CN116631105B - Intelligent residence electronic safety monitoring system and method based on big data - Google Patents

Abstract

The invention relates to a smart residence electronic safety monitoring system and method based on big data, which belong to the technical field of electric digital data processing and aim at the problem that a shielding plate arranged at a gate of a smart residence electronic safety monitoring system at the present stage cannot adapt to residents in each height interval and cannot guarantee the experience of residents in and out safely; through the cooperation scheme among the passing position capturing device, the height detection device, the telescopic rod adjusting device, the extension distance detection device, the manual calling device, the rust identification detection device, the loosening and inclination detection device and the shrinkage speed detection device, the shielding plate arranged at the gate can be adjusted in real time according to the heights of different people in and out, so that good experience of the passing people is ensured; and the real-time safety monitoring system in the adjusting process of the shielding plate is designed, so that the abnormal condition of the intelligent residence electronic safety monitoring system in the operation process can be ensured to be monitored in real time, and the rapid emergency treatment of related property management personnel is facilitated.

Description

Intelligent residence electronic safety monitoring system and method based on big data

Technical Field

The invention belongs to the technical field of electric digital data processing, and particularly relates to an intelligent residential electronic safety monitoring system and method based on big data.

Background

Most of the existing intelligent residence electronic safety monitoring systems adopt a big data intelligent recognition mode to control the gate entrance guard, and small residence residents can access the gate through a magnetic card brushing or face recognition mode. Access is relatively complex for extraneous personnel, such as takers or visiting friends. Foreign personnel generally need community resident personnel authentication, and can enter behind the entrance guard department record, and the process is comparatively loaded down with trivial details, and the security is inconvenient to guarantee. For these situations, the intelligent residence electronic safety monitoring system generally adopts a human body infrared sensor and a detection assembly to be matched with a singlechip intelligent system for overcoming, and the top of the gate is generally provided with a shielding plate (shown in fig. 1) in consideration of factors such as rainy days and anti-crossing.

However, in the smart home electronic safety monitoring system in the present stage, households (or friends of the households) with extremely high heights are not considered, and the shielding plate arranged at the gate cannot be suitable for the households (or friends of the households) in each height interval, even if the shielding plate is simply designed into a telescopic mode, the normal operation of the shielding plate cannot be ensured, namely the experience of the safety in and out of the residents cannot be ensured.

Therefore, at present, a smart home electronic security monitoring system and a smart home electronic security monitoring method based on big data are needed to solve the above problems.

Disclosure of Invention

The invention aims to provide a smart residence electronic safety monitoring system and a smart residence electronic safety monitoring method based on big data, which are used for solving the technical problems in the prior art, and the smart residence electronic safety monitoring system in the prior art does not consider households with extremely high heights, and a shielding plate arranged at a gate cannot adapt to households in each height section, and even if the shielding plate is simply designed into a telescopic mode, normal operation of the shielding plate cannot be ensured, namely the experience of safe ingress and egress of residents cannot be ensured.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the intelligent residence electronic safety monitoring system based on big data comprises an access control machine, wherein the top of the access control machine is connected to a shielding plate through a telescopic rod; the device also comprises a passing position capturing device, a height detecting device, a telescopic rod adjusting device, an extension distance detecting device, a manual calling device, a rust identification detecting device, a loosening and inclination detecting device, a contraction speed detecting device and a main control device; the main control device is respectively connected with the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device;

the passing position capturing device is used for capturing real-time position information of a target passing person;

the height detection device is used for detecting real-time height data of a target passing person according to the real-time position information and judging whether the real-time height data accords with preset height data or not;

the telescopic rod adjusting device is used for automatically lifting a shielding plate at the top of the access control machine by a distance through a telescopic rod according to the real-time height data, and recording the distance as a preset extension distance;

the extension distance detection device is used for detecting the real-time extension distance of extension of the telescopic rod;

the manual calling device is used for the manual service of the emergency call property management;

the rust identification and detection device is used for identifying and detecting whether rust exists on the extension part of the telescopic rod;

the loose inclination detection device is used for detecting whether the telescopic rod is loose inclined or not;

the shrinkage speed detection device is used for detecting whether the shrinkage speed of the telescopic rod is abnormal or not when the telescopic rod is shrunk;

the main control device is used for controlling the opening and closing of the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the shrinkage speed detecting device.

