CN114604543B - 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 turnover box, which comprise a box body, wherein the box body is provided with two spaces uniformly separated by an electromagnetic shielding plate, the width of each space is equal to that of a single electric energy meter, the metering and identifying system comprises a turnover 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, the lower part is a collecting cabinet, and the metering and identifying method is realized. According to the invention, through the matching use of the turnover box for the metering identification cabinet and the metering identification cabinet, the missing problem of the existing identification cabinet during the output and the storage of the electric energy meter is reduced in batch identification, and meanwhile, the data duplicate removal screening is set, so that the identification efficiency is provided.

Description

Metering identification system, metering identification method and turnover box

Technical Field

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

Background

The traditional metering and collecting mode needs to scan each electric energy meter needing to go out and in storage for the antenna arranged at the top of the identification cabinet, and as the electric energy meter at the bottom layer is located in the turnover box and is far away from the antenna at the top of the identification cabinet, the problem that the electric energy meter at the bottom cannot be completely turned out to scan to cause the electric energy meter at the bottom of the electric energy meter to be missed when the electric energy meter goes out of the storage or in storage is identified is solved, and thus the workload of warehouse management staff is greatly increased.

Disclosure of Invention

The invention aims to provide a metering identification cabinet, a metering identification method and a turnover box, which utilize an rfid chip of an ammeter, adopt antennas arranged on two side plates to perform quick identification, batch identification and recording, and reduce the problem of omission; because the ammeter is from taking the chip, need not to paste the 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 spaces evenly separated by an electromagnetic shielding plate, and the width of each space is equal to that of a single electric energy meter.

The utility model provides a measurement identification system, includes turnover case and measurement identification cabinet in claim 1, the identification cabinet includes the cabinet body, the cabinet body divide into upper portion, lower part, upper portion is the switch board, and the lower part is the collection cabinet: the collecting cabinet is of a hollow cuboid structure, the collecting cabinet is provided with an opening side face and 2 sweeping surfaces, the 2 sweeping surfaces are formed on two side plates adjacent to the opening side face, the two side plates are provided with antennas, the number of the antennas of each side plate is at least 2, and the antennas of each side plate are arranged along 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 main controller: the method comprises the steps of obtaining meter asset coding information which is sensed by all antennas and is read in at the same time through a reader-writer, and forming a same batch of data set according to the meter asset coding information;

and (3) a main controller: and performing de-duplication screening based on the obtained data set to obtain a corresponding effective asset data set.

Further, the performing deduplication screening based on the obtained data set specifically includes the following steps:

And when the trigger identification signal is detected, carrying out de-duplication screening on the data sets of the same batch to obtain a corresponding effective asset data set of the same batch.

Further, the method further comprises the following steps:

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 unidentified data sets of one or more different batches;

And when the trigger identification signal is detected, carrying out de-duplication screening on the data set to be identified to obtain a corresponding effective asset data set of a plurality of batches.

Further, one side of the control cabinet is a movable side plate capable of being 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 outer layer of the cabinet body is made of metal, a code scanning gun is arranged on one side of the cabinet body, and the code scanning gun is connected with a main controller.

The metering identification method is applied to the main controller and specifically comprises the following steps of:

S1, receiving meter asset coding information to generate a same batch of data set, 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, carrying out data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule checking conversion and deduplication treatment;

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

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

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

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

Further, the white list rule check conversion in the step S2 specifically includes the following steps:

intercept the number of bits: according to the EPC code with the length being the first preset length, the EPC code with the second preset length is intercepted from the high order;

Matching the beginning: performing regular matching on the EPC code 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;

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 converted EPC codes.

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

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

Further, the carrier of the EPC product electronic code is an RFID electronic tag, and information transmission is realized by means of the Internet. The EPC aims to establish a global and open identification standard for each single product and realize the tracking and tracing of the single product in the global scope, thereby effectively improving the management level of a supply chain and reducing the logistics cost. EPC is a complete, complex, comprehensive system.

According to the invention, through the matching use of the turnover box for the metering identification cabinet and the metering identification cabinet, the missing problem of the existing identification cabinet during the output and the storage of the electric energy meter is reduced in batch identification, and meanwhile, the data duplicate removal screening is set, so that the identification efficiency is provided.

The invention has the beneficial effects that:

1. The metering identification cabinet for electric power metering conforms to ISO 18000-6B/6C, has controllable reading range, supports multi-asset rapid identification, completes basic calculation work such as automatic counting, automatic duplicate removal and the like in an asset code acquisition stage, establishes a filtering white list based on asset code specifications, automatically distinguishes asset types to realize data traceability and seamless connection, and generates an EXCEL file comprising fields such as asset numbers, factory numbers, build dates and the like according to data formats required by an SG186 system. According to the method, historical data inquiry and export can be carried out on each ex-warehouse asset according to an actual ex-warehouse task, full-automatic second-level in-out record management is realized, manual scanning and input work is omitted, asset management accuracy and turnover rate are improved, and burden is reduced for first-line operators.

