CN114492486A

CN114492486A - Novel RFID electronic boundary point equipment

Info

Publication number: CN114492486A
Application number: CN202111618171.7A
Authority: CN
Inventors: 王庆; 王春雨; 牛运丰
Original assignee: Jiangsu Jicui Future City Application Technology Research Institute Co ltd
Current assignee: Jiangsu Jicui Future City Application Technology Research Institute Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-05-13

Abstract

The invention provides novel RFID electronic interface point equipment which comprises an electronic interface point shell, a power supply, a controller, a memory, a GNSS module, an Internet of things module, an active RFID electronic tag, an acceleration sensor and an upper cover assembly, wherein the power supply is configured to supply power to the whole equipment, the controller is configured to receive, send, identify and issue data or commands, the memory is configured to store the data, and the GNSS module is configured to be connected with a GNSS satellite base station, so that the equipment can be positioned at a specific position. The RFID wireless distance measurement and positioning technology is overcome by analyzing the phase change, the arrival angle and the flight time of the RFID wireless radio frequency signal, the remote positioning and the discovery of the electronic access point are realized, the RFID read-write module is carried by combining an unmanned aerial vehicle and a robot, the close-range high-precision positioning of the electronic access point is realized, and the multifunctional integrated requirements of digital transmission, networking, positioning, low power consumption and the like of the electronic access point in cadastral investigation are met.

Description

Novel RFID electronic boundary point equipment

Technical Field

The invention relates to the technical field of boundary point equipment, in particular to novel RFID electronic boundary point equipment.

Background

The boundary point is a turning point of the land parcel or the right boundary, i.e. an inflection point. It is an important mark for calibrating the boundary of the land parcel right. When the land parcel ownership is investigated, the boundary points are jointly identified by two adjacent boundary people in the land parcel on site, permanent fixed landmarks are set on the confirmed boundary points, numbering is carried out, and the positions of the permanent fixed landmarks are accurately measured so that the boundary points or inflection points can be accurately found by using a measuring method when the landmarks are damaged in the future. The connecting lines of the boundary points form a boundary line.

All turning connection points of the land right boundary are boundary points. The boundary points are used to determine the location of the right boundary in the cadastral survey, and the connection lines of the boundary points form the boundary line. In order to maintain the permanence of the cadastral investigation result and reduce the occurrence of land disputes, a land boundary point needs to be embedded with a permanent boundary pile and converted into digital coordinates for storage, so that the boundary pile can be recovered after natural disasters and the like. Meanwhile, in order to enhance management and facilitate query, the boundary points are generally numbered according to a certain rule. On the land register and the land ownership certificate, the adjacent obligees are marked by adding comments to ensure the consistency of the chart with the field.

Materials such as concrete, lime and paint need be used to present boundary point equipment when using, and whole work progress is loaded down with trivial details, is difficult for retrieving after the equipment fixing, and equipment structure is whole simple, and functions such as information storage, automatic positioning and communication are not possessed to equipment, and intelligent right information acquisition can't be realized to equipment when using.

The invention aims to solve the problems that the existing interface point does not have the functions of information storage, automatic positioning, communication and the like and is difficult to realize intelligent right information acquisition.

Disclosure of Invention

The invention aims to provide novel RFID electronic boundary point equipment aiming at the defects of the conventional boundary point equipment.

In order to overcome the defects of the prior art, the invention adopts the following technical scheme:

a novel RFID electronic boundary point device comprises an electronic boundary point shell, a power supply, a controller, a memory, a GNSS module, an Internet of things module, an active RFID electronic tag, an acceleration sensor and an upper cover assembly, wherein the power supply is configured to supply power to the whole device, the controller is configured to receive, send, identify and issue data or commands, the memory is configured to store the data, the GNSS module is configured to be connected with a GNSS satellite base station so that the device can be positioned at a specific position, the Internet of things module is configured to be connected with a cloud server so that the cloud server can monitor the state of the device in real time and acquire boundary point related data, the active RFID electronic tag is configured to actively detect the surrounding and detect whether a calling signal emitted by a reader exists or not and transmit the information of the active RFID electronic tag to an RFID read-write module, the acceleration sensor is configured to measure the acceleration of the equipment, the upper cover assembly is configured to control the equipment to be switched on and off and prompt a user, and the power supply, the controller, the memory, the GNSS module, the Internet of things module, the active RFID electronic tag and the acceleration sensor are all installed inside the electronic boundary point shell.

