CN210156978U

CN210156978U - Intelligent safety energy-saving main control equipment

Info

Publication number: CN210156978U
Application number: CN201920183703.0U
Authority: CN
Inventors: 姜秀勇
Original assignee: Guizhou Yunchuang Digital Measurement Technology Co Ltd
Current assignee: Guizhou Yunchuang Digital Measurement Technology Co Ltd
Priority date: 2019-02-01
Filing date: 2019-02-01
Publication date: 2020-03-17
Anticipated expiration: 2029-02-01

Abstract

The utility model provides an energy-conserving main control equipment of intelligent security, which comprises a controller, intelligence switch and thing networking module, intelligence switch includes inlet wire end and a plurality of leading-out terminal, inlet wire end department has the inlet wire relay, every outlet wire end department all has the relay of being qualified for the next round of competitions, the inlet wire end passes through the inlet wire relay and connects in supply circuit, every leading-out terminal all is connected in the load through corresponding relay of being qualified for the next round of competitions, every outlet wire end department all has the temperature sensor who is used for detecting the outlet wire temperature and is used for detecting the electric energy detecting element of electric energy, a temperature sensor, the electric energy detecting element, inlet wire relay and outlet wire relay all connect in the controller, thing networking module is including connecting respectively in the surveillance camera head of controller, fire detector, audible-visual annunciator. The utility model discloses can realize centralized monitoring to the dormitory power consumption, each return circuit is managed respectively, improves power consumption security and power consumption managerial efficiency.

Description

Intelligent safety energy-saving main control equipment

Technical Field

The utility model belongs to the technical field of the wisdom is with the electricity, especially, relate to an energy-conserving master control equipment of intelligent security.

Background

The electricity utilization management problem of colleges and universities is always a difficult problem in front of college managers. The university student dormitory power consumption management uses the management mode of traditional manual operation as the owner, and its information feedback is slow, and work efficiency is low, and the management quality is poor, and this kind of lagging management mode and the pace of epoch have gone into the check, and it is the inevitable requirement of strengthening the logistics management construction, improvement service consciousness to carry out intellectuality, information-based management to student dormitory power consumption. The dormitory privately uses heavy loads such as electricity heating, and long-time overload operation if discovery and effective precaution in time threaten the safety of low-voltage distribution network and power equipment, and the life and property safety of students is threatened, and even the major accident is directly caused.

At present, the safety electricity utilization protection measures for colleges and universities are that when the problems of overcurrent, overvoltage and the like in a dormitory are detected, the whole dormitory or even the whole dormitory is directly powered off, so that inconvenience is brought to students, the power-off information cannot be sent to managers in an information mode, the power-off information can be found by the managers, the managers cannot timely know the reason and the position of the trip problem even if the managers find the trip problem, and the dormitory management is inconvenient.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a can realize the energy-conserving master control equipment of intelligent security of centralized monitoring is provided.

In order to achieve the above purpose, the utility model provides an intelligent safe energy-saving main control device, which comprises a controller, an intelligent switch and an internet of things module, wherein the intelligent switch comprises an incoming line end and a plurality of outgoing line ends, the incoming line end is provided with an incoming line relay, each outgoing line end is provided with an outgoing line relay, the incoming line end is connected with a power supply circuit through the incoming line relay, each outgoing line end is connected with a load through a corresponding outgoing line relay, each outgoing line end is provided with a temperature sensor for detecting outgoing line temperature and an electric energy detection unit for detecting electric energy, the temperature sensor, the electric energy detection unit, the incoming line relay and the outgoing line relay are connected with the controller, the internet of things module comprises a monitoring camera, a fire detector, an audible and visual alarm, a spray device and a gas monitoring detector which are respectively connected with the controller, the controller is connected with the background management system.

In the intelligent safe energy-saving main control equipment, the input end is connected with the outgoing line of the outgoing line end, and the output end of the electric quantity detection chip is connected with the controller.

In the above intelligent safe energy-saving main control device, the electric quantity detection chip is of a CS5460 type.

In the above intelligent safe energy-saving main control device, the intelligent switch further comprises a residual current transformer, and the residual current transformer is connected to the controller.

In the intelligent safe energy-saving main control equipment, the controller is connected to the Internet of things big data cloud platform through a data gateway, and the Internet of things big data cloud platform is connected to the background management system.

In the above-mentioned intelligent safe energy-saving main control device, the background management system includes a remote monitoring terminal and a mobile terminal, and the remote monitoring terminal is connected to the mobile terminal, and the remote monitoring terminal has a sound and/or light alarm system.

