CN112991992A

CN112991992A - Intelligent control method and system for luminous characters

Info

Publication number: CN112991992A
Application number: CN202110209932.7A
Authority: CN
Inventors: 朱道; 朱建设; 朱黑白
Original assignee: Zhejiang Zhudao Module Integration Co ltd
Current assignee: Zhejiang Zhudao Module Integration Co ltd
Priority date: 2021-02-24
Filing date: 2021-02-24
Publication date: 2021-06-18

Abstract

The invention provides an intelligent control method of luminous characters, which groups the luminous characters according to routes, sets the relation of each group according to the relation among different routes, monitors the environmental data of each luminous character, and can modify the luminous characters or the luminous character group information associated with the fault section in time when a certain luminous character has a fault or a section where the certain luminous character is located has an accident, so that people in public places can find an exit quickly through the luminous characters in time, and further, the casualty probability is greatly reduced when an accident occurs. The invention also provides an intelligent control system of the luminous words, which comprises the luminous word group, a sensor group, a data processing unit, a remote terminal and a mobile terminal, wherein the data processing unit is used for receiving the monitoring data and comparing the monitoring data with the preset information in the database to generate and process the early warning information, and the remote terminal and the mobile terminal are used for receiving and displaying the monitoring data and the early warning information transmitted by the data processing unit.

Description

Intelligent control method and system for luminous characters

Technical Field

The invention belongs to the technical field of luminous characters, and particularly relates to an intelligent control method and system of luminous characters.

Background

The luminous character is a luminous mark which is made of a character shell, a panel and a bottom plate by adopting a Light Emitting Diode (LED) as a light source. The luminous characters have the characteristics of rich colors, individuation and systematization, so that the identification is more humanized, and the luminous characters play an important role in propaganda of enterprises, shops and exhibition and display.

In life, the luminous characters are not only used for beautifying decoration, but also used for ground identification and road navigation. In markets, subways or other large public places, navigation marks such as safety exits can be seen everywhere, however, when the marks are in a problem or the mark is in a place, workers often cannot process the marks of the fault road sections and the related road sections in a unified manner in time, so that people in the public places cannot find correct passages quickly, and the probability of casualties is increased when accidents happen.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an intelligent control method and system for luminous characters.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

an intelligent control method of luminous words comprises the following steps,

s100: grouping the luminous words, and presetting the logic relation among the groups;

s200: acquiring environment data of each group of luminous words;

s300: and changing the display information of each luminous word according to the logical relationship among the groups and the environmental data.

Preferably, the light-emitting words are grouped according to the route, the light-emitting words arranged on the same route are in the same group, and the relationship of each group is set according to the relationship between different routes.

Preferably, the environmental data is divided into multi-level data, and the early warning information of different levels is set according to the data of different levels.

Preferably, the step S300 is specifically as follows,

s301: comparing the multilevel data with preset information in a database to generate multilevel early warning information;

s302: and changing the display information of each luminous character according to the multi-stage early warning information and the logic relationship among the groups.

Preferably, the environment data includes primary data and secondary data, the primary data includes brightness, temperature and humidity, and power supply conditions of the light-emitting words, and the secondary data includes peripheral conditions of positions where the light-emitting words are located.

Preferably, a spare light-emitting character is provided at one side of each light-emitting character.

Preferably, the primary data corresponds to primary early warning information, the secondary data corresponds to secondary early warning information, when the primary early warning data is generated, the standby light-emitting words are started to display, and when the secondary early warning data is generated, the display information of the light-emitting words in the group and the related group is changed.

Preferably, the method for acquiring the environmental data of each group of light-emitting words includes acquiring brightness, temperature and humidity and power supply conditions of the light-emitting words through the sensing assembly, and acquiring peripheral conditions of positions where the light-emitting words are located through field investigation or monitoring equipment.

An intelligent control system of luminous characters comprises luminous character groups, standby luminous character groups, a sensor group, a receiving unit, a database, a data processing unit, a remote terminal and a mobile terminal;

the sensor group is connected with the light-emitting character group and the standby light-emitting character group and is used for monitoring the brightness, the temperature and the humidity of the light-emitting characters and the power supply condition;

the receiving unit is connected with the sensor group and used for receiving the monitoring data of the sensor group and sending the monitoring data to the data processing unit;

the data processing unit is connected with the receiving unit and the database and is used for receiving the monitoring data and comparing the monitoring data with preset information in the database to generate early warning information;

the remote terminal and the mobile terminal are respectively connected with the data processing unit and used for receiving and displaying the monitoring data and the early warning information transmitted by the data processing unit.

