CN111798945A - Detection system, detection method and platform - Google Patents

Abstract

The embodiment of the specification discloses a detection system, a detection method and a platform, wherein the system comprises a sample device, the platform, a client and identification code replacement equipment; the sample device is provided with a first identification code in advance and used for bearing a detection sample of a user; the client is used for sending a detection request to the platform, identifying a first identification code on the sample device and sending the identified first identification code to the platform; the platform is used for generating a detection order based on the detection request, carrying out first association processing on the received first identification code and the detection order, wherein the detection order comprises a detection order number and detection demand information, and carrying out second association processing on the detection order number and the detection demand information and a second identification code on the sample device; the identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

Description

Detection system, detection method and platform

Technical Field

The present invention relates to the field of detection technologies, and in particular, to a detection system, a detection method, and a platform.

Background

In recent years, detection technologies have been rapidly developed, and personal health detection, identity authentication, and the like are becoming more and more popular. However, the detection information obtained by the user detection usually contains a large amount of information about the human body, so that the information protection in the detection process becomes a problem of great concern to the user.

For example, for the gene detection which is developed rapidly at present, the gene contains a large amount of information of human body, which is the maximum privacy inherent to human, and the gene information exposure means the personal and relative identity, relationship, genetic information, physiological and disease information and personal feature exposure. Once disclosed, the privacy of the genes can cause adverse effects on work, school, medical treatment, insurance, life and even survival of a person, but at present, the privacy of consumers is revealed.

At present, when a consumer selects a detection company to perform gene detection, the consumer submits a biological sample and personal information such as name, identification number, home address, mobile phone number and the like to the detection company. Whether the residual DNA sample is destroyed or not is the consumer obtains the gene detection result; whether the detection company uses the residual gene samples to carry out other gene detection or not is detected; whether the detection company provides the detection result of the detected person and the gene sample to other parties or not is detected; whether the detection company applies the detection result to scientific research or not; except for the person, the third party, including whether the public authority obtains the gene data and the gene detection result of the person, is not controlled. The above-mentioned problems may make it difficult to effectively protect the user detection information, and therefore how to improve the protection of the user detection information becomes an urgent technical problem to be solved.

Disclosure of Invention

An object of the embodiments of the present specification is to provide a detection system, a detection method, and a platform, which effectively reduce the risk of user detection information leakage.

The specification provides a detection system, a detection method and a platform, which are realized by the following modes:

the detection system comprises a sample device, a platform, a client and identification code replacement equipment, wherein a first identification code is preset on the sample device, and the sample device is used for bearing a detection sample of a user. The client is used for sending a detection request to the platform, identifying a first identification code on the sample device and sending the identified first identification code to the platform. The platform is used for generating a detection order based on the detection request, carrying out first association processing on the received first identification code and the detection order, wherein the detection order comprises a detection order number and detection demand information, and carrying out second association processing on the detection order number and the detection demand information and a second identification code on the sample device. The identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

On the other hand, the embodiment of the present specification further provides a detection system, the system includes a sample device, a client, and an identification code replacement device, where the sample device is preset with a first identification code, and the sample device is used for holding a detection sample of a user. The platform is used for generating a detection order based on a detection request sent by a client, performing first association processing on a received first identification code and the detection order, and performing second association processing on a detection order number and detection demand information and a second identification code on the sample device, wherein the detection order number comprises the detection order number and the detection demand information, and the first identification code is obtained by identifying the first identification code on the sample device by the client. The identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

In another embodiment of the method provided by the present specification, the sample device includes a body and a cover, the outer wall of the body at a portion matching with the cover is provided with a limited-row tooth, the cover is detachably connected with a rotation stop ring, and the inner wall of the rotation stop ring is provided with a non-return tooth engaged with the limited-row tooth.

In another embodiment of the method provided by the present disclosure, the limit tooth has a lead-in slope and a stop face, and the no-return tooth has a slip-in slope and a catching face. When the cover body is rotated along the buckling direction by performing a rotating operation, the sliding tangent plane slides on the guide slope; when the cover body has the tendency of rotating along the shackle direction, the hanging surface is abutted against the stop surface.

In another embodiment of the method provided in this specification, the first identification code or the second identification code is provided on an outer surface of the cover.

In another embodiment of the method provided in this specification, an RFID tag is disposed on an outer surface of the cover, and the first identification code is disposed on a front surface of the RFID tag facing away from the cover.

In another embodiment of the method provided herein, the first identification code has a coating disposed thereon.

In another embodiment of the method provided in this specification, the platform is further configured to receive a detection report uploaded based on the second identification code, encrypt the detection report based on a preset encryption algorithm, and store the encrypted detection report in the detection order.

