CN114118321A - PCCP pipeline electronic identification system and method - Google Patents

Abstract

The application relates to a PCCP pipeline electronic identification system and a method, wherein the PCCP pipeline electronic identification system comprises a CCP pipeline electronic identification system, and the CCP pipeline electronic identification system comprises terminal equipment and read-write equipment, and is characterized in that: the electronic tag is arranged on the inner wall of the PCCP pipeline and is an RFID electronic tag adopting a radio frequency identification technology; the electronic tag is stored with tag data of a corresponding PCCP pipeline, wherein the tag data comprises a pipeline number, raw material quality, product size, specification and model, appearance quality, process parameters and manufacturing date; the tag data further includes an installation location of the PCCP pipe; the terminal equipment is used for reading, writing and editing the tag data stored in the electronic tag, and the reading and writing equipment is used for identifying the tag data stored in the electronic tag; the terminal equipment is connected with the read-write equipment in a wired or wireless mode, and the terminal equipment is electrified through the read-write equipment. The method and the device have the advantages of digitalization, informatization, improvement of working efficiency and improvement of representation accuracy.

Description

PCCP pipeline electronic identification system and method

Technical Field

The present application relates to the field of pipeline identification, and in particular, to a PCCP pipeline electronic identification system and method.

Background

The PCCP pipeline is made by winding circumferential prestressed steel wires on a high-strength concrete pipe core with a steel cylinder and spraying a compact cement mortar protective layer on the prestressed steel wires. The PCCP pipeline is widely applied to long-interval water delivery main lines, pressure inverted siphons, urban water supply projects, industrial pressure water delivery pipelines, power plant circulating water project sewer pipelines, pressure sewage discharge main pipes and the like.

At present, the PCCP pipeline finished product identifier usually adopts a sample plate paint spraying method on the inner wall to draw fixed contents, but the differentiated information such as the pipeline number, the specification and the model, the production date, the inspection state and the like can only be written or stamped by hand, the information content is limited, the traceability is poor, the mark becomes light or disappears after long-term or water flow washing, and the reading is difficult after the PCCP pipeline finished product identifier is installed underground.

In actual production, the marking method of the intermediate product in the production process of the PCCP pipeline adopts a method of handwriting on the outer wall of the pipe; the inventors have found that such a PCCP marking method has a defect that the method is not standardized and is not beautiful and is easily covered by a subsequent process to cause an error.

Disclosure of Invention

In order to improve the accuracy of the PCCP pipeline identification and enable the PCCP pipeline identification to be more convenient to read, the application provides the electronic identification system and method of the PCCP pipeline, and the electronic identification system and method are more informationized and digitalized.

The PCCP pipeline electronic identification system and the method provided by the application adopt the following technical scheme:

in a first aspect, the present application provides a PCCP pipeline electronic identification system, which adopts the following technical scheme:

the utility model provides a PCCP pipeline electronic identification system, includes terminal equipment and read-write equipment, its characterized in that: the electronic tag is arranged on the inner wall of the PCCP pipeline and is an RFID electronic tag adopting a radio frequency identification technology;

the electronic tag is stored with tag data of a corresponding PCCP pipeline, wherein the tag data comprises a pipeline number, raw material quality, product size, specification and model, appearance quality, process parameters and manufacturing date; the tag data further includes an installation location of the PCCP pipe;

the terminal equipment is used for reading, writing and editing the tag data stored in the electronic tag, and the reading and writing equipment is used for identifying the tag data stored in the electronic tag; the terminal device is connected with the read-write device in a wired or wireless mode, and the terminal device reads the tag data in the electronic tag through the read-write device.

Through the scheme, the original spraying label is replaced by adopting the electronic label, so that the PCCP pipeline can be more conveniently identified through a handheld reader-writer after being installed, and the obtained label data is more accurately read; the service life of the label can be prolonged, compared with a spraying label, the electronic label is not easy to damage, and the PCCP can be stored more perfectly after being installed and used for a period of time.

Optionally, the terminal device may further generate, edit, store, write in, and retrieve the tag data in the electronic tag through the read-write device.

Through the scheme, after the electronic tag is read, a worker can operate the terminal device to write the newly generated detection data into the electronic tag through the handheld reader-writer, and can also edit the tag data in the electronic tag to update and correct the tag data in time.

Optionally, the terminal device may also perform statistics on tag data in multiple groups of electronic tags and make a report.

