CN210155706U - Three-dimensional code doorplate-based place name and address comprehensive service system - Google Patents

Abstract

The utility model provides a place name address integrated service system based on three-dimensional code house plate, including basic panel, emitting diode, circuit board, mobile terminal, backstage server. The central area of the front vertical surface of the basic panel is printed with place name address characters and three-dimensional code patterns; arrow-shaped patterns formed by a plurality of diodes are distributed on the two sides of the place name address characters and the three-dimensional code patterns and respectively face the left end and the right end; the circuit board is arranged at the right lower corner of the vertical surface at the front side of the basic panel. The mobile terminal performs data transmission with the circuit board through Bluetooth, and the background server performs data transmission with the circuit board and the mobile terminal respectively through a wireless communication network provided by an operator. A place name address database is built in the background server, and place name address attributes comprise detailed longitude and latitude data and plate face orientation data of the doorplate. The processor in the circuit board controls the on-off of the light emitting diode according to the destination, the doorplate position data and the doorplate orientation data, and people are guided to reach the destination quickly.

Description

Three-dimensional code doorplate-based place name and address comprehensive service system

Technical Field

The utility model relates to a service system especially relates to a place name address integrated service system based on three-dimensional sign indicating number.

Background

The place name is a proprietary name of the geographic entity and the address is a structured description of the location of the geographic entity. The place name address data is one of the most common social public information resources, is not only closely related to daily life of people, but also is an indispensable basic information resource for government administration, economic construction and information communication at home and abroad. Since the location name address information is basic information data, it relates to a plurality of functional departments such as national, civil, real estate, public security, gas, industry and commerce, statistics, quality inspection, and local tax, so the location name address information must be standardized and standardized.

Doorplates are carriers of recorded addresses, and when people need to find an address, the exact position is usually found through the doorplate. Just as an identity card is a proof of citizenship, a house is an identification of a building, a house, and coordinates of the house in a city location. In the work process of normalization and standardization of the place name address information, the doorplate is one of sources of place name address data acquisition and is also an entity display end after the place name address is standardized. The data in the doorplate and place name address database correspond one by one. At present, people add code patterns such as bar codes, two-dimensional codes, three-dimensional codes and the like on doorplates, realize a series of convenient operations related to place name addresses in a database by scanning codes through a mobile terminal, and various current civil service software applications based on a standard address library are continuously expanded and emerged.

At present, people often use positioning and navigation software of a mobile terminal to perform place name address navigation, but the positioning error of a civil positioning mode is sometimes as high as 100 meters, and after people reach the inside of a community with a plurality of densely distributed place name addresses, people only need to spend much effort to find the specific position of a destination. If the existing house number entity and place name address data can be utilized, in the existing place name address service system, a place name address navigation function is added based on the house number, so that great convenience is brought to life and travel of people. The method has important significance for promoting the construction of space information infrastructure and informatization, promoting the development of society and economy, improving the social operation efficiency and the quality of public life and the like.

Disclosure of Invention

Therefore, the utility model discloses a realize people in the intensive region of place name address, help people navigate fast to accurate place name address position, add the direction function based on the structure of current house plate, after people utilized mobile terminal to select the accurate place name address of destination, near house plate will be for people to navigate to accurate destination.

The utility model adopts the technical proposal that: three-dimensional code doorplate-based place name and address integrated service system is characterized in that: the LED display device comprises a basic panel, LEDs, a circuit board, a mobile terminal and a background server.

The base panel is a rectangular thin plate which is wide at the left and right, narrow at the upper and lower parts and flat at the front and the rear parts, and place name address characters are printed in the central area on the vertical surface at the front side of the base panel; an arrow-shaped pattern which is composed of a plurality of light-emitting diodes and faces to the left end is arranged on the left side of the place name address character; an arrow-shaped pattern which is composed of a plurality of light-emitting diodes and faces to the right end is arranged on the right side of the place name address character; and a three-dimensional code pattern is printed at the tail end region of the place name address character.

