CN114604543A - Metering identification system, metering identification method and turnover box - Google Patents

Abstract

The invention discloses a metering and identifying system, a metering and identifying method and a transfer box, which comprise a box body, wherein the box body is provided with two intervals which are uniformly separated by an electromagnetic shielding plate, the width of the interval is equal to the width of a single electric energy meter, the metering and identifying system comprises a transfer box and a metering and identifying cabinet, the identifying cabinet comprises a cabinet body, the cabinet body is divided into an upper part and a lower part, the upper part is a control cabinet, and the lower part is an acquisition cabinet, and the metering and identifying method. According to the invention, through the matching use of the turnover box for the metering identification cabinet and the metering identification cabinet, the omission problem of the existing identification cabinet during the outlet and the inlet of the electric energy meter is reduced in the batch identification, and meanwhile, the data duplication elimination screening is set, so that the identification efficiency is improved.

Description

Measurement identification system, measurement identification method and turnover box

Technical Field

The invention relates to the field of electric power measurement, in particular to a measurement identification system, a measurement identification method and a turnover box.

Background

The traditional measurement and collection mode needs to scan each electric energy meter needing to be put in and out of a warehouse for an antenna arranged at the top of an identification cabinet, and because the electric energy meter at the bottom layer is positioned in a turnover box and is far away from the antenna at the top of the identification cabinet, when the electric energy meter at the bottom is taken out of the warehouse or put in the warehouse for identification, the electric energy meters at the bottom cannot be completely turned out for scanning, so that the problem of electric energy meter omission at the bottom of the electric energy meter is caused, and the workload of warehouse managers is greatly increased.

Disclosure of Invention

The invention aims to provide a metering identification cabinet, a metering identification method and a turnover box, wherein the self-contained rfid chip of an electric meter is utilized, and the antennae arranged on two side plates are adopted for quick identification, batch identification and recording, so that the omission problem is reduced; because the ammeter is from taking the chip, need not to label or reform transform for solve the automatic identification of current electric energy meter and miss many problems.

A turnover box for a metering identification cabinet comprises a box body, wherein the box body is provided with two intervals which are uniformly separated by an electromagnetic shielding plate, and the width of each interval is equal to that of a single electric energy meter.

A measurement identification system, comprising the turnover box and the measurement identification cabinet in claim 1, wherein the identification cabinet comprises a cabinet body which is divided into an upper part and a lower part, the upper part is a control cabinet, and the lower part is an acquisition cabinet: the collecting cabinet is of a hollow cuboid structure and is provided with an open side face and 2 scanning faces, the 2 scanning faces are formed on two side plates adjacent to the open side face, the two side plates are provided with antennas, the number of the antennas on each side plate is at least 2, and the antennas on each side are arranged in the vertical direction; the control cabinet is internally provided with a main controller and a reader-writer connected with the main controller, all antennas are connected with the reader-writer, and when the turnover box is positioned in the identification cabinet, the scanning surface is parallel to the electromagnetic shielding plate.

Further, the master controller: the method comprises the steps that meter asset coding information sensed by all antennas at the same reading time is obtained through a reader-writer, and a same batch of data sets are formed according to the meter asset coding information;

a main controller: and performing duplicate removal screening on the obtained data set to obtain a corresponding effective asset data set.

Further, the performing the de-duplication screening based on the obtained data set specifically includes the steps of:

and when the trigger identification signal is detected, carrying out duplicate removal screening on the same batch of data sets to obtain a corresponding same batch of effective asset data sets.

Further, still include:

when the trigger identification signal is not detected, merging the same batch of data sets into a data set to be identified, wherein the data set to be identified is formed by merging one or more unidentified data sets of different batches;

and when the trigger identification signal is detected, carrying out duplicate removal screening on the data set to be identified to obtain a corresponding effective asset data set of a plurality of batches.

Furthermore, one side of the control cabinet is a movable side plate which can be opened and closed, a man-machine interaction screen is nested on the movable side plate, and the man-machine interaction screen is connected with the main controller and used for acquiring a trigger identification signal.

Further, the skin of the cabinet body is the metal, be provided with on cabinet body one side and sweep a yard rifle, it is connected with main control unit to sweep a yard rifle.

A metering identification method is applied to a main controller and specifically comprises the following steps:

s1, receiving meter asset coding information to generate a same batch of data sets, wherein the meter asset coding information comprises meter asset coding information automatically acquired by an antenna and asset coding information manually acquired by a code scanning gun;

s2, performing data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule verification conversion and duplicate removal processing;

and S3, generating and displaying an EXCEL file in a preset format according to the effective asset data set.

Further, the meter asset code information includes EPC code, and step S1 further includes preprocessing the received meter asset code information:

traversing and extracting EPC codes in the meter asset coding information of the same batch of data sets;

and judging whether the length of the EPC code is a first preset length, if not, filling zero to the lower bit of the EPC code to obtain the EPC code with the first preset length.

Further, the white list rule verifying and converting in step S2 specifically includes the following steps:

intercepting the digit number: intercepting EPC codes with a second preset length from high order according to the EPC codes with the length being the first preset length;

matching the beginning: performing regular matching on the EPC codes with the second preset length and one or more preset values to obtain a regular matching result, wherein the regular matching result is used for determining the asset type;

and (3) conversion coding: and converting the regular matching result according to a preset conversion starting length, a conversion ending length and target conversion content to obtain a converted EPC code.

Further, the deduplication processing in step S2 is: and filtering the meter asset coding information corresponding to the converted EPC code, and discarding repeated information to obtain an effective asset data set.

Further, each preset value of the plurality of preset values corresponds to one asset class code.

Further, the carrier of the electronic code of the EPC product is an RFID tag, and the transfer of information is achieved by means of the internet. The EPC aims to establish a global and open identification standard for each single product and realize tracking and tracing of the single product in a global range, so that the supply chain management level is effectively improved, and the logistics cost is reduced. The EPC is a complete, complex, integrated system.

According to the invention, through the matching use of the turnover box for the metering identification cabinet and the metering identification cabinet, the omission problem of the existing identification cabinet during the outlet and the inlet of the electric energy meter is reduced in the batch identification, and meanwhile, the data duplication elimination screening is set, so that the identification efficiency is improved.

The invention has the following beneficial effects:

1. the metering identification cabinet for electric power metering conforms to ISO 18000-6B/6C, has a controllable reading range, supports quick identification of multiple assets in an asset coding acquisition stage, completes basic calculation type work such as automatic counting, automatic duplicate removal and the like, establishes a filtering white list based on asset coding specifications, automatically distinguishes asset types to realize data traceability and data seamless connection, and generates an EXCEL file comprising fields such as asset numbers, factory numbers, filing dates and the like according to a data format required by an SG186 system. Historical data can be inquired and exported for each ex-warehouse asset according to actual ex-warehouse tasks, full-automatic second-level export record management is achieved, manual scanning and entry work is omitted, asset management accuracy and turnover rate are improved, and burden reduction is conducted for operators at the same line.

2. And scanning a meter bar code by an infrared code scanning gun to manually identify the meter without integrating the RFID chip inside. Manual/automatic mixed recognition is realized, and meters in the same batch can be delivered out of the warehouse at one time.

Drawings

FIG. 1 is a schematic diagram of the front structure of a metering identification cabinet according to the present invention;

FIG. 2 is a schematic side view of the measurement recognition cabinet of the present invention;

FIG. 3 is a schematic view of the structure of the turnover box of the present invention;

FIG. 4 is a schematic diagram of a metering identification system according to the present invention;

FIG. 5 is a schematic view of a metering identification method according to the present invention;

FIG. 6 is a schematic diagram illustrating white list rule checking and converting according to the present invention;

reference numerals: the system comprises a cabinet body 1, a control cabinet 2, a human-computer interaction screen 21, an operation panel 22, a collection cabinet 3, an antenna 31, a code scanning gun 4, a turnover box 5 and an electric energy meter 6.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", and the like indicate orientations or positional relationships that are based on the orientations or positional relationships shown in the drawings, or that are conventionally placed when the product of the present invention is used, and are used only for convenience in describing and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "open," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Examples

A turnover case 5 for a metering identification cabinet comprises a case body, wherein the case body is provided with two intervals which are uniformly separated by an electromagnetic shielding plate, and the width of each interval is equal to that of a single electric energy meter 6.

A measurement identification system comprises the circulation box 5 and the measurement identification cabinet in claim 1, wherein the identification cabinet comprises a cabinet body 1, the cabinet body 1 is divided into an upper part and a lower part, the upper part is a control cabinet 2, and the lower part is an acquisition cabinet 3: the acquisition cabinet 3 is of a hollow cuboid structure, the acquisition cabinet 3 is provided with an open side face and 2 scanning faces, the 2 scanning faces are formed on two side plates adjacent to the open side face, the two side plates are provided with antennas 31, the number of the antennas 31 of each side plate is at least 2, and the antennas 31 of each side are arranged along the vertical direction; and a main controller and a reader-writer connected with the main controller are arranged in the control cabinet 2, all the antennas 31 are connected with the reader-writer, and when the turnover box 5 is positioned in the identification cabinet, the scanning surface is parallel to the electromagnetic shielding plate.

Specifically, the main controller: the method comprises the steps that meter asset coding information sensed by all antennas 31 at the same reading time is obtained through a reader, and a same batch of data sets are formed according to the meter asset coding information;

a main controller: and performing duplicate removal screening on the obtained data set to obtain a corresponding effective asset data set.

Specifically, the performing of the duplicate removal screening based on the obtained data set specifically includes the following steps:

and when the trigger identification signal is detected, carrying out duplicate removal screening on the same batch of data sets to obtain a corresponding same batch of effective asset data sets.

Specifically, still include:

when the trigger identification signal is not detected, merging the same batch of data sets into a data set to be identified, wherein the data set to be identified is formed by merging one or more unidentified data sets of different batches;

and when the trigger identification signal is detected, carrying out duplicate removal screening on the data set to be identified to obtain a corresponding effective asset data set of a plurality of batches.

Specifically, one side of the control cabinet 2 is a movable side plate which can be opened and closed, a man-machine interaction screen 21 is nested on the movable side plate, and the man-machine interaction screen 21 is connected with the main controller and used for acquiring a trigger identification signal.

Specifically, the skin of the cabinet body 1 is the metal, be provided with on 1 one side of the cabinet body and sweep a yard rifle 4, it is connected with main control unit to sweep a yard rifle 4.

A metering identification method is applied to a main controller and specifically comprises the following steps:

s1, receiving meter asset coding information to generate a same batch of data sets, wherein the meter asset coding information comprises meter asset coding information automatically acquired by an antenna 31 and asset coding information manually acquired by a code scanning gun 4;

s2, performing data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule verification conversion and duplicate removal processing;

and S3, generating and displaying an EXCEL file in a preset format according to the effective asset data set.

Specifically, the meter asset code information includes an EPC code, and step S1 further includes preprocessing the received meter asset code information:

traversing and extracting EPC codes in the meter asset coding information of the same batch of data sets;

and judging whether the length of the EPC code is a first preset length, if not, zero padding is carried out on the lower bits of the EPC code, and the EPC code with the length of the first preset length is obtained.

Specifically, the white list rule verification conversion in step S2 specifically includes the following steps:

intercepting the digit number: intercepting EPC codes with a second preset length from high order according to the EPC codes with the length being the first preset length;

matching the beginning: performing regular matching on the EPC codes with the second preset length and one or more preset values to obtain a regular matching result, wherein the regular matching result is used for determining the asset type;

and (3) conversion coding: and converting the regular matching result according to a preset conversion starting length, a conversion ending length and target conversion content to obtain a converted EPC code.

Further, the deduplication processing in step S2 is: and filtering the meter asset coding information corresponding to the converted EPC code, and discarding repeated information to obtain an effective asset data set.

