CN215814492U - Intelligent checking and paving post-calling system - Google Patents

Abstract

The utility model discloses an intelligent checking and paving post-calling system, which comprises: the utility model relates to a control terminal provided with upper computer software, a relay device comprising at least 1 level and a plurality of checking and laying call post terminals, wherein a plurality of levels of relays can be arranged according to actual conditions to increase the level number of LORA relay devices to enlarge the network transmission distance, the checking and laying call post terminals receive and respond to the control instruction of the nth level of LORA relay devices, the 1 st level of LORA relay devices receive the control instruction of the upper computer software and transmit the response of the checking and laying call post terminals back to the upper computer software, the utility model utilizes the technologies of big data analysis technology, artificial intelligence technology, modern computer network and the like to realize the digitization and automation of checking and laying management of army personnel, can solve the defects of the traditional checking and laying call post system, improve the working efficiency and quality of the army, the checking and laying personnel can complete the checking and laying task in the office of the checking and laying personnel, namely, the checking and laying system is implemented, but also does not disturb the rest of the fighter.

Description

Intelligent checking and paving post-calling system

Technical Field

The utility model belongs to the technical field of checking and paving a job and particularly relates to an intelligent checking and paving job system.

Background

The checking whistle is a daily system prescribed by the army 'internal affairs ordinance'. The military officers need to organize the military guard sentries for inspection not less than twice a night, wherein one time is carried out in the midnight. The number of times of examining and laying the sentry is increased when the army is in need of combat mission, guard frontier defense and sea defense and special necessity. Whether the personnel are on the spot during checking is a difficult problem in the personnel management of the troops, the on-spot management work of the personnel is well done, the potential safety hazards in the troops can be found and eliminated in time, and the safety and the stability of the troops are ensured. In the duty work of important places of troops, the shift between each shift is an important ring in the duty work. In the traditional post calling process, one person needs to be drawn out from the on-duty personnel to leave the on-duty position to call the next post, so that great potential safety hazards exist. In the digital information era, people can rely on modern information technology, and continuously innovate management means on the basis of following general characteristic rules of army management, and do work of looking up, laying and calling posts with global property, basic property and long-term property.

The prior art for checking and paving the job has the following problems: the existing checking and paving call post has certain defects in the application of actual checking and paving work of troops, and in the traditional checking and paving process, more interference factors influencing the rest of soldiers, such as walking sound, highlight flashlight, frequent checking and paving and other scenes, exist; in the traditional check-up process, the statistics and the records of the personnel in the dormitory and the bed in the camp area are difficult, and a data report cannot be generated; according to the traditional survey and spread technology, information is recorded through a record book, manual operation is relied on, the efficiency is low, and automatic management cannot be realized; when a traditional sentry is called, some sentry on duty are far away from a dormitory, so that the time is difficult to hold and the sentry is easy to fall off the sentry; when a traditional post is called, one person needs to be separated from the post, and if an emergency occurs, the person on duty is likely to cause improper treatment and potential safety hazard due to insufficient hands; when a traditional post is called, the post-calling personnel can not monitor whether the called personnel really get up to the post or not in the whole process, and the situation that the called personnel sleeps again after being awakened at that time can occur, so that the post falling off is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent checking and paving post calling system to solve the problems that in the traditional post calling process provided in the background technology, one person needs to be drawn out from the current staff to leave a post on duty to call the next post, the working efficiency is low, the automatic management cannot be realized, and the potential safety hazard is large.

In order to achieve the purpose, the utility model provides the following technical scheme: an intelligent charting post system, comprising: the control terminal is provided with upper computer software and comprises a first-level to n-level relay device and a plurality of checking and laying post terminals, the checking and laying post terminals are connected with an nth-level LORA relay device in a bidirectional mode, the first-level LORA relay device is connected with two adjacent levels of LORA relay devices between the nth-level LORA relay devices in a bidirectional mode, the first-level LORA relay devices are connected with the control terminal provided with the upper computer software in a bidirectional mode, the checking and laying post terminals receive control instructions of the nth-level LORA relay devices and respond, and the first-level LORA relay devices receive the control instructions of the upper computer software and transmit responses of the checking and laying post terminals back to the upper computer software.

Preferably, the n stages are at least one stage.