Further, the three-dimensional code pattern is between the left and right arrow-shaped patterns.

Furthermore, a wire is printed on the back of the basic panel, and the light emitting diode is connected with the circuit board through the wire.

Furthermore, the outermost layer of the back surface of the base panel is a waterproof sealing film which covers the wires on the back surface of the base panel.

The circuit board is screwed on the front vertical surface of the base panel and is positioned at the right lower corner of the base panel, and a waterproof sealing shell is arranged outside the circuit board.

The circuit board is internally provided with a Bluetooth communication module for short-distance wireless communication with the mobile terminal; the circuit board is also internally provided with a processor for controlling the on-off of the light emitting diode.

The mobile terminal comprises a place name address searching software, and the software has a three-dimensional code recognition function and can rapidly recognize three-dimensional code patterns.

The mobile terminal is provided with an SIM card and carries out data transmission with the background server through a wireless communication network provided by a communication operator.

The mobile terminal is internally provided with a Bluetooth module and carries out data transmission with a circuit board on the basic panel through a Bluetooth communication mode.

Furthermore, the effective communication distance between the mobile terminal and the Bluetooth module in the circuit board is less than or equal to ten meters.

Furthermore, the Bluetooth module in the circuit board is always in a connection request state.

Furthermore, after the bluetooth in the mobile terminal is started, a signal of the bluetooth module in the circuit board can be searched, and after pairing operation is allowed, the two bluetooth devices are connected.

A place name address database is built in the background server, and the attribute information of the place name in the place name address database comprises: the standard name of the place name and the alias, abbreviation and name of the place name; the writing form of the place name, namely the Chinese character writing form of the place name and the minority character writing form; the pronunciation of the place name comprises the original pronunciation and the pronunciation of the Mandarin Chinese with the standard name; the language of the place name indicates the national language type of the standard name; the category of the place name refers to the category of the geographic entity referred by the place name; geographic location of the place name; the origin, meaning and history of the place name are along the leather; the security level of the place name refers to the security level of information such as coordinates of the geographic entity referred by the place name.

Further, the geographical location of the place name in the place name address database is represented by accurate latitude and longitude data.

Because China is all in northern hemisphere, the geographic position is marked by north latitude, and the closer to the north pole, the higher the dimensionality is; the soil of China is all in the eastern hemisphere, the geographic positions are all marked by the eastern meridian, and the closer to the eastern side, the higher the longitude is; the geographical location of the doorplate is set to (N0, E0), and the geographical location of the destination is set to (Ni, Ei).

The background server is provided with a place name address database, the attribute information of the place name in the place name address database for which the corresponding house number is made also comprises the face orientation of the house number, and eight types are towards north, towards south, towards west, towards east, opposite to northwest, opposite to southeast, opposite to northeast and opposite to southwest.

When the face of the house plate swings in the included angle between the northwest direction and the northeast direction, the house plate is uniformly classified as the face facing north, only the longitude of the destination and the house plate is compared at the moment, and when Ei is less than E0, the arrow-shaped pattern facing right on the house plate is lightened; when Ei > E0, the left-facing arrow-shaped pattern on the house plate is bright; when Ei is E0, both arrow shaped patterns on the house plate light up.

When the face of the house plate swings in the included angle between the southwest direction and the southeast direction, the house plate is uniformly classified as the face facing south, only the longitude of the destination and the house plate is compared at the moment, and when Ei is less than E0, the arrow-shaped pattern facing left on the house plate is lightened; when Ei is more than E0, the arrow-shaped pattern towards the right on the doorplate is bright; when Ei is E0, both arrow shaped patterns on the house plate light up.

When the face of the house plate swings in the included angle between the northwest direction and the southwest direction, the face is classified as facing west, only the destination and the latitude of the house plate are compared at the moment, and when Ni is less than N0, the arrow-shaped pattern facing right on the house plate is bright; when Ni is more than N0, the arrow-shaped pattern towards the left on the house number plate is bright; when Ni is N0, both arrow shaped patterns on the house plate light up.

