CN111459397B - Data identifier - Google Patents

Abstract

The application discloses a data identifier, which comprises: the device comprises a data input module, a data output module and a data processing module; the data input module and the data output module are both connected with the data processing module; the data input module is used for being connected with the measuring instrument so as to acquire and send the measured data of the materials measured by the measuring instrument to the data processing module; the data processing module is used for acquiring the category of the material corresponding to the measurement data, labeling the measurement data with a corresponding category identifier, and then sending the measurement data labeled with the category identifier to the data output module; therefore, the problem that the existing electronic instrument data cannot distinguish the measuring object of the measuring data is solved.

Description

Data identifier

Technical Field

The application relates to the technical field of data identification and processing, in particular to a data identifier.

Background

At present, the external output of the electronic instrument data is in a 232 serial port communication mode, the sent data only contains self data, if the data corresponds to various targets, a plurality of electronic instruments are required to be respectively collected, so that the required electronic instrument devices are too many, and the cost is increased, for example: the electronic scale can only send out weight data, but cannot determine what kind of weight is the weight of the article, and in order to determine the weight of various articles, multiple electronic scales may be required, and different articles are respectively weighed by different scales to distinguish the actual weight of the article, so that the cost is increased, multiple scales are required to be purchased for each weight of the article according to the weight of the different articles, and each scale is connected to an upper computer to distinguish the weight of each article.

Therefore, how to solve the problem that the existing electronic instrument data cannot distinguish the measurement object of the measurement data has become a technical problem to be solved by those skilled in the art.

Disclosure of Invention

The application provides a data identifier which is used for solving the technical problem that the existing electronic instrument data cannot distinguish a measuring object of measuring data.

In order to solve the technical problems, the technical scheme provided by the application is as follows:

a data identifier, comprising: the device comprises a data input module, a data output module and a data processing module; the data input module and the data output module are both connected with the data processing module;

the data input module is used for being connected with the measuring instrument so as to acquire and send the measured data of the materials measured by the measuring instrument to the data processing module;

the data processing module is used for acquiring the category of the material corresponding to the measurement data, labeling the measurement data with a corresponding category identifier, and then sending the measurement data labeled with the category identifier to the data output module;

the data output module is used for being connected with the identification system so as to send the measurement data marked with the category identification to the identification system for identifying the category of the material corresponding to the measurement data according to the category identification.

Preferably, the data processing module comprises a storage unit, a data processing unit and a plurality of data marking keys; the storage unit and the plurality of data marking keys are connected with the data processing unit; the data storage unit stores category identifiers of a plurality of different material categories; the data processing unit is used for connecting with the data input module, the data input module is used for sending the measurement data to the data processing unit, the data processing unit receives the measurement data, and the corresponding category identification label is called from the storage unit according to the mapping relation between the data marking key pressed by the user and the category identification thereof.

Preferably, the storage unit further stores a plurality of data communication protocols for establishing communication connection with a plurality of measuring instruments respectively, and the data processing unit is further configured to call a corresponding communication protocol from the storage unit to the data input module according to the acquired communication protocol type of the measuring instruments, so that the data input module establishes communication connection with the measuring instruments according to the communication protocol.

Preferably, the data processing unit is further connected with a man-machine interface, and a communication protocol selection interface is arranged on the man-machine interface, so that a user can select a corresponding communication protocol type according to the communication protocol of the measuring instrument and send the communication protocol type selected by the user to the data processing unit.

Preferably, the data input module further includes a data format conversion module, configured to determine a data format of the measurement data according to a communication protocol of the measurement instrument, determine whether the data format of the measurement data is a desired data format of the data processing module, and if not, convert the data format of the measurement data into the desired data format of the data processing module, and send the converted data format to the data processing module.

Preferably, the storage unit further stores category data thresholds corresponding to the category identifiers and mapping relations thereof, the data processing unit is further connected with an acousto-optic indication module, and after the corresponding category identifiers are called and marked on the measured data, the data processing unit also calls the corresponding category data thresholds from the storage unit according to the mapping relations between the category identifiers and the category data thresholds to compare the corresponding category data thresholds with the measured data, and when the measured data exceeds the category data thresholds, the acousto-optic indication module is controlled to indicate.

Preferably, the human-computer interface is further provided with a parameter setting interface, and the parameter setting interface is used for setting category data thresholds corresponding to the category identifiers by a user, and transmitting the set category data thresholds corresponding to the category identifiers to the storage unit for storage.

The application has the following beneficial effects:

1. according to the data identifier, the measuring data and the category of the material corresponding to the measuring data are obtained, the corresponding category identification is marked on the measuring data, and then the measuring data marked with the category identification is sent to the identification system for identifying the category of the material corresponding to the measuring data according to the category identification, so that the problem that the measuring object of the measuring data cannot be distinguished by the existing electronic instrument data is solved.