Preferably, an LORA communication technology is used between the survey and spread call post terminal and the nth level LORA relay device for ad hoc network and data transmission, and the first level LORA relay device is directly connected with a USB port of a server where the upper computer software is located for data transmission and power supply.

Preferably, the upper computer software adopts a B/S architecture, supports various common WEB browsers, supports an internet access mode, supports customization of various data formats and supports multiple data analysis.

Preferably, the ward checking and calling terminal is installed at a dormitory bed, and comprises a ward checking sensor for detecting whether the sleeping person is in place and a ward calling vibrator for reminding the sleeping person to get up, wherein the ward checking sensor and the ward calling vibrator are powered by five dry batteries, and the ward checking sensor is a bridge sensor.

Preferably, the 2 nd to n th-level LORA relay devices are powered through a USB port.

Preferably, the survey sensor is fixedly clamped on a bed beam on the lower side of the bed board, and the post calling vibrator is fixed on the bed head.

Compared with the prior art of checking and laying the sentry, the utility model provides an intelligent checking and laying the sentry system, which has the following beneficial effects:

the utility model utilizes big data analysis technology, artificial intelligence technology, modern computer network technology, database technology, Internet of things technology, microelectronic information processing and recording technology to realize digitization and automation of check and paving management of personnel of army, mainly used in places such as campuses, sentries, duty rooms, officer dormitories and the like, can solve the defects existing in the traditional check and paving call post system, improve the working efficiency and quality of the army, the check and paving personnel can complete check and paving tasks in own offices, the manual check and paving of the check and paving personnel can be combined with the automatic check and paving of the system, not only the check and paving system is realized, but also fighters are not disturbed to have a rest;

the utility model can count soldiers who are not bedded on time and get up on time within the set time, can maintain bed information in a dormitory, record the information of users of the bed, can carry out survey on the basis of the dormitory or the bed, realize the function of automatically calling guard according to the set time, the system of calling guard can display whether the called guard has got up, if find not wake up, can carry on the manual second calling guard, can record and count the time of handing over guard of each shift, provide the duty value situation registration function, help and superior leadership know and deal with various problems in the duty value process, count the number of people in the berth, support and export or print the data intelligently with the unit as the condition;

thirdly, the utility model has high cost performance, small investment, high benefit, low-cost operation, internal networking, safe, reliable and stable data, simple and convenient installation and implementation, plug and play, no wiring, no need of bed improvement and data safety, solves the network safety problem by adopting the internal networking (only supporting the data transmission of a special encryption protocol for a ward call post command and the ward information in the ad hoc network, not supporting the transmission of data in any other format), relatively better protects the privacy of the soldier (compared with the monitoring with light sources such as video monitoring, infrared monitoring and the like, the soldier dislike is not easily caused), has big data analysis and intelligent judgment characteristics, has the ward function of can pass through a specific time period, frequently changes of sensor data, captures statistical data, analyzes the sleep condition and the sleep quality of the soldier according to the association rule, gives a warning to the soldier with abnormal data, the system has the advantages that managers pay key attention to and analyze reasons, various thought hidden dangers of soldiers are eliminated in a budding state, the intelligent guard calling function is achieved, the soldiers on guard are awakened through system setting time and vibration conduction, handover time limit is shortened, efficiency is improved, the problems that people leave guard places, others are disturbed at night and the like can be avoided, the guard calling function can be achieved, and the potential safety hazard that the guard is not on guard due to emergency situations and insufficient on duty manpower during guard leaving guard periods is eliminated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model without limiting the utility model in which:

fig. 1 is a schematic diagram of the working principle of the intelligent checking and paving job-calling system provided by the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: an intelligent charting post system, comprising: the control terminal is provided with upper computer software and comprises a first-level to n-level relay device and a plurality of checking and laying post terminals, the checking and laying post terminals are connected with an nth-level LORA relay device in a bidirectional mode, the first-level LORA relay device is connected with an adjacent two-level LORA relay device in a bidirectional mode between the nth-level LORA relay device, the first-level LORA relay device is connected with the control terminal provided with the upper computer software in a bidirectional mode, the checking and laying post terminals receive control instructions of the nth-level LORA relay device and respond, and the first-level LORA relay device receives the control instructions of the upper computer software and returns the response of the checking and laying post terminals to the upper computer software.

In actual work, a plurality of levels of relays can be set according to actual conditions, the number of the levels can be 1 or n, and the network transmission distance is increased by increasing the number of the levels of the LORA relay equipment.