When the face of the house plate swings in the included angle between the northeast direction and the southeast direction, the house plate faces to the east, only the destination and the latitude of the house plate are compared, and when Ni is less than N0, the arrow-shaped pattern facing to the left on the house plate is lightened; when Ni is more than N0, the arrow-shaped pattern towards the right on the house number plate is bright; when Ni is N0, both arrow shaped patterns on the house plate light up.

When the face of the house plate is over against the northwest direction, the longitude and latitude of the destination and the house plate are compared, and when Ni is less than N0 and Ei is less than E0, the arrow-shaped pattern on the house plate facing to the right is bright; when Ni > N0 and Ei > E0, the left-facing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

When the face of the house plate is over against the southeast direction, the longitude and latitude of the destination and the house plate are compared, and when Ni is less than N0 and Ei is less than E0, the arrow-shaped pattern on the house plate towards the left is bright; when Ni > N0 and Ei > E0, the right-pointing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

When the face of the house plate is right opposite to the northeast direction, the longitude and latitude of the destination and the house plate are compared, and when Ni is less than N0 and Ei is more than E0, the arrow-shaped pattern on the house plate facing to the left is bright; when Ni > N0 and Ei < E0, the right-pointing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

When the face of the house plate is over against the southwest direction, the longitude and latitude of the destination and the house plate are compared, and when Ni is less than N0 and Ei is more than E0, the arrow-shaped pattern on the house plate facing to the right is bright; when Ni > N0 and Ei < E0, the left-facing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

The principle of the utility model is that: the face of the basic doorplate, on which the light-emitting diodes and the circuit board are arranged, is the plate face.

In the house number plate installation standard, there is a specific requirement on the installation height of the house number plate, but there is no requirement on the orientation of the installation wall surface of the house number plate, so the plate surface of the house number plate has various orientations. When the face of the house number plate swings in an included angle between the northwest direction and the northeast direction, the longitude mainly plays a navigation role, and the face of the house number plate can be uniformly classified as the north; when the face of the house number plate swings in the included angle between the southwest direction and the southeast direction, the longitude plays a navigation role, and the face of the house number plate can be uniformly classified as southward; when the face of the house card swings in an included angle between the northwest direction and the southwest direction, the dimensionality plays a navigation role, and the face of the house card can be uniformly classified as facing west; when the face of the house number plate swings in the included angle between the northeast direction and the southeast direction, the dimensionality plays a navigation role, and the face of the house number plate can be uniformly classified as the eastern face.

The house number plate faces north, south, west and east, only few house number plate faces north, south, north and south, when the plate faces north, south, north and south, the destination and the house number plate longitude and latitude should be compared to find out more accurate navigation direction.

When a user approaches a certain doorplate and matches Bluetooth, a destination is input in place name address searching software in the mobile terminal, a processor in the circuit board makes corresponding judgment according to the face orientation of the doorplate, the position information of the doorplate and the position information of the destination, a corresponding pin is switched on, and the light-emitting diode is turned on after being electrified; when a user is far away from the doorplate and the Bluetooth pairing is disconnected, the processor in the circuit board disconnects the corresponding pin, and the light-emitting diode is turned off after power failure.

The arrow patterns towards the left and the right on the vertical surface of the front side of the basic panel respectively indicate that a user walks towards the left and towards the right.

The utility model relates to a place name address integrated service system based on three-dimensional yard house plate has following advantage:

(1) the method is suitable for the area with dense place names and addresses, and makes up for the short board with large error of the satellite positioning navigation system in the area with dense place names and addresses;

(2) a pointing structure is additionally arranged on the basis of the existing three-dimensional doorplate, so that the goal of doorplate navigation is realized;

(3) the system makes reasonable direction according to the orientation of the doorplate, the position of the doorplate and the position of the destination, and the concept is ingenious.