Specifically, in the encoding and collecting stage:

through the distributed antenna 31 arranged in the box body, the meter asset coding information in the box body is detected and collected rapidly in an all-round mode.

The outer semi-closed metal frame structural design of shield box can ensure independent inside and read the environment, prevents the external chip of misreading.

And scanning meter bar codes by an infrared code scanning gun 4 for manual identification aiming at meters without integrated RFID chips inside. Manual/automatic mixed recognition is realized, and meters in the same batch can be delivered out of the warehouse at one time.

In the code acquisition stage, the automatic acquisition and the code scanning manual acquisition are respectively realized through the antenna 31. And (4) reading the difference of data according to two different acquisition modes, and carrying out classification pretreatment on the ammeter codes. Because the reader-writer is used for double-byte reading, 0 is supplemented behind the part with insufficient digits of the EPC codes, but the EPC codes read by the code scanning gun 4 cannot be automatically supplemented with 0, the 0 supplementing operation is carried out after judgment on the EPC codes scanned by the code scanning gun 4, and then white list verification and conversion are carried out, so that the consistency of the data of the code scanning gun 4 and the reader-writer is ensured.

And (3) a data screening stage:

aiming at the conversion of coded data, based on a filtering white list of asset coding specifications, the system preprocesses asset data submitted in real time according to the white list, automatically distinguishes asset types and filters effective data.

And (4) completing automatic duplicate removal and counting of the preprocessed asset data through calculation and screening, and performing real-time data display.

In the data screening stage, for the data reported by the reader-writer, after the codes obtained by the two acquisition modes are processed to be consistent through the preprocessing in the code acquisition stage, the EPC codes in the acquired data are screened as follows:

1. carrying out self-defined safe white list verification on the EPC code and converting according to a white list rule, wherein the EPC code comprises an intercepted digit (for example: 22 bits before the EPC code is intercepted), a matched head (for example: 51000 head EPC codes are matched), and an EPC code of a specified position (0 'of which the position is 7 is converted into 1') is converted; the white list setting rule is as shown in the figure:

2. because data is continuously reported repeatedly, the duplication elimination processing is carried out on codes, and the uniqueness of data displaying and submitting is ensured.

Data management phase

And (4) tracing management and data export of historical ex-warehouse records, and automatically adjusting the format and content of exported EXCEL files according to the change of actual data interaction requirements.

Specifically, the working principle of the metering identification cabinet is as follows: when meters need to be taken out of the warehouse, a warehouse keeper puts the meters to be taken out of the warehouse on the turnover box 5, and pushes the turnover box 5 into the metering identification cabinet. Clicking on software to start reading, starting the antenna 31 and the reader-writer, transmitting all the acquired rfid tag coding information to the meter asset intelligent identification platform by the reader-writer through the antenna 31, performing further data processing including code duplication removal, code conversion and data verification by the software, and finally displaying and counting the actual effective coding information. After reading, the software platform archives the ex-warehouse information every time, and data can be exported in the ex-warehouse records.

Compared with the turnover box 5 in the prior art, the electric energy meters 6 in the turnover box 5 are orderly and vertically stacked in the turnover box 5, the electromagnetic shielding plate is arranged in the turnover box 5, the turnover box 5 is uniformly divided into two intervals, only one side of the antenna 31 of the electric energy meters 6 in the two intervals is used for identification and reading, the repeated probability is greatly reduced, the induction range of the antenna 31 arranged on the two sides is wider than that of the antenna 31 arranged on the single top, and the problem of omission of the electric energy meters 6 on the bottom is reduced. Because the areas sensed by the at least two antennas 31 arranged on one side are overlapped in a preset range, a duplicate removal screening algorithm is preset in the main controller, and the identification efficiency and accuracy are further improved.

The foregoing is only a preferred embodiment of the present invention, and the present invention is not limited thereto in any way, and any simple modification, equivalent replacement and improvement made to the above embodiment within the spirit and principle of the present invention still fall within the protection scope of the present invention.

Claims (11)

1. A transfer container for metering identification cabinets, characterized in that it comprises a container body having two compartments evenly separated by electromagnetic shielding, the width of the compartments being equal to the width of a single electric energy meter (6).

