CN212379946U - Intelligent electricity utilization safety system based on indoor number monitoring - Google Patents

Abstract

The utility model relates to an intelligent electricity consumption safety system based on indoor number monitoring, which comprises a bidirectional number counter, a ceiling infrared detector, an acoustic control detector, a wireless information acquisition and transmission terminal, a wireless safety electricity consumption monitoring detector, a wireless linkage controller, a platform server and a service terminal; the bidirectional people counter is arranged on an indoor entrance/exit channel; the ceiling infrared detector or/and the sound control detector are/is arranged at the designated position in the installation chamber; the service terminal establishes two-way communication with the wireless information acquisition and transmission terminal, the wireless safety power utilization monitoring detector and the wireless linkage controller through the platform server by adopting wireless communication, and the service terminal remotely receives and manages data information of the safety power utilization monitoring equipment. The utility model discloses realize that removal, long-range, simplification ensure user's property and life safety comprehensively, but wide popularization and application.

Description

Intelligent electricity utilization safety system based on indoor number monitoring

Technical Field

The utility model relates to a wisdom power consumption safety coefficient, concretely relates to wisdom power consumption safety coefficient based on indoor number monitoring.

Background

Indoor, especially campus building is the place with high density of people, and is the place which is most easy to cause electric fire, especially colleges and universities. The history of the college's study is mostly longer, and the building is old, and electric aging, research instrument equipment are comparatively complicated, and the student is grown up moreover, and they have more freedom to govern own time and space, and the too much restriction and management of it are also inconvenient for school. The phenomenon that students illegally use high-power electrical equipment in a dormitory and are forbidden frequently, wires are randomly connected, and the phenomenon that the electrical equipment is increased is common, so that the phenomenon that an insulation layer is aged more quickly due to overload operation of an electrical line is caused, and fire is caused by short circuit; or the contact resistance is overlarge or the fault electric arc causes fire because of the corrosion of the wire joint and the infirm connection; more serious, when people leave all the rooms in a dormitory, the used electric appliances with high dangerousness, such as an electric cooker, an electric stewpan electric stove, a high-power hand warmer, an electromagnetic oven, an electric iron, an electric hair drier, an electric cup and the like, are not powered off, so that the probability of fire is obviously higher.

Schools are currently banned from using these high-power devices, but are often banned. When students use the devices in a dormitory in a violation mode, school dormitory administrators cannot know which dormitory and at what time someone uses the high-power violation devices. Dormitory managers are reluctant to make it difficult.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wisdom power consumption safety coefficient based on indoor number monitoring for solving indoor, especially campus student's dormitory's safe power consumption problem.

The purpose of the utility model can be realized by the following technical scheme:

the intelligent electricity utilization safety system based on indoor people number monitoring comprises a bidirectional people number counter, a ceiling infrared detector, a sound control detector, a wireless information acquisition and transmission terminal, a wireless safety electricity utilization monitoring detector, a wireless linkage controller, a platform server and a service terminal; the bidirectional people counter is arranged on an indoor entrance/exit channel; the ceiling infrared detector or/and the sound control detector are/is arranged at the designated position in the installation chamber; the bidirectional people counter, the ceiling infrared detector and the sound control detector are respectively connected to the wireless information acquisition and transmission terminal through a group of signal lines and a group of power supply lines; the wireless information acquisition and transmission terminal, the wireless safety power utilization monitoring detector and the wireless linkage controller are in wireless connection with a platform server on the Internet through wireless connection; the service terminal establishes two-way communication with the wireless information acquisition and transmission terminal, the wireless safety power utilization monitoring detector and the wireless linkage controller through the platform server without communication, and the service terminal remotely receives and manages data information of the safety power utilization monitoring equipment.

The purpose of the utility model can also be realized through the following technical scheme:

further, the bidirectional people counter is arranged on an indoor entrance/exit channel.

Furthermore, the ceiling infrared detector is arranged at the top of the center in the room.