Therefore, according to the three-dimensional code doorplate-based place name and address integrated service system, after people select the accurate place name address of the destination by using the mobile terminal, the nearby doorplate can guide people to the accurate destination, and people can be helped to quickly guide people to the accurate place name address position in the area with dense place name addresses. The method has important significance for promoting the construction of space information infrastructure and informatization, promoting the development of society and economy, improving the social operation efficiency and the quality of public life and the like.

Other features and advantages of the invention will be set forth in the description which follows, or may be learned by practice of the invention.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, wherein like reference numerals are used to designate like parts throughout the drawings.

Fig. 1 is a schematic diagram of information transfer of a doorplate, a mobile terminal and a background server.

Fig. 2 is a schematic view of the structure of a doorplate.

Fig. 3 is a schematic view of the navigation direction when the card face of the doorplate faces north.

Figure 4 is a schematic view of the navigation directions of a house number when the face of the house number faces south.

FIG. 5 is a schematic view of the navigation directions of a gate card with the face facing west.

FIG. 6 is a schematic view of the navigation directions when the house number is oriented east.

FIG. 7 is a schematic view of the navigation directions when the face of the doorplate is facing the northwest direction.

FIG. 8 is a schematic view of the navigation directions when the face of the house plate is facing the southeast direction.

FIG. 9 is a schematic view of the navigation directions when the face of the house number plate is facing the northeast direction.

FIG. 10 is a schematic view of the navigation directions when the face of the doorplate is facing the southwest direction.

Fig. 11 is a schematic connection diagram of the circuit board, the mobile terminal and the background server in the embodiment.

Fig. 12 is a schematic view of the navigation principle of a house card facing north.

Figure 13 is a schematic view of the navigation principle of a house card facing south.

Figure 14 is a schematic view of the navigation principle of a west-facing house card.

FIG. 15 is a schematic view of the navigation principle of a doorplate with the plate facing east.

FIG. 16 is a schematic view of the navigation principle of a house card with the face facing northwest.

FIG. 17 is a schematic representation of the navigation principle of a house with a face facing the southeast.

FIG. 18 is a schematic representation of the navigation principle of a house card with the face facing the northeast.

Fig. 19 is a schematic view of the navigation principle of a house with its face facing the southwest.

Reference numbers in the figures: the mobile terminal comprises a 1-basic panel, 101-place name address words, 102-three-dimensional code patterns, 2-light emitting diodes, a 3-circuit board, a 4-mobile terminal, a-communication network signals, b-Bluetooth signals, c-arrow-shaped pattern directions, N-north, S-south, W-west, E-east, NW-northwest, SE-southeast, NE-northeast and SW-southwest.

Detailed Description

The following will describe in further detail a place name and address integrated service system based on three-dimensional code doorplate according to the present invention with reference to the accompanying drawings and embodiments.

Three-dimensional code doorplate-based place name and address integrated service system is characterized in that: the LED display device comprises a basic panel 1, a light emitting diode 2, a circuit board 3, a mobile terminal 4 and a background server 5.

As shown in fig. 1 and fig. 2, the base panel 1 is a rectangular thin plate with wide left and right sides, narrow top and bottom, and flat front and back, and the address characters 101 of place name are printed in the central area on the front vertical surface of the base panel 1; an arrow-shaped pattern which is composed of a plurality of light-emitting diodes 2 and faces to the left end is arranged on the left side of the place name address character 101; an arrow-shaped pattern which is composed of a plurality of light-emitting diodes 2 and faces the right end is arranged on the right side of the place name address character 101; at the end region of the place name address letter 101, a three-dimensional code pattern 102 is printed.

Further, the three-dimensional code pattern 102 is between the left and right arrow-shaped patterns.

Furthermore, a wire is printed on the back surface of the basic panel 1, and the light emitting diode 2 is connected with the circuit board 3 through the wire.

Furthermore, the outermost layer of the back surface of the base panel 1 is a waterproof sealing film which covers the wires on the back surface of the base panel.

