CN111432173A - Safety supervision and management system for building engineering - Google Patents

Abstract

The invention discloses a safety supervision and management system for constructional engineering, in particular to the field of constructional engineering, which comprises a supervision master station, the supervision central office is respectively in signal connection with the monitoring mechanism, the alarm prompting mechanism, the display mechanism, the sub-control circuit, the voice input module and the external control module, the power supply interface of the supervision center is electrically connected with the power supply equipment, the monitoring mechanism comprises a monitoring camera, a vibration sensor, a temperature detector, an air turbidity detector and elevator load detection, the monitoring mechanism designed by the invention transmits the signals shot and detected by the monitoring mechanism to the display mechanism through the monitoring master station, so that a user can know various safety states on a construction site in a monitoring machine room.

Description

Safety supervision and management system for building engineering

Technical Field

The invention relates to the field of constructional engineering, in particular to a safety supervision and management system for constructional engineering.

Background

The building engineering refers to an engineering entity formed by the construction of various building constructions and their auxiliary facilities and the installation of lines, pipelines and equipment matched with them. The house building is characterized by comprising a top cover, a beam column, a wall, a foundation and a project which can form an internal space and meet the requirements of people on production, living, study and public activities.

In the prior art, a plurality of safety problems which are difficult to avoid exist in the construction process of the building engineering, such as the problems of nonstandard operation of workers, falling objects, structural collapse, fire, air pollution and the like, the occurrence probability of the safety problems is very high before complete completion, the existing safety supervision and management system depends on manpower, safety is supervised and managed at one point by depending on human vision and judgment of the safety supervision and management system, manpower is consumed, a larger burden is brought to supervisors, and inconvenience is caused, so that the invention provides the building engineering safety supervision and management system to solve the problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a safety supervision and management system for construction engineering.

In order to achieve the purpose, the invention adopts the following technical scheme:

building engineering safety supervision management system, including the supervision master station, the supervision master station respectively with monitor mechanism, warning suggestion mechanism, display mechanism, branch control circuit, pronunciation input module and peripheral hardware control module between signal connection, the electricity is connected between the power supply interface of supervision master station and the power supply unit, monitor mechanism includes surveillance camera head, vibration sensor, temperature detector, air turbidity detector and elevator load detection, surveillance camera head, vibration sensor, temperature detector, air turbidity detector and elevator load detection respectively with the signal access end signal connection of supervision master station, warning suggestion mechanism includes speaker and audible-visual annunciator, speaker and audible-visual annunciator respectively with the signal output part signal connection of supervision master station, display mechanism includes load detection display, turbidity detection display, The load detection display, the turbidity detection display, the temperature detection display, the vibration detection display and the video display are respectively in signal connection with the signal output end of the supervision master station.

Preferably, a monitoring picture of the monitoring camera is put on a video display through a monitoring master station, and the monitoring camera is arranged on a monitoring and controlling point of a building; the detection signal of the vibration sensor is put on the vibration detection display through a supervision master station, and the vibration sensor is arranged on the side wall of the building and the ground one meter around the building; the detection signal of the temperature detector is put on a temperature detection display through a supervision master station, the temperature detector is an infrared thermometer, and a detection window of the temperature detector comprises the whole building; the detection signal of the air turbidity detector is put on a turbidity detection display through a supervision center, and the air turbidity detector is arranged on the ground in the building and three meters around the building; the detection signal of the elevator load detection is put on a load detection display through a supervision center, and the elevator load detection is connected to a load sensor of an elevator system.

Preferably, the loudspeaker is connected with an audio output interface end of a supervision center, and the loudspeaker is arranged in the building and five meters around the building; the audible and visual alarm is electrically connected with the supervision master station, and the audible and visual alarm is arranged in the building and at a position ten meters around the building.

Preferably, the output terminal of the sub-control circuit is in signal connection with an electric control switch of the construction site circuit system.

Preferably, the voice input module is electrically connected with an audio input end between the supervision central offices.

Preferably, the bidirectional signal connecting end of the supervision center is connected with the peripheral control module.

Preferably, the supervision center, the display mechanism, the voice input module and the peripheral control module are all arranged in the monitoring machine room.