The system comprises a survey and spread call post terminal, a survey and spread information special encryption protocol, a survey and spread call post terminal, a survey and spread information special encryption protocol, a survey and spread information exchange protocol.

The upper computer software adopts a B/S framework, supports various common WEB browsers, does not need to install a client, is convenient and quick to use, supports an internet access mode, conveniently realizes remote management and control, supports various types of report statistics, supports customization of various data formats, supports various data analysis and meets various management requirements.

The charter post terminal is installed in dormitory bed department, plug-and-play, the charter post terminal is including detecting whether the person of sleeping is on the spot the charter sensor and reminding the person of sleeping to get up the post vibrator, the charter sensor adopts the bridge sensor with the vibrator of calling the post to supply power of adopting the five dry batteries, the charter sensor adopts the bridge sensor, the charter sensor response bed is gone up whether someone to upload to the host computer through the LORA module with the information on the spot of the person of sleeping, the host computer can the vibration of remote control the vibrator of calling the post, remind the person of sleeping to get up the bed.

The 2 nd-n level LORA relay equipment supplies power through a USB port.

The fixing card of the survey sensor is arranged on the bed beam on the lower side of the bed board, whether sleeping personnel exist on the bed or not is conveniently detected, the sentry calling vibrator is fixed on the bed head and used for reminding the sleeping personnel to get up, and the survey sensor and the sentry calling vibrator are simple and convenient to install and are plug-and-play.

The working principle and the using process of the utility model are as follows: after the system is installed, when the system works by using the system, a plurality of ward-seeking system terminals are installed at proper positions of a bed beam on a dormitory bed, wherein a ward-seeking sensor in each ward-seeking system terminal is fixedly clamped on the bed beam on the lower side of a bed plate, so that whether a sleeping person is on the bed or not is conveniently detected, a ward-seeking vibrator in each ward-seeking system terminal is fixed at the head of the bed and used for reminding the sleeping person to get up, the ward-seeking sensor transmits data to a control terminal provided with upper computer software through one-level LORA relay equipment and n-level LORA relay equipment, a plurality of levels of relays can be arranged according to actual conditions, the number of the relays can be 1 level, or n levels, and the upper computer can remotely control the ward-seeking vibrator to vibrate to wake up the sleeping person on the bed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. An intelligent checking and paving job-calling system is characterized by comprising: the control terminal is provided with upper computer software and comprises a first-level to n-level relay device and a plurality of checking and laying post terminals, the checking and laying post terminals are connected with an nth-level LORA relay device in a bidirectional mode, the first-level LORA relay device is connected with two adjacent levels of LORA relay devices between the n-level LORA relay devices in a bidirectional mode, the first-level LORA relay devices are connected with the control terminal provided with the upper computer software in a bidirectional mode, the checking and laying post terminals receive control instructions of the nth-level LORA relay devices and respond, and the first-level LORA relay devices receive the control instructions of the upper computer software and transmit responses of the checking and laying post terminals back to the upper computer software.

2. The intelligent charting post system as claimed in claim 1, wherein: the n stages are at least one stage.

3. The intelligent charting post system as claimed in claim 2, wherein: the checking and paving call post terminal and the nth level LORA relay device utilize an LORA communication technology to perform ad hoc network and data transmission, and the first level LORA relay device is directly connected with a USB port of a server where the upper computer software is located to perform data transmission and power supply.

4. The intelligent charting post system as claimed in claim 1, wherein: the upper computer software adopts a B/S framework.

5. The intelligent charting post system as claimed in claim 2, wherein: the checking and laying post calling terminal is installed at a dormitory bed and comprises a checking and laying sensor and a post calling vibrator, wherein the checking and laying sensor is used for detecting whether a sleeping person is on the spot or not, the post calling vibrator is used for reminding the sleeping person to get up, the checking and laying sensor and the post calling vibrator are powered by a five-number dry battery, and the checking and laying sensor is a bridge sensor.

6. The intelligent charting post system as claimed in claim 2, wherein: the 2 nd-n level LORA relay equipment supplies power through a USB port.

7. The intelligent charting post system of claim 5, wherein: the survey sensor is fixedly clamped on a bed beam on the lower side of the bed board, and the sentry calling vibrator is fixed on the bed head.

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