CN111800608A

CN111800608A - Intelligent building monitoring system

Info

Publication number: CN111800608A
Application number: CN202010591617.0A
Authority: CN
Inventors: 李向甫; 吴伟祥
Original assignee: Wenzhou Botong Engineering Design Co ltd
Current assignee: Wenzhou Botong Engineering Design Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2020-10-20

Abstract

The invention belongs to the technical field of monitoring systems, and particularly relates to an intelligent building monitoring system which protects a building through a photoelectric sensor and a protection mechanism, wherein the protection mechanism comprises a sliding cavity, the inside of the sliding cavity is slidably connected with a protection plate capable of elastically deforming, the bottom end of the sliding cavity is provided with an arc-shaped extrusion plate, the bottom end of the protection plate is provided with an arc-shaped end, the top end of the protection plate is connected with a traction rod, the outer wall of the sliding cavity corresponding to the traction rod is provided with a sliding chute, the outer end of the traction rod is connected with a traction plate, and the top end of the middle part of the traction plate is provided with a pneumatic push rod; according to the intelligent building monitoring system, objects falling from a high place are automatically blocked and buffered through the protection mechanism in the intelligent building monitoring system, so that the damage or financial loss to a human body caused when the objects directly fall on the ground is reduced, and the intelligence and the safety of the intelligent building monitoring system in use are effectively improved.

Description

Intelligent building monitoring system

Technical Field

The invention belongs to the technical field of monitoring systems, and particularly relates to an intelligent building monitoring system.

Background

The video monitoring system is mainly used for the purpose of safety precaution, and is a video information system or a network which carries out video detection, video monitoring, control, image display, recording and playback on a monitored area; meanwhile, the system can perform macroscopic monitoring, control and synchronous video recording on dynