CN112636344A - School night self-study electricity utilization management system and method - Google Patents

Abstract

The invention discloses a school evening self-study electricity management system which is used for acquiring the light states of a classroom and a walkway; the electronic class board is used for displaying or releasing information, is in communication connection with the control center and can release designated information to students; the wearable equipment is used for receiving information or identifying identity and can be in communication connection with the electronic class board; and the relay is used for remotely controlling the light of a specific classroom or walkway and is electrically connected with the control center. The management system can effectively coordinate the study requirements of students and the safety requirements of schools, can efficiently centralize and uniformly arrange the students for study, and ensures that the students are in a safe environment during study; meanwhile, the centralized and unified arrangement can be realized, so that the pressure of the staff on duty in the school is greatly reduced, local classrooms or study rooms can be managed by centralized force, and the study safety of students can be guaranteed to the maximum extent.

Description

School night self-study electricity utilization management system and method

Technical Field

The invention relates to the field of school power consumption management systems, in particular to a school night self-service power consumption management system and method.

Background

The prior middle schools have night self-study, a period of self-repair time is available after the night self-study of many schools is finished, and for convenience of management of some schools, the lamp is turned off and turned on quickly before being turned off so as to remind students to leave as soon as possible and prepare to turn off the lamp and lock the door. The manager then rounds off the lights of all classrooms layer by layer.

Some students in the late study are reading students, and need to go home after the second-festival late study (generally, the end is about 21 o' clock); for another part of live students, the dormitory usually chooses to continue to study in the classroom of the school until a third night (typically about 22 o' clock) because the dormitory cannot provide a good learning environment. And when the study of the third night is finished, the school usually switches on and off the lamps in a unified way, but some study contents can not be finished even if the study of the third night is finished, and some students still can choose to leave to use the self-contained desk lamp with the battery for continuous study. In general, schools have dozens of classrooms, students who study the classrooms at night are scattered, and especially when only a few students remain in one classroom, the safety is more difficult to guarantee. In order to ensure the safety of students, schools have to be provided with security for patrolling at night.

If the students needing to take exercises can be managed in a centralized way, a better exercise environment can be provided for the students, the operation cost of schools can be reduced, and the health and safety of the students can be effectively guaranteed. A management system capable of coordinating the self-study requirements of students and the night safety of schools is urgently needed in the market.

Disclosure of Invention

In view of the above problems, the present invention aims to provide a system and a method for school night study power management with high automation degree and capable of allowing students to study centrally.

In order to realize the technical purpose, the scheme of the invention is as follows: a school evening self-study electricity utilization management system comprises a control center, a monitoring center and a control center, wherein the control center is used for acquiring the light states of a classroom and a walkway, and security guards can convert the light states of the classroom or the walkway through the control center;

the electronic class board is used for displaying or releasing information, is in communication connection with the control center and can release designated information to students;

the wearable equipment is used for receiving information or identifying identity and can be in communication connection with the electronic class board;

and the relay is used for remotely controlling the light of a specific classroom or walkway and is electrically connected with the control center.

Preferably, still be provided with the bluetooth gateway in the electron class tablet, be provided with bluetooth module in the wearing equipment, electron class tablet can be through wearing equipment quantity and ID around the bluetooth gateway scanning, and the bluetooth gateway also can send appointed information to wearing equipment.

Preferably, the electronic class board is also electrically connected with an infrared sensor for sensing the activity state in the classroom.