2. A metering and identifying system, which is characterized by comprising the circulation box of claim 1 and a metering and identifying cabinet, wherein the identifying cabinet comprises a cabinet body (1), the cabinet body (1) is divided into an upper part and a lower part, the upper part is a control cabinet (2), and the lower part is an acquisition cabinet (3): the collection cabinet (3) is of a hollow cuboid structure, the collection cabinet (3) is provided with an open side face and 2 scanning faces, the 2 scanning faces are formed on two side plates adjacent to the open side face, the two side plates are provided with antennas (31), the number of the antennas (31) of each side plate is at least 2, and the antennas (31) of each side are arranged along the vertical direction; the intelligent identification box is characterized in that a main controller and a reader-writer connected with the main controller are arranged in the control cabinet (2), all the antennas (31) are connected with the reader-writer, and when the turnover box (5) is located in the identification cabinet, the scanning surface is parallel to the electromagnetic shielding plate.

3. A metering identification system according to claim 2 wherein the master controller: the meter asset coding information sensed by all the antennas (31) and at the same reading time is obtained through the reader-writer, and a same batch of data sets are formed according to the meter asset coding information;

a main controller: and performing duplicate removal screening on the obtained data set to obtain a corresponding effective asset data set.

4. An electricity metering identification cabinet according to claim 3, wherein said de-duplication screening based on the acquired data set comprises in particular the steps of:

and when the trigger identification signal is detected, carrying out duplicate removal screening on the same batch of data sets to obtain a corresponding same batch of effective asset data sets.

5. The metering identification system of claim 4 further comprising:

when the trigger identification signal is not detected, merging the same batch of data sets into a data set to be identified, wherein the data set to be identified is formed by merging one or more unidentified data sets of different batches;

and when the trigger identification signal is detected, carrying out duplicate removal screening on the data set to be identified to obtain a corresponding effective asset data set of a plurality of batches.

6. The metering and identifying system as claimed in claim 2, wherein one side of the control cabinet (2) is a movable side plate which can be opened and closed, a man-machine interaction screen (21) is nested on the movable side plate, and the man-machine interaction screen (21) is connected with the main controller and is used for acquiring the trigger identifying signal.

7. The metering and identifying system according to claim 2, wherein the outer layer of the cabinet body (1) is made of metal, a code scanning gun (4) is arranged on one side of the cabinet body (1), and the code scanning gun (4) is connected with a main controller.

8. A metering identification method is applied to the main controller in claim 2, and specifically comprises the following steps:

s1, receiving meter asset coding information to generate a same batch of data sets, wherein the meter asset coding information comprises meter asset coding information automatically acquired by an antenna (31) and asset coding information manually acquired by a code scanning gun (4);

s2, performing data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule verification conversion and duplicate removal processing;

and S3, generating and displaying an EXCEL file in a preset format according to the effective asset data set.

9. The metering identification method of claim 8 wherein the meter asset code information comprises EPC codes, and wherein the step S1 further comprises preprocessing the received meter asset code information:

traversing and extracting EPC codes in the meter asset coding information of the same batch of data sets;

and judging whether the length of the EPC code is a first preset length, if not, filling zero to the lower bit of the EPC code to obtain the EPC code with the first preset length.

10. The metering identification method of claim 9, wherein the white list rule check conversion in the step S2 specifically includes the following steps:

intercepting the digit number: intercepting EPC codes with a second preset length from high order according to the EPC codes with the length being the first preset length;

matching the beginning: performing regular matching on the EPC codes with the second preset length and one or more preset values to obtain a regular matching result, wherein the regular matching result is used for determining the asset type;

and (3) conversion coding: and converting the regular matching result according to a preset conversion starting length, a conversion ending length and target conversion content to obtain a converted EPC code.

11. The metering identification method according to claim 10, wherein the deduplication processing in step S2 is: and filtering the meter asset coding information corresponding to the converted EPC code, and discarding repeated information to obtain an effective asset data set.

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