In addition to the objects, features and advantages described above, the present application has other objects, features and advantages. The application will be described in further detail with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is a schematic diagram of a data identifier of the present application;

FIG. 2 is a communication topology of a data identifier in a preferred embodiment of the present application;

fig. 3 is a flowchart of the operation of the data identifier in the preferred embodiment of the present application.

Detailed Description

Embodiments of the application are described in detail below with reference to the attached drawings, but the application can be implemented in a number of different ways, which are defined and covered by the claims.

Embodiment one:

as shown in fig. 1, in this embodiment, a data identifier is disclosed, which includes: the device comprises a data input module, a data output module and a data processing module; the data input module and the data output module are both connected with the data processing module;

the data input module is used for being connected with the measuring instrument so as to acquire and send the measured data of the materials measured by the measuring instrument to the data processing module;

the data processing module is used for acquiring the category of the material corresponding to the measurement data, labeling the measurement data with a corresponding category identifier, and then sending the measurement data labeled with the category identifier to the data output module;

the data output module is used for being connected with the identification system so as to send the measurement data marked with the category identification to the identification system for identifying the category of the material corresponding to the measurement data according to the category identification.

According to the data identifier, the measuring data and the category of the material corresponding to the measuring data are obtained, the corresponding category identification is marked on the measuring data, and then the measuring data marked with the category identification is sent to the identification system for identifying the category of the material corresponding to the measuring data according to the category identification, so that the problem that the measuring object of the measuring data cannot be distinguished by the existing electronic instrument data is solved.

Embodiment two:

the second embodiment is a preferred embodiment of the first embodiment, which is different from the first embodiment in that the specific structure of the data identifier is refined and optimized, and specifically includes the following contents:

as shown in fig. 2, a data interface 1 is arranged on a data input module of the data identifier in the application, the data processing module comprises a processing chip and a plurality of data identifier keys, the data output module is provided with a data interface 2, the processing chip is respectively connected with a human-computer interface, an external button and a keyboard, the data interface is used for being connected with a measuring instrument and used for acquiring and transmitting measurement data of materials measured by the measuring instrument to the processing chip, and the data processing chip is provided with a storage unit and a data processing unit; the storage unit and the plurality of data marking keys are connected with the data processing unit; the data storage unit stores category identifiers of a plurality of different material categories; the data processing unit is used for connecting with the data input module, the data input module is used for sending the measurement data to the data processing unit, the data processing unit receives the measurement data, and the corresponding category identification label is called from the storage unit according to the mapping relation between the manually pressed data marking key and the category identification.

The storage unit is also internally provided with class data thresholds corresponding to the class identifications and mapping relations thereof, the data processing unit is also connected with an acousto-optic indication module, and after the class identifications corresponding to the class identifications are called and marked on the measured data, the data processing unit also calls the corresponding class data thresholds from the storage unit according to the mapping relations between the class identifications and the class data thresholds to compare with the measured data, and when the measured data exceeds the class data thresholds, the acousto-optic indication module is controlled to indicate. In addition, the storage unit is also stored with a plurality of data communication protocols for establishing communication connection with a plurality of measuring instruments respectively, and the data processing unit is also used for calling a corresponding communication protocol from the storage unit to the data input module according to the acquired communication protocol types of the measuring instruments so that the data input module establishes communication connection with the measuring instruments according to the communication protocol.

The data processing unit is also connected with a human-computer interface, and a communication protocol selection interface is arranged on the human-computer interface and is used for a user to select a corresponding communication protocol type according to the communication protocol of the measuring instrument and send the communication protocol type to the data processing unit. The liquid crystal display screen is also provided with a parameter setting interface, a user sets category data thresholds corresponding to the category identifiers on the parameter setting interface through a keyboard, and the set category data thresholds corresponding to the category identifiers are transmitted to the storage unit for storage.

The data input module further comprises a data format conversion module, which is used for determining the data format of the measurement data according to the communication protocol of the measuring instrument, judging whether the data format of the measurement data is the expected data format of the data processing module, if not, converting the data format of the measurement data into the expected data format of the data processing module, and then sending the data format to the data processing module.

The category identification of the data identifier has a self-definable property, the content of the category identification can be freely set, and the setting of the category identification of the data identifier can be self-customized according to actual conditions.

As shown in fig. 3, the working flow of the data identifier in the present application is:

before identification, setting a category data threshold through a parameter setting interface on a liquid crystal display screen, selecting a corresponding communication protocol type according to a communication protocol of the measuring instrument at a communication protocol selection interface, starting to carry out data identification, sending data of the electronic instrument (namely measuring data measured by the measuring instrument) into a data identifier through a data interface 1 in a wireless or wired mode, displaying the data on the liquid crystal display panel by a processing chip in the data identifier after receiving the data, identifying corresponding identification data of a data head and a key/key operation of the data identifier to the received data through a keyboard or an external button, sending the identified data to a data receiving end (namely an identification system) through a wireless or wired mode by a sending key/button on the keyboard or the external button, and further, calling the corresponding category data threshold from a storage unit to compare with the measuring data according to a mapping relation between the category identifier and the category data threshold, and controlling the corresponding acousto-optic indication module to send corresponding acousto-optic indication according to the fact that the measured data value is positioned in the category data threshold.

