CN114021592A - On/off-line system - Google Patents

Abstract

The invention provides an online/offline system, which is characterized in that: the system comprises an identification module and a circulation module; the identification module identifies an identification code on the surface of the sample storage container and acquires a transfer destination of the sample according to sample information corresponding to the identification code; and the circulation module moves the sample to a specified circulation destination according to different circulation destinations. Based on this system can realize the automatic online and offline operation of sample.

Description

On/off-line system

Technical Field

The invention provides a module which is applied to the field of analytical instruments, can run independently in a single module and can also run in an integrated assembly line operation system, and particularly relates to an online/offline system.

Background

With the progress of scientific technology and the gradual application of new technology in analytical instruments, the current analytical tests gradually realize the single-machine automation of each single test index from manual tests, and the efficiency and the quality are greatly improved. This is only a stage of development in the analytical instrument field and not the endpoint.

Based on the current state of the art, the following problems still exist:

both the sample introduction process and the rack removal process require manual operations, such as: the accuracy of the on-line sample needs to be checked manually, whether the off-line sample completes all sample tests needs to be checked manually, and in addition, the problem of how to handle the off-line sample needs to be confirmed manually.

That is to say, from the state of the prior art, artificial intervention can not be realized or is lacked, and when a large amount of samples need to be examined, the problems of missed examination, repeated examination, error detection, mistaken abandon and the like can not be avoided because a large amount of artificial sample loading, artificial checking and artificial classification need to be added in the process.

Disclosure of Invention

The invention aims to overcome the defects and provide an online and offline module which can be fully automatically carried out, completely departs from the intermediate manual steps, and can be operated by a single machine or carried on an integrated analysis system for operation.

The invention provides an online/offline system, which is characterized in that: the system comprises an identification module and a circulation module;

the identification module identifies an identification code on the surface of the sample storage container and acquires a transfer destination of the sample according to sample information corresponding to the identification code;

the circulation module moves the sample to a specified circulation destination according to different circulation destinations.

Further, the present invention provides an online/offline system, which is characterized in that:

the identification module comprises an identification mechanism;

the circulation module comprises a circulation platform;

the circulation platform is provided with a pre-detection station;

the pre-detection station is provided with an induction mechanism;

the induction mechanism is used for activating the identification mechanism after inducing that the sample enters the pre-detection station;

the identification mechanism is activated to identify the identification code on the surface of the sample storage container.

Further, the present invention provides an online/offline system, which is characterized in that:

the identification module further comprises an analysis unit;

the working flow of the analysis unit is as follows:

s1, acquiring working information of a sample corresponding to an identification code through the identification code acquired by the identification mechanism;

s2, judging the transfer destination according to the working information,

when the working information shows that the current sample is in a state to be detected, the instruction flow module enables the sample to be on-line;

and when the working information shows that the current sample is in a detection completion state, the instruction flow conversion module takes the sample off line.

Further, the present invention provides an online/offline system, which is characterized in that:

the sensing mechanism, the weight sensing element;

the analysis unit is used for verifying the sample according to the sensing result of the weight sensing element;

and when the checking result is unqualified, warning is carried out, and/or feedback and prompt are carried out at the front end of the equipment.

Further, the present invention provides an online/offline system, which is characterized in that:

the circulation platform also comprises a sample on-line station and a sample off-line station;

and the positions opposite to the sample feeding station and the sample discharging station are respectively provided with one-to-one corresponding recognition mechanisms.

Further, the present invention provides an online/offline system, which is characterized in that:

a lifting mechanism is arranged on the sample feeding station;

and/or

And a lifting mechanism is arranged on the sample off-line station.

Further, the present invention provides an online/offline system, which is characterized in that:

the circulation module comprises a circulation mechanism;

the circulation mechanism is a component with transmission, and/or grabbing, and/or guiding functions.

Further, the present invention provides an online/offline system, which is characterized in that:

the circulation module is connected with the preorder working system and the plurality of subsequent working systems, and transfers the sample from the preorder working system to different target subsequent working systems. .

Detailed Description

As shown in fig. 1, in the present embodiment, there is provided an online/offline system 10, characterized in that: the system comprises an identification module and a circulation module;

the circulation module moves the sample to a specified circulation destination according to different circulation destinations;

the circulation module includes a circulation platform 110;

the circulation platform is provided with a sample station, the sample station can be divided into a sample injection station and a sample outlet station according to functions, and if the field is limited or the sample station is operated in a single line mode (namely, the samples are in a one-to-one online and offline mode, specifically speaking, the sample station can simultaneously accommodate the in-and-out samples after all online and offline items are completed by a single sample.

The gravity sensor is arranged on the sample station, so that on one hand, the gravity sensor can obtain sensing when a sample arrives at the station, and accordingly the identification equipment is activated to identify the sample identification code, and on the other hand, the weight of the sample can be weighed after the sample arrives at the station.