A management method adopts a school night self-study power utilization management system, and comprises the following specific steps:

s1, carrying out student data statistics, starting an infrared sensor when specified time is reached after the students take a class after the students take a study at night, detecting the state of the students in a classroom, simultaneously starting a Bluetooth gateway to scan the state of the students in the classroom if the infrared sensor detects that the students move, recording the number and ID of the students taking the study, and uploading the data obtained by each electronic class board to a control center;

s2, performing reservation statistics, wherein when the number of the persons in the classroom counted by the control center is less than the capacity of all study rooms, the control center sends out a reservation application to the students through the Bluetooth gateway, the students obtain a reservation code through the wearable device, and the control center automatically recommends the study rooms, the study duration and the position numbers according to analysis of current study data;

if the students need to modify the study duration, the students can reserve the study rooms again and select the study duration on the electronic class board through the reservation codes, the control center collects and analyzes the information of reservation statistics, the study durations are arranged in the same study room in the same or similar way, after the reservation is successful, the electronic class board displays the distributed study rooms and the position numbers, and the wearable equipment also receives the information;

s3, self-study, wherein students come into a study room for study, when the study duration is up, and the number of people in the study room and the number of people in a classroom are higher than a threshold value, the system can automatically match and centralize the rest students in one or more than one study room, and the control center can automatically send recommended study rooms to the students according to analysis of current study data;

if the total number of people in each study room is lower than the threshold value, the people are not distributed and still arranged to study in the original study room.

Preferably, in the reservation statistics of step S2, statistics is performed preferentially according to the class and the class attribute, and if the number of class study persons is greater than a specified threshold, the class study persons continue to remain in the classroom for study;

if the number of the class of the study persons is less than a specified threshold value, the study persons are preferentially arranged in the study room to study;

if the number of the persons in the class smaller than the designated threshold exceeds the number of the persons in the study room, the control center reduces the designated threshold until the number of the persons in the class smaller than the designated threshold is smaller than the number of the persons in the study room.

Preferably, after the reservation and statistics in step S2, the students transfer to a study room for study, and if the status of the people is not monitored after the infrared sensor is started, and the bluetooth gateway scans the students in the classroom and does not find that the students in the classroom have study, the control center turns off the light in the classroom through the relay;

if the state of a person is not monitored after the infrared sensor is started, the Bluetooth gateway scans students in the classroom, and if only 1-3 students exist, the students are reminded to leave the classroom through the wearable equipment and the electronic class board, and the students are recommended to the study room; if the number of students is more than the threshold value, the light is turned off in a delayed mode.

Preferably, cameras are further installed in the classroom and the study room, and monitoring video recording is carried out in the whole study period of the students.

Preferably, in step S3, before entering the study room, the student performs identity authentication by scanning a code, swiping a card, performing bluetooth identification, or performing face identification, and after identity confirmation, the student can enter the study room;

if loud during the study, the control center reminds the teacher on duty to pay attention to the study and records related information.

The management system has the advantages that the management system can effectively coordinate the study requirements of students and the safety requirements of schools, can efficiently centralizedly and uniformly arrange the students for study, and ensures that the students are in a safe environment during study; meanwhile, the centralized and unified arrangement can be carried out, so that the pressure of the school attendant is greatly reduced, local classrooms or study rooms can be managed by centralized force, and the study safety of students can be guaranteed to the maximum extent; the system can also fully utilize resources of a school classroom or a study room, can dynamically adjust the use of the classroom and the study room, automatically allocate study positions for study students, and reduce the probability of danger caused by the independent study of the students; meanwhile, as the classroom and the study room are reasonably utilized, the total power consumption at night can be reduced, and energy conservation and emission reduction are realized.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a logic diagram of the study room allocation of the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and specific embodiments.

As shown in fig. 1-2, the embodiment of the invention is an electricity management system for school night self-study, comprising a control center 1 for acquiring the lighting states of a fluorescent lamp 5 in a classroom and a street lamp in a walkway, and a security guard can convert the lighting states of the classroom or the walkway through the control center;

the electronic class board 2 is used for displaying or releasing information, the electronic class board 2 is in communication connection with the control center 1, and the electronic class board 2 can release designated information to students;

the wearable device 3 is used for receiving information or identifying identity, and the wearable device 3 can be in communication connection with the electronic class board 2;

and the relay 4 is used for remotely controlling the light of a specific classroom or walkway, and the relay 4 is electrically connected with the control center.

Set up in electron class tablet 2 and still be provided with bluetooth gateway 7, be provided with bluetooth module in the wearing equipment 3, electron class tablet 2 can be through wearing equipment quantity and ID around the bluetooth gateway scanning, and bluetooth gateway 7 also can send appointed information to wearing equipment. Can accurate discernment this class student remaining quantity in this classroom through the bluetooth gateway, also can confirm the identity through ID discernment, and then obtain this student's learning habit and study characteristics.

In order to better know the activity condition in the classroom, the electronic class board 2 is also electrically connected with an infrared sensor 6 for sensing the activity state of students in the classroom and a monitoring camera 8 for monitoring. The infrared sensor is low in cost, and the characteristic that the human body emits infrared rays can identify the activity state in a classroom, so that whether students are in the classroom or not can not accurately know the number of the students, and the students need to be matched with the Bluetooth gateway for use. The monitoring camera can be used for acquiring real-time image information, so that a teacher on duty can conveniently manage the image information; but because the gauze mask is worn to present requirement, face identification can not be realized to the surveillance camera head, and is inconvenient to the student and manages, and bluetooth gateway can confirm wearing equipment's only identity and propelling movement information.

A management method adopts a school night self-study power utilization management system, and comprises the following specific steps:

s1, carrying out student data statistics, starting an infrared sensor when specified time is reached after the students take a class after the students take a study at night, detecting the state of the students in a classroom, simultaneously starting a Bluetooth gateway to scan the state of the students in the classroom if the infrared sensor detects that the students move, recording the number and ID of the students taking the study, and uploading the data obtained by each electronic class board to a control center;

s2, performing reservation statistics, wherein when the number of the persons in the classroom counted by the control center is less than the capacity of all study rooms, the control center sends out a reservation application to the students through the Bluetooth gateway, the students obtain a reservation code through the wearable device, and the control center automatically recommends the study rooms, the study duration and the position numbers according to analysis of current study data; the classroom of the school generally has the personal articles of students, and can not be used as a study room, and the school also has no study room with too much power, and is generally a laboratory or a movable or conference room, and temporarily used as the study room, so the position of the study room is more tense. But the study room can gather students as much as possible, so that the management is convenient, and the safety of the students in the study at night is more easily ensured.

The study duration can be divided into 1 hour, 2 hours and other three levels; the students select different study rooms according to the needs, so that the students do not need to keep as many study rooms when leaving in sequence after reaching the designated time, the number of the study rooms is gradually reduced, centralized management is performed as far as possible, and the safety is guaranteed.

If the students need to modify the study duration, the students can reserve the study rooms again and select the study duration on the electronic class board through the reservation codes, the control center collects and analyzes the information of reservation statistics, the study durations are arranged in the same study room in the same or similar way, after the reservation is successful, the electronic class board displays the distributed study rooms and the position numbers, and the wearable equipment also receives the information;

s3, self-study, wherein students come into a study room for study, when the study duration is up, and the number of people in the study room and the number of people in a classroom are higher than a threshold value, the system can automatically match and centralize the rest students in one or more than one study room, and the control center can automatically send recommended study rooms to the students according to analysis of current study data;

if the total number of people in each study room is lower than the threshold value, the people are not distributed and still arranged to study in the original study room.

In the reservation statistics of the step S2, statistics is preferentially carried out according to the class and the class attribute, and if the number of the class study persons is more than a specified threshold (generally set at 15-45%), the class study persons continue to be left in the classroom for study;

if the number of the class of the study persons is less than a specified threshold value, the study persons are preferentially arranged in the study room to study;

if the number of the persons in the class smaller than the designated threshold exceeds the number of the persons in the study room, the control center reduces the designated threshold until the number of the persons in the class smaller than the designated threshold is smaller than the number of the persons in the study room. Generally, college entrance examination of three students in the higher level has high pressure and large academic burden, and more students in the higher level can choose to study later; the number of students is large and the safety factor is also large due to the fact that the students are older; the system can preferentially guarantee the self-study of high-grade or fast class for a prolonged time and preferentially let the high-grade or fast class self-study in the classroom. When the number of people in the classroom is less than a certain number, such as 3-5 people, a push is sent out to recommend the classroom to go to the study room for study.