In the above-mentioned intelligent safe energy-saving main control device, the controller is installed in a terminal housing, the intelligent switch is installed in a switch housing, and the terminal housing side has an installation buckle, the switch housing side has an installation bayonet corresponding to the installation buckle.

In the intelligent safe energy-saving main control equipment, a main circuit switch button connected between the power supply circuit and the incoming line relay is embedded in the switch shell.

In foretell intelligent security energy-conserving master control equipment, inlay on the terminal shell be equipped with connect in the display screen of controller, have in the terminal shell connect in the control by temperature change fan of controller.

In the above intelligent safe energy-saving main control device, the back or the bottom of the terminal housing has a mounting rail for mounting the mounting housing in the electrical box in a rail manner.

Compared with the prior art, the utility model has the advantages of it is following: the dynamic monitoring device has the advantages that the dynamic monitoring is realized in real time, such as outlet wire temperature, current, residual current and the like, so that the dormitory management efficiency and the electricity utilization safety are improved; the outgoing line relays are arranged at the outgoing line ends, when a circuit fault occurs in a certain circuit, the circuit can be independently cut off, the normal use of other electric equipment in a dormitory cannot be influenced, and the electricity consumption of other dormitories cannot be influenced; the monitoring information is sent to the background management system through the controller, so that centralized monitoring and management can be realized, and the dormitory management efficiency is improved; the monitoring camera is arranged, the environment where the equipment is located can be monitored through videos, and once the alarm is sent, the site condition can be checked in real time.

Drawings

Fig. 1 is a first circuit connection block diagram of the present invention;

fig. 2 is a schematic diagram of the connection between the controller and the background management system according to the present invention;

fig. 3 is a circuit connection block diagram of the present invention;

fig. 4 is a schematic diagram of the connection of the controller to the residual current transformer according to the present invention;

fig. 5 is a schematic diagram of the connection between the controller and the internet of things module according to the present invention;

fig. 6 is a schematic structural diagram of the terminal housing and the switch housing of the present invention;

fig. 7 is a connection block diagram of the controller, the temperature control fan and the display screen according to the present invention.

In the figure, a controller 1; a terminal housing 11; a temperature-controlled fan 12; mounting the guide rail 13; a display screen 14; mounting a buckle 15; an intelligent switch 2; an incoming line relay 21; an outlet relay 22; a residual current transformer 23; a switch housing 24; a main circuit switch button 25; an Internet of things module 3; a monitoring camera 31; a fire detector 32; an audible and visual alarm 33; a spray device 34; a gas monitoring detector 35; a power supply circuit 4; a load 5; a temperature sensor 6; an electric energy detection unit 7; a background management system 8; a remote monitoring terminal 81; a mobile terminal 82; a data gateway 91; internet of things big data cloud platform 92.

Detailed Description

As shown in fig. 1, this embodiment discloses an energy-conserving master control equipment of intelligent security, including controller 1, intelligent switch 2 and thing networking module 3, intelligent switch 2 includes inlet wire end and a plurality of outlet terminal, and inlet wire end department has inlet wire relay 21, and the inlet wire end passes through inlet wire relay 21 to be connected in supply circuit 4, and this inlet wire relay 21 is used for controlling the power on-off of whole intelligent switch 2. Each outlet end is provided with an outlet relay 22, each outlet end is connected to the load 5 through the corresponding outlet relay 22, and the outlet relay 22 is used for controlling the on-off of the load 5. The incoming line relay 21 and the outgoing line relay 22 are both connected to the controller 1, and the controller 1 controls the on-off of the incoming line relay 21 and the outgoing line relay 22 according to received control information or detection data and other information. The controller 1 may use a model STC15F2K60S 251 single chip microcomputer or the like.

When putting into this equipment and using in the campus dormitory, can use an intelligence switch 2 in a dormitory, then air conditioner load 5, socket load 5 and lighting load 5 etc. are connected respectively to a plurality of leading-out terminals of intelligence switch 2, when the classmate supplies power for high power equipment through the socket, this equipment just can in time detect out and to this outage all the way of socket load 5, does not influence other powers supplies of dormitory, does not influence other dormitories of dormitory building more. The intelligent switch 2 of every dormitory can connect a controller 1 alone, also can a controller 1 of a plurality of intelligent switch 2 sharing, and remote connection is connected in backstage management system to controller 1, sends the data that detect for backstage management system 8 in the lump to the managers acquires the dormitory power consumption condition and the power consumption violation condition at any time, improves dormitory managerial efficiency and dormitory power consumption safety.