Further, the main control device controls the passing position capturing device and the height detecting device to be normally opened, and controls the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device to be normally closed;

when the height detection device judges that the real-time height data accords with preset height data, the main control device controls the telescopic rod adjusting device and the extension distance detection device to be started;

when the preset extension distance is not consistent with the real-time extension distance, the main control device controls the manual calling device, the rust identification detection device and the loosening and inclination detection device to be started;

when the loose tilt detection device detects that the telescopic rod does not have loose tilt and the loose tilt detection device detects that the telescopic rod does not have loose tilt, the main control device controls the shrinkage speed detection device to be started.

Further, the rust identification and detection device comprises a first controller, an image acquisition unit, a first memory and an environment brightness adjustment unit, wherein the first controller is respectively connected with the image acquisition unit, the first memory, the environment brightness adjustment unit and the main control device;

the image acquisition unit is used for acquiring real-time image data of the extension part of the telescopic rod;

the first memory is used for storing standard image data when the extension part of the telescopic rod is corroded;

the environment brightness adjusting unit is used for adjusting the environment brightness of the position of the extension part of the telescopic rod in real time, so that the environment brightness when the real-time image data are acquired is consistent with the environment brightness when the standard image data are acquired;

and the first controller compares and analyzes the real-time image data with the standard image data, and if the real-time image data and the standard image data are matched, the first controller feeds back rust to the extension part of the telescopic rod to the main control device.

Further, the loosening and tilting detection device comprises a second controller, an infrared sensor and a vibration sensor, wherein the second controller is respectively connected with the infrared sensor, the vibration sensor and the main control device;

the infrared sensor is used for detecting whether the extension part of the telescopic rod is inclined or not;

the vibration sensor is used for detecting whether the extension part of the telescopic rod vibrates abnormally during telescopic operation;

when the infrared sensor detects that the extending part of the telescopic rod is inclined, the second controller feeds back that the telescopic rod is inclined to the main control device;

when the vibration sensor detects that the extension part of the telescopic rod is abnormal in vibration during stretching, the second controller feeds back that the telescopic rod is loose to the main control device.

Further, the shrinkage speed detection device comprises a third controller, a speed sensor and a third memory, wherein the third controller is respectively connected with the speed sensor, the third memory and the main control device;

the speed sensor is used for detecting the real-time shrinkage speed of the telescopic rod when the telescopic rod is shrunk;

the third memory is used for storing the standard shrinkage speed when the telescopic rod is shrunk;

and the third controller compares and analyzes the real-time shrinkage speed with the standard shrinkage speed, and if the real-time shrinkage speed and the standard shrinkage speed are not matched, the third controller feeds back the shrinkage speed abnormality of the telescopic rod during shrinkage to the main control device.

Further, the device also comprises a height detection direction verification device, wherein the height detection direction verification device is connected with the main control device;

the height detection direction verification device is used for verifying whether the actual detection direction of the height detection device is correspondingly matched with the real-time position information or not;

the main control device controls the height detection direction verification device to be normally closed, and when the height detection device judges that the real-time height data does not accord with the preset height data, the main control device controls the height detection direction verification device to be started.

Further, the intelligent terminal comprises a wireless communication device and an intelligent terminal, and the main control device is connected with the intelligent terminal through the wireless communication device in a network mode.

The intelligent residence electronic safety monitoring system based on the big data is adopted for monitoring.

Compared with the prior art, the invention has the following beneficial effects:

one of the beneficial effects of the scheme is that the shielding plate arranged at the gate of the intelligent residence electronic safety monitoring system in the current stage cannot adapt to residents in each height interval, and the experience of the residents can not be guaranteed; through the cooperation scheme among the passing position capturing device, the height detection device, the telescopic rod adjusting device, the extension distance detection device, the manual calling device, the rust identification detection device, the loosening and inclination detection device and the shrinkage speed detection device, the shielding plate arranged at the gate can be adjusted in real time according to the heights of different people in and out, so that good experience of the passing people is ensured; and the real-time safety monitoring system in the adjusting process of the shielding plate is designed, so that the abnormal condition of the intelligent residence electronic safety monitoring system in the operation process can be ensured to be monitored in real time, and the rapid emergency treatment of related property management personnel is facilitated. The orderly coordination among the devices is started, so that the energy consumption of the system operation is the lowest; and, when monitoring that the entrance guard machine is adjusted and is operated abnormally, the first time tells property management personnel, can in time intervene the processing, simultaneously, carries out the accurate positioning to the unusual of entrance guard machine through rust discernment detection, not hard up slope detection, shrink speed detection, shortens follow-up emergency treatment's time to a great extent, realizes intelligent safety monitoring.

Drawings

Fig. 1 is a schematic diagram of the structure of an entrance guard machine of the intelligent residence electronic safety monitoring system in the present stage.

Fig. 2 is a schematic system configuration diagram of the embodiment.