Preferably, the number of the monitoring cameras is the same as that of the video displays, the number of the vibration sensors is the same as that of the vibration detection displays, the number of the temperature detectors is the same as that of the temperature detection displays, the number of the air turbidity detectors is the same as that of the turbidity detection displays, and the number of the elevator load detections is the same as that of the load detection displays.

Preferably, information conversion and transmission equipment matched with each monitoring device is arranged between each monitoring device in the monitoring mechanism and the supervision central office.

Preferably, the alarm prompting mechanism and the supervision center are connected in an alignment mode through an integrated conducting wire.

Preferably, the display mechanism is connected with the supervision center through a splitter.

The invention has the beneficial effects that:

1. the monitoring mechanism designed by the invention transmits the signals shot and detected by the monitoring mechanism to the display mechanism through the monitoring master station, so that a user can know various safety states on a construction site in a monitoring machine room;

2. in the supervision process, a user can input voice prompts or warnings by using the voice input module, and the supervision master station broadcasts voices through a loudspeaker of the alarm prompting mechanism, so that workers on a construction site can hear the prompts or warnings in time, time consumption and physical consumption of human information conduction are greatly reduced, the user can also adjust a display picture of the display mechanism by using the peripheral control module, and video monitoring is performed on the construction site more accurately;

3. in the supervision process, a user can control a branch control circuit connected with a supervision master station by utilizing a peripheral control module, so that the circuit with safety problems is broken in time, and a closed circuit can be recovered when hidden dangers are eliminated;

4. the vibration sensor designed by the invention can be used for carrying out vibration detection on a construction site, the design can be used for detecting accidents of large-amplitude vibration such as collapse, impact and the like, a supervisor can find problems in time, the temperature detector is used for carrying out large-range temperature monitoring on the construction site to avoid fire, the air turbidity detector can be used for detecting the concentration of floating dust in the air of the construction site, the supervisor can find large-range dust pollution in time, and the elevator load detector can be used for monitoring the load condition of an elevator.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a schematic diagram of the operation of the present invention.

Reference numbers in the figures: 1. a supervision headquarters; 2. a monitoring mechanism; 21. a surveillance camera; 22. a vibration sensor; 23. a temperature detector; 24. an air turbidity detector; 25. detecting the load of the elevator; 3. an alarm prompting mechanism; 31. a speaker; 32. an audible and visual alarm; 4. a display mechanism; 41. a load detection display; 42. a turbidity detection display; 43. a temperature detection display; 44. a vibration detection display; 45. a video display; 5. a power supply device; 6. a sub-control circuit; 7. a voice input module; 8. and a peripheral control module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, the building engineering safety supervision and management system comprises a supervision master station 1, the supervision master station 1 is respectively in signal connection with a monitoring mechanism 2, an alarm prompting mechanism 3, a display mechanism 4, a sub-control circuit 6, a voice input module 7 and an external control module 8, a power supply interface of the supervision master station 1 is electrically connected with a power supply device 5, the monitoring mechanism 2 comprises a monitoring camera 21, a vibration sensor 22, a temperature detector 23, an air turbidity detector 24 and an elevator load detector 25, the monitoring camera 21, the vibration sensor 22, the temperature detector 23, the air turbidity detector 24 and the elevator load detector 25 are respectively in signal connection with a signal access end of the supervision master station 1, the alarm prompting mechanism 3 comprises a loudspeaker 31 and an acousto-optic alarm 32, the loudspeaker 31 and the acousto-optic alarm 32 are respectively in signal connection with a signal output end of the supervision master station 1, the display mechanism 4 comprises a load detection display 41, a turbidity detection display 42, a temperature detection display 43, a vibration detection display 44 and a video display 45, wherein the load detection display 41, the turbidity detection display 42, the temperature detection display 43, the vibration detection display 44 and the video display 45 are respectively in signal connection with the signal output end of the supervision master station 1.