In another embodiment of the method provided in this specification, the platform is further configured to send a detection report to the client based on a decryption password sent by the client, where the decryption password is generated in advance by the platform and stored in the detection order.

In another embodiment of the method provided in this specification, the platform is further configured to delete the detection report based on a detection report deletion request sent by a client or based on a preset time.

On the other hand, an embodiment of the present specification further provides a detection method based on the system according to any one of the above embodiments, where the method includes: the method comprises the steps that a platform obtains a detection request sent by a client side, and generates a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information. And the platform performs first association processing on the received first identification code and the detection order, wherein the first identification code is obtained by identifying the first identification code on the sample device by the client. The identification code replacing device fixes a second identification code on a sample device bearing a detection sample, and the platform carries out second association processing on the detection order number and the detection demand information and the second identification code. And the identification code replacing equipment destroys the first identification code on the sample device after the second association processing so that the detection party carries out detection on the sample device after the first identification code is destroyed.

In another aspect, embodiments of the present specification further provide a platform including at least one processor and a memory storing computer-executable instructions, the instructions when executed by the processor implement the following method steps: the method comprises the steps of obtaining a detection request sent by a client side, and generating a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information. And performing first association processing on the received first identification code and the detection order, wherein the first identification code is obtained by identifying the first identification code on the sample device by the client. And performing first association processing on the received first identification code and the detection order so that the identification code replacing equipment fixes a second identification code on a sample device bearing the detection sample, wherein the first identification code is obtained by identifying the first identification code on the sample device by a client. And carrying out second association processing on the detection order number and the detection demand information and the second identification code so that the identification code replacing equipment destroys the first identification code on the sample device after the second association processing, and the detection party carries out detection based on the sample device after the first identification code is destroyed.

In the detection system, the detection method and the platform provided in one or more embodiments of the present disclosure, a first identification code may be preset on a sample device obtained by a user, and the first identification code may be used to associate with a detection order. After the platform side obtains the sample device which holds the user detection sample, the platform side can identify the first identification code on the sample device to determine the detection order corresponding to the sample device. And a second identification code can be further fixed on the sample device, and the detection order number and the detection requirement information in the detection order are related to the second identification code. After the association process, the first identification code may be destroyed, and the sample device containing only the second identification code may be provided to the testing party for the testing process. The detection party can only obtain the detection order number and the detection requirement of the user, so that the correlation between the detection information and the user information is avoided, and the risk of leakage of the personal detection information is effectively reduced.

Drawings

In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only some embodiments described in the present specification, and for those skilled in the art, other drawings can be obtained according to the drawings without any creative effort. In the drawings:

FIG. 1 is a schematic structural diagram of an embodiment of a detection system provided herein;

FIG. 2 is a schematic diagram of a sample bottle in some embodiments provided herein;

fig. 3 is a schematic flow chart of an embodiment of a detection method provided in this specification.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present specification, the technical solutions in one or more embodiments of the present specification will be clearly and completely described below with reference to the drawings in one or more embodiments of the present specification, and it is obvious that the described embodiments are only a part of the embodiments of the specification, and not all embodiments. All other embodiments obtained by a person skilled in the art based on one or more embodiments of the present specification without making any creative effort shall fall within the protection scope of the embodiments of the present specification.

Fig. 1 is a schematic structural diagram of a detection system provided in an embodiment of the present disclosure. As shown in fig. 1, the system may include a sample apparatus, a platform, a client, and an identification code exchange device. The sample device can be pre-provided with a first identification code and can be used for bearing a detection sample of a user; the client can be used for sending a detection request to the platform, identifying a first identification code on the sample device, and sending the identified first identification code to the platform; the platform can be used for generating a detection order based on the detection request, performing first association processing on the received first identification code and the detection order, wherein the detection order comprises a detection order number and detection demand information, and performing second association processing on the detection order number and the detection demand information and a second identification code on the sample device; the identification code changing device can be used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

In some embodiments, the client may refer to a terminal device that a user initiates a detection requirement and acquires information such as a detection report. The client can be intelligent terminal equipment such as a mobile phone, a tablet personal computer and an intelligent watch. A platform may refer to a server or a cluster of servers on the platform side. The platform side can refer to the intermediary side where the user and the detection side interact. The user may be a consumer with a detection requirement, and the user may be a single individual or a business. The detecting side may be a detecting means for performing detection based on the obtained detection requirement information and the detection sample.

In some embodiments, the sample device can be used to house a test sample for a user. The sample device may be, for example, a sample bottle, a sample cartridge, or the like. After the user takes the sample device, the user can put the detection sample to be checked into the sample device.