2. Aiming at a meter which is not integrated with an RFID chip, the bar code of the meter is scanned by an infrared code scanning gun for manual identification. The manual/automatic hybrid identification is realized, and the same batch of meters can be delivered at one time.

Drawings

FIG. 1 is a schematic diagram of the front structure of a metering and identifying cabinet of the present invention;

FIG. 2 is a schematic side view of a metering and identifying cabinet according to 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 and identifying system according to the present invention;

FIG. 5 is a schematic diagram of a method of meter identification according to the present invention;

FIG. 6 is a schematic diagram of a white list rule check conversion according to the present invention;

Reference numerals: 1-cabinet body, 2-switch board, 21-human-computer interaction screen, 22-operating panel, 3-collection cabinet, 31-antenna, 4-sweep a yard rifle, 5-turnover box, 6-electric energy meter.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but embodiments of the present invention are not limited thereto.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present invention and for simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "configured," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Examples

A transfer case 5 for a metering identification cabinet comprises a case body having two spaces evenly separated by an electromagnetic shielding plate, the width of the spaces being equal to the width of a single electric energy meter 6.

The utility model provides a measurement identification system, includes turnover case 5 and measurement identification cabinet in claim 1, the identification cabinet includes cabinet body 1, cabinet body 1 divide into upper portion, lower part, upper portion is switch board 2, and the lower part is collection cabinet 3: the collecting cabinet 3 is of a hollow cuboid structure, the collecting cabinet 3 is provided with an opening side face and 2 sweeping surfaces, the 2 sweeping surfaces are formed on two side plates adjacent to the opening 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 control cabinet 2 is internally provided with a main controller and a reader-writer connected with the main controller, all 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 meter asset coding information which is sensed by all antennas 31 and is at the same reading time is obtained through a reader-writer, and a same batch of data set is formed according to the meter asset coding information;

and (3) a main controller: and performing de-duplication screening based on the obtained data set to obtain a corresponding effective asset data set.

Specifically, the de-duplication screening based on the obtained data set specifically includes the following steps:

And when the trigger identification signal is detected, carrying out de-duplication screening on the data sets of the same batch to obtain a corresponding effective asset data set of the same batch.

Specifically, the method further comprises the following steps:

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 unidentified data sets of one or more different batches;

And when the trigger identification signal is detected, carrying out de-duplication screening on the data set to be identified to obtain a corresponding effective asset data set of a plurality of batches.

Specifically, the movable side plate that is openable and closable is arranged on one side of the control cabinet 2, 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 a trigger identification signal.

Specifically, 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.

The metering identification method is applied to the main controller and specifically comprises the following steps of:

S1, receiving meter asset coding information to generate a same batch of data set, 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, carrying out data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule checking conversion and deduplication treatment;

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

Specifically, the table asset coding information includes EPC codes, and step S1 further includes preprocessing the received table asset coding information:

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

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

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

intercept the number of bits: according to the EPC code with the length being the first preset length, the EPC code with the second preset length is intercepted from the high order;

Matching the beginning: performing regular matching on the EPC code 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;

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 converted EPC codes.

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

Specifically, in the code acquisition phase:

the meter asset coding information in the box is detected and collected quickly in all directions through the distributed antenna 31 arranged in the box.

The outer semi-closed metal frame structure design of the shielding box can ensure independent internal reading environment and prevent misreading of an external chip.

Aiming at the meter which is not integrated with the RFID chip, the infrared code scanning gun 4 scans the bar code of the meter to carry out manual identification. The manual/automatic hybrid identification is realized, and the same batch of meters can be delivered at one time.

In the code acquisition stage, the code acquisition is realized by two modes of automatic acquisition and code scanning robbery manual acquisition through the antenna 31. And according to the difference of the data read by the two different acquisition modes, carrying out classification pretreatment on the ammeter codes. Because the reader-writer reads the double bytes, the EPC code bit is not enough, but the EPC code read by the code scanning gun 4 cannot be automatically supplemented with 0, the EPC code scanned by the code scanning gun 4 is judged, then supplemented with 0, and white list verification and conversion are performed, so that the consistency of the data of the code scanning gun 4 and the reader-writer is ensured.

Data screening:

For the conversion of the encoded data, based on the filtering white list of the asset encoding specification, the system pre-processes the asset data submitted in real time according to the white list, automatically distinguishes the asset types and filters out the effective data.

And (3) automatically removing and counting the preprocessed asset data through calculation and screening, and displaying the data in real time.