Fig. 3 is a schematic diagram of the system operation principle of the embodiment.

Detailed Description

The following description of the embodiments of the present invention will be made more fully hereinafter with reference to the accompanying drawings, in which it is shown, however, that the embodiments shown are merely examples of the invention, and not all of them. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 2, a smart residence electronic safety monitoring system based on big data is provided, which comprises an access control machine, wherein the top of the access control machine is connected to a shielding plate through a telescopic rod; the device also comprises a passing position capturing device, a height detecting device, a telescopic rod adjusting device, an extension distance detecting device, a manual calling device, a rust identification detecting device, a loosening and inclination detecting device, a contraction speed detecting device and a main control device; the main control device is respectively connected with the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device;

the passing position capturing device is used for capturing real-time position information of a target passing person;

the height detection device is used for detecting real-time height data of a target passing person according to the real-time position information and judging whether the real-time height data accords with preset height data (height data of passing persons with higher height); the height detection device adjusts the detection direction of the height detection device according to the real-time position information, so that real-time height data of a target passing person are smoothly detected.

The telescopic rod adjusting device is used for automatically lifting a shielding plate at the top of the access control machine by a distance through a telescopic rod according to the real-time height data, and recording the distance as a preset extension distance; that is, different height data of passers corresponds to different lifting distances of the shielding plate, and the two are in corresponding matching relation.

The extension distance detection device is used for detecting the real-time extension distance of extension of the telescopic rod; whether the real-time extension distance is correspondingly matched with the preset extension distance or not is conveniently judged subsequently, so that whether the telescopic rod operates normally or not is judged.

The manual calling device is used for the manual service of the emergency call property management; if the telescopic rod is abnormal in operation, related management personnel are required to perform manual adjustment.

The rust identification and detection device is used for identifying and detecting whether rust exists on the extension part of the telescopic rod;

the loose inclination detection device is used for detecting whether the telescopic rod is loose inclined or not;

the shrinkage speed detection device is used for detecting whether the shrinkage speed of the telescopic rod is abnormal or not when the telescopic rod is shrunk;

the detailed information of abnormal operation of the telescopic rod can be judged through rust, loosening and inclination, shrinkage speed and the like, so that the related manager can react quickly.

The main control device is used for controlling the opening and closing of the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the shrinkage speed detecting device.

In the scheme, the problem that the shielding plate arranged at the gate of the intelligent residence electronic safety monitoring system in the current stage cannot adapt to residents in each height interval and cannot guarantee the experience of the residents in and out safely is solved; through the cooperation scheme among the passing position capturing device, the height detection device, the telescopic rod adjusting device, the extension distance detection device, the manual calling device, the rust identification detection device, the loosening and inclination detection device and the shrinkage speed detection device, the shielding plate arranged at the gate can be adjusted in real time according to the heights of different people in and out, so that good experience of the passing people is ensured; and the real-time safety monitoring system in the adjusting process of the shielding plate is designed, so that the abnormal condition of the intelligent residence electronic safety monitoring system in the operation process can be ensured to be monitored in real time, and the rapid emergency treatment of related property management personnel is facilitated.

Further, as shown in fig. 3, the main control device controls the passing position capturing device and the height detecting device to be normally opened, and controls the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device to be normally closed;

when the height detection device judges that the real-time height data accords with preset height data, the main control device controls the telescopic rod adjusting device and the extension distance detection device to be started; that is, the height of the target passing person is high, the shielding plate is required to be lifted by the telescopic rod, and the target passing person can conveniently go in and out smoothly.

When the preset extension distance is not consistent with the real-time extension distance, the main control device controls the manual calling device, the rust identification detection device and the loosening and inclination detection device to be started; namely, the operation abnormality of the telescopic rod is judged, and related management personnel are required to perform manual adjustment.

When the loose inclination detection device detects that the telescopic rod does not have loose inclination and the loose inclination detection device detects that the telescopic rod does not have loose inclination, the main control device controls the shrinkage speed detection device to be started; that is, when the telescopic rod is abnormal in operation, there is no obvious abnormality in the telescopic rod itself, and it is likely that the driving motor of the telescopic rod is failed, and therefore, indirect judgment is performed by the contraction speed.

In the scheme, the system can be operated with the lowest energy consumption by orderly matching and starting the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening inclination detecting device and the shrinkage speed detecting device; and, when monitoring that the entrance guard machine is adjusted and is operated abnormally, the first time tells property management personnel, can in time intervene the processing, simultaneously, carries out the accurate positioning to the unusual of entrance guard machine through rust discernment detection, not hard up slope detection, shrink speed detection, shortens follow-up emergency treatment's time to a great extent, realizes intelligent safety monitoring.