In some embodiments, a first identification code may be preset on the sample device, and the first identification code may be used for information identification by a user. The first identification code may be preset on the sample device, and the sample device with the first identification code attached thereto is provided to the user by the platform side according to the detection request of the user. The first identification code can be in the form of a one-dimensional code, a two-dimensional code and the like.

The first identification code may be located on an interior surface or an exterior surface of the sample device. Preferably, in some embodiments, the first identification code may be located on an exterior surface of the sample device. By arranging the first identification code on the outer surface of the sample device, the first identification code can be conveniently destroyed by a platform side under the condition that the sample device is not opened, and the safety and the confidentiality of a user detection sample are further ensured.

The first identification code can be engraved on the sampling device and also can be printed on a label, and the label is fixed on the sampling device in a sticking mode and the like. Of course, in specific implementation, the first identification code may also be fixed to the sampling device in other manners, which is not limited herein.

In some embodiments, the client may be configured to send a detection request to the platform. The detection request may include user information, detection requirements, and the like. For example, in some implementation scenarios, when a user needs to perform detection, the user may click a detection APP (Application, mobile Application) on the mobile phone, open the detection APP, log in by using a user name and a password of a pre-registered number of the user, then input information such as a detection requirement of the user, click and submit, and the mobile phone may generate the detection request and send the detection request to the platform.

After receiving the inspection request, the platform may generate an inspection order based on the inspection request. The inspection order may include information such as an inspection order number, user information, inspection requirements, and the like. The detection order number may be used to identify the detection process. The platform can feed back the generated detection order information to the client, and the client can display the detection order information to the user.

After generating the test order information, the platform side may provide the sample device to the user. The sample device can be placed in a fixed place by a platform side, and a user can go to the fixed place to take the sample device by means of a detection order number. The fixed place can be for platform side entity experience shop, intelligent cabinet etc. in each place, the intelligent cabinet can be for the storage cabinet that platform side is used for placing the sample device. The user can go to a convenient fixed place to take by himself by detecting the order number. In some embodiments, the user information may also include user address information from which the platform party may mail the sample device to the user.

After the user takes the sample device, the client can be used for shooting the first identification code on the sample device to obtain an image of the first identification code, then the first identification code can be identified based on the image of the first identification code, and identification code information obtained through identification is sent to the platform. The platform may perform a first association process on the received first identification code and the inspection order, and store the first identification code in association with the inspection order.

The user may then provide the sample device bearing the test sample to the platform. In some embodiments, the user may place the sample device in a fixed location, such as a smart cabinet or platform-side experience store. For example, the user places the sample device in the intelligent cabinet, and the platform side may take the sample device away from the intelligent cabinet according to information fed back by the user or information fed back by the intelligent cabinet, and the like. In other embodiments, the platform may, upon associating the first identification code with the test order, feedback to the client a shipping address from which the user may mail the sample device bearing the test sample to the platform party.

In some embodiments, the identification code exchange device may be configured to secure a second identification code on a sample device containing a test sample, and to destroy the first identification code on the sample device after the second association process. The identification code replacing device can be a marking machine or the like.

The platform side may further fix the second identification code on the sample apparatus using the identification code exchange device after receiving the sample apparatus. In some embodiments, the second identification code may be in the form of a one-dimensional code, a two-dimensional code, or the like. The first identification code and the second identification code may be in the same form or different forms. Preferably, in some embodiments, the first identification code and the second identification code may be set to be in different forms, so that the platform side can distinguish the first identification code from the second identification code during the identification code conversion process, thereby reducing the probability of incorrect operation.

The second identification code may be located on an exterior or interior surface of the sample device. Preferably, in some embodiments, the second identification code may be located on an outer surface of the sample device, so that the platform side can fix the second identification code on the sample device without opening the sample device, further ensuring the confidentiality and safety of the detection.

After the platform side takes the sample device which is provided with the detection sample, the first identification code on the sample device can be identified, and the detection order information of the sample device is obtained according to the identification code information obtained through identification. Then, the platform can identify the second identification code on the sample device, acquire the identified second identification code, and store the second identification code in association with the detection order number and the detection demand information in the detection order information.

Then, the platform side can destroy the first identification code by means of erasing, destroying and the like by utilizing the identification code replacing equipment, so that the first identification code cannot be successfully identified any more, and the detection device only with the second identification code is provided for the detection side, so that the detection side can only obtain the detection order number and the detection requirement of the user, thereby avoiding the association between the detection information and the personal information of the user, and realizing the protection of the privacy information of the user.