Furthermore, the sound control detector is arranged at the top of the center of the toilet.

Furthermore, the wireless linkage controller can be connected with linkage equipment such as automatic fire extinguishing equipment, smoke prevention and exhaust equipment and the like.

Further, the service terminal is a mobile phone terminal or a platform terminal.

Furthermore, the wireless safety electricity utilization monitoring detector is a safety electricity utilization monitoring detector with a built-in wireless communication module.

The utility model has the advantages that:

1. the utility model discloses wireless safe power consumption monitoring detector has the electric current to the power consumption circuit, voltage, electric leakage real-time supervision's function, possesses power and prescribes a limit to, overcurrent protection, short-circuit protection, earth leakage protection, overvoltage protection's function, plays the monitoring guard action to the power consumption circuit, establishes wireless connection through wireless and the platform server on the internet, again through cloud ware and service terminal set up two-way communication, carry out the power consumption data information in long-range receipt and the management room by service terminal. Therefore, the remote service terminal can be used for remotely monitoring indoor electricity utilization data in the authority, providing real-time data for the electricity utilization management department and providing auxiliary decision support for emergency treatment of related departments.

2. The utility model discloses a wireless linkage controller is connected with automatic fire extinguishing equipment or/and fume extractor, can realize remote monitoring electrical fire alarm function from this, for user and fire control administration department provide accurate, high-efficient, quick fire control early warning, warning linkage and emergency rescue service, help eliminating electrical fire hidden danger fast, also provide technical support for long-range fire prevention simultaneously.

2. The utility model discloses a wireless information gathers transmission terminal, wireless safe power consumption monitoring detector and wireless linkage controller pass through wireless connection and establish wireless connection with the platform server on the internet, from this the expansibility is strong, can pass through internet of things communication, wireless networking technology's application, it is quick to make wireless data's transmission, safety, reliability, and low power dissipation, and is with low costs, time delay is little, application through dynamic map technique, it is accurate to make fire emergency rescue, high efficiency, in time, effectively overcome current traditional electric fire monitoring technology and adopted the stand-alone type to survey the alarm and only possess local audible-visual alarm suggestion, can not network and carry out defects such as unified control and management through service terminal, can be in the campus dormitory, resident life, fields such as hotel play important role.

3. Technical characteristics live in, the utility model discloses still adopt wireless communication and multiple sensor recheck algorithm technique, make safe power consumption monitoring detector and other sensors can freely build electric fire protection system, therefore, can realize the removal, it is long-range, it is simple, can realize the efficient real-time collection to indoor circuit data information, not only can be outside the remote control to the scene, still can the linkage insert traditional conflagration automatic alarm system, fire control aggregate unit such as automatic fire extinguishing equipment, smoke exhaust apparatus, play intelligent early warning and aggregate control's dual function, guarantee user's property and life safety comprehensively, can extensively popularize and apply, like residential housing, public areas such as school have set up the place of conflagration automatic alarm facility.

Drawings

Fig. 1 is a control block diagram of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings.

Referring to fig. 1, the intelligent electricity consumption safety system based on indoor people number monitoring comprises a bidirectional people number counter 1, a ceiling infrared detector 2, a sound control detector 3, a wireless information acquisition and transmission terminal 4, a wireless safety electricity consumption monitoring detector 5, a wireless linkage controller 6, a platform server 7 and a service terminal 8; the bidirectional people counter 1 is arranged on an indoor entrance/exit channel; the ceiling infrared detector 2 or/and the sound control detector 3 are/is arranged at the designated position in the room; the bidirectional people counter 1, the ceiling infrared detector 2 and the sound control detector 3 are respectively connected to the wireless information acquisition and transmission terminal 4 through a group of signal lines and a group of power supply lines; the wireless information acquisition and transmission terminal 4, the wireless safety power utilization monitoring detector 5 and the wireless linkage controller 6 are in wireless connection with a platform server 7 on the Internet through wireless connection; the service terminal 8 establishes two-way communication with the wireless information acquisition and transmission terminal 4, the wireless safety power utilization monitoring detector 5 and the wireless linkage controller 6 through the platform server 7 by adopting non-communication, and the service terminal 8 remotely receives and manages data information of the safety power utilization monitoring equipment.