Further, the rust identification and detection device comprises a first controller, an image acquisition unit, a first memory and an environment brightness adjustment unit, wherein the first controller is respectively connected with the image acquisition unit, the first memory, the environment brightness adjustment unit and the main control device;

the image acquisition unit is used for acquiring real-time image data of the extension part of the telescopic rod;

the first memory is used for storing standard image data when the extension part of the telescopic rod is corroded (namely, various image data when the telescopic rod is corroded are stored in advance);

the environment brightness adjusting unit is used for adjusting the environment brightness of the position of the extension part of the telescopic rod in real time, so that the environment brightness when the real-time image data are acquired is consistent with the environment brightness when the standard image data are acquired;

and the first controller compares and analyzes the real-time image data with the standard image data, and if the real-time image data and the standard image data are matched, the first controller feeds back rust to the extension part of the telescopic rod to the main control device.

In the above-described scheme, considering that the ambient brightness at the time of collecting the standard image data is fixed, the ambient brightness at the time of collecting the real-time image data is varied; the above-mentioned drawbacks are thus overcome by the cooperation between the image acquisition unit, the first memory, the ambient brightness adjustment unit.

Further, the loosening and tilting detection device comprises a second controller, an infrared sensor and a vibration sensor, wherein the second controller is respectively connected with the infrared sensor, the vibration sensor and the main control device;

the infrared sensor is used for detecting whether the extension part of the telescopic rod is inclined or not;

the vibration sensor is used for detecting whether the extension part of the telescopic rod vibrates abnormally during telescopic operation;

when the infrared sensor detects that the extending part of the telescopic rod is inclined, the second controller feeds back that the telescopic rod is inclined to the main control device;

when the vibration sensor detects that the extension part of the telescopic rod is abnormal in vibration during stretching, the second controller feeds back that the telescopic rod is loose to the main control device.

In the scheme, the camera is required for direct front detection looseness and inclination, so that the cost of the camera is high; therefore, the infrared sensor and the vibration sensor are designed to indirectly detect inclination and looseness from the side face, and the hardware cost of the detection equipment can be reduced.

Further, the shrinkage speed detection device comprises a third controller, a speed sensor and a third memory, wherein the third controller is respectively connected with the speed sensor, the third memory and the main control device;

the speed sensor is used for detecting the real-time shrinkage speed of the telescopic rod when the telescopic rod is shrunk;

the third memory is used for storing the standard shrinkage speed when the telescopic rod is shrunk;

and the third controller compares and analyzes the real-time shrinkage speed with the standard shrinkage speed, and if the real-time shrinkage speed and the standard shrinkage speed are not matched, the third controller feeds back the shrinkage speed abnormality of the telescopic rod during shrinkage to the main control device.

Further, the device also comprises a height detection direction verification device, wherein the height detection direction verification device is connected with the main control device;

the height detection direction verification device is used for verifying whether the actual detection direction of the height detection device is correspondingly matched with the real-time position information or not;

the main control device controls the height detection direction verification device to be normally closed, and when the height detection device judges that the real-time height data does not accord with the preset height data, the main control device controls the height detection direction verification device to be started.

In the scheme, the height detection direction verification device is used as a verification link in the operation process of the monitoring system, so that the complete misoperation of a subsequent system caused by the operation abnormality of the initial operation link (height detection) of the system can be avoided.

Further, the intelligent terminal comprises a wireless communication device and an intelligent terminal, and the main control device is connected with the intelligent terminal through the wireless communication device in a network manner to realize remote data interaction.

The intelligent residence electronic safety monitoring system based on the big data is adopted for monitoring.

The above is a preferred embodiment of the present invention, and all changes made according to the technical solution of the present invention belong to the protection scope of the present invention when the generated functional effects do not exceed the scope of the technical solution of the present invention.

Claims (7)

1. The intelligent residence electronic safety monitoring system based on big data comprises an access control machine, wherein the top of the access control machine is connected to a shielding plate through a telescopic rod; the device is characterized by further comprising a passing position capturing device, a height detecting device, a telescopic rod adjusting device, an extension distance detecting device, a manual calling device, a rust identification detecting device, a loosening inclination detecting device, a shrinkage speed detecting device and a main control device; the main control device is respectively connected with the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device;

the passing position capturing device is used for capturing real-time position information of a target passing person;

the height detection device is used for detecting real-time height data of a target passing person according to the real-time position information and judging whether the real-time height data accords with preset height data or not;

the telescopic rod adjusting device is used for automatically lifting a shielding plate at the top of the access control machine by a distance through a telescopic rod according to the real-time height data, and recording the distance as a preset extension distance;