In some embodiments provided by the present disclosure, the sample device may include a body and a cover body, and the sample device may be designed in a form that the cover body and the body are not openable unless the cover body is disassembled by violence after the user seals the cover body, so that the sample in the detection sample collection container can be prevented from being replaced on the way of being mailed to the detection mechanism, and the detection safety can be further improved. Preferably, in some embodiments, the sample device may include a body and a cover, the outer wall of the portion of the body that is engaged with the cover is provided with a limited row of teeth, the cover is detachably connected with a rotation stop ring, and the inner wall of the rotation stop ring is provided with a non-return tooth that is engaged with the limited row of teeth.

The structure of the sample device will be described in detail by taking a sample bottle as an example. For convenience of description, a body of the sample device may be referred to as a bottle body, a cover of the sample device may be referred to as a bottle cap, and a portion of the body, which is engaged with the cover, may be referred to as a bottle mouth. FIG. 2 illustrates a schematic diagram of a sample bottle provided in some embodiments of the present disclosure. As shown in fig. 2, the sampling bottle may include a bottle body 1 and a bottle cap 2, wherein a cavity inside the bottle body may be used for accommodating a test sample, and the bottle cap 2 may be matched with a bottle opening 101 to seal the cavity inside the bottle body. The bottle cap 2 and the bottle mouth 101 may be connected by means of threads or the like.

The outer wall of the lower end of the mouth 101 may be provided with a plurality of limiting teeth 102, the outer wall of the lower end of the mouth 101 may be radially outwardly formed into an annular boss 103, and the limiting teeth 102 may be arranged on the outer wall of the annular boss 103.

The lower end of the bottle cap 2 is detachably connected with a rotation stopping ring 3, the diameter of the rotation stopping ring is slightly larger than that of the bottle cap 2, and the rotation stopping ring and the bottle cap can be connected through a plurality of connecting strips 4 which are evenly distributed along the circumferential direction. And, the plurality of connecting strips 4 can be broken by the external force, so that the bottle cap 2 and the rotation stopping ring 3 are broken or separated. The inner wall of the rotation stop ring 3 may be provided with non-return teeth (not shown) engaging with the limit teeth 102, which cooperate with the limit teeth 102 to inhibit rotation of the closure 2 in the shackle direction.

In other embodiments, the limiting tooth 102 may further include a guiding slope and a stopping slope, and the non-return tooth may further include a sliding slope and a hanging surface. Wherein, the guide inclined plane and the slip tangent plane are inclined towards the upper buckle direction. And the stop surface and the hanging surface can be vertical surfaces which are vertical to the screwing-on or unscrewing direction or vertical to the circumferential direction of the rotation stopping ring 3. When the bottle cap 2 is rotated in the direction of the upper thread by the rotation operation, the sliding surface can slide on the guiding slope, thereby realizing the screwing of the bottle cap 2. When the bottle cap 2 tends to rotate along the direction of the shackle, the hanging surface is pressed against the stop surface to stop the rotation of the bottle cap along the direction of the shackle.

After the detection party receives the sample device containing the detection sample, the detection sample contained in the sample device needs to be taken out, at the moment, the bottle cap 2 needs to be opened, and due to the restraining effect of the rotation stopping ring 3 and the abutting force of the hanging-connection surface on the rotation stopping ring 3 to the stop surface on the bottle opening 101, the rotation of the bottle cap 2 in the unscrewing direction is temporarily limited. The staff need exert great reverse action force, is greater than the intensity of connecting strip 4 to this reverse action force, just makes connecting strip 4 fracture, and then makes the rotatory circle 3 that splines of restraining bottle lid 2 along the direction of breaking out and 2 disconnected taking off with the bottle lid, and the bottle lid 2 realizes breaking out and opens. After the bottle cap is opened, the connecting strip 4 and the rotation stop ring 3 are both damaged. Accordingly, the testing party can determine whether the test sample is replaced by testing whether the connection strip 4 and the stop-rotation ring 3 are intact.

The first identification code and the second identification code can be arranged on the cover body and also can be arranged on the body. Preferably, the first identification code and the second identification code may be disposed on the cover. If the cover body is damaged in the transportation process, a destructor needs to utilize a new cover body to seal the sample device, but the newly replaced cover body cannot realize effective association with the detection information in the platform because the first identification code and the second identification code are arranged on the cover body. Correspondingly, the platform side and the detection side can determine whether the detection sample is replaced by checking whether the bottle cap is intact and whether the first identification code or the second identification code is intact, so that the authenticity of the sample is ensured.

In some embodiments of the present description, the outer surface of the cover body may be provided with an RFID tag, and the first identification code may be provided on a front surface of the RFID tag facing away from the cover body.