Through the scheme, the label data of the PCCP pipeline can be clearly and visually arranged, so that the working efficiency is improved.

Optionally, the read-write device is a handheld reader-writer and/or a fixed reader-writer.

Through the scheme, the handheld reader-writer is convenient to move and operate and is more flexible; the fixed reader-writer has stronger performance, has diversity in the selection of the reading and writing equipment, and is suitable for more working scenes.

Optionally, the handheld reader-writer adopts a remote ultrahigh frequency handheld terminal collector, the communication mode of the handheld reader-writer comprises 4G, WIFI and bluetooth, and an android system is adopted for reading, inputting and editing tag data in the electronic tag, and operations of routing inspection, warehousing checking, warehousing and ex-warehousing, statistics, production and installation, operation process tracing and file retrieval can also be performed.

Through the scheme, the handheld reader-writer can complete multiple functions through the operations of routing inspection, storage checking, warehousing, statistics, production, installation, operation process tracing and file retrieval, and the working efficiency is further improved.

Optionally, the fixed reader/writer has an active mode, a master-slave mode, and a trigger mode.

Through the scheme, the fixed reader-writer can be suitable for more working scenes in multiple modes.

Optionally, the fixed reader/writer actively induces the electronic tag, reads and writes tag data in the electronic tag, and automatically uploads the tag data in the electronic tag to the terminal device in an active mode.

Through the scheme, the fixed reader-writer performs active sensing and other operations in an active mode, so that the operation of workers on the fixed reader-writer is reduced, the workers can recognize the PCCP pipeline more worryably and laborsavingly, and the working efficiency is improved during routine inspection.

Optionally, in the master-slave mode, the fixed reader/writer senses the electronic tag, reads and writes tag data in the electronic tag, and automatically uploads and automatically stores the tag data in the electronic tag to the terminal device after the terminal device sends an instruction.

Through the scheme, in a master-slave mode, the fixed reader-writer reads the electronic tag and performs a series of operations according to the control of the computer, the controllability is stronger, and the operation behavior is more flexible for the PCCP pipeline identification work with a specific purpose.

Optionally, the fixed reader-writer is provided with a photoelectric sensor, and the fixed reader-writer senses the PCCP pipeline through the photoelectric sensor in a trigger mode, and detects the electronic tag on the corresponding PCCP pipeline in real time or in a delayed manner, and reads and writes tag data in the electronic tag.

Through the scheme, the triggering mode can more efficiently sense the position of the PCCP pipeline and more accurately identify the electronic tag, and the PCCP pipeline combination with more complex positions or shapes can also be identified with higher efficiency, so that the working efficiency is further improved.

In a second aspect, the present application provides a PCCP pipeline electronic identification method, which adopts the following technical scheme:

a PCCP pipeline electronic identification method comprises the following steps:

generating total data of the PCCP pipeline, wherein the total data comprises a plurality of groups of label data corresponding to the PCCP pipeline, and distributing the label data and writing the label data into electronic labels installed on the corresponding PCCP pipeline through reading and writing equipment;

receiving read data in the electronic tag sent by the read-write equipment; the read data is label data read by the reading and writing equipment after the reading and writing equipment senses the electronic label;

counting the first data;

and producing a report according to the first data.

Through the scheme, the original spraying label is replaced by adopting the electronic label, so that the PCCP pipeline can be more conveniently identified through a handheld reader-writer after being installed, and the obtained label data is more accurately read; the service life of the label can be prolonged, compared with a spray label, the electronic label is not easy to damage, and the label can be stored more perfectly after the PCCP pipeline is installed and used for a period of time; through counting the stored label data and making a report, the label data of the PCCP pipeline is arranged more clearly and intuitively, and the working efficiency is improved.

Drawings

FIG. 1 is a block diagram of a PCCP pipeline electronic identification system;

FIG. 2 is a block flow diagram of a PCCP pipeline electronic identification method using a handheld reader;

FIG. 3 is a flow chart of a PCCP pipeline electronic identification method in an active mode using a fixed reader/writer;

FIG. 4 is a flow chart of a PCCP pipeline electronic identification method in a master-slave mode by using a fixed reader-writer;

fig. 5 is a flow chart of the PCCP pipeline electronic identification method using a fixed reader in a trigger mode.

Description of reference numerals: 1. a terminal device; 2. a read-write device; 21. a handheld reader; 22. fixing the reader-writer; 3. an electronic tag.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-5 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses a PCCP pipeline electronic identification system.