the extension distance detection device is used for detecting the real-time extension distance of extension of the telescopic rod;

the manual calling device is used for the manual service of the emergency call property management;

the rust identification and detection device is used for identifying and detecting whether rust exists on the extension part of the telescopic rod;

the loose inclination detection device is used for detecting whether the telescopic rod is loose inclined or not;

the shrinkage speed detection device is used for detecting whether the shrinkage speed of the telescopic rod is abnormal or not when the telescopic rod is shrunk;

the main control device is used for controlling the opening and closing of the passing position capturing device, the height detecting device, the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the shrinkage speed detecting device;

the main control device controls the passing position capturing device and the height detecting device to be normally opened, and controls the telescopic rod adjusting device, the extension distance detecting device, the manual calling device, the rust identification detecting device, the loosening and inclination detecting device and the contraction speed detecting device to be normally closed;

when the height detection device judges that the real-time height data accords with preset height data, the main control device controls the telescopic rod adjusting device and the extension distance detection device to be started;

when the preset extension distance is not consistent with the real-time extension distance, the main control device controls the manual calling device, the rust identification detection device and the loosening and inclination detection device to be started;

when the loose tilt detection device detects that the telescopic rod does not have loose tilt and the loose tilt detection device detects that the telescopic rod does not have loose tilt, the main control device controls the shrinkage speed detection device to be started.

2. The intelligent residential electronic safety monitoring system based on big data according to claim 1, wherein the rust identification and detection device comprises a first controller, an image acquisition unit, a first memory and an environment brightness adjustment unit, wherein the first controller is respectively connected with the image acquisition unit, the first memory, the environment brightness adjustment unit and a main control device;

the image acquisition unit is used for acquiring real-time image data of the extension part of the telescopic rod;

the first memory is used for storing standard image data when the extension part of the telescopic rod is corroded;

the environment brightness adjusting unit is used for adjusting the environment brightness of the position of the extension part of the telescopic rod in real time, so that the environment brightness when the real-time image data are acquired is consistent with the environment brightness when the standard image data are acquired;

and the first controller compares and analyzes the real-time image data with the standard image data, and if the real-time image data and the standard image data are matched, the first controller feeds back rust to the extension part of the telescopic rod to the main control device.

3. The intelligent residence electronic safety monitoring system based on big data according to claim 1, wherein the loosening and inclination detection device comprises a second controller, an infrared sensor and a vibration sensor, and the second controller is respectively connected with the infrared sensor, the vibration sensor and the main control device;

the infrared sensor is used for detecting whether the extension part of the telescopic rod is inclined or not;

the vibration sensor is used for detecting whether the extension part of the telescopic rod vibrates abnormally during telescopic operation;

when the infrared sensor detects that the extending part of the telescopic rod is inclined, the second controller feeds back that the telescopic rod is inclined to the main control device;

when the vibration sensor detects that the extension part of the telescopic rod is abnormal in vibration during stretching, the second controller feeds back that the telescopic rod is loose to the main control device.

4. The intelligent residential electronic safety monitoring system based on big data according to claim 1, wherein the shrinkage speed detection device comprises a third controller, a speed sensor and a third memory, and the third controller is respectively connected with the speed sensor, the third memory and the main control device;

the speed sensor is used for detecting the real-time shrinkage speed of the telescopic rod when the telescopic rod is shrunk;

the third memory is used for storing the standard shrinkage speed when the telescopic rod is shrunk;

and the third controller compares and analyzes the real-time shrinkage speed with the standard shrinkage speed, and if the real-time shrinkage speed and the standard shrinkage speed are not matched, the third controller feeds back the shrinkage speed abnormality of the telescopic rod during shrinkage to the main control device.

5. The intelligent residential electrical safety monitoring system based on big data as claimed in claim 1, further comprising a height detection direction verification device, wherein the height detection direction verification device is connected with the master control device;

the height detection direction verification device is used for verifying whether the actual detection direction of the height detection device is correspondingly matched with the real-time position information or not;

the main control device controls the height detection direction verification device to be normally closed, and when the height detection device judges that the real-time height data does not accord with the preset height data, the main control device controls the height detection direction verification device to be started.

6. The smart home electronic security monitoring system based on big data of any of claims 1-5, further comprising a wireless communication device and a smart terminal, wherein the master control device is in network connection with the smart terminal through the wireless communication device.

7. A smart home electronic security monitoring method based on big data, characterized in that the monitoring is performed by using a smart home electronic security monitoring system based on big data as claimed in any one of claims 1 to 6.