After the reservation and statistics in the step S2, the students transfer to a study room for study, if the personnel state is not monitored after the infrared sensor is started, and meanwhile, the Bluetooth gateway scans the students in the classroom and does not find that the students in the classroom leave the study, the control center closes the light of the classroom through a relay;

if the state of a person is not monitored after the infrared sensor is started, the Bluetooth gateway scans students in the classroom, and if only 1-3 students exist, the students are reminded to leave the classroom through the wearable equipment and the electronic class board, and the students are recommended to the study room; if the number of students is more than the threshold value, the light is turned off in a delayed mode.

In order to ensure the safety of students, cameras are also arranged in classrooms and study rooms, and monitoring video recording is carried out in the whole course of the study period of the students. Although the traditional classrooms are all provided with cameras for monitoring, the hands on duty at night are few, and careless mistakes are inevitably easy to occur if the number of the monitored classrooms is very large. The system can flexibly distribute the self-study areas according to the number of the self-study persons in each classroom, ensure that students can carry out centralized self-study as much as possible, and can carry out safe self-study under fewer on-duty personnel (on-duty teachers and security guards).

In the step S3, before entering the study room, the student performs identity authentication sign-in through code scanning, card swiping, Bluetooth recognition or face recognition, and after identity confirmation, the student can enter the study room; if loud during the study, the control center reminds the teacher on duty to pay attention to the study and records related information. The self-study data of the student can be recorded through identity recognition, and recommendation is facilitated. Due to the fact that identity recognition is available, if abnormity occurs, reasons can be found and searched for at the first time, and safety of students in self study at night is further guaranteed.

Many middle schools have limited conditions, and the dormitories do not have self-study conditions, so that the dormitories are also regularly turned off for unified management, and cannot carry out long-time self-study. However, there are many classrooms in the school, and the personal articles of the students in the classrooms are not suitable to be used as study rooms. Meanwhile, the number of people to study in each period and the study time are different, and schools generally set a uniform light-off time for convenient unified management, and need to turn off the light after the time is exceeded, so that a plurality of students have to take desk lamps and study in classrooms by one person, and the safety of the students cannot be effectively guaranteed. Although the applicant does not want students to review all night, reasonable review conditions still need to be given. Some schools are convenient for students to study, a study room is specially set, but the study room is often full of study rooms and cannot be reserved. The above problems can not be solved by the existing management system. The management system can exactly obtain a balance for the requirement of the student for study and the safety requirement of the school. By the system, the study room can be effectively prevented from being full or empty, the classroom is reasonably used, students can be ensured to intensively and uniformly study, and the safety is greatly improved; meanwhile, the study data of each student can be acquired, and the students can be better arranged to take their own study instead of getting first and having to rob seats for study rooms every day; meanwhile, the pressure of the operators on duty is greatly reduced, the operators on duty can be purposefully directed, and the operators on duty and students do not need to play and hide cats; moreover, the system is low in operation cost and high in automation degree, and a large amount of manpower and material resources are not needed to be invested for maintenance.

The management system can effectively coordinate the study requirements of students and the safety requirements of schools, can efficiently centralize and uniformly arrange the students for study, and ensures that the students are in a safe environment during study; meanwhile, the centralized and unified arrangement can be carried out, so that the pressure of the school attendant is greatly reduced, local classrooms or study rooms can be managed by centralized force, and the study safety of students can be guaranteed to the maximum extent; the system can also fully utilize resources of a school classroom or a study room, can dynamically adjust the use of the classroom and the study room, automatically allocate study positions for study students, and reduce the probability of danger caused by the independent study of the students; meanwhile, as the classroom and the study room are reasonably utilized, the total power consumption at night can be reduced, and energy conservation and emission reduction are realized.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any minor modifications, equivalent replacements and improvements made to the above embodiment according to the technical spirit of the present invention should be included in the protection scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a school is study power consumption management system evening which characterized in that: comprises that

The control center is used for acquiring the light states of the classroom and the walkway, and the security guard can convert the light states of the classroom or the walkway through the control center;

the electronic class board is used for displaying or releasing information, is in communication connection with the control center and can release designated information to students;

the wearable equipment is used for receiving information or identifying identity and can be in communication connection with the electronic class board;

and the relay is used for remotely controlling the light of a specific classroom or walkway and is electrically connected with the control center.