Wherein, the monitoring picture of the monitoring camera 21 is put on the video display 45 through the monitoring central office 1, the monitoring camera 21 is installed on the monitoring and controlling point of the building; the detection signal of the vibration sensor 22 is sent on the vibration detection display 44 through the supervision center 1, and the vibration sensor 22 is arranged on the side wall of the building and the ground one meter around the building; the detection signal of the temperature detector 23 is sent on the temperature detection display 43 through the supervision center 1, the temperature detector 23 is an infrared thermometer, and a detection window of the temperature detector comprises the whole building; the detection signal of the air turbidity detector 24 is projected on the turbidity detection display 42 through the supervision center 1, and the air turbidity detector 24 is installed on the ground in the building and three meters around the building; the detection signal of the elevator load detection 25 is sent to the load detection display 41 through the supervision center 1, and the elevator load detection 25 is connected to a load sensor of the elevator system.

The loudspeaker 31 is connected with an audio output interface end of the supervision switchboard 1, the loudspeaker 31 is arranged in the building and at five meters around the building, the design ensures that the probability of the situation that the loudspeaker is damaged due to falling objects can be avoided as much as possible in the using process of the loudspeaker, and the total amount of sound waves shielded by low-rise buildings when the sound is transmitted to the high-rise buildings by the building can be reduced by the radially transmitted sound when the sound is at a certain distance from the building, so that the total amount of the sound waves transmitted to the high-rise buildings is increased, and high-rise workers can also hear warning prompts; the audible and visual alarm 32 is electrically connected with the supervision switchboard 1, the audible and visual alarm 32 is arranged in the building and at a position ten meters around the building, the risk of hitting the building by a falling object is reduced, the probability that the light emitted by the audible and visual alarm irradiates the high-rise building is increased, and the operation efficiency is improved.

Wherein, the output terminal of the sub-control circuit 6 is in signal connection with the electric control switch of the building site circuit system, so that a user can directly control the building site circuit through the supervision master station 1.

The voice input module 7 is electrically connected with the audio input end between the supervision center 1, so that voice input of a user is facilitated, and the safety management efficiency is improved.

Wherein, be connected between the two-way signal connection end of supervision central office 1 and peripheral hardware control module 8 to the user utilizes peripheral hardware such as keyboard mouse to operate the supervision central office.

Wherein, supervision chief header 1, display mechanism 4, speech input module 7 and peripheral hardware control module 8 all set up in the control computer lab to the supervisor can in time see the testing result and control the adjustment, so that the user adjusts the supervision operation in the real time monitoring building site current situation.

The number of the monitoring cameras 21 is the same as that of the video displays 45, the number of the vibration sensors 22 is the same as that of the vibration detection displays 44, the number of the temperature detectors 23 is the same as that of the temperature detection displays 43, the number of the air turbidity detectors 24 is the same as that of the turbidity detection displays 42, and the number of the elevator load detectors 25 is the same as that of the load detection displays 41, so that the invention has clear management rules on the monitoring status quo of a construction site and reduces the probability of error occurrence.

The monitoring device in the monitoring mechanism 2 is provided with information conversion and transmission equipment matched with the monitoring devices between the monitoring devices and the monitoring center, and is used for rectifying and collecting monitored electronic signals, so that the signals transmitted to the monitoring center 1 are clear, the monitoring device is not easily influenced by factors such as external open circuit and damage, and the monitoring devices in the monitoring mechanism 2 can be directly mapped to the monitoring center 1 to facilitate timely processing by a user when being damaged.

Wherein, carry out counterpoint through integrated wire between alarm prompting mechanism 3 and the supervision total desk and be connected, reduce the quantity of wire, avoid appearing in disorder when the winding displacement to can very conveniently troubleshoot the trouble.

The display mechanism 4 is connected with the supervision center through the wire divider, so that a sufficient plug interface is provided for the display mechanism, the probability of disorder during wire arrangement is reduced, and a user can quickly troubleshoot faults.

The working principle is as follows: the monitoring mechanism 2 designed by the invention transmits the signals shot and detected by the monitoring mechanism to the display mechanism 4 through the monitoring master station, so that a user can know various safety states on a construction site in a monitoring machine room, in the monitoring process, the user can input voice prompt or warning by using the voice input module 7, the monitoring master station broadcasts voice through a loudspeaker of the alarm prompt mechanism 3, so that workers on the construction site can hear the prompt or warning in time, the time consumption and physical strength consumption of human information transmission are greatly reduced, in the monitoring process, the user can control the sub-control circuit 6 connected with the monitoring master station 1 by using the external control module 8, so as to open a circuit with safety problems in time, and can recover a closed circuit when hidden dangers are eliminated, and the user can also adjust the display picture of the display mechanism 4 by using the external control module 8, the construction site is monitored in a video mode more accurately;