Preferably, the database is preset with alarm thresholds of brightness, temperature and humidity and power supply conditions of all the light-emitting words.

The invention has the advantages and positive effects that:

the method comprises the steps of grouping the luminous characters according to routes, setting the relation of each group according to the relation among different routes, monitoring the environment data of each luminous character, enabling the standby luminous characters in time to guarantee normal navigation of a road section when a certain luminous character fails, modifying the luminous character group information associated with the failed road section in time when the road section where the certain luminous character is located is in an accident or construction blockage, and changing the luminous character information of other channels in the same scene to serve as temporary channels, so that personnel in a public place can find an outlet quickly through the luminous characters under any condition, further, the personnel in the scene can escape in time when the accident occurs, and the casualty probability is greatly reduced.

Drawings

FIG. 1 is a schematic flow diagram of the present invention;

fig. 2 is a block diagram schematic of the system of the present invention.

Detailed Description

The embodiments of the invention will be described in further detail below with reference to the accompanying drawings:

as shown in fig. 1, the intelligent control method of light-emitting words of the present invention is applied to public places such as shopping malls, subways, hospitals, etc., and is mainly used for navigation marks, and the method comprises the following steps,

s100: grouping the luminous words, and presetting the logic relation among the groups; specifically, the light-emitting words are grouped according to the routes, the light-emitting words arranged on the same route are in the same group, and the relationship of each group is set according to the relationship between different routes.

In the embodiment, the luminous word is applied in a mall and used for navigation identification of a quick escape route, in a shopping mall, especially a large shopping mall, a plurality of escape routes and a plurality of routes leading to the escape routes may be set, so that the light-emitting words on the same escape route and the same route leading to the escape route are all arranged in the same group, thereby dividing each luminous character into different groups, further setting escape tunnels and guide routes thereof at different positions of the same floor as a standby relationship with each other, setting escape tunnels and guide routes thereof at the same positions of different floors as an association relationship with each other, further, the association relationship can be divided into an upper path association relationship and a lower path association relationship, namely, the escape passage and the guide route on the upper layer of the fault route are in an upper-route incidence relation, and the escape passage and the guide route on the lower layer of the fault route are in a lower-route incidence relation.

S200: acquiring environment data of each group of luminous words; specifically, the environment data is divided into multi-level data. The environment data comprises primary data and secondary data, the primary data comprises the brightness, the temperature and the humidity of the luminous words and the power supply condition, and the secondary data comprises the peripheral condition of the positions of the luminous words.

In this embodiment, the method for acquiring the environmental data of each group of light-emitting words includes acquiring brightness, temperature and humidity, and power supply conditions of the light-emitting words through the sensing assembly to determine whether the light-emitting words are displayed normally, and acquiring peripheral conditions of positions of the light-emitting words through field investigation or monitoring equipment to determine whether accidents occur or whether the escape passage and the guide route thereof are smooth. It should be noted that the grading standard of the environmental data is based on the state of the light-emitting word and the escape route, the data related to the light-emitting word is defined as first-level data, and the data related to the escape route and the guidance route thereof are defined as second-level data, so that the subsequent processing of the working staff and the system is facilitated.

S300: and changing the display information of each luminous word according to the logical relationship among the groups and the environmental data. Further, the step S300 is divided into the following steps,

s301: comparing the multilevel data with preset information in a database to generate multilevel early warning information; specifically, the early warning information of different levels is set according to the data of different levels.

In this embodiment, the primary data corresponds to the primary warning information, and the secondary data corresponds to the secondary warning information. Specifically, alarm thresholds of brightness, temperature and humidity and power supply conditions of all the light-emitting words are preset in the database, when any one of the brightness, the temperature and the humidity of the light-emitting words and the power supply condition value exceeds the threshold, primary early warning is judged, and when the position where the light-emitting words are located is found to have an accident or be not smooth due to maintenance through field investigation or monitoring equipment, secondary early warning is judged.

S302: changing the display information of each luminous character according to the multi-stage early warning information and the logic relationship among the groups; specifically, when the primary warning data is generated, the standby light-emitting words are started to display, and when the secondary warning data is generated, the display information of the light-emitting words in the group and the related group is changed.