In the data screening stage, the preprocessing of the encoding acquisition stage is carried out on the data reported by the reader-writer, the encoding processing obtained by the two acquisition modes is consistent, and then the following screening processing is carried out on the EPC codes in the acquired data:

1. Performing custom security white list verification on EPC codes and converting according to white list rules, such as intercepting digits (for example, intercepting the front 22 digits of the EPC codes), matching the head (for example, matching the head of 51000 EPC codes), and converting the EPC codes at specified positions (converting 0 'at 7 into 1'); the white list setting rule is as follows:

2. Because the data is reported repeatedly all the time, the code is subjected to deduplication processing, and the uniqueness of the displayed and submitted data is ensured.

Data management phase

And trace management and data export of the historical database record, and the exported EXCEL file format and content are autonomously adjusted according to the actual data interaction demand change.

Specifically, the working principle of the metering identification cabinet is as follows: when the meter is required to be taken out of the warehouse, a warehouse manager places the meter box 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 the software to start reading, starting the antenna 31 and the reader-writer, transmitting all acquired rfid tag coding information to the intelligent identification platform of the meter asset by the antenna 31, performing further data processing including coding de-duplication, coding conversion and data verification by the software, and finally displaying and counting the actually effective coding information. After the reading is completed, the software platform archives the ex-warehouse information of each time, and can conduct data export in the ex-warehouse record.

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, and the electromagnetic shielding plates are arranged in the turnover box 5, so that the turnover box 5 is uniformly divided into two intervals, only one antenna 31 of the electric energy meters 6 in the two intervals is used for identification and reading, the repetition probability is greatly reduced, and compared with the antennas 31 at the single position at the top, the antennas 31 arranged at the two sides have wider induction range, and the missing problem of the electric energy meters 6 at the bottom is less. Because the areas sensed by the at least two antennas 31 are arranged at one side and overlap in a preset range, a deduplication screening algorithm is preset in the main controller, so that the identification efficiency and the identification accuracy are improved.

The foregoing description of the preferred embodiment of the invention is not intended to limit the invention in any way, but rather to cover all modifications, equivalents, improvements and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. The metering identification method is characterized by being applied to a main controller, wherein the main controller is arranged in a control cabinet and is connected with a reader-writer, and the metering identification method specifically comprises the following steps of:

S1, receiving meter asset coding information to generate a same batch of data set, wherein the meter asset coding information comprises meter asset coding information automatically collected by an antenna (31) and asset coding information manually collected by a code scanning gun (4), and the meter asset coding information comprises EPC codes and is preprocessed:

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

Judging whether the length of the EPC code is a first preset length, if not, zero padding the lower bits of the EPC code to obtain the EPC code with the length of the first preset length;

S2, carrying out data screening on the data set to obtain an effective asset data set, wherein the data screening comprises white list rule checking conversion and deduplication treatment;

The white list rule checking conversion specifically comprises the following steps:

intercept the number of bits: according to the EPC code with the length being the first preset length, the EPC code with the second preset length is intercepted from the high order;

Matching the beginning: performing regular matching on the EPC code 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;

Conversion coding: converting the regular matching result according to a preset conversion starting length, a conversion ending length and target conversion content to obtain converted EPC codes;

The de-duplication treatment is as follows: filtering the meter asset coding information corresponding to the converted EPC code, and discarding the repeated information to obtain an effective asset data set;

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

2. The metering and identifying system is characterized by comprising a turnover box and a metering and identifying cabinet, wherein the turnover box comprises a box body, the box body is provided with two spaces uniformly separated by an electromagnetic shielding plate, and the width of the spaces is equal to that of a single electric energy meter (6);

The identification cabinet comprises a cabinet body (1), wherein 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 a collection cabinet (3): the collecting cabinet (3) is of a hollow cuboid structure, the collecting cabinet (3) is provided with an opening side face and 2 sweeping surfaces, the 2 sweeping surfaces are formed on two side plates adjacent to the opening 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; a main controller is arranged in the control cabinet (2) and is used for executing the metering identification method as claimed in claim 1;

And the reader-writer is connected with the main controller, 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.

3. A metering identification system as claimed in claim 2 wherein the master controller: obtaining meter asset coding information which is sensed by all antennas (31) and is read in at the same time through a reader-writer, and forming a same batch of data set according to the meter asset coding information;

and (3) a main controller: and performing de-duplication screening based on the obtained data set to obtain a corresponding effective asset data set.

4. A metering identification system as claimed in claim 3 wherein the de-duplication screening based on the obtained data set comprises in particular the steps of:

And when the trigger identification signal is detected, carrying out de-duplication screening on the data sets of the same batch to obtain a corresponding effective asset data set of the same batch.

5. A metering identification system as claimed in 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 unidentified data sets of one or more different batches;

And when the trigger identification signal is detected, carrying out de-duplication 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 according to claim 2, wherein one side of the control cabinet (2) is a movable side plate capable of being 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 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 the main controller.