the vibration sensor 22 designed by the invention can be used for detecting vibration of a construction site, the design can be used for detecting large-amplitude vibration accidents such as collapse, impact and the like, a supervisor can find problems in time, the temperature detector 23 is used for monitoring the temperature of the construction site in a large range to avoid fire, the air turbidity detector 24 can be used for detecting the concentration of floating dust in the air of the construction site, the supervisor can find dust pollution in a large range in time, and the elevator load detector 25 can be used for monitoring the load condition of an elevator.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The building engineering safety supervision and management system is characterized by comprising a supervision master station (1), wherein the supervision master station (1) is in signal connection with a monitoring mechanism (2), an alarm prompting mechanism (3), a display mechanism (4), a sub-control circuit (6), a voice input module (7) and an external control module (8) respectively, a power supply interface of the supervision master station (1) is electrically connected with a power supply device (5), the monitoring mechanism (2) comprises a monitoring camera (21), a vibration sensor (22), a temperature detector (23), an air turbidity detector (24) and an elevator load detector (25), the monitoring camera (21), the vibration sensor (22), the temperature detector (23), the air turbidity detector (24) and the elevator load detector (25) are in signal connection with a signal access end of the supervision master station (1) respectively, alarm prompt mechanism (3) are including speaker (31) and audible-visual annunciator (32), speaker (31) and audible-visual annunciator (32) respectively with the signal output part signal connection of supervision master station (1), display mechanism (4) are including load detection display (41), turbidity detection display (42), temperature detection display (43), vibration detection display (44) and video display (45), load detection display (41), turbidity detection display (42), temperature detection display (43), vibration detection display (44) and video display (45) respectively with the signal output part signal connection of supervision master station (1).

2. The safety supervision and management system for construction engineering according to claim 1, characterized in that the monitoring picture of the monitoring camera (21) is launched on the video display (45) through the supervision center (1), and the monitoring camera (21) is installed on the monitoring and deployment point of the building; the detection signal of the vibration sensor (22) is sent on a vibration detection display (44) through a supervision master station (1), and the vibration sensor (22) is arranged on the side wall of the building and the ground one meter around the building; the detection signal of the temperature detector (23) is put on a temperature detection display (43) through a supervision master station (1), the temperature detector (23) is an infrared thermometer, and a detection window of the temperature detector comprises the whole building; the detection signal of the air turbidity detector (24) is projected on a turbidity detection display (42) through a supervision center (1), and the air turbidity detector (24) is arranged on the ground in the building and three meters around the building; the detection signal of the elevator load detection (25) is sent to a load detection display (41) through a supervision center (1), and the elevator load detection (25) is connected to a load sensor of an elevator system.

3. The building engineering safety supervision and management system according to claim 1, characterized in that the speaker (31) is connected with the audio output interface end of the supervision center (1), and the speaker (31) is installed in and around the building at five meters; the audible and visual alarm (32) is electrically connected with the supervision master station (1), and the audible and visual alarm (32) is arranged in the building and at a position ten meters around the building.

4. The building engineering safety supervision and management system according to claim 1, characterized in that the output terminals of the sub-control circuit (6) are in signal connection with the electric control switches of the worksite circuit system.

5. The building engineering safety supervision and management system according to claim 1 is characterized in that the voice input module (7) is electrically connected with an audio input end between the supervision center (1).

6. The building engineering safety supervision and management system according to claim 1 is characterized in that a bidirectional signal connection end of the supervision center (1) is connected with a peripheral control module (8).

7. The building engineering safety supervision and management system according to claim 1, characterized in that the supervision center (1), the display mechanism (4), the voice input module (7) and the peripheral control module (8) are all arranged in a monitoring machine room.

8. The construction engineering safety supervision management system according to claim 1, characterized in that the number of monitoring cameras (21) is the same as the number of video displays (45), the number of vibration sensors (22) is the same as the number of vibration detection displays (44), the number of temperature detectors (23) is the same as the number of temperature detection displays (43), the number of air turbidity detectors (24) is the same as the number of turbidity detection displays (42), and the number of elevator load detections (25) is the same as the number of load detection displays (41).

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