The circuit board 3 is screwed on the front vertical surface of the base panel 1 and is positioned at the right lower corner of the base panel 1, and a waterproof sealing shell is arranged outside the circuit board 3.

The circuit board 3 is provided with a Bluetooth communication module for short-distance wireless communication with the mobile terminal 4; the circuit board 3 is also internally provided with a processor for controlling the on-off of the light emitting diode 2; the circuit board 3 is provided with an SIM card, the circuit board 3 performs data transmission with the background server 5 through a wireless communication network provided by a communication carrier, and in specific implementation, as shown in fig. 11, existing communication modes such as 4G and 5G can be adopted.

The mobile terminal 4 has place name and address searching software, and the software has a three-dimensional code recognition function, so that the three-dimensional code pattern 102 can be recognized quickly.

Further, in specific implementation, the place name address search software can be used as a plug-in form of existing social software, such as a WeChat applet, a QQ applet and the like, a micro-blog applet, a Pay applet and the like.

The mobile terminal 4 is equipped with an SIM card, the mobile terminal 4 performs data transmission with the background server 5 through a wireless communication network provided by a communication operator, so as to realize functions of retrieving and querying each data in the database, and in specific implementation, as shown in fig. 11, existing communication modes such as 4G and 5G can be adopted.

The mobile terminal 4 is internally provided with a Bluetooth module, and the mobile terminal 4 performs data transmission with the circuit board 3 on the basic panel 1 through a Bluetooth communication mode.

Further, the effective communication distance between the mobile terminal 4 and the bluetooth module in the circuit board 3 is less than or equal to ten meters.

Further, the bluetooth module in the circuit board 3 is always in the connection request state.

Further, after the bluetooth in the mobile terminal 4 is turned on, a signal of the bluetooth module in the circuit board 3 is searched, and after the pairing operation is allowed, the two bluetooth devices are connected.

Furthermore, all power consuming components on the base panel 1 are powered by mains electricity.

A place name address database is built in the background server 5, and the attribute information of the place name in the place name address database comprises: the standard name of the place name and the alias, abbreviation and name of the place name; the writing form of the place name, namely the Chinese character writing form of the place name and the minority character writing form; the pronunciation of the place name comprises the original pronunciation and the pronunciation of the Mandarin Chinese with the standard name; the language of the place name indicates the national language type of the standard name; the category of the place name refers to the category of the geographic entity referred by the place name; geographic location of the place name; the origin, meaning and history of the place name are along the leather; the security level of the place name refers to the security level of information such as coordinates of the geographic entity referred by the place name.

Further, the geographical location of the place name in the place name address database is represented by accurate latitude and longitude data.

Because China is all in northern hemisphere, the geographic position is marked by north latitude, and the closer to the north pole, the higher the dimensionality is; the soil of China is all in the eastern hemisphere, the geographic positions are all marked by the eastern meridian, and the closer to the eastern side, the higher the longitude is; the geographical location of the doorplate is set to (N0, E0), and the geographical location of the destination is set to (Ni, Ei).

The background server 5 is provided with a place name address database, the attribute information of the place name in the place name address database for which the corresponding house plate is made also comprises the plate face orientation of the house plate, and eight types are towards north, towards south, towards west, towards east, opposite to northwest, opposite to southeast, opposite to northeast and opposite to southwest. The doorplate installing personnel collect the face orientation data of the doorplate in the installation process.

The navigation method of the doorplate comprises the following steps:

as shown in fig. 3 and 12, when the face of the house plate swings in the northwest and northeast directions, the house plate is uniformly classified as the north facing face, only the longitude of the destination and the house plate is compared, and when Ei is less than E0, the right facing arrow-shaped pattern on the house plate is bright; when Ei > E0, the left-facing arrow-shaped pattern on the house plate is bright; when Ei is E0, both arrow shaped patterns on the house plate light up.