2. The school evening study electricity management system according to claim 1, wherein: the electronic class card is provided with a Bluetooth gateway, the wearable equipment is internally provided with a Bluetooth module, the electronic class card can scan the number and the ID of the wearable equipment around through the Bluetooth gateway, and the Bluetooth gateway can also send appointed information to the wearable equipment.

3. The school evening study electricity management system according to claim 1, wherein: the electron class tablet still electricity is connected with the infrared sensor who is used for responding to the interior activity state of classroom.

4. A method of management, characterized by: the school evening study electricity management system of any one of claims 1-3 is adopted, and comprises the following specific steps:

s1, carrying out student data statistics, starting an infrared sensor when specified time is reached after the students take a class after the students take a study at night, detecting the state of the students in a classroom, simultaneously starting a Bluetooth gateway to scan the state of the students in the classroom if the infrared sensor detects that the students move, recording the number and ID of the students taking the study, and uploading the data obtained by each electronic class board to a control center;

s2, performing reservation statistics, wherein when the number of the persons in the classroom counted by the control center is less than the capacity of all study rooms, the control center sends out a reservation application to the students through the Bluetooth gateway, the students obtain a reservation code through the wearable device, and the control center automatically recommends the study rooms, the study duration and the position numbers according to analysis of current study data;

if the students need to modify the study duration, the students can reserve the study rooms again on the electronic class board through the reservation codes and select the study duration, the control center collects and analyzes the information of reservation statistics and arranges the study durations which are the same or similar in the same study room, after the reservation is successful, the electronic class board displays the distributed study rooms and the position numbers, and the wearable equipment also receives the information;

s3, self-study, wherein students come into a study room for study, when the study duration is up, and the number of people in the study room and the number of people in a classroom are higher than a threshold value, the system can automatically match and centralize the rest students in one or more than one study room, and the control center can automatically send recommended study rooms to the students according to analysis of current study data;

if the total number of people in each study room is lower than the threshold value, the people are not distributed and still arranged to study in the original study room.

5. The management method according to claim 4, characterized in that: in the reservation statistics of the step S2, statistics is preferentially carried out according to the grade and the class attribute, and if the number of the class individuals is more than a specified threshold value, the class individuals are continuously left in the classroom for self-study;

if the number of the class of the study persons is less than a specified threshold value, the study persons are preferentially arranged in the study room to study;

if the number of the persons in the class smaller than the designated threshold exceeds the number of the persons in the study room, the control center reduces the designated threshold until the number of the persons in the class smaller than the designated threshold is smaller than the number of the persons in the study room.

6. The management method according to claim 4, characterized in that: after the reservation and statistics in the step S2, the students transfer to a study room for study, if the personnel state is not monitored after the infrared sensor is started, and meanwhile, the Bluetooth gateway scans the students in the classroom and does not find that the students in the classroom leave the study, the control center closes the light of the classroom through a relay;

if the state of a person is not monitored after the infrared sensor is started, the Bluetooth gateway scans students in the classroom, and if only 1-3 students exist, the students are reminded to leave the classroom through the wearable equipment and the electronic class board, and the students are recommended to the study room; if the number of students is more than the threshold value, the light is turned off in a delayed mode.

7. The management method according to claim 4, characterized in that: cameras are further installed in the classroom and the study room, and monitoring and video recording are carried out in the whole course of the study period of students.

8. The management method according to claim 7, characterized in that: in the step S3, before entering the study room, the student performs identity authentication through code scanning, card swiping, Bluetooth recognition or face recognition, and after identity confirmation, the student can enter the study room;

if loud during the study, the control center reminds the teacher on duty to pay attention to the study and records related information.

Images