Example 1

The embodiment of the application discloses a PCCP pipeline electronic identification system. Referring to fig. 1, the PCCP pipeline electronic identification system and method includes a terminal device 1 for control, a read-write device 2 for reading and writing label data, and an electronic label 3 for carrying label data.

Referring to fig. 1 and fig. 2, a terminal device 1 and a read-write device 2 are connected in a wired or wireless manner, where the wireless connection manner is not limited to Wi-Fi, bluetooth, cellular network, and the like, in this embodiment, the terminal device 1 adopts a computer, and the terminal device 1 and the read-write device 2 are connected in a Wi-Fi manner; the terminal device 1 reads the tag data in the electronic tag 3 through the read-write device 2.

The read-write equipment 2 adopts a hand-held reader-writer 21 and/or a fixed reader-writer 22; in this embodiment, the read-write device 2 employs a handheld reader-writer 21 with better flexibility.

The electronic tag 3 stores tag data of a corresponding PCCP pipeline, wherein the tag data comprises a pipeline number, raw material quality, product size, specification and model, appearance quality, process parameters and manufacturing date. When the label needs to be read and written for the PCCP pipeline, the information related to the corresponding PCCP pipeline can be conveniently obtained only by reading and writing the electronic label 3 through the handheld reader-writer 21, so that the maintenance and statistics for the PCCP pipeline are facilitated.

The electronic tag 3 is adopted to replace the original spraying tag, so that the PCCP pipeline can be more conveniently identified through the handheld reader-writer 21 after being installed, and the obtained tag data is more accurate to read; the service life of the label can be prolonged, compared with a spraying label, the electronic label 3 is not easy to damage, and can be stored more perfectly after the PCCP pipeline is installed and used for a period of time.

In order to more accurately locate the read PCCP pipe, the tag data further includes an installation position of the PCCP pipe; because the PCCP pipeline is buried underground after being installed, the handheld reader-writer 21 can obtain the information of the installation position in the tag data after reading the electronic tag 3, and the read other tag data corresponding to the PCCP pipeline corresponds to the installation position, so that the PCCP pipeline can be more accurately maintained.

In order to make the identification system more flexible, the terminal device 1 can also generate, edit, store, write in, and retrieve the tag data in the electronic tag 3 through the handheld reader/writer 21. After reading the electronic tag 3, a worker can operate the terminal device 1 to write newly generated detection data into the electronic tag 3 through the handheld reader-writer 21, and can also edit tag data in the electronic tag 3 to update and correct the tag data in time;

when the new terminal device 1 is used for identifying the electronic tag 3, the tag data read from the electronic tag 3 can be stored, and the tag data can be retrieved from the terminal device 1, so that the corresponding information of the PCCP pipeline can be conveniently looked up, and the working efficiency is improved.

The terminal device 1 can also count the stored label data and make a report, so that the label data of the PCCP pipeline can be arranged more clearly and intuitively, and the working efficiency is improved.

In order to improve the reading efficiency and the reading range of the handheld reader-writer 21, the handheld reader-writer 21 adopts a remote ultrahigh frequency handheld terminal collector, so that the handheld reader-writer 21 can read the electronic tag 3 of the PCCP pipeline with a deeper and farther installation position, and the reading precision is higher; the communication mode of the handheld reader-writer 21 comprises 4G, WIFI and Bluetooth, so that the handheld reader-writer 21 is connected with the terminal equipment 1 in a more mode when in use; the hand-held reader-writer 21 can also perform the operations of routing inspection, storage checking, warehousing, statistics, production and installation, tracing in the operation process and file retrieval, so that the hand-held reader-writer can perform multiple functions and further improve the working efficiency.

Specifically, the handheld reader/writer 21 adopts an android system, so that it can be connected to other portable terminal devices 1 such as a mobile phone, and can read more flexibly.

Example 2

The difference between this embodiment and embodiment 1 is that in this embodiment, the fixed reader/writer 22 is adopted as the reader/writer 2, the fixed reader/writer 22 includes three modes, which are an active mode, a master-slave mode, and a trigger mode, and the fixed reader/writer 22 is provided with a photosensor.

The fixed reader/writer 22 actively senses the electronic tag 3 in the active mode, reads and writes tag data in the electronic tag 3, and automatically uploads the tag data in the electronic tag 3 to the terminal device 1.