As shown in fig. 4 and 13, when the face of the house plate swings in the southwest and southeast directions, the house plate is uniformly classified as the face facing south, only the longitude of the destination and the house plate is compared, and when Ei is less than E0, the arrow-shaped pattern facing left on the house plate is lightened; when Ei is more than E0, the arrow-shaped pattern towards the right on the doorplate is bright; when Ei is E0, both arrow shaped patterns on the house plate light up.

As shown in fig. 5 and 14, when the face of the house plate swings in the northwest and southwest directions, the face is uniformly classified as facing west, only the destination and the latitude of the house plate are compared, and when Ni is less than N0, the arrow-shaped pattern facing right on the house plate is bright; when Ni is more than N0, the arrow-shaped pattern towards the left on the house number plate is bright; when Ni is N0, both arrow shaped patterns on the house plate light up.

As shown in fig. 6 and fig. 15, when the face of the house plate swings in the included angle between the northeast direction and the southeast direction, the house plate is uniformly classified as the east-facing type, only the destination and the latitude of the house plate are compared at the moment, and when Ni is less than N0, the left-facing arrow-shaped pattern on the house plate is bright; when Ni is more than N0, the arrow-shaped pattern towards the right on the house number plate is bright; when Ni is N0, both arrow shaped patterns on the house plate light up.

As shown in fig. 7 and 16, when the face of the house is opposite to the northwest direction, the longitude and latitude of the destination and the house are compared, and when Ni < N0 and Ei < E0, the arrow-shaped pattern on the house facing to the right is lighted; when Ni > N0 and Ei > E0, the left-facing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

As shown in fig. 8 and 17, when the face of the house is facing the southeast direction, the longitude and latitude of the destination and the house are compared, and when Ni < N0 and Ei < E0, the arrow-shaped pattern facing to the left on the house is bright; when Ni > N0 and Ei > E0, the right-pointing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

As shown in fig. 9 and 18, when the face of the house is opposite to the northeast direction, the longitude and latitude of the destination and the house are compared, and when Ni < N0 and Ei > E0, the arrow-shaped pattern facing to the left on the house is bright; when Ni > N0 and Ei < E0, the right-pointing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

As shown in fig. 10 and 19, when the face of the house is facing southwest, the longitude and latitude of the destination and the house are compared, and when Ni < N0 and Ei > E0, the right-facing arrow pattern on the house is bright; when Ni > N0 and Ei < E0, the left-facing arrow-shaped pattern on the house plate lights up; under other conditions, neither arrow-shaped pattern on the house plate is bright.

The face of the basic doorplate 1, on which the light-emitting diodes 2 and the circuit board 3 are mounted, is a plate face.

In the house number plate installation standard, there is a specific requirement on the installation height of the house number plate, but there is no requirement on the orientation of the installation wall surface of the house number plate, so the plate surface of the house number plate has various orientations. When the face of the house number plate swings in an included angle between the northwest direction and the northeast direction, the longitude mainly plays a navigation role, and the face of the house number plate can be uniformly classified as the north; when the face of the house number plate swings in the included angle between the southwest direction and the southeast direction, the longitude plays a navigation role, and the face of the house number plate can be uniformly classified as southward; when the face of the house card swings in an included angle between the northwest direction and the southwest direction, the dimensionality plays a navigation role, and the face of the house card can be uniformly classified as facing west; when the face of the house number plate swings in the included angle between the northeast direction and the southeast direction, the dimensionality plays a navigation role, and the face of the house number plate can be uniformly classified as the eastern face.

The house number plate faces north, south, west and east, only few house number plate faces north, south, north and south, when the plate faces north, south, north and south, the destination and the house number plate longitude and latitude should be compared to find out more accurate navigation direction.

When a user approaches a certain doorplate and matches Bluetooth, a destination is input in place name address searching software in the mobile terminal 4, a processor in the circuit board 3 makes corresponding judgment according to the face orientation of the doorplate, the position information of the doorplate and the position information of the destination, a corresponding pin is switched on, and the light-emitting diode 2 is turned on after being electrified; when a user is far away from the doorplate and the Bluetooth pairing is disconnected, the processor in the circuit board 3 disconnects the corresponding pin, and the light-emitting diode 2 is turned off after being powered off.