Optionally, the upper cover subassembly includes protective cover, operating button and three status indicator lamp, operating button's surface with the inside fixed cup joint of last protective cover, operating button's top runs through extremely the top of electron boundary point shell, it is three status indicator lamp's colour is red, yellow and green respectively, and is three go up the protective cover all with the top bolt of going up the protective cover, the bottom of going up the protective cover with the top installation of electron boundary point shell, it is right that the cover is configured to go up the top of electron boundary point shell is sealed, and right the inside power of electron boundary point shell, controller, memory, GNSS module, thing networking module, active RFID electronic tags and acceleration sensor protect.

Optionally, the active RFID tag is provided with an interface point number and a PSS/TOF in its inside.

The beneficial effects obtained by the invention are as follows:

1. the method has the advantages that the remote location and discovery of the electronic boundary point are realized by analyzing the phase change, the arrival angle and the flight time of the RFID wireless radio frequency signal and overcoming the RFID wireless distance measurement and location technology, the close-range high-precision location of the electronic boundary point is realized by combining an unmanned aerial vehicle and a robot carrying RFID read-write module, and the multifunctional integrated requirements of digital transmission, networking, location, low power consumption and the like of the electronic boundary point in cadastral investigation are met;

2. by adopting the active RFID electronic tag, the novel electronic boundary point equipment capable of sensing remotely and the reading equipment thereof, the rapid discovery and intelligent inspection of the boundary point by an unmanned aerial vehicle and a robot are realized, meanwhile, a short-distance wireless high-precision positioning algorithm assists in enhancing the boundary point positioning under the condition that a satellite signal is shielded so as to obtain the high-precision geographical coordinate position of the boundary point, further, by utilizing the Internet of things technology of the Internet of things module, the electronic boundary point is connected into a cloud server, the state of the boundary point can be monitored in real time, the related data of the boundary point is obtained, the rapid discovery of the intelligent inspection and the problem is realized, and the collected information can be stored through the memory;

3. by adopting modules which are integrated and compatible with the GNSS module, the GNSS satellite base station, the Internet of things module, the active RFID electronic tag, the acceleration sensor and the like, the artificial movement can be automatically detected after the modules are arranged, and the artificial movement can be reported to the system, the artificial movement can be automatically positioned in a GNSS open area, the artificial movement can be cooperatively positioned with the unmanned aerial vehicle and the robot air ground in a GNSS shielded area, the effective reading range of an electronic interface point can be larger than 200m, the endurance time is longer than 7 days, and the positioning precision is better than 5 cm;

4. this equipment can use same kind of equipment to different geographical positions to this equipment is directly put to the boundary point position and can be used, need not the use of traditional equipment to steps such as concrete, lime and spray paint, and simple to operate retrieves also conveniently, and compatible simultaneously prevent displacement and automatic positioning function, very make things convenient for large-scale investigation and management.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a schematic view of the structure of the present invention.

Fig. 2 is an exploded view of the structure of the present invention.

FIG. 3 is a flow chart of the system of the present invention.

The reference numbers illustrate: 1-electronic interface point housing; 2-a power supply; 3-a controller; 4-a memory; 5-a GNSS module; 6-an internet of things module; 7-active RFID electronic tags; 8-an acceleration sensor; 9-an upper cover assembly; 91-upper protective cover; 92-an operating button; 93-status indicator light.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the following embodiments; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper" and "lower" and "left" and "right" etc., it is only for convenience of description and simplification of the description based on the orientation or positional relationship shown in the drawings, but it is not indicated or implied that the device or assembly referred to must have a specific orientation.