In the embodiment, the bidirectional counter 1 is installed on a door entering a room, that is, the bidirectional counter 1 is installed on a door entering the room, that is, an entrance/exit passage of the room is the door entering the room. The ceiling infrared detector 2 is arranged on the top of the indoor center, namely the ceiling infrared detector 2 is arranged on the indoor center. The voice control detector 3 is arranged at the top of the center of the toilet, namely, the voice control detector 3 is arranged at the top of the indoor center at an indoor designated position. The wireless safety electricity utilization monitoring detector 5 is a safety electricity utilization monitoring detector with a built-in wireless communication module. The wireless linkage controller 6 is connected with automatic fire extinguishing equipment or/and smoke exhausting equipment. The service terminal 8 is a mobile phone terminal or a platform terminal, that is, the service terminal 8 may be a computer or a smart phone connected to the internet.

Specifically, the wireless information acquisition and transmission terminal 4 is an information acquisition and transmission terminal with a built-in wireless communication module, the signal output/input end of the wireless information acquisition and transmission terminal 4 is connected with the bidirectional people counter 1, the ceiling infrared detector 2 and the voice control detector 3 through communication lines, the wireless information acquisition and transmission terminal 4 is operated by a built-in CPU and then establishes bidirectional communication with the platform server 7, and the service terminal 8 is used for remotely receiving data information.

The wireless safety electricity utilization monitoring detector 5 is internally provided with a wireless communication module, the wireless safety electricity utilization monitoring detector 5 has the functions of monitoring the current, the voltage and the electric leakage of a power utilization line in real time and can receive a remote control instruction, the data of the wireless safety electricity utilization monitoring detector 5 establishes two-way communication with the platform server 7 through the wireless Internet of things, and then the service terminal 8 remotely receives data information and manages and controls the data information. The service terminal 8 is a computer or a smart phone connected with the internet, an authorized user can configure or send a control instruction through the service terminal 8, and the platform server 7 can send an action instruction to the wireless safety power utilization monitoring detector 5 and the wireless linkage controller 6 in real time, at regular time or in early warning.

When the utility model is applied: the wireless linkage controller 6 can be connected with fire-fighting linkage equipment such as automatic fire-extinguishing equipment and smoke-discharging equipment in a butt joint mode, under the configuration of the platform server 7, when the wireless safety power utilization monitoring detector 5 or the wireless information acquisition and transmission terminal 4 sends early warning information, the platform server 7 can send an authorized control command to the wireless linkage controller 6 to carry out corresponding actions, namely, the fire-fighting linkage equipment such as the automatic fire-extinguishing equipment and the smoke-discharging equipment is automatically started.

In the implementation:

firstly, the number of people getting in and out of a room is calculated through a bidirectional people counter 1 (hereinafter, referred to as a counter) to obtain the number of the people left in the room, so that whether people exist in the room is judged. The counting range of the counter is 0-10 (including 10), if the number exceeds 10, an abnormity early warning signal is sent to the platform server 7, then the platform server sends the abnormity early warning signal to the service terminal to prompt a manager to check the abnormity early warning signal on site, the initial state is that the counter counts 0 number of the indoor remaining people, and power supply is cut off; when people enter, the counter is triggered to count that the number of the rest people is not 0, and power supply is started.

