CN212060966U - Safety master control system - Google Patents

Abstract

The utility model discloses a safety total control system, safety total control system include safe power consumption electronic system, safe water consumption subsystem, safe power consumption subsystem, fire prevention subsystem, theftproof from system and control subsystem. Has the following characteristics: the safety electric subsystem comprises N electric equipment and N + N electric parameter detection control equipment, wherein the N electric parameter detection control equipment is electrically connected with the N electric equipment in a one-to-one mode, and the N electric parameter detection control equipment is arranged in a circuit connected with the electric equipment. The safe water using system comprises M water using terminals and M + M water quantity parameter detection control devices, wherein the M water quantity parameter detection control devices are installed at water inlets of the M water using terminals in a one-to-one mode, and the M water quantity parameter detection control devices are arranged in pipelines connected with the water using terminals. The control subsystem is respectively connected with the N + N electric parameter detection control devices and the M + M water quantity parameter detection control devices. The utility model is used for solve the single technical problem of current family's safety protection scheme.

Description

Safety master control system

Technical Field

The utility model relates to a technical field, in particular to safety master control system are always controlled to house.

Background

Electricity, water and gas are used as energy sources which are necessary and most frequently used in daily life, convenience is brought to daily life, but a plurality of safety problems are caused, and firstly, the problems of electric leakage, overload, overhigh line temperature and the like exist in household electricity. The household gas has the problems of looseness of a joint of a household gas pipeline, forgetting closing of a gas stove, fire of a water heater and the like, so that gas leakage is caused, and resource waste and casualties are caused due to untimely treatment. When the tap water is used by a family, the tap water can be closed in an emergency due to the fact that a water pipe is broken, the water pipe joint leaks or no person is in the family, resource waste is caused, and family decoration is damaged. In the aspect of fire prevention, the traditional household interior (except apartments) basically does not have fire detection equipment, and early warning cannot be achieved under the condition that smoke and small open fire exist. In the aspect of theft prevention, the intelligent visual doorbell and the camera monitoring are common in the market at present.

In the above safety protection scenes, separate devices are adopted to perform safety protection of electricity utilization, water utilization, gas utilization, fire prevention and burglary prevention, and the scheme is single.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a safety master control system aims at solving the single technical problem of current family's safety protection scheme.

In order to achieve the above object, the utility model provides a safety master control system, safety master control system includes:

the safety power utilization system comprises N pieces of electric equipment and N + N pieces of electric parameter detection control equipment, wherein the N pieces of electric parameter detection control equipment are electrically connected with the N pieces of electric equipment in a one-to-one mode, and the N pieces of electric parameter detection control equipment are arranged in a circuit connected with the electric equipment;

the electrical parameter detection control equipment is used for acquiring electrical parameters of the electric equipment and the circuit;

the safe water using system comprises M water using terminals and M + M water quantity parameter detection control devices, wherein the M water quantity parameter detection control devices are installed at the water inlets of the M water using terminals in a one-to-one mode, and the M water quantity parameter detection control devices are arranged in a pipeline connected with the water using terminals;

the water quantity parameter detection control equipment is used for acquiring water quantity parameters of the water using terminal and the pipeline;

the control subsystem is electrically connected with the N + N electric parameter detection control devices and the M + M water quantity parameter detection control devices respectively; and is used for outputting corresponding electric parameter detection control equipment and/or corresponding water quantity parameter detection control equipment to execute corresponding protection actions according to the N + N electric parameters and the M + M water quantity parameters;

m, N is not less than 1, and m and n are not less than 0.

Optionally, the control subsystem includes a control module, and the control module establishes signal communication with the peripheral control device wirelessly or by wire.

Optionally, the electrical parameter detection control device comprises one or more of an electrical fire detector, a smart air switch, a voltage sensor, a current sensor, a power sensor, a temperature sensor.