In this embodiment, a spare light-emitting word is provided at one side of each light-emitting word, when primary warning data is generated, that is, when it is determined that the light-emitting word itself shows a problem, the spare light-emitting word is started in time to display to ensure normal guidance, when secondary warning data is generated, that is, when it is determined that an escape route and a guidance route thereof have a problem, the light-emitting word related to a faulty road section and the associated word in the group thereof are changed to an "impassable" word, and at the same time, the light-emitting word in the upper road association group related to the group is changed to an "impassable downward", the light-emitting word in the lower road association group related to the group is changed to an "impracticable upward", the light-emitting words in the spare relationship group related to the group and the light-emitting words in the association group related to the spare relationship group are both started or changed to change the word to a "quick path", thereby ensuring that the luminous characters in the commercial site can normally realize the guiding function. Furthermore, it should be noted that, while the typeface of the light-emitting character is changed, the color of the light-emitting character can be changed, so that the display of the light-emitting character is more striking.

As shown in fig. 2, the intelligent control system for light-emitting words of the present invention includes a light-emitting word group, a standby light-emitting word group, a sensor group, a receiving unit, a database, a data processing unit, a remote terminal, and a mobile terminal;

the sensor group is connected with the light-emitting character group and the standby light-emitting character group and is used for monitoring the brightness, the temperature and the humidity of the light-emitting characters and the power supply condition; specifically, the sensor group includes a plurality of photosensitive sensors, temperature and humidity sensor and electric quantity sensor, and every luminous word is divided equally and is connected with photosensitive sensor, temperature and humidity sensor and electric quantity sensor respectively to the realization is to every luminous word effect of carrying out data monitoring.

the data processing unit is connected with the receiving unit and the database and is used for receiving the monitoring data and comparing the monitoring data with preset information in the database to generate early warning information; specifically, the data processing unit can also perform remote data transmission with the inspection equipment and the monitoring equipment to receive the peripheral conditions of the positions of the light-emitting words, alarm thresholds of the brightness, the temperature and the humidity and the power supply conditions of the light-emitting words are preset in the database, the data processing unit compares the monitoring data sent by the receiving unit with the preset thresholds in the database, analyzes and judges the received inspection report or picture to generate early warning information, and automatically controls the related light-emitting word groups and the standby light-emitting word groups through the early warning information.

The remote terminal and the mobile terminal are respectively connected with the data processing unit and used for receiving and displaying the monitoring data and the early warning information transmitted by the data processing unit. It is necessary to supplement that the remote terminal and the mobile terminal also receive and display the display information of each light-emitting character at the same time for the staff to check.

In the second embodiment of the present invention, the worker may send a control password to the data processing unit through the mobile terminal or the remote terminal to actively control each light-emitting word, so as to improve the flexibility of controlling each light-emitting word in the scene, and further achieve higher working efficiency and accuracy.

It should be emphasized that the embodiments described herein are illustrative rather than restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, and that other embodiments derived from the teachings of the present invention by those skilled in the art are also within the scope of the present invention.

Claims

1. An intelligent control method of luminous characters is characterized in that: comprises the following steps of (a) carrying out,

s200: acquiring environment data of each group of luminous words;

2. The intelligent control method of light-emitting words according to claim 1, characterized in that: the luminous words are grouped according to the routes, the luminous words arranged on the same route are in the same group, and the relationship of each group is set according to the relationship among different routes.

3. The intelligent control method of light-emitting words according to claim 2, characterized in that: the environmental data is divided into multi-level data, and early warning information of different levels is set according to the data of different levels.

4. The intelligent control method of light-emitting words according to claim 3, characterized in that: the step S300 is specifically as follows,

5. The intelligent control method of light-emitting words according to claim 4, characterized in that: the environment data comprises primary data and secondary data, the primary data comprises the brightness, the temperature and the humidity of the luminous words and the power supply condition, and the secondary data comprises the peripheral condition of the positions of the luminous words.

6. The intelligent control method of light-emitting words according to claim 5, characterized in that: one side of each luminous character is provided with a spare luminous character.

7. The intelligent control method of light-emitting words according to claim 6, characterized in that: the first-level data corresponds to first-level early warning information, the second-level data corresponds to second-level early warning information, when the first-level early warning data are generated, standby luminous characters are started to display, and when the second-level early warning data are generated, the display information of the luminous characters in the groups and related groups is changed.

8. The intelligent control method of light-emitting words according to claim 5, characterized in that: the method for acquiring the environmental data of each group of luminous words comprises the steps of acquiring the brightness, the temperature and the humidity of the luminous words and the power supply condition through the sensing assembly, and acquiring the peripheral condition of the positions of the luminous words through field investigation or monitoring equipment.

9. An intelligent control system of luminous characters is characterized in that: the system comprises a luminous character group, a standby luminous character group, a sensor group, a receiving unit, a database, a data processing unit, a remote terminal and a mobile terminal;

10. The intelligent control system of light-emitting words of claim 9, wherein: and alarm thresholds of the brightness, the temperature and the humidity of each light-emitting character and the power supply condition are preset in the database.