For example: when 3 materials need to be weighed, the upper computer only can receive simple weight data (namely measurement data) without knowing what kind of materials the weighing belongs to when the data identifier is not adopted on one scale, after the data identifier is adopted, the category identifier of the measurement object is preset by the data identifier, the category identifier of the measurement object of the measurement data is added to the measurement data received by the data identifier according to the category of the measurement object corresponding to the measurement data through a key on the data identifier, the corresponding data identifier can be added before the weight data through a marking key of the data identifier, the upper computer (identification system) can receive the data to distinguish what kind of materials the weight of which kind of materials is, for example, 01 is used for representing 1 kind of materials, 02 is used for representing the second kind of materials, 03 is used for representing the third kind of materials, 01 is added before the received weight data is obtained by pressing a 1# key on the data identifier, the original weight is equal to AA010101, the original weight is changed to be AA010101 after the key is pressed, and the upper computer (namely identification system) receives the data from the data, and the first kind of materials can be judged. Meanwhile, the received data can be automatically processed according to the received data content, a category data threshold of the numerical value can be set, and corresponding prompts are sent out according to the fact that the measured data value is located in the category data threshold. For example, the weighing device can be set in a standard weight interval (category data threshold) from 90Kg to 110Kg, when the weight is smaller than 90Kg, the data identifier outputs a switching value signal through the relay, the external indicator can inform a weighing person that the standard weight is not reached yet, materials need to be added continuously, when the weight reaches more than 90Kg, the data identifier outputs a switching value signal through the relay, the external indicator can inform the weighing person that the standard weight is reached yet, the materials can be stopped to be added, when the weight exceeds 110Kg, the data identifier outputs a switching value signal through the relay, the external indicator can inform the weighing person that the standard weight is exceeded, and a part of materials need to be removed on the scale.

In summary, according to the data identifier disclosed by the application, the measurement data and the category of the material corresponding to the measurement data are obtained, the corresponding category identification is marked on the measurement data, and then the measurement data marked with the category identification is sent to the identification system for identifying the category of the material corresponding to the measurement data according to the category identification, so that the problem that the existing electronic instrument data cannot distinguish the measurement object of the measurement data is solved.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (3)

1. A data identifier, comprising: the device comprises a data input module, a data output module and a data processing module; the data input module and the data output module are both connected with the data processing module;

the data input module is used for being connected with the measuring instrument so as to acquire and send the measured data of the materials measured by the measuring instrument to the data processing module;

the data processing module is used for acquiring the category of the material corresponding to the measurement data, labeling the measurement data with a corresponding category identifier, and then sending the measurement data labeled with the category identifier to the data output module;

the data output module is used for being connected with the identification system so as to send the measurement data marked with the category identification to the identification system for identifying the category of the material corresponding to the measurement data according to the category identification;

the data processing module comprises a storage unit, a data processing unit and a plurality of data marking keys; the storage unit and the plurality of data marking keys are connected with the data processing unit; the storage unit stores category identifiers of a plurality of different material categories; the data processing unit is used for connecting with the data input module, the data input module is used for sending the measurement data to the data processing unit, the data processing unit receives the measurement data and retrieves the corresponding category identification label from the storage unit according to the mapping relation between the data marking key pressed by the user and the category identification thereof;

the storage unit is also internally provided with a plurality of data communication protocols for establishing communication connection with a plurality of measuring instruments respectively, and the data processing unit is also used for calling corresponding communication protocols from the storage unit to the data input module according to the acquired communication protocol types of the measuring instruments so as to enable the data input module to establish communication connection with the measuring instruments according to the communication protocols;

the data processing unit is also connected with a human-computer interface, and a communication protocol selection interface is arranged on the human-computer interface and is used for a user to select a corresponding communication protocol type according to the communication protocol of the measuring instrument and send the communication protocol type selected by the user to the data processing unit;

the data input module further comprises a data format conversion module, which is used for determining the data format of the measurement data according to the communication protocol of the measuring instrument, judging whether the data format of the measurement data is the expected data format of the data processing module, if not, converting the data format of the measurement data into the expected data format of the data processing module, and then sending the data format to the data processing module.

2. The data identifier according to claim 1, wherein the storage unit further stores a class data threshold value corresponding to each class identifier and a mapping relation thereof, the data processing unit is further connected with an acousto-optic indication module, and after the data processing unit calls the corresponding class identifier to be marked on the measurement data, the data processing unit calls the corresponding class data threshold value from the storage unit to compare with the measurement data according to the mapping relation between the class identifier and the class data threshold value, and when the measurement data exceeds the class data threshold value, the acousto-optic indication module is controlled to indicate.

3. The data identifier according to claim 2, wherein the human-computer interface is further provided with a parameter setting interface, and the parameter setting interface is configured to set a class data threshold value corresponding to each class identifier by a user, and transmit the set class data threshold value corresponding to each class identifier to the storage unit for storage.