Optionally, the safety master control system further comprises a safety gas subsystem, which comprises a gas devices and a + a gas parameter detection control devices, wherein the a gas parameter detection control devices are installed at gas outlets of the gas devices in a one-to-one manner, and the a gas parameter detection control devices are arranged in gas paths connected with the gas devices;

the gas parameter detection control equipment is used for acquiring gas parameters of the gas parameter detection control equipment and gas parameters of a gas circuit;

the control subsystem is respectively and electrically connected with the A + a electric parameter detection control devices and is used for outputting corresponding control signals according to the A + a gas parameters to control the gas parameter detection control devices corresponding to the gas parameters to execute corresponding protection actions;

and/or;

the control subsystem is respectively and electrically connected with the A + a electrical parameter detection control devices and is used for outputting corresponding control signals according to the A + a gas parameters to control the gas parameter detection control devices corresponding to the gas parameters, the water quantity parameter detection control devices and/or the electrical parameter detection control devices to execute corresponding protection actions;

a is 1 or more and a is 0 or more.

Optionally, the safety master control system further comprises a fire prevention subsystem, wherein the fire prevention subsystem comprises B fire parameter detection control devices, and the B fire parameter detection control devices are installed in the occasions needing application;

the fire parameter detection control equipment is used for acquiring fire parameters;

the control subsystem is respectively electrically connected with the B electrical parameter detection control devices and is used for outputting corresponding control signals according to the B fire parameters to control the fire parameter detection control devices corresponding to the fire parameters to execute corresponding protection actions;

and/or;

the control subsystem is respectively and electrically connected with the B electrical parameter detection control devices and is used for outputting corresponding control signals according to the B fire parameters to control the fire parameter detection control devices corresponding to the fire parameters, the water quantity parameter detection control devices and/or the electrical parameter detection control devices to execute corresponding protection actions;

b is greater than or equal to 1.

Optionally, the fire parameter detection control device is one or more of a smoke detector, a temperature-sensitive detector and a smoke alarm.

Optionally, the safety master control system further comprises an anti-theft subsystem, wherein the anti-theft subsystem comprises D anti-theft devices installed in the occasions needing application;

the anti-theft equipment is used for acquiring face information and action information;

the control subsystem is electrically connected with the D electrical parameter detection control devices respectively and is used for displaying the face information and the action information;

d is greater than or equal to 1.

Optionally, the anti-theft device includes one or more of a camera, a smart cat eye, and an infrared human body detector.

Optionally, the safety master control system further comprises a health guarding subsystem, wherein the health guarding subsystem comprises G personal body parameter detection equipment;

the human body parameter detection equipment is used for detecting human body parameters;

the control subsystem is electrically connected with the G human body parameter detection devices respectively and is used for outputting the human body parameters;

g is greater than or equal to 1.

Optionally, the health guarding subsystem comprises one or more of a smart bracelet, a smart body sensor, and a temperature infrared probe.

The utility model discloses safe total control system includes safe power consumption electronic system, safe water consumption electronic system and control subsystem, wherein, electrical parameter detects controlgear and acquires the electrical parameter of consumer and circuit, the water yield parameter detects controlgear, is used for acquireing the water yield parameter of water consumption terminal and pipeline. And the control subsystem outputs corresponding electric parameter detection control equipment and/or corresponding water quantity parameter detection control equipment to execute corresponding protection actions according to the N + N electric parameters and the M + M water quantity parameters. Through above-mentioned technical scheme, the user not only can carry out the protection of power consumption and water simultaneously, can also carry out the multiple spot protection according to user's actual demand, can carry out unified monitoring management to indoor water supply pipeline, power consumption circuit simultaneously, and the management is high-efficient safety more, when the electrical apparatus takes place the short circuit or electric leakage trouble or water pipe bursts, can cut off corresponding fault point fast to the linkage cuts off the risk point of relevance. Thereby enriching the household safety protection function. The technical problem that the existing family safety protection scheme is single is solved. And the resource waste caused by pipeline or circuit problems is avoided, and the safety and the comfort of the household life of the user are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic block diagram of an embodiment of a safety master control system according to the present invention;

fig. 2 is a schematic block diagram of an embodiment of the safety master control system of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

In the following, the technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the drawings in the embodiments of the present invention, and if there is a description related to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is only used for descriptive purposes and is not to be interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

The utility model provides a safety master control system to solve the single problem of current family's safety protection scheme.