When people leave a room, triggering a counter to reduce 1, and keeping power supply if the counter counts that the number of the remaining people in the room is more than or equal to 3;

when people leave a room, the counter is triggered to reduce 1, if the counter counts that the number of the remaining people in the room is less than 3, the ceiling infrared detector 2 and the sound control detector 3 start monitoring, and when the ceiling infrared detector or the sound control detector detects that people exist, all states are kept unchanged;

when people leave the room, the counter is triggered to reduce 1, if the counter counts that the number of people in the room is 0, the ceiling infrared detector 2 (hereinafter referred to as an infrared detector) starts detection, the voice-operated detector 3 starts detection, when the infrared detector or the voice-operated detector detects that people exist, the counter immediately corrects the counter to 1, and if the infrared detector or the voice-operated detector detects that no people exist within 2min, the counter sends out' tic! Tic! Tic! The method comprises the following steps of 'voice prompt', wherein the prompt tone is a prompt tone about to be powered off, and when no person is detected by an infrared counter, an infrared detector and a voice control detector after 2min of ringing, the power supply is cut off; if the infrared detector or the sound control detector is used for detecting a person in the period of ringing for 2min, the counting of the counter is immediately corrected to 1, and power supply is kept;

when people leave the room, the counter is triggered to subtract 1, the counter counts that the number of people in the room is not 0 and is less than 3, the ceiling infrared detector starts detection, the sound control detector starts detection, and when the infrared detector or the sound control detector detects that people are in the room, the counter counts that the number of people in the room is unchanged; if the infrared detector or the sound control detector detects no person within 2min, the counter sends out a ticker! Tic! Tic! The method comprises the following steps of 'voice prompt', namely a prompt tone about power failure, wherein after the infrared counter, the infrared detector and the voice control detector sound for 2min, no person is detected, the counter counts the number of persons in a room, and corrects the number to 0, and meanwhile, the power supply is cut off; if the infrared detector or the sound control detector is used for detecting people in the ringing 2min period, the counter counts the number of people in the house to be unchanged, and power supply is kept;

if no person leaves after entering and the number of the counter is not 0, keeping the power supply state;

in addition, the management party can also set power supply to be switched on and off at regular time through the authorized mobile phone end or platform end, and can remotely control the power supply to be switched on and off in real time.

Claims (7)

1. Wisdom power consumption safety coefficient based on indoor number monitoring, characterized by: the system comprises a bidirectional people counter (1), a ceiling infrared detector (2), a sound control detector (3), a wireless information acquisition and transmission terminal (4), a wireless safety power utilization monitoring detector (5), a wireless linkage controller (6), a platform server (7) and a service terminal (8);

the bidirectional people counter (1) is arranged on an indoor entrance/exit channel;

the ceiling infrared detector (2) or/and the sound control detector (3) are/is arranged at an appointed position in the room;

the bidirectional people counter (1), the ceiling infrared detector (2) and the sound control detector (3) are respectively connected to the wireless information acquisition and transmission terminal (4) through a group of signal lines and a group of power supply lines;

the wireless information acquisition and transmission terminal (4), the wireless safety power utilization monitoring detector (5) and the wireless linkage controller (6) are in wireless connection with a platform server (7) on the Internet through wireless connection;

the service terminal (8) adopts wireless communication to establish two-way communication with the wireless information acquisition and transmission terminal (4), the wireless safety power utilization monitoring detector (5) and the wireless linkage controller (6) through the platform server (7), and the service terminal (8) is used for remotely receiving and managing data information of the safety power utilization monitoring equipment.

2. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the bidirectional people counter (1) is arranged on an entrance/exit channel entering a room.

3. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the ceiling infrared detector (2) is arranged at the top of the center of the room.

4. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the sound control detector (3) is arranged at the top of the center of the toilet.

5. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the wireless linkage controller (6) is connected with automatic fire extinguishing equipment or/and smoke prevention and exhaust equipment.

6. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the service terminal (8) is a mobile phone end or a platform end.

7. The intelligent electricity consumption safety system based on indoor people number monitoring as claimed in claim 1, wherein: the wireless safety electricity utilization monitoring detector (5) is a safety electricity utilization monitoring detector with a built-in wireless communication module.

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