Specifically, as shown in fig. 2, the controller 1 is connected to an internet of things big data cloud platform 92 through a data gateway 91, and the internet of things big data cloud platform 92 is connected to the background management system 8. The background management system 8 further comprises a remote monitoring terminal 81 and a mobile terminal 82, wherein the remote monitoring terminal 81 is provided with a sound and/or light alarm system for alarming when abnormal data is received, so that a manager can timely obtain abnormal information. The remote monitoring terminal 81 is connected to the mobile terminal 82, the mobile terminal 82 may include an operation and maintenance terminal and a management terminal, and the remote monitoring terminal 81 and the management terminal may send a work instruction to the operation and maintenance terminal and synchronize on a big data cloud platform. The background manager receives the monitoring data remotely through the remote monitoring terminal 81 or the mobile terminal 82, and sends a relevant instruction to the device to control the internet of things device, the intelligent switch 2 and the like.

Preferably, as shown in fig. 3, in order to improve the safety of the line, each outlet end is provided with a temperature sensor 6 for detecting the outlet temperature and an electric energy detection unit 7 for detecting electric energy, the temperature sensor 6 and the electric energy detection unit 7 are both connected to the controller 1, and the corresponding outlet relay 22 is turned off in time when the temperature sensor 6 or the electric energy detection unit 7 detects an abnormality.

Specifically, the electric energy detection unit 7 includes an electric quantity detection chip, an input end of the electric quantity detection chip is connected to the outgoing line of the outgoing line end, and an output end of the electric quantity detection chip is connected to the controller 1. Here, an electric quantity detection chip with a plurality of input/output terminals may be used, so that only one electric quantity detection chip is needed for a plurality of line outgoing terminals, or an electric quantity detection chip with only one input/output terminal may be used, and at this time, each line outgoing terminal is individually connected to one electric quantity detection chip. The model of the electric quantity detection chip selected in the embodiment is CS 5460. The electric quantity detection chip of this model has instantaneous current, instantaneous voltage, electric current effective value, voltage effective value, power effective value and electric energy measurement function, detects comprehensively and accurately.

Further, as shown in fig. 4, the intelligent switch 2 further includes a residual current transformer 23, and the residual current transformer 23 is connected to the controller 1. The residual current transformer 23 is a signal detection element for detecting the residual current in the primary line, and a hollow ring transformer is generally used. During installation, the three-phase four-wire primary loop is completely penetrated through the residual current transformer 23 to detect the vector sum of the current in the primary loop. When an electric shock accident, equipment leakage, ground fault or three-phase earth leakage current imbalance occurs in the three-phase circuit, the sum of current vectors in the primary circuit is not zero, and the residual current signal is acquired by the residual current transformer 23. The surplus residual current transformer 23 is used for detecting electricity utilization problems such as electric shock accidents, equipment leakage, ground faults or unbalanced three-phase earth leakage current and the like, detection results are sent to the controller 1, and the incoming line relay 21 is turned off by the controller 1 to avoid greater harm.

Further, as shown in fig. 5, the module 3 of the internet of things includes a monitoring camera 31, a fire detector 32, an audible and visual alarm 33, a spraying device 34 and a gas monitoring detector 35 which are respectively connected to the controller 1. The audible and visual alarm 33 may be an LED lamp and/or a buzzer connected to the controller 1, where both are used, giving a light alarm when only a simple trip is made and a sound and visual alarm when a fire signal is detected. Fire detector 32, spray set 34 and gaseous monitoring detector 35 distribute in each position of dormitory, and audible-visual annunciator 33 and surveillance camera head 31 are installed in the equipment place environment, and in case the alarm condition takes place, managers can obtain the alarm place according to audible-visual annunciator position to look over the site conditions in real time through surveillance camera head 31.

Specifically, as shown in fig. 6 and 7, the controller 1 is installed in a terminal housing 11, the intelligent switch 2 is installed in a switch housing 24, and the side of the terminal housing 11 is provided with an installation buckle 15, and the side of the switch housing 24 is provided with an installation bayonet corresponding to the installation buckle 15. The back or the bottom of the terminal shell 11 is provided with a mounting guide rail 13 for mounting the mounting shell in the electric box in a guide rail way, and the terminal shell 11 is fixed on a guide rail sliding groove of the electric box through friction force at the guide rail, and can also be additionally provided with a threaded hole and fixed on the electric box through a bolt fixing way. Here through the mode connection terminal shell 11 of installation buckle with the installation bayonet socket and switch shell 24 to and install terminal shell 11 in the electronic box through the mode of guide rail, have the installation and dismantle convenient, the maintenance is changed advantages such as convenient.