As shown in fig. 1, in one embodiment, the safety master control system includes a safety subsystem 20, a safety subsystem 30 and a control subsystem 10. The safety power utilization system 20 comprises N pieces of electric equipment and N + N pieces of electric parameter detection control equipment, wherein the N pieces of electric parameter detection control equipment are electrically connected with the N pieces of electric equipment in a one-to-one mode, and the N pieces of electric parameter detection control equipment are arranged in a circuit connected with the electric equipment. The safe water using subsystem 30 comprises M water using terminals and M + M water quantity parameter detection control devices, wherein M water quantity parameter detection control devices are installed at the water inlets of the M water using terminals in a one-to-one mode, M water quantity parameter detection control devices are arranged in pipelines connected with the water using terminals, and the control subsystem 10 is respectively electrically connected with N + N electric parameter detection control devices and M + M water quantity parameter detection control devices.

The electrical parameter detection control device obtains electrical parameters of the electric equipment and the circuit, and the electrical parameters at this time can be parameters of voltage, current, power and the like of the electric equipment, and can also include electrical parameters of voltage, current, power and the like of a power grid where the electric equipment is located. The water quantity parameter detection control equipment obtains the water quantity parameters of the water using terminal and the pipeline, and the water quantity parameters are generally statistics of water using quantity. The control subsystem 10 outputs corresponding electrical parameter detection control equipment and/or corresponding water quantity parameter detection control equipment to execute corresponding protection actions according to the N + N electrical parameters and the M + M water quantity parameters. At this time, the control subsystem 10 is provided with a corresponding safety threshold range corresponding to each of the electrical parameter detection control device and the water quantity parameter detection control device, and when the detected water quantity parameter or the electrical parameter exceeds the safety threshold range, the control subsystem 10 outputs a control signal representing cutoff to control the corresponding electrical parameter detection control device or the water quantity parameter detection control device to disconnect a water path connection or a circuit connection. It is worth noting that, because the control subsystem 10 at this moment is respectively electrically connected with N + N electrical parameter detection control devices and M + M water quantity parameter detection control devices, which indicates that each control process is independently performed, power utilization and water utilization protection can be simultaneously performed, multi-point protection can be performed according to the actual needs of users, unified monitoring management can be simultaneously performed on indoor tap water pipelines and power utilization circuits, the management is more efficient and safer, when an electrical appliance is in a short circuit or a leakage fault or a water pipe bursts, corresponding fault points can be quickly cut off, and associated risk points are cut off in a linkage manner. Thereby enriching the household safety protection function. The technical problem that the existing family safety protection scheme is single is solved. And the resource waste caused by pipeline or circuit problems is avoided, and the safety and the comfort of the household life of the user are improved. Note that M, N is equal to or greater than 1, and m and n are equal to or greater than 0 and 1.

In addition, in the above embodiment, when the short circuit or the leakage fault occurs to the electric appliance, the power supply circuit can be cut off rapidly in a very short time (within 150 microseconds), so that the occurrence of electric fire can be prevented, and the electric line can be protected.

The technical scheme can also be used for the following situations that the electric parameter detection control equipment is arranged at a household electrical box to monitor voltage, current, power, temperature and electric leakage, when dangerous power utilization behaviors (electric leakage, overload and over-temperature) occur, the electric parameter detection control equipment sends out audible and visual alarm, meanwhile, the power supply of the current electric parameter detection control equipment is automatically cut off, and power supply is automatically recovered after fault removal. When the electric parameter detection control device and the water quantity parameter detection control device are installed, the devices can be numbered according to addresses, for example, the kitchen electric parameter detection control device 1, the kitchen electric parameter detection control device 2 and the kitchen electric parameter detection control device 3, and when the detection data of the kitchen water quantity parameter detection control device exceeds a safety threshold range, the electric parameter detection control device in a kitchen area can be controlled to execute power-off protection. That is, for example, when water leakage in the kitchen area is found, the water quantity parameter detection control device disconnects the water path connection to execute protection, and simultaneously controls the kitchen electrical parameter detection control devices 1, 2, and 3 to automatically cut off the power supply in the kitchen area, thereby realizing power-off protection. Besides, some related risk points can be preset, and when the data of certain electrical parameter detection control equipment or water quantity parameter detection control equipment exceeds the safety threshold range, the electrical parameter detection control equipment or the water quantity parameter detection control equipment of the related risk points can be controlled to be disconnected from a water path or a circuit, so that better protection is realized.