An RFID (Radio Frequency Identification) tag may be fixed to an outer surface of the cover body by means of adhesion or the like. The RFID tag includes an RFID chip and an antenna, the RFID antenna employing a fragile antenna that is not easily transferred. The RFID chip writes content including, but not limited to, numbers, letters, web addresses, etc. Different RFID tags have different contents written therein. And the written content is encrypted, and can be read only by specially developed code reading equipment knowing the label encryption form.

The first identification code may be formed on the front surface of the RFID tag by means of printing, pasting, or the like. The first identification code may include an identifier for uniquely identifying the first identification code, corresponding to a code of the first identification code. Each first identification code has a unique identifier.

The identifier of the first Identification code, the content written in the RFID label and the UID (User Identification) number are associated with each other and are in one-to-one correspondence. In some embodiments, the one-to-one correspondence between the identifier of the first identification code, the content written by the RFID tag, and the UID number may be stored in the platform in the form of a data table shown in table 1. Table 1 shows a correspondence table between data generated by the first identification code, content written by the RFID tag, and the UID number. One column of the data table stores an identifier of the first identification code, the other column stores the content written by the RFID tag, and the other column stores the UID number. And the identifier of the corresponding first identification code, the content written by the RFID tag and the UID number are in the same row.

After the platform side receives the sample device, the scanning equipment scans the first identification code and analyzes the identifier of the first identification code, the RFID label write-in content and the UID number to obtain three data, and then the three data are compared with a corresponding relation table stored in the platform in advance to judge the uniqueness of the sample device and judge whether the stored sample is exchanged or not.

For example, if the obtained identifier of the first identification code is Ai, the written content of the RFID tag is Bi, and the UID number is Ci, that is, the obtained identifier of the first identification code, the written content of the RFID tag, and the UID number belong to the row i in the correspondence table, it indicates that the obtained identifier of the first identification code, the written content of the RFID tag, and the UID number have unique association, thereby indicating that the RFID tag is not tampered or damaged.

TABLE 1

Identifier of first identification code	RFID tag write content	UID number
			A1	B1	C1
A2	B2	C2
				…	…
An	Bn	Cn

After the platform side takes the sampling device, whether the RFID label is tampered or damaged can be checked, if the RFID label is intact, the fact that the cover body with the RFID label is not damaged in the mailing process can also be shown, and the cover body and the body are not separated, so that the fact that the detection sample contained in the sampling device is not replaced is shown, and the authenticity of the sample is further guaranteed.

In other embodiments, the first identification code may be provided with a coating, and the coating may ensure the uniqueness of the first identification code. In some embodiments, the coating may further include an anti-counterfeiting pattern, and the coating may cover and obscure only a portion of the first identification code or may completely cover and obscure the first identification code. After the user takes the sample device, the coating can be inspected for integrity to confirm that the two-dimensional code has been used, and if so, the coating can be scratched off to expose the first identification code.

In other embodiments, the platform may be further configured to receive a detection report uploaded based on the second identification code, and may encrypt the detection report based on a preset encryption algorithm and store the encrypted detection report in the detection order. The client may be further configured to obtain the inspection report from the platform based on a decryption password, where the decryption password is generated in advance by the platform and stored in the inspection order.

After the detection party takes the sample device, the second identification code on the sample device can be identified, the detection order number and the detection requirement information are obtained, the detection sample loaded in the sample device is detected based on the detection requirement information, and the detection report is obtained. The detection report may then be uploaded to the platform using the detection order number obtained from the identification. The platform may store the inspection report into the inspection order for easy viewing by the user. In some embodiments, the detection report may further include the detection order number or directly include the second identification code, so as to identify the detection report, thereby facilitating the user to check the correctness of the detection report.

After the detection of the detection party is finished, the detection report can be uploaded to the platform, and the platform can encrypt the uploaded detection report based on a preset encryption algorithm and store the detection report based on the detection order number in the second identification code in the detection report. The decryption password may be a login password of the user. In some embodiments, the decryption password may be generated in advance by the platform and sent to the client, or stored in the detection order, and the user may log in an account of the user and view the decryption password in the detection order. The user can download and view the content of the detection report by means of the decryption password. By encrypting and storing the detection report, the user can decrypt and check the detection report only by means of the pre-acquired decryption password, and the confidentiality of the user privacy information can be improved.

The user can consult and download the detection report by virtue of the decryption password, and the user also needs to input the password to read the downloaded detection report when the downloaded detection report is opened. The specific contents, generation mode, storage mode and the like of the corresponding decryption password when the detection report is downloaded and the decryption password used when the detection report is opened can be the same or different. For example, a corresponding decryption password may be generated by the platform and then sent to the user client when the detection report is downloaded, and a decryption password used when the detection report is opened may be generated in advance by the platform and stored in the detection order. By setting different generation modes, storage modes and the like, the confidentiality of the user privacy information can be further improved.