The identification module is arranged on the circulation platform, comprises a frame body 112 and an identification mechanism 113 (such as equipment such as a shooting function camera and the like), can identify the identification code on the surface of the sample storage container, and obtains the circulation destination of the sample according to the sample information corresponding to the identification code;

the identification mechanism is arranged on the frame body and can be in a fixed form or a movable form.

Generally, the identification means is in the form of a fixed mounting on the frame, and since the system involves the process of identifying and identifying both the loaded and the unloaded samples, the two identification means are generally opposite to the advancing direction of the samples, so as to identify the samples as they enter the identification range.

The identification module also comprises an analysis unit for identifying the information acquired by identifying/weighing the sample to judge whether the sample is accurate;

the workflow of the analysis unit is as follows:

s1, acquiring working information of a sample corresponding to an identification code through the identification code acquired by the identification mechanism;

s2, judging the transfer destination according to the working information,

when the working information shows that the current sample is in a state to be detected, the instruction flow module enables the sample to be on-line;

when the working information shows that the current sample is in a detected state, the instruction flow conversion module takes the sample off line;

meanwhile, the analysis unit also checks the sample according to the sensing result of the weight sensing element;

and when the checking result is unqualified, warning and/or prompting at the front end of the equipment.

The sample check is to judge whether the weight of the sample on line is consistent with the input information before on line (the weight can be limited in a fixed deviation value range and is considered to be consistent);

judging whether the weight difference value in the upper/lower line state of the offline sample is consistent with an expected value (the weight difference value can be defined to be consistent in a fixed deviation value range);

the expected value here means the weight of the sample that should be lost during the test after the sample has undergone several test procedures.

In addition, in order to realize the transportation of different destinations, a circulation mechanism is also installed on the circulation module;

the circulation mechanism is a component with transmission, and/or grabbing, and/or guiding functions, such as: a conveyor belt (111 elements in the figure), a six-shaft mechanical arm, a guide sheet (120 elements in the figure) and the like, connect the front working system and a plurality of subsequent working systems and transfer the sample from the front working system to different target subsequent working systems.

When the destination has an upper-lower layer relationship, the circulation mechanism may further include a lifting mechanism 130 mounted on the sample on-line station and/or the sample off-line station;

the elevator mechanism is installed in an elevator shaft having a push-out mechanism 132 on an inner surface thereof corresponding to an exit position, and when the sample reaches a predetermined sample exit position through the elevator platform 131, the sample is pushed out by the push-out mechanism and is carried into another working space.

Claims (8)

1. An on/off line system characterized by: the system comprises an identification module and a circulation module;

the identification module identifies an identification code on the surface of the sample storage container and acquires a transfer destination of the sample according to sample information corresponding to the identification code;

and the circulation module moves the sample to a specified circulation destination according to different circulation destinations.

2. An online/offline system according to claim 1, wherein:

the identification module comprises an identification mechanism;

the circulation module comprises a circulation platform;

the circulation platform is provided with a pre-detection station;

the pre-detection station is provided with an induction mechanism;

the induction mechanism is used for activating the identification mechanism after inducing that the sample enters the pre-detection station;

the identification mechanism, when activated, identifies the identification code on the surface of the sample storage container.

3. An online/offline system according to claim 2, wherein:

the identification module further comprises an analysis unit;

the workflow of the analysis unit is as follows:

s1, acquiring working information of a sample corresponding to an identification code through the identification code acquired by the identification mechanism;

s2, judging the transfer destination according to the working information,

when the working information shows that the current sample is in a state to be detected, the instruction flow module enables the sample to be on-line;

and when the working information shows that the current sample is in a detection completion state, the instruction flow conversion module takes the sample off line.

4. An online/offline system according to claim 3, wherein:

the sensing mechanism is a weight sensing element;

the analysis unit is used for verifying the sample according to the sensing result of the weight sensing element;

and when the checking result is unqualified, warning is carried out, and/or feedback and prompt are carried out at the front end of the equipment.

5. An online/offline system according to claim 2, wherein:

the circulation platform also comprises a sample on-line station and a sample off-line station;

and identification mechanisms which correspond to each other one by one are respectively arranged at the positions opposite to the sample feeding station and the sample discharging station.

6. An online/offline system according to claim 4, wherein:

a lifting mechanism is arranged on the sample online station;

and/or

And a lifting mechanism is arranged on the sample off-line station.

7. An online/offline system according to claim 1, wherein:

the circulation module comprises a circulation mechanism;

the circulation mechanism is a component with transmission, and/or grabbing, and/or guiding functions.

8. An online/offline system according to claim 1, wherein:

and the circulation module is connected with the preorder working system and the plurality of subsequent working systems and transfers the sample from the preorder working system to different target subsequent working systems.

Images