In the active mode, the fixed reader/writer 22 performs operations such as active sensing, thereby reducing operations on the fixed reader/writer 22 by the worker, enabling the worker to recognize the PCCP pipeline more comfortably and more laborsavingly, and improving the working efficiency during routine inspection.

In the master-slave mode, the fixed reader/writer 22 senses the electronic tag 3, reads and writes the tag data in the electronic tag 3, and automatically uploads and automatically stores the tag data in the electronic tag 3 to the terminal device 1 after the terminal device 1 sends an instruction.

In the master-slave mode, the fixed reader-writer 22 reads the electronic tag 3 and performs a series of operations according to the control of the computer, so that the controllability is stronger, and the operation behavior is more flexible for some PCCP pipeline identification work with a specific purpose.

The fixed reader-writer 22 is provided with a photoelectric sensor, and the fixed reader-writer 22 senses the PCCP pipeline through the photoelectric sensor in a trigger mode, detects the electronic tag 3 on the corresponding PCCP pipeline in real time or in a delayed manner, and reads and writes tag data in the electronic tag 3.

The trigger mode can sense the position of the PCCP pipeline more efficiently and identify the electronic tag 3 more accurately, and can identify the PCCP pipeline combination with more complex position or shape more efficiently, so that the working efficiency is further improved.

The application also discloses a PCCP pipeline electronic identification method.

Example 3

Referring to fig. 2, the PCCP pipe electronic identification method includes the following steps when using the handheld reader/writer 21:

step S000: writing the label information of the PCCP pipeline into the electronic label 3, implanting the electronic label 3 into the PCCP pipeline in an ABS plastic integrated packaging mode, and installing the PCCP pipeline.

Step S111: the handheld reader/writer 21 is moved to the PCCP pipe corresponding position.

During maintenance or other working scenes needing to identify the PCCP pipeline, the handheld reader-writer can be used for more flexibly identifying according to the position and operation of workers.

Step S211: the RFID tag 3 is inductively identified by the handheld reader/writer 21.

Step S310: the tag information of the electronic tag 3 is read by the handheld reader/writer 21.

Step S410: writing preset data through the handheld reader-writer 21;

the preset data can be inspection results after maintenance, and can also be data such as identification records, so that maintenance history records are stored in the electronic tag 3, and the history records can be read during subsequent identification work, so that the PCCP pipeline identification work is more informationized and digitized.

Step S500: automatically uploading the read data and automatically storing the read data;

the read label data are stored in the computer through the handheld reader-writer 21, the computer can be connected with the server and upload the label data to the computer, and the computer automatically uploads the label data to the cloud server, so that the records such as the label data are not easy to lose.

Example 4

Referring to fig. 3, the PCCP pipe electronic identification method includes the following steps when using the fixed reader/writer 22 and in the active mode:

step S000: writing the label information of the PCCP pipeline into the electronic label 3, implanting the electronic label 3 into the PCCP pipeline in an ABS plastic integrated packaging mode, and installing the PCCP pipeline.

Step S221: the RFID tag 3 is inductively identified by the fixed reader/writer 22.

Step S320: the tag information of the electronic tag 3 is read by the fixed reader/writer 22.

Step S421: the predetermined data is written by the fixed reader/writer 22.

Step S500: and automatically uploading the read data and automatically storing the read data.

Example 5

Referring to fig. 4, the PCCP pipe electronic identification method includes the following steps when using the fixed reader/writer 22 and in the master-slave mode:

step S000: writing the label information of the PCCP pipeline into the electronic label 3, implanting the electronic label 3 into the PCCP pipeline in an ABS plastic integrated packaging mode, and installing the PCCP pipeline.

Step S122: and sending an instruction through the terminal equipment 1 to control the fixed reader-writer to identify.

Step S222: the RFID tag 3 is inductively identified by the fixed reader/writer 22.

Step S320: the tag information of the electronic tag 3 is read by the fixed reader/writer 22.

Step S422: the fixed reader/writer 22 is controlled by the terminal device 1 to write preset data.

Step S500: and automatically uploading the read data and automatically storing the read data.

In the master-slave mode, the fixed reader-writer 22 reads the electronic tag 3 and performs a series of operations according to the control of the computer, so that the controllability is stronger, and the operation behavior is more flexible for some PCCP pipeline identification work with a specific purpose.