Optionally, the water quantity parameter detection control device can be realized by a water flow meter electromagnetic valve, so that the functions of single-time water total amount monitoring, leakage-proof monitoring, micro-leakage monitoring, linkage monitoring (power leakage and water cut-off monitoring), remote control, sound-light alarm, test self-checking and the like can be realized. Wherein, remote control can be realized by selecting a water quantity sensor with a wireless or wired communication function.

In one embodiment, the control subsystem 10 includes a control module that establishes signal communication with a peripheral control device, either wirelessly or by wire.

The control module can be a common embedded control chip, a control chip with the functions of Bluetooth, wireless communication and the like, or a set of a plurality of control chips. The peripheral control equipment can be an intelligent terminal, a mobile phone, a panel, a television and other peripheral equipment, the household water, electricity, gas, fire and theft safety monitoring data and alarm data can be displayed on the peripheral control equipment, multi-path timely early warning is achieved, and when potential safety hazards are found, the control module outputs an alarm signal, so that the mobile phone, the panel and the television of the peripheral control equipment trigger prestored signal instructions, namely, the display of a screen is forced to pop up, and prevention and control guidance suggestions are given. According to the scheme, a multi-level data statistics reporting mechanism can be realized. On one hand, the control module can be connected with a property management platform, the property receives alarm information, and security personnel are arranged to go to the door for investigation, which is particularly important for families where no one is at home at ordinary times. On the other hand, the system can also be connected with government departments, provides reliable sources for basic data such as the total electrical quantity of domestic water, peak-valley consumption, the type of potential safety hazards, the number of alarms, the frequency and the like, and has important practical significance for urban planning construction, fire safety planning construction and promotion of the development of the whole social safety. In addition, based on the control chip with the functions of Bluetooth, wireless communication and the like, a user can remotely switch on and off, so that the system is more economical and safer, and can realize human-computer interaction.

In one embodiment, the electrical parameter detection control device may be an electrical fire detector or one or more of a smart air switch, a voltage sensor, a current sensor, a power sensor, and a temperature sensor.

Based on the sensor, the sensor is selected, and functions of safety detection, automatic alarm and the like of the electric equipment can be further realized. The functions of overvoltage protection, undervoltage protection, overload protection, leakage protection, short-circuit protection, grounding detection, line temperature control, sound and light alarm, remote alarm and the like can be realized.

In an embodiment, as shown in fig. 2, the safety master control system further includes a safety gas subsystem 40, which includes a gas appliances and a + a gas parameter detection control appliances, where a gas parameter detection control appliances are installed at the gas outlets of the gas appliances in a one-to-one manner, a gas parameter detection control appliances are installed in gas paths connected to the gas appliances, and the control subsystem 10 is electrically connected to a + a gas parameter detection control appliances.

And the gas parameter detection control equipment acquires the gas parameters of the gas parameter detection control equipment and the gas parameters of the gas circuit. At this time, the gas parameter is generally the gas output, and the control subsystem 10 outputs a corresponding control signal according to the a + a gas parameters to control the gas parameter detection control device corresponding to the gas parameter to execute a corresponding protection action. The control subsystem 10 is provided with a corresponding safety threshold range corresponding to each gas parameter detection control device, and when the detected gas parameter exceeds the safety threshold range, the control subsystem 10 outputs a control signal representing cut-off to control the corresponding gas parameter detection control device to be switched off. It should be noted that, at this time, the control subsystem 10 is electrically connected to a + a gas parameter detection control devices respectively, which means that each control process is performed independently, so that multi-point gas protection can be performed simultaneously, thereby enriching the home security protection function. The technical problem that the existing family safety protection scheme is single is solved. It is to be noted that A is 1 or more and a is 0 or more.

Based on the scheme, the linkage control of the electric part, the water channel and the branch channel can be realized, for example, the control subsystem can output corresponding control signals according to the A + a gas parameters to control the gas parameter detection control equipment corresponding to the gas parameters and the water quantity parameter detection control equipment to execute corresponding protection actions, some related risk points can be preset at the moment, and when the detected gas parameters exceed the safety threshold range, the electric parameter detection control equipment or the water quantity parameter detection control equipment of the related risk points can be controlled to disconnect the water channel connection or the circuit connection, so that other potential safety hazards of the related parts are cut off, and better protection is realized.