Further, a main circuit switch button 25 connected between the power supply circuit 4 and the incoming line relay 21 is embedded on the switch housing 24, and the switch button 25 is used for manually switching on and off the main power supply of the intelligent switch 2. Inlay on terminal shell 11 and be equipped with display screen 14 of connecting in controller 1, have in terminal shell 11 and connect in controller 1's control by temperature change fan 12, control by temperature change fan 12 includes temperature sensor and fan equipment, temperature sensor's output and fan equipment's drive end all connect in controller 1, according to the work of temperature drive fan equipment in terminal shell 11, make temperature in terminal shell 11 be at the certain extent all the time, can not damage inside components and parts because of the high temperature.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

The mounting buckle and the mounting rail shown in the drawings are only one embodiment, and when the mounting buckle and the mounting rail are put into use, the structure of the mounting buckle and the mounting rail are not limited to the structure shown in the drawings, and can also be other existing buckle structures and rail structures.

Although the controller 1 is used more herein; a terminal housing 11; a temperature-controlled fan 12; mounting the guide rail 13; a display screen 14; mounting a buckle 15; an intelligent switch 2; an incoming line relay 21; an outlet relay 22; a residual current transformer 23; a switch housing 24; a main circuit switch button 25; an Internet of things module 3; a monitoring camera 31; a fire detector 32; an audible and visual alarm 33; a spray device 34; a gas monitoring detector 35; a power supply circuit 4; a load 5; a temperature sensor 6; an electric energy detection unit 7; a background management system 8; a remote monitoring terminal 81; a mobile terminal 82; a data gateway 91; internet of things big data cloud platform 92, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims

1. The utility model provides an energy-conserving master control equipment of intelligent security, a serial communication port, including controller (1), intelligent switch (2) and thing networking module (3), intelligent switch (2) are including inlet wire end and a plurality of leading-out terminal, inlet wire end has inlet wire relay (21), and every leading-out terminal department all has outlet wire relay (22), the inlet wire end passes through inlet wire relay (21) and connects in supply circuit (4), and every leading-out terminal all connects in load (5) through corresponding outlet wire relay (22), and every leading-out terminal department all has temperature sensor (6) that are used for detecting the temperature of being qualified for the next round of competitions and electric energy detecting element (7) that are used for detecting electric energy, temperature sensor (6), electric energy detecting element (7), inlet wire relay (21) and outlet wire relay (22) all connect in controller (1), thing networking module (3) including connect respectively in monitoring camera (31) of controller (1), Fire detector (32), audible and visual alarm (33), spray set (34) and gas monitoring detector (35), controller (1) is connected in backstage management system (8).

2. The intelligent safety energy-saving main control device according to claim 1, wherein the power detection unit (7) comprises a power detection chip, an input end of the power detection chip is connected to the outgoing line of the outgoing line end, and an output end of the power detection chip is connected to the controller (1).

3. The intelligent safety energy-saving main control device according to claim 2, wherein the model number adopted by the electric quantity detection chip is CS 5460.

4. The intelligent safety energy-saving main control device according to any one of claims 1 to 3, wherein the intelligent switch (2) further comprises a residual current transformer (23), and the residual current transformer (23) is connected to the controller (1).

5. The intelligent safe energy-saving main control device according to claim 1, wherein the controller (1) is connected to an internet of things big data cloud platform (92) through a data gateway (91), and the internet of things big data cloud platform (92) is connected to a background management system (8).

6. The intelligent, safe and energy-saving main control device according to claim 5, wherein the background management system (8) comprises a remote monitoring terminal (81) and a mobile terminal (82), the remote monitoring terminal (81) is connected to the mobile terminal (82), and the remote monitoring terminal (81) has a sound and/or light alarm system.

7. The intelligent safety energy-saving main control device according to claim 1, wherein the controller (1) is installed in a terminal housing (11), the intelligent switch (2) is installed in a switch housing (24), the side of the terminal housing (11) is provided with a mounting buckle (15), and the side of the switch housing (24) is provided with a mounting bayonet corresponding to the mounting buckle (15).

8. The intelligent safety energy-saving main control device according to claim 7, wherein a main circuit switch button (25) connected between the power supply circuit (4) and the incoming line relay (21) is embedded on the switch housing (24).

9. The intelligent safety energy-saving main control device according to claim 8, wherein a display screen (14) connected to the controller (1) is embedded on the terminal housing (11), and a temperature control fan (12) connected to the controller (1) is arranged in the terminal housing (11).

10. An intelligent, safe and energy-saving main control device according to claim 9, characterized in that the back or bottom of the terminal housing (11) has mounting rails (13) for rail-mounted mounting of the mounting housing inside the electrical box.