The first embodiment is as follows: a novel RFID electronic boundary point device comprises an electronic boundary point shell 1, a power supply 2, a controller 3, a memory 4, a GNSS module 5, an Internet of things module 6, an active RFID electronic tag 7, an acceleration sensor 8 and an upper cover assembly 9, wherein the power supply 2 is configured to supply power to the whole device, the controller 3 is configured to receive, send, identify and issue data or commands, the memory 4 is configured to store data, the GNSS module 5 is configured to be connected with a GNSS satellite base station so that the device can be positioned at a specific position, the Internet of things module 6 is configured to be connected with a cloud server so that the cloud server can monitor the state of the device in real time and acquire boundary point related data, the active RFID electronic tag 7 is configured to actively detect the surrounding and determine whether a call signal transmitted by a reader exists or not and transmit the call signal to the RFID read-write module, the acceleration sensor 8 is configured to measure the acceleration of the device, the upper cover assembly 9 is configured to control the device to be switched on and off and prompt a user, and the power supply 2, the controller 3, the memory 4, the GNSS module 5, the internet of things module 6, the active RFID electronic tag 7 and the acceleration sensor 8 are all installed inside the electronic access point shell 1.

The upper cover assembly 9 comprises an upper protective cover 91, an operation button 92 and three status indicator lamps 93, wherein the surface of the operation button 92 is fixedly sleeved with the inside of the upper protective cover 91, the top end of the operation button 92 penetrates through the top of the electronic access point housing 1, the three status indicator lamps 93 are respectively red, yellow and green in color, the three upper protective covers 91 are bolted to the top of the upper protective cover 91, the bottom of the upper protective cover 91 is mounted to the top of the electronic access point housing 1, and the upper protective cover 91 is configured to seal the top of the electronic access point housing 1 and protect the power supply 2, the controller 3, the memory 4, the GNSS module 5, the internet of things module 6, the active RFID electronic tag 7 and the acceleration sensor 8 inside the electronic access point housing 1; and the active RFID electronic tag 7 is internally provided with an interface point number and a PSS/TOF.

Example two: the present embodiment should be understood to include at least all the features of any one of the foregoing embodiments and further improve on the same, and in particular, provide a novel RFID electronic endpoint device, which includes an electronic endpoint housing 1, a power supply 2, a controller 3, a memory 4, a GNSS module 5, an internet of things module 6, an active RFID electronic tag 7, an acceleration sensor 8 and an upper cover assembly 9, wherein the power supply 2 is configured to supply power to the whole device, the controller 3 is configured to receive, transmit, identify and issue data or commands, the memory 4 is configured to store data, the GNSS module 5 is configured to connect with a GNSS satellite base station to enable the device to be located at a specific position, the internet of things module 6 is configured to connect with a cloud server to enable the cloud server to monitor the device status in real time and acquire the endpoint related data, the active RFID electronic tag 7 is configured to actively detect the surrounding and detect whether a call signal transmitted by a reader exists or not, and transmit the information of the active RFID electronic tag to the RFID read-write module, the acceleration sensor 8 is configured to measure the acceleration of the equipment, the upper cover assembly 9 is configured to control the equipment to be switched on and off and prompt users, and the power supply 2, the controller 3, the memory 4, the GNSS module 5, the Internet of things module 6, the active RFID electronic tag 7 and the acceleration sensor 8 are all installed inside the electronic access point shell 1. Specifically, the GNSS module 5 and the GNSS satellite base station can realize accurate positioning of an electronic pointing device, and third, the electronic pointing device can be easily found by a person, and accurate finding and maintenance are convenient to perform, in this embodiment, the internet of things module 6 includes 4G and 5G communication signals, in this embodiment, the controller 3 can directly control the active RFID electronic tag 7, the GNSS module 5, the internet of things module 6, and the acceleration sensor 8, and the controller 3 can meet normal use of the device, in this embodiment, the data stored in the memory 4 can be directly retrieved by the controller 3, and meanwhile, the data stored in the memory 4 can also be input into a cloud server by the controller 3 through the internet of things module 6, so that the person can remotely find data of device information, the signal that active RFID electronic tags 7 sent can directly be read by air/ground robot in the read-write scope of the RFID read-write module of air/ground robot, simultaneously active RFID electronic tags 7 also supports the handheld machine of built-in RFID read-write module to carry out signal reading, in this embodiment, acceleration sensor 8 can also the inertia of response equipment, acceleration sensor 8 and cloud service end in this embodiment can form boundary point and prevent displacement and technique acceleration sensor 8 response equipment can be with equipment movement data transmission to cloud server after removing.

