CN210958585U - High-altitude parabolic monitoring system - Google Patents

Abstract

The utility model discloses a high altitude parabolic monitoring system, relate to thing networking and control technical field, this system includes monitoring server, ground warning module, singlechip and the ultrasonic detection module who links to each other with the singlechip, clock module, wireless transmitter and communication module, monitoring server passes through communication module and singlechip communication interaction, wireless transmitter connects ground warning module, ground warning module includes wireless receiver and warning lamp and the bee calling organ that links to each other with wireless receiver, ultrasonic detection module includes a plurality of ultrasonic sensor, ultrasonic sensor has multiple detection mounting means; the single chip microcomputer of the system monitors the occurrence position and the occurrence time of the high-altitude object throwing through the ultrasonic sensor and the clock module, transmits the occurrence position and the occurrence time to the monitoring server so as to trace the high-altitude object throwing person, and simultaneously reminds pedestrians beside a residential building to avoid high-altitude sundries in time through the warning lamp and the buzzer.

Description

High-altitude parabolic monitoring system

Technical Field

The utility model belongs to the technical field of the thing networking and control technique and specifically relates to a thing monitoring system is thrown in high altitude.

Background

In recent years, high-altitude throwing and falling accidents occur frequently, the high-altitude throwing is an uneventful behavior, the public safety of residents is seriously harmed while the environment is polluted, the social security is disturbed, once the high-altitude throwing injures the people, the specific position of a troublemaker is difficult to locate from numerous residents so as to investigate the responsibility, pedestrians on the ground cannot be reminded to avoid in time, and the high-altitude throwing safety accidents are frequently caused.

SUMMERY OF THE UTILITY MODEL

The system monitors the occurrence position and the occurrence time of the high-altitude object throwing through the Internet of things and the control technology thereof, and timely reminds pedestrians beside a residential building to avoid high-altitude sundries.

The technical scheme of the utility model as follows:

a high-altitude parabolic monitoring system comprises a monitoring server, a ground warning module, a single chip microcomputer, an ultrasonic detection module, a clock module, a wireless transmitter and a communication module, wherein the ultrasonic detection module, the clock module, the wireless transmitter and the communication module are connected with the single chip microcomputer; the ultrasonic detection module comprises a plurality of ultrasonic sensors, and the ultrasonic sensors are placed corresponding to windows of residential buildings; the ground warning module comprises a wireless receiver, a warning lamp and a buzzer, wherein the warning lamp and the buzzer are connected with the wireless receiver, the wireless receiver is connected with the wireless transmitter, and the ground warning module is placed at the bottom of a residential building.

Its further technical scheme does, and ultrasonic sensor places corresponding resident's building's window, includes: each ultrasonic sensor is respectively placed on the edge extending outwards from the top of a residential building with a row of windows, and is placed towards the ground, and each row of windows corresponds to one ultrasonic sensor.

The further technical scheme is that each ultrasonic sensor is respectively placed at the bottom of a residential building with a row of windows and is placed towards the top of the residential building, and each row of windows corresponds to one ultrasonic sensor.

The further technical scheme is that each ultrasonic sensor is respectively placed right above each window and is placed towards the ground.

The ultrasonic sensor is realized based on HC-SR04 model, the clock module is realized based on Raspberry Pi RTC model, the working frequency of the wireless transmitter and the wireless receiver is 433MHz, and the warning light is realized based on S100R-A model.

The utility model has the beneficial technical effects that:

the application discloses a high-altitude parabolic monitoring system, which is characterized in that an ultrasonic sensor is arranged on the edge extending outwards from the top of a resident building in a row with windows or near the bottom of the resident building in the row with windows or right above each window, when the ultrasonic sensor senses that sundries are blocked, a detection result is fed back to a single chip microcomputer, the single chip microcomputer records the occurrence place and the occurrence time through an ultrasonic sensor and a clock module and transmits the occurrence place and the occurrence time to a monitoring server through a communication module, meanwhile, a signal is sent to a ground warning module through a wireless transmitter, the ground warning module reminds ground pedestrians to notice a high-altitude parabolic object through a buzzer and a warning lamp, meanwhile, a certain warning effect is given to residents living in the high altitude, monitoring personnel can adjust the occurrence place and the occurrence time of the high-altitude parabolic object through the monitoring server, and can conveniently trace the high-altitude parabolic responsible person, the system disclosed by the application has multiple detection installation modes, and can remind pedestrians to pay attention to avoid sundries in time, so that personal and property safety is guaranteed.

Drawings

Fig. 1 is a schematic block diagram of a high altitude parabolic monitoring system provided by the present application.

Fig. 2 is a view of an installation position of an ultrasonic sensor according to an embodiment of the present application.

Fig. 3 is a view of an installation position of an ultrasonic sensor according to another embodiment of the present application.

Detailed Description

The following describes the embodiments of the present invention with reference to the accompanying drawings.