Optionally, the gas parameter detection control device is one or more of a combustible gas detector, a gas turn-off manipulator and an electromagnetic valve, and combustible gas detection, leakage protection, audible and visual alarm, on-off control and test self-checking can be realized through the sensor.

In one embodiment, the gas parameter detection control device is a combustible gas detector and an exhaust fan, and the exhaust fan can be started to exhaust when the detected gas parameter exceeds the safety threshold range.

In an embodiment, as shown in fig. 2, the safety master control system further includes a fire prevention subsystem 50, which includes B fire parameter detection control devices, where the B fire parameter detection control devices are installed in a place where application is required, and the control subsystem 10 is electrically connected to the B electrical parameter detection control devices, respectively.

The fire parameter detection control device acquires fire parameters, and the control subsystem 10 outputs corresponding control signals according to the number B of the fire parameters to control the fire parameter detection control device corresponding to the fire parameters to execute corresponding protection actions. The control subsystem 10 is provided with a corresponding safety threshold range corresponding to each fire parameter detection control device, and when the detected fire parameter exceeds the safety threshold range, the control subsystem 10 outputs a control signal representing cut-off to control the corresponding fire parameter detection control device to be switched off. It should be noted that, at this time, the control subsystem 10 is electrically connected to B fire parameter detection control devices, which means that each control process is performed independently, so that multi-point fire protection can be performed simultaneously, thereby enriching the home security protection function. The technical problem that the existing family safety protection scheme is single is solved. Notably, B is greater than or equal to 1.

In one embodiment, the fire parameter detection control device is a smoke detector, a temperature detector, or a smoke alarm. The functions of smoke detection, temperature detection, remote alarm, sound-light alarm and the like can be realized.

In an embodiment, as shown in fig. 2, the safety master control system further includes an anti-theft subsystem 60, where the anti-theft subsystem 60 includes D anti-theft devices installed in a place where the anti-theft devices are needed, and the control subsystem 10 is electrically connected to the D electrical parameter detection control devices, respectively.

The anti-theft equipment acquires face information and action information. The control subsystem 10 displays the face information and the motion information. It should be noted that, at this time, the control subsystem 10 is electrically connected to the D pieces of anti-theft devices respectively, which means that each control process is performed independently, so that the face information and the action information can be obtained simultaneously, and the anti-theft protection can be realized by combining the existing face recognition function and the infrared human body recognition function, thereby enriching the home security protection function. Notably, D is greater than or equal to 1.

In one embodiment, the anti-theft device comprises one or more of a camera, a smart cat eye and an infrared human body detector. In the anti-theft equipment, the functions of face recognition, infrared human body recognition, monitoring camera shooting, remote alarm and the like can be realized by selecting the anti-theft equipment with certain functions (such as remote communication and the like) and combining a face recognition technology.

In one embodiment, as shown in fig. 2, the safety master control system further comprises a health guarding subsystem 70, and the health guarding subsystem 70 comprises G personal parameter detection devices. The control subsystem 10 is electrically connected with the G human parameter detection devices respectively.

Wherein the human parameter detection device detects a human parameter. The control subsystem 10 outputs the human body parameters, and combines the action body recognition technology, so that the actions such as falling, collision and the like can be clearly judged, and an alarm signal can be output to timely and quickly inform children or hospitals to timely and quickly treat patients, thereby enriching the household safety protection function. Notably, G is greater than or equal to 1.

In one embodiment, the health care subsystem 70 includes one or more of a smart bracelet, a smart body sensor, a temperature infrared probe.

Through above-mentioned sensor, can also realize conventional functions such as location, rhythm of the heart monitoring, more conveniently contact old man and child.

Above only be the utility model discloses an optional embodiment to not consequently restrict the utility model discloses a patent range, all are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of description and drawing did, or direct/indirect application all is included in other relevant technical field the utility model discloses a patent protection within range.