Example 6

Referring to fig. 5, the PCCP pipe electronic identification method includes the following steps when using the fixed reader/writer 22 and in a departure mode:

step S000: writing the label information of the PCCP pipeline into the electronic label 3, implanting the electronic label 3 into the PCCP pipeline in an ABS plastic integrated packaging mode, and installing the PCCP pipeline.

Step S123: the position of the PCCP pipe is sensed by a photosensor.

Step S222: the electronic tag 3 is detected by the fixed reader-writer 22 in real time or with time delay.

Step S320: the tag information of the electronic tag 3 is read by the fixed reader/writer 22.

Step S421: the predetermined data is written by the fixed reader/writer 22.

Step S500: and automatically uploading the read data and automatically storing the read data.

The trigger mode can sense the position of the PCCP pipeline more efficiently and identify the electronic tag 3 more accurately, and can identify the PCCP pipeline combination with more complex position or shape more efficiently, so that the working efficiency is further improved.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (10)

1. The utility model provides a PCCP pipeline electronic identification system, includes terminal equipment (1) and reading and writing equipment (2), its characterized in that: the electronic tag is characterized by further comprising an electronic tag (3) arranged on the inner wall of the PCCP, wherein the electronic tag (3) is an RFID electronic tag (3) adopting a radio frequency identification technology;

the electronic tag (3) stores tag data of corresponding PCCP pipelines, wherein the tag data comprises pipeline numbers, raw material quality, product sizes, specification models, appearance quality, process parameters and manufacturing dates; the tag data further includes an installation location of the PCCP pipe;

the terminal device (1) is used for reading, writing and editing the tag data stored in the electronic tag (3), and the reading and writing device (2) is used for identifying the tag data stored in the electronic tag (3); the terminal device (1) is connected with the read-write device (2) in a wired or wireless mode, and the terminal device (1) reads the tag data in the electronic tag (3) through the read-write device (2).

2. The PCCP pipe electronic identification system of claim 1, wherein: the terminal device (1) can also generate, edit, store, write and retrieve the tag data in the electronic tag (3) through the read-write device (2).

3. The PCCP pipe electronic identification system of claim 2, wherein: the terminal equipment (1) can also count the label data in the multiple groups of electronic labels (3) and make a report.

4. The PCCP pipe electronic identification system of claim 1, wherein: the read-write equipment (2) adopts a hand-held reader-writer (21) and/or a fixed reader-writer (22).

5. The PCCP pipe electronic identification system of claim 4, wherein: the handheld reader-writer (21) adopts a remote ultrahigh frequency handheld terminal collector, the communication mode of the handheld reader-writer (21) comprises 4G, WIFI and Bluetooth, an android system is adopted for reading, inputting and editing tag data in the electronic tag (3), and the operations of routing inspection, storage checking, warehousing, statistics, production and installation, operation process tracing and file retrieval can be further carried out.

6. The PCCP pipe electronic identification system of claim 4, wherein: the fixed reader/writer (22) has an active mode, a master-slave mode, and a toggle mode.

7. The PCCP pipe electronic identification system of claim 6, wherein: the fixed reader-writer (22) actively induces the electronic tag (3), reads and writes tag data in the electronic tag (3) and automatically uploads the tag data in the electronic tag (3) to the terminal device (1) in an active mode.

8. The PCCP pipe electronic identification system of claim 6, wherein: the fixed reader-writer (22) senses the electronic tag (3), reads and writes tag data in the electronic tag (3), and automatically uploads and automatically stores the tag data in the electronic tag (3) to the terminal device (1) after the terminal device (1) sends an instruction in a master-slave mode.

9. The PCCP pipe electronic identification system of claim 6, wherein: the fixed reader-writer (22) is provided with a photoelectric sensor, the fixed reader-writer (22) senses the PCCP pipeline through the photoelectric sensor in a trigger mode, detects the electronic tag (3) on the corresponding PCCP pipeline in real time or in a delayed mode, and reads and writes tag data in the electronic tag (3).

10. A PCCP pipeline electronic identification method is characterized in that: the method comprises the following steps:

generating total data of the PCCP pipeline, wherein the total data comprises a plurality of groups of label data corresponding to the PCCP pipeline, and distributing the label data and writing the label data into an electronic label (3) installed on the corresponding PCCP pipeline through a read-write device (2);

receiving read data in the electronic tag (3) sent by the read-write equipment (2); the read data is label data read by the reading and writing equipment (2) after the electronic label (3) is induced;

counting the first data;

and producing a report according to the first data.

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