The upper cover assembly 9 includes protective cover 91, operating button 92 and three status indicator lamp 93, operating button 92's surface with the inside fixed cup joint of upper cover 91, operating button 92's top run through to electron boundary point shell 1's top, it is three status indicator lamp 93's colour is red respectively, yellow and green, and is three upper cover 91 all with upper cover 91's top bolt connects, upper cover 91's bottom with the top installation of electron boundary point shell 1, upper cover 91 is configured as right electron boundary point shell 1's top is sealed, and is right the inside power 2 of electron boundary point shell 1, controller 3, memory 4, GNSS module 5, thing networking module 6, active RFID electronic tags 7 and acceleration sensor 8 protect. Specifically, the operation button 92 directly controls the power supply 2 to be turned on and off, and the equipment is turned on and off conveniently during maintenance, in this embodiment, the light of the three middle parts of the status indicator 93 represents the standby or off state of the equipment, the abnormal use of the equipment and the normal use of the equipment, and the standby or off state of the equipment, the abnormal use of the equipment and the normal use of the equipment correspond to the red light, the yellow light and the green light of the status indicator 93 respectively.

In this embodiment, there is also provided a method for pairing devices, the method including: naming the positions of different devices by using the interface point numbers and the PSS/TOF built in the active RFID electronic tags 7 aiming at different positions of the devices, so that the devices at different positions can be distinguished, and thus, the personnel can conveniently manage the different devices; according to the use of different positions, a plurality of named devices are distributed and installed; the installation process starts the device through the operation button 92, so that the active RFID electronic tag 7 in the device can transmit the information received by the RFID reading and writing module, and checking whether the power supply 2, the GNSS module 5, the acceleration sensor 8 and the Internet of things module 6 in the debugging equipment can be used normally, after the equipment is installed, the air/ground robot and the handset with built-in RFID read-write module can directly read the signal emitted by the active RFID electronic tag 7, thereby starting the power supply 2, enabling the power supply 2 to control the GNSS module 5 to be connected with a GNSS satellite base station to realize the quick positioning of the equipment, the distance between the equipment and the robot can be directly measured through a PSS/TOF built in the active RFID electronic tag 7 and a DFID read-write module built in the air/ground robot, so that the distance and the position information are sent to a cloud server through the Internet of things module 6; when the equipment position is in a wide area, the GNSS module 5 and the GNSS satellite base station in the equipment can directly position the equipment, and when the equipment is in a sheltering area, the equipment can be assisted to position through the air/ground robot, so that the equipment can be normally used in different environments.

And the active RFID electronic tag 7 is internally provided with an interface point number and a PSS/TOF. Specifically, the number of different numbers of the equipment can be named by the aid of the boundary point numbers arranged in the active RFID electronic tag 7, so that management and query of the equipment at different positions are facilitated for personnel.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