The arrow patterns towards the left and the right on the vertical surface of the front side of the basic panel 1 respectively indicate that a user walks towards the left and towards the right.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention.

Claims (8)

1. Three-dimensional code doorplate-based place name and address integrated service system is characterized in that: the LED display screen comprises a basic panel (1), a light emitting diode (2), a circuit board (3), a mobile terminal (4) and a background server (5);

the base panel (1) is a rectangular thin plate which is wide at the left and right, narrow at the upper and lower parts and flat at the front and rear parts, and place name address characters (101) are printed in the central area on the front vertical surface of the base panel (1); an arrow-shaped pattern which is composed of a plurality of light-emitting diodes (2) and faces to the left end is arranged on the left side of the place name address character (101); an arrow-shaped pattern which is composed of a plurality of light-emitting diodes (2) and faces to the right end is arranged on the right side of the place name address character (101); a three-dimensional code pattern (102) is printed at the tail end region of the place name address character (101);

the circuit board (3) is screwed on the front vertical surface of the base panel (1) and is positioned at the right lower corner of the base panel (1), and a waterproof sealing shell is arranged outside the circuit board (3);

the circuit board (3) is internally provided with a Bluetooth communication module for short-distance wireless communication with the mobile terminal (4); the circuit board (3) is also internally provided with a processor for controlling the on-off of the light emitting diode (2); the circuit board (3) is internally provided with an SIM card, and the circuit board (3) performs data transmission with a background server (5) through a wireless communication network provided by a communication operator;

the mobile terminal (4) is provided with place name and address searching software which has a three-dimensional code recognition function and can quickly recognize a three-dimensional code pattern (102);

the mobile terminal (4) is provided with an SIM card, and the mobile terminal (4) performs data transmission with the background server (5) through a wireless communication network provided by a communication operator;

the mobile terminal (4) is internally provided with a Bluetooth module, and the mobile terminal (4) performs data transmission with the circuit board (3) on the basic panel (1) through a Bluetooth communication mode;

a place name address database is built in the background server (5), and the attribute information of the place name in the place name address database comprises: the standard name of the place name and the alias, abbreviation and name of the place name; the writing form of the place name, namely the Chinese character writing form of the place name and the minority character writing form; the pronunciation of the place name comprises the original pronunciation and the pronunciation of the Mandarin Chinese with the standard name; the language of the place name indicates the national language type of the standard name; the category of the place name refers to the category of the geographic entity referred by the place name; geographic location of the place name; the origin, meaning and history of the place name are along the leather; the security level of the place name refers to the security level of information such as coordinates of a geographic entity referred by the place name;

the background server (5) is provided with a place name address database, the attribute information of the place names in the place name address database which is used for manufacturing the corresponding doorplate also comprises the plate face orientation of the doorplate, and eight types are towards north, towards south, towards west, towards east, opposite to northwest, opposite to southeast, opposite to northeast and opposite to southwest.

2. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: the three-dimensional code pattern (102) is between the left and right arrow-shaped patterns.

3. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: and a wire is printed on the back surface of the basic panel (1), and the light emitting diode (2) is connected with the circuit board (3) through the wire.

4. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: the outermost layer of the back of the foundation panel (1) is a waterproof sealing film and covers the wires on the back of the foundation panel.

5. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: the effective communication distance between the mobile terminal (4) and the Bluetooth module in the circuit board (3) is less than or equal to ten meters.

6. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: the Bluetooth module in the circuit board (3) is always in a connection request state.

7. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: after the Bluetooth in the mobile terminal (4) is started, a signal of a Bluetooth module in the circuit board (3) can be searched, and after pairing operation is allowed, the two Bluetooth devices are connected.

8. The three-dimensional number doorplate-based place name and address integrated service system according to claim 1, wherein: the geographic location of the place name in the place name address database is represented by accurate latitude and longitude data.

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