequence of the latest detected items of the target sample should be smaller than the test sequence of the target detection items; or alternatively, the first and second heat exchangers may be,

FIG. 4 is a block diagram of a code scanning device in an exemplary embodiment; as shown in fig. 4, a code scanning device 40 is provided, where the code scanning device 40 includes:

the code scanning module 401 is configured to scan a sample tag of a first sample, where the first sample is a sample to be bound;

a sending module 402, configured to send an order information acquisition request to a detection server according to the sample tag;

the receiving module 403 is configured to receive an order information acquisition response sent by the detection server, where the order information acquisition response includes the order information, the sample set to be bound, and the first detection item set;

the interaction module 404 is configured to obtain a sample binding request sent by a user, where the sample binding request includes a second sample set and a second detection item set selected by the user, the second sample set is a subset of the sample set to be bound, and the second detection item set is a subset of the first detection item set;

The sending module 402 is further configured to send a sample binding request sent by the user to the detection server.

In one embodiment, an electronic device is provided, comprising: a processor, a memory for storing a processor executable computer program, wherein the processor is configured to implement the following method by running the executable computer program:

acquiring order information corresponding to an order to which the first sample belongs according to the sample label, wherein the order information comprises order information, sample information and detection item information;

determining a first detection item set corresponding to the order;

transmitting an order information acquisition response to the code scanning device based on an order information acquisition request transmitted by the code scanning device, wherein the order information acquisition response comprises the order information, the sample set to be bound and the first detection item set;

In a certain embodiment, a computer readable storage medium is provided, on which a computer program is stored, which computer program, when being executed by a processor, carries out the steps of the method of:

Determining a first detection item set corresponding to the order;

scanning a sample label of the first sample; the first sample is a sample to be bound;

Sending a request for acquiring order information to a detection server according to the sample label;

receiving an order information acquisition response sent by a detection server, wherein the order information acquisition response comprises the order information, the sample set to be bound and the first detection item set;

and sending a sample binding request sent by a user to the detection server.

In a certain embodiment, a computer readable storage medium is provided, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, performs the steps of the method of:

and sending a sample binding request sent by a user to the detection server.

The foregoing is merely illustrative embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think about variations or substitutions within the technical scope of the present invention, and the invention should be covered. Therefore, the protection scope of the invention is subject to the protection scope of the claims. In addition, the specific features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described further. Moreover, any combination of the various embodiments of the invention can be made without departing from the spirit of the invention, which should also be considered as disclosed herein.

Claims

1. The binding method of the sample and the detection item is executed by the detection server and is characterized by comprising the following steps:

determining a first detection item set corresponding to the order;

2. The method for binding a sample to a test item according to claim 1, wherein: the method for determining the sample set to be bound corresponding to the order specifically comprises the following steps: determining that the sample in the received state corresponding to the order is a sample to be bound, and determining that all the samples to be bound corresponding to the order are a sample set to be bound corresponding to the order;

the determining the first detection item set corresponding to the order specifically comprises the following steps: determining all detection items included in the order as a first detection item set;

the determining the first detection item set corresponding to the order specifically comprises the following steps: determining all detection items which correspond to the order and meet a first preset rule as a first detection item set, wherein the first preset rule is a preset specific rule;

all detection items meeting a first preset rule, which are included in the order, are determined to be a first detection item set, specifically: determining all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, as a first detection item set;

Establishing a binding relationship between each sample in the second sample set and each detection item in the second detection item set, including: establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a preset specific rule different from the first preset rule;

if the detection items corresponding to the order include the sample types, the sample numbers and the test orders of the samples to be detected of the detection items, the second preset rule is that the sum of the sample numbers of all the detection items with the same test orders and the same sample type requirements should be smaller than the model number of the sample types;

3. The binding method of the sample and the detection item is executed by a code scanning device and is characterized by comprising the following steps:

and sending a sample binding request sent by a user to the detection server.

4. A detection server, comprising:

5. The detection server according to claim 4, wherein: the first determining module is used for determining that the sample in the received state corresponding to the order is a sample to be bound, and determining that all the samples to be bound corresponding to the order are a sample set to be bound corresponding to the order;

The second determining module is used for determining all detection items included in the order as a first detection item set; or alternatively, the first and second heat exchangers may be,

the second determining module is used for determining that all detection items which meet a first preset rule and correspond to the order form are a first detection item set, and the first preset rule is a preset specific rule; or alternatively, the first and second heat exchangers may be,

the second determining module is used for determining that all detection items, of which the number of bound samples of the detection items corresponding to the order is smaller than the number of samples to be bound of the detection items, are a first detection item set;

the binding module is used for establishing a binding relation between each sample in the second sample set and each detection item in the second detection item set according to a second preset rule, wherein the second preset rule is a preset specific rule different from the first preset rule;

6. A code scanning device, comprising:

7. An electronic device, comprising: a processor, a memory for storing a processor executable computer program, the processor implementing the following method by running the executable computer program:

determining a first detection item set corresponding to the order;

8. A computer readable storage medium comprising a stored computer program, characterized in that the method steps implemented when the computer program is executed by a processor are as follows:

determining a first detection item set corresponding to the order;

9. An electronic device, comprising: a processor, a memory for storing a processor executable computer program, the processor implementing the steps of the method by running the executable computer program:

and sending a sample binding request sent by a user to the detection server.

10. A computer readable storage medium comprising a stored computer program, characterized in that the computer program when executed by a processor performs the steps of the method of:

and sending a sample binding request sent by a user to the detection server.