In other embodiments, the platform may be further configured to delete the detection report based on a detection report deletion request sent by the client or based on a preset time. After the user views the detection report, if the user worrys that the detection report is stored on the platform and information leakage may occur, the detection report in the platform can be deleted. Or, the platform may delete the search report after a preset time for the user to view the search report, where the preset time may be set by the platform in a unified manner or may be set by the user.

In an implementation scenario provided in this specification, a user may perform anonymous registration through a WAP (wireless application Protocol) mall on an intelligent terminal, and then may initiate a detection request on the WAP mall. And the platform generates a detection order according to the detection request and mails the sampling bottle to the user based on the address information of the user. After receiving the sample bottle mailed by the platform side, the user can check whether the RFID label on the bottle cap and the coating on the first identification code are intact. If the confirmation is complete, the anti-counterfeiting coating of the sampling bottle cap can be scraped.

The method comprises the steps of logging in a personal center of a WAP (wireless application protocol) mall, clicking a camera of an intelligent terminal at a position for detecting order details, and taking a picture of a first identification code on a sampling bottle cap, wherein the first identification code can be a two-dimensional code. And recognizing the two-dimension code, and automatically filling the two-dimension code generating data into a two-dimension code data column in the detection order. The user can select the sample type corresponding to the detection sample under the order, and the two-dimensional code is associated with the detection order after clicking confirmation.

The user can put the detection sample into the sampling bottle, then seal the sampling bottle by the bottle cap, and mail the sampling bottle containing the detection sample to the platform party based on the address displayed by the platform. After the platform side receives the sampling bottle, the one-dimensional code can be further fixed on the sampling bottle by utilizing the identification code replacing equipment. The platform can discern the two-dimensional code on the sampling bottle, obtains the detection order information of this sampling bottle according to the two-dimensional code data that the discernment obtained. Then, the one-dimensional code on the sampling bottle can be identified, and the one-dimensional code is associated with the detection order number and the detection requirement information in the detection order information corresponding to the two-dimensional code. Then, the two-dimensional code on the sampling bottle can be destroyed by using the identification code replacing device, and the sampling bottle with only one-dimensional code is provided to the detecting party.

After the detection party receives the sampling bottle, the one-dimensional code of the sampling bottle body can be scanned, and the detection requirement information of the sampling bottle is displayed. The detection party can detect the detection sample according to the detection demand information, and then, the detection report can be uploaded to the platform based on the one-dimensional code. The platform may encrypt the inspection report and store it until the inspection order is placed. The user can look up and download the detection report by virtue of the password, and the downloaded report can be read only by inputting the password when being opened. The decryption password can be generated in advance by the platform and stored in the detection order, and the user logs in the account of the user to obtain the decryption password. After the detection report is downloaded, the user can select to immediately delete the detection report under the detection order or automatically delete the detection report by the platform after the detection report is uploaded for three months.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. For details, reference may be made to the description of the related embodiments of the related processing, and details are not repeated herein.

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims may be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results.

In the detection system provided by one or more embodiments of the present specification, a first identification code may be preset on a sample device obtained by a user, and the first identification code may be used to associate with a detection order. After the platform side obtains the sample device which holds the user detection sample, the platform side can identify the first identification code on the sample device to determine the detection order corresponding to the sample device. And a second identification code can be further fixed on the sample device, and the detection order number and the detection requirement information in the detection order are related to the second identification code. After the association process, the first identification code may be destroyed, and the sample device containing only the second identification code may be provided to the testing party for the testing process. The detection party can only obtain the detection order number and the detection requirement of the user, so that the correlation between the detection information and the user information is avoided, and the risk of leakage of the personal detection information is effectively reduced.

Based on the solution provided by the above system embodiment, the present specification further provides a detection system, which can be applied to a platform side, and the detection system can include a sample device, a platform, and an identification code exchange apparatus, wherein,

the sample device is provided with a first identification code in advance and used for bearing a detection sample of a user.

The platform is used for generating a detection order based on a detection request sent by a client, performing first association processing on a received first identification code and the detection order, and performing second association processing on a detection order number and detection demand information and a second identification code on the sample device, wherein the detection order number comprises the detection order number and the detection demand information, and the first identification code is obtained by identifying the first identification code on the sample device by the client.

The identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

In other embodiments of the present disclosure, the sample device may include a body and a cover, the outer wall of a portion of the body, which is engaged with the cover, is provided with a limited-row tooth, the cover is detachably connected with a rotation stop ring, and an inner wall of the rotation stop ring is provided with a non-return tooth engaged with the limited-row tooth.