As shown in figure 1, the parabolic monitoring system in high altitude that this application discloses, this system is including the monitoring server, ground warning module 1, singlechip and the ultrasonic detection module who links to each other with the singlechip, the clock module, wireless transmitter and communication module, the monitoring server passes through communication module and singlechip communication interaction, ground warning module includes wireless receiver and the warning lamp and the bee calling organ that link to each other with wireless receiver, wireless receiver is connected to wireless transmitter, ground warning module places in resident's building bottom for in time remind the pedestrian to avoid high altitude debris. In the application, the clock module is realized based on a Raspberry Pi RTC model and is used for providing the occurrence time of the high altitude parabola for the single chip microcomputer. The operating frequency of the wireless transmitter and the wireless receiver is 433 MHz. The warning light is implemented based on model S100R-A. The communication module can adopt WIFI communication or wired communication, and the communication module, the singlechip and the monitoring server all adopt commercially available chips or modules, so that the circuit structure of the communication module is not described in detail in the application.

The ultrasonic detection module of this application includes a plurality of ultrasonic sensor 2, and ultrasonic sensor 2 realizes based on HC-SR04 model, and ultrasonic sensor 2 corresponds the window of resident's building and places, specifically includes three kinds of mounting means:

(1) each ultrasonic sensor 2 is placed on the edge extending outward from the top of a residential building having a row of windows 3, one for each row of windows, and is placed toward the ground, as shown in fig. 2.

(2) Each ultrasonic sensor is respectively placed at the bottom of a residential building with one row of windows and is placed towards the top of the residential building, and each row of windows corresponds to one ultrasonic sensor.

(3) Each ultrasonic sensor 2 is placed directly above each window 3, respectively, and is placed toward the ground, as shown in fig. 3.

The system disclosed by the application has the above three detection installation modes, and when the installation mode of (1) or (2) is adopted, the ultrasonic sensor senses the moment when sundries are blocked, and the occurrence place of the thrown sundries is calculated by an ultrasonic ranging principle. When the installation mode of (3) is adopted, the ultrasonic sensor senses the moment when sundries are blocked, and the single chip microcomputer acquires the position of the ultrasonic sensor with a detection value. No matter which kind of detection mounting means that adopts, when ultrasonic sensor has the measuring value, the clock module notes the emergence time of throwing out debris simultaneously, the singlechip passes through ultrasonic sensor and clock module and acquires the parabolic emergence place in high altitude and emergence time, and transmit for monitoring server through communication module, send a signal to ground warning module through wireless transmitter simultaneously, ground warning module reports to the police through bee calling organ and warning light and reminds ground pedestrian to notice the parabolic thing in high altitude, also give the certain warning effect of resident who lives in high altitude simultaneously, monitoring personnel transfer the parabolic emergence place in high altitude and emergence time through monitoring server, be convenient for follow-up traceing back the object person of responsibility in high altitude, the effectual personal property safety that has ensured.

What has been described above is only a preferred embodiment of the present application, and the present invention is not limited to the above embodiments. It is to be understood that other modifications and variations directly derivable or suggested by those skilled in the art without departing from the spirit and scope of the present invention are to be considered as included within the scope of the present invention.

Claims (5)

1. A high-altitude parabolic monitoring system is characterized by comprising a monitoring server, a ground warning module, a single chip microcomputer, an ultrasonic detection module, a clock module, a wireless transmitter and a communication module, wherein the ultrasonic detection module, the clock module, the wireless transmitter and the communication module are connected with the single chip microcomputer; the monitoring server is in communication interaction with the single chip microcomputer through the communication module; the ultrasonic detection module comprises a plurality of ultrasonic sensors, and the ultrasonic sensors are placed corresponding to windows of residential buildings; ground warning module include wireless receiver and with warning light and bee calling organ that wireless receiver links to each other, wireless transmitter connects wireless receiver, ground warning module places in resident building bottom.

2. The system of claim 1, wherein said ultrasonic sensor is placed in correspondence with a window of a residential building, comprising: each ultrasonic sensor is respectively placed on the edge extending outwards from the top of a residential building with a row of windows, and is placed towards the ground, and each row of windows corresponds to one ultrasonic sensor.

3. The system of claim 1, wherein said ultrasonic sensor is placed in correspondence with a window of a residential building, comprising: each ultrasonic sensor is respectively placed at the bottom of a residential building with a row of windows and is placed towards the top of the residential building, and each row of windows corresponds to one ultrasonic sensor.

4. The system of claim 1, wherein said ultrasonic sensor is placed in correspondence with a window of a residential building, comprising: each of the ultrasonic sensors is placed directly above each window, respectively, and is placed toward the ground.

5. The system of any one of claims 1 to 4, wherein the ultrasonic sensor is implemented based on model HC-SR04, the clock module is implemented based on model Raspberry Pi RTC, the operating frequency of the wireless transmitter and the wireless receiver is 433MHz, and the warning light is implemented based on model S100R-A.

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