Claims (10)

1. A safety master control system, characterized in that, the safety master control system includes:

the safety power utilization system comprises N pieces of electric equipment and N + N pieces of electric parameter detection control equipment, wherein the N pieces of electric parameter detection control equipment are electrically connected with the N pieces of electric equipment in a one-to-one mode, and the N pieces of electric parameter detection control equipment are arranged in a circuit connected with the electric equipment;

the electrical parameter detection control equipment is used for acquiring electrical parameters of the electric equipment and the circuit;

the safe water using system comprises M water using terminals and M + M water quantity parameter detection control devices, wherein the M water quantity parameter detection control devices are installed at the water inlets of the M water using terminals in a one-to-one mode, and the M water quantity parameter detection control devices are arranged in a pipeline connected with the water using terminals;

the water quantity parameter detection control equipment is used for acquiring water quantity parameters of the water using terminal and the pipeline;

the control subsystem is electrically connected with the N + N electric parameter detection control devices and the M + M water quantity parameter detection control devices respectively; and is used for outputting corresponding electric parameter detection control equipment and/or corresponding water quantity parameter detection control equipment to execute corresponding protection actions according to the N + N electric parameters and the M + M water quantity parameters;

m, N is not less than 1, and m and n are not less than 0.

2. A safety master control system according to claim 1, wherein the control subsystem includes a control module, the control module establishing signal communication with the peripheral control devices wirelessly or by wire.

3. A safety master system according to claim 1, wherein the electrical parameter sensing control devices include one or more of electrical fire detectors, smart air switches, voltage sensors, current sensors, power sensors, temperature sensors.

4. The safety master control system according to claim 1, further comprising a safety gas subsystem including a gas appliances and a + a gas parameter detection control appliances, wherein a of the gas parameter detection control appliances are installed at the gas outlets of the gas appliances one-to-one, and a of the gas parameter detection control appliances are installed in the gas path connected to the gas appliances;

the gas parameter detection control equipment is used for acquiring gas parameters of the gas parameter detection control equipment and gas parameters of a gas circuit;

the control subsystem is respectively and electrically connected with the A + a electric parameter detection control devices and is used for outputting corresponding control signals according to the A + a gas parameters to control the gas parameter detection control devices corresponding to the gas parameters to execute corresponding protection actions;

and/or;

the control subsystem is respectively and electrically connected with the A + a electrical parameter detection control devices and is used for outputting corresponding control signals according to the A + a gas parameters to control the gas parameter detection control devices corresponding to the gas parameters, the water quantity parameter detection control devices and/or the electrical parameter detection control devices to execute corresponding protection actions;

a is 1 or more and a is 0 or more.

5. The safety master control system according to claim 1, further comprising a fire prevention subsystem including B fire parameter detection control devices installed in the application required;

the fire parameter detection control equipment is used for acquiring fire parameters;

the control subsystem is respectively electrically connected with the B electrical parameter detection control devices and is used for outputting corresponding control signals according to the B fire parameters to control the fire parameter detection control devices corresponding to the fire parameters to execute corresponding protection actions;

and/or;

the control subsystem is respectively and electrically connected with the B electrical parameter detection control devices and is used for outputting corresponding control signals according to the B fire parameters to control the fire parameter detection control devices corresponding to the fire parameters, the water quantity parameter detection control devices and/or the electrical parameter detection control devices to execute corresponding protection actions;

b is greater than or equal to 1.

6. A safety master control system according to claim 5, wherein the fire parameter detection control device is one or more of a smoke detector, a temperature sensitive detector, and a smoke alarm.

7. The safety master control system according to claim 1, further comprising an anti-theft subsystem, wherein the anti-theft subsystem comprises D anti-theft devices installed in the application required;

the anti-theft equipment is used for acquiring face information and action information;

the control subsystem is electrically connected with the D electrical parameter detection control devices respectively and is used for displaying the face information and the action information;

d is greater than or equal to 1.

8. The safety master control system according to claim 7, wherein the anti-theft devices include one or more of a camera, a smart cat eye, an infrared human body detector.

9. The safety master control system according to any one of claims 1 to 8, characterized in that it further comprises a health care subsystem comprising G personal body parameter detection devices;

the human body parameter detection equipment is used for detecting human body parameters;

the control subsystem is electrically connected with the G human body parameter detection devices respectively and is used for outputting the human body parameters;

g is greater than or equal to 1.

10. A safety master control system according to claim 9, wherein the health care subsystem includes one or more of a smart bracelet, a smart body sensor, a temperature infrared probe.

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