In other embodiments of the present description, the limit tooth has a lead-in slope and a stop face, and the non-return tooth has a slip-in slope and a hanging face;

when the cover body is rotated along the buckling direction by performing a rotating operation, the sliding tangent plane slides on the guide slope; when the cover body has the tendency of rotating along the shackle direction, the hanging surface is abutted against the stop surface.

In other embodiments of the present description, the first identification code or the second identification code is disposed on an outer surface of the cover.

In other embodiments of the present description, an RFID tag is disposed on an outer surface of the cover, and the first identification code is disposed on a front surface of the RFID tag facing away from the cover.

In other embodiments of the present description, the first identification code has a coating disposed thereon.

In other embodiments of the present description, the platform is further configured to receive a detection report uploaded based on the second identification code, encrypt the detection report based on a preset encryption algorithm, and store the encrypted detection report in the detection order.

In other embodiments of the present description, the platform is further configured to send a detection report to the client based on a decryption password sent by the client, where the decryption password is pre-generated by the platform and stored in the detection order.

In other embodiments of the present description, the platform is further configured to delete the detection report based on a detection report deletion request sent by a client or based on a preset time.

It should be noted that the system described above may also include other embodiments. For a specific implementation, reference may be made to the description of the foregoing system embodiment, which is not described in detail herein.

Based on the solution provided by the above system embodiment, an embodiment of the present specification further provides a platform, where the platform may include at least one processor and a memory storing computer-executable instructions, and when the processor executes the instructions, the following method steps are implemented:

the method comprises the steps of obtaining a detection request sent by a client side, and generating a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information.

And performing first association processing on the received first identification code and the detection order so that the identification code replacing equipment fixes a second identification code on a sample device bearing the detection sample, wherein the first identification code is obtained by identifying the first identification code on the sample device by a client.

And carrying out second association processing on the detection order number and the detection demand information and the second identification code so that the identification code replacing equipment destroys the first identification code on the sample device after the second association processing, and the detection party carries out detection based on the sample device after the first identification code is destroyed.

The storage medium may include a physical device for storing information, and typically, the information is digitized and then stored using an electrical, magnetic, or optical media. The storage medium may include: devices that store information using electrical energy, such as various types of memory, e.g., RAM, ROM, etc.; devices that store information using magnetic energy, such as hard disks, floppy disks, tapes, core memories, bubble memories, and usb disks; devices that store information optically, such as CDs or DVDs. Of course, there are other ways of storing media that can be read, such as quantum memory, graphene memory, and so forth.

The platform may be a single detection data processing server, or may include a server cluster, a system (including a distributed system), software (applications), an actual operation device, a logic gate device, a quantum computer, etc. using one or more of the methods or one or more of the embodiment devices of the present specification, in combination with a terminal device implementing hardware as necessary.

It should be noted that the platform described above may also include other embodiments. For a specific implementation, reference may be made to the description of the foregoing system embodiment, which is not described in detail herein.

FIG. 3 is a schematic flow chart of a detection method according to further embodiments of the present disclosure. As shown in fig. 3, based on the scheme provided by the foregoing system embodiment, an embodiment of this specification further provides a detection method, where the method may include:

s302: the method comprises the steps that a platform obtains a detection request sent by a client side, and generates a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information.

S304: and the platform performs first association processing on the received first identification code and the detection order, wherein the first identification code is obtained by identifying the first identification code on the sample device by the client.

S306: the identification code replacing device fixes a second identification code on a sample device bearing a detection sample, and the platform carries out second association processing on the detection order number and the detection demand information and the second identification code.

S308: and the identification code replacing equipment destroys the first identification code on the sample device after the second association processing so that the detection party carries out detection on the sample device after the first identification code is destroyed.

In other embodiments of the present description, the platform may receive a detection report uploaded based on the second identification code, encrypt the detection report based on a preset encryption algorithm, and store the encrypted detection report in the detection order;

the client may obtain the inspection report from the platform based on a decryption password, which is generated in advance by the platform and stored in the inspection order.

It should be noted that the above-described method may also include other embodiments according to the description of the system embodiment. The specific implementation manner may refer to the description of the related system embodiment, and is not described in detail herein.

According to the detection data processing method provided by one or more embodiments of the specification, after a user takes a sample device for accommodating a detection sample, a first identification code on the sample device is identified, and the first identification code information obtained by identification is associated with a detection order. And after the platform side obtains the sample device which holds the user detection sample, associating the detection order number and the detection demand information in the detection order with the second identification code on the sample device, destroying the first identification code after the association processing, and providing the sample device only containing the second identification code for the detection side to perform the detection processing. The detection party can only obtain the detection order number and the detection requirement of the user, so that the correlation between the detection information and the user information is avoided, and the risk of leakage of the personal detection information is effectively reduced.