In conclusion, the novel RFID electronic boundary point equipment disclosed by the invention has the advantages that the remote positioning and discovery of the electronic boundary point are realized by analyzing the phase change, the arrival angle and the flight time of the RFID wireless radio frequency signal and overcoming the RFID wireless distance measurement and positioning technology, the close-range high-precision positioning of the electronic boundary point is realized by combining the unmanned aerial vehicle and the robot carrying the RFID read-write module, and the multifunctional integrated requirements of data transmission, networking, positioning, low power consumption and the like of the electronic boundary point in the cadastral investigation are met; by adopting the active RFID electronic tag 7, a novel electronic boundary point device capable of sensing remotely and a reading device thereof, rapid discovery and intelligent inspection of boundary points by an unmanned aerial vehicle and a robot are realized, meanwhile, a short-distance wireless high-precision positioning algorithm is adopted, under the condition that satellite signals are shielded, the boundary point positioning is assisted to be enhanced so as to obtain the high-precision geographical coordinate position of the boundary points, further, by utilizing the Internet of things technology of the Internet of things module 6, the electronic boundary points are connected into a cloud server, the state of the boundary points can be monitored in real time, the related data of the boundary points are obtained, rapid discovery of intelligent inspection and problems is realized, and the collected information can be stored through the memory 4; by adopting modules such as an integrated compatible GNSS module 5, a GNSS satellite base station, an Internet of things module 6, an active RFID electronic tag 7, an acceleration sensor 8 and the like, the artificial movement can be automatically detected after the modules are arranged, and the artificial movement can be reported to the system, so that the artificial movement can be automatically positioned in a GNSS open area, the artificial movement can be cooperatively positioned with an unmanned aerial vehicle and a robot in the space in the GNSS shielded area, an effective reading range of an electronic interface point can be larger than 200m, the endurance time is longer than 7 days, and the positioning accuracy is better than 5 cm; this equipment can use same kind of equipment to different geographical positions to this equipment is directly put to the boundary point position and can be used, need not the use of traditional equipment to steps such as concrete, lime and spray paint, and simple to operate retrieves also conveniently, and compatible simultaneously prevent displacement and automatic positioning function, very make things convenient for large-scale investigation and pipe.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications can be made without departing from the scope of the invention. That is, the methods, systems, and devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, as different aspects and elements of the configurations may be combined in a similar manner. Further, elements therein may be updated as technology evolves, i.e., many elements are examples and do not limit the scope of the disclosure or claims.

Specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

In conclusion, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is illustrative only and is not intended to limit the scope of the invention. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims

1. The utility model provides a novel RFID electron boundary point equipment, characterized in that, includes electron boundary point shell (1), power (2), controller (3), memory (4), GNSS module (5), thing networking module (6), active RFID electronic tags (7), acceleration sensor (8) and upper cover subassembly (9), power (2) are configured to supply power to the whole equipment, controller (3) are configured to receive, send, discernment and issue data or command, memory (4) are configured to save data, GNSS module (5) are configured to be connected with GNSS satellite base station, make equipment can carry out the location of specific position, thing networking module (6) are configured to be connected with cloud ware, make cloud ware can real time monitoring equipment state, and acquire boundary point relevant data, active RFID electronic tags (7) are configured to carry out the initiative around and detect whether have the reader transmission Calling a signal, transmitting data of the acceleration sensor (8) to an RFID read-write module, measuring the acceleration of the equipment, controlling the equipment by the aid of an upper cover assembly (9), prompting a user by the aid of the upper cover assembly, and installing the power supply (2), the controller (3), the memory (4), the GNSS module (5), the Internet of things module (6), the active RFID electronic tag (7) and the acceleration sensor (8) in the electronic access point shell (1).

2. The novel RFID electronic access point device as claimed in claim 1, wherein the upper cover assembly (9) comprises an upper protective cover (91), an operation button (92) and three status indicator lights (93), the surface of the operation button (92) is fixedly sleeved with the inside of the upper protective cover (91), the top end of the operation button (92) penetrates to the top of the electronic access point housing (1), the three status indicator lights (93) are respectively red, yellow and green in color, the three upper protective covers (91) are bolted to the top of the upper protective cover (91), the bottom of the upper protective cover (91) is mounted to the top of the electronic access point housing (1), and the upper protective cover (91) is configured to seal the top of the electronic access point housing (1) and to provide power supply (2), the inside of the electronic access point housing (1), The controller (3), the memory (4), the GNSS module (5), the Internet of things module (6), the active RFID electronic tag (7) and the acceleration sensor (8) are protected.

3. A new type of RFID electronic endpoint device according to the previous claim 2, characterized by the fact that the active RFID electronic tag (7) has built in endpoint number and PSS/TOF.