The embodiments of the present description are not limited to what must be consistent with a standard data model/template or described in the embodiments of the present description. Certain industry standards, or implementations modified slightly from those described using custom modes or examples, may also achieve the same, equivalent, or similar, or other, contemplated implementations of the above-described examples. The embodiments using these modified or transformed data acquisition, storage, judgment, processing, etc. may still fall within the scope of the alternative embodiments of the present description.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method or apparatus that comprises the element.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment. In the description of the specification, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the specification. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

The above description is only an example of the present specification, and is not intended to limit the present specification. Various modifications and alterations to this description will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present specification should be included in the scope of the claims of the present specification.

Claims (10)

1. A detection system, characterized in that the system comprises a sample device, a platform, a client and an identification code exchange device, wherein,

the sample device is provided with a first identification code in advance and is used for bearing a detection sample of a user;

the client is used for sending a detection request to the platform, identifying a first identification code on the sample device and sending the identified first identification code to the platform;

the platform is used for generating a detection order based on the detection request, performing first association processing on the received first identification code and the detection order, wherein the detection order comprises a detection order number and detection demand information, and performing second association processing on the detection order number and the detection demand information and a second identification code on the sample device;

the identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

2. A detection system, characterized in that the system comprises a sample device, a platform and an identification code exchange apparatus, wherein,

the sample device is provided with a first identification code in advance and is used for bearing a detection sample of a user;

the platform is used for generating a detection order based on a detection request sent by a client, performing first association processing on a received first identification code and the detection order, and performing second association processing on a detection order number and detection demand information and a second identification code on the sample device, wherein the detection order comprises the detection order number and the detection demand information, and the first identification code is obtained by identifying the first identification code on the sample device by the client;

the identification code replacing device is used for fixing a second identification code on a sample device bearing a detection sample, and destroying the first identification code on the sample device after the second association processing.

3. The system of claim 2, wherein the sample device comprises a body and a cover, the outer wall of the body at the part matched with the cover is provided with a limited-row tooth, the cover is detachably connected with a rotation stopping ring, and the inner wall of the rotation stopping ring is provided with a check tooth meshed with the limited-row tooth.

4. The system of claim 3, wherein the limit tooth has a lead-in face and a stop face, the check tooth having a slip face and a catch face;

when the cover body is rotated along the buckling direction by performing a rotating operation, the sliding tangent plane slides on the guide slope; when the cover body has the tendency of rotating along the shackle direction, the hanging surface is abutted against the stop surface.

5. The system of claim 3, wherein the first or second identification code is provided on an outer surface of the cover.

6. The system of claim 3, wherein the outer surface of the cover is provided with an RFID tag, and the first identification code is provided on a front surface of the RFID tag facing away from the cover; the first identification code is provided with a coating.

7. The system of claim 2, wherein the platform is further configured to receive a detection report uploaded based on the second identification code, encrypt the detection report based on a preset encryption algorithm, and store the encrypted detection report in the detection order; and the platform is also used for sending a detection report to the client based on a decryption password sent by the client, wherein the decryption password is generated in advance by the platform and is stored in the detection order.

8. The system of claim 7, wherein the platform is further configured to delete the detection report based on a detection report deletion request sent by a client or based on a preset time.

9. A method of detection based on the system of any one of claims 2-8, the method comprising:

the method comprises the steps that a platform obtains a detection request sent by a client side, and generates a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information;

the platform carries out first association processing on the received first identification code and the detection order, wherein the first identification code is obtained by a client through identification on the first identification code on the sample device;

the identification code replacing device fixes a second identification code on a sample device bearing a detection sample;

the platform carries out second association processing on the detection order number and the detection demand information and the second identification code;

and the identification code replacing equipment destroys the first identification code on the sample device after the second association processing so that the detection party carries out detection on the sample device after the first identification code is destroyed.

10. A platform comprising at least one processor and a memory storing computer-executable instructions, the instructions when executed by the processor implementing the method steps of:

acquiring a detection request sent by a client, and generating a detection order based on the detection request, wherein the detection order comprises a detection order number and detection demand information;

performing first association processing on the received first identification code and the detection order so that the identification code replacement equipment fixes a second identification code on a sample device bearing a detection sample, wherein the first identification code is obtained by identifying the first identification code on the sample device by a client;

and carrying out second association processing on the detection order number and the detection demand information and the second identification code so that the identification code replacing equipment destroys the first identification code on the sample device after the second association processing, and the detection party carries out detection based on the sample device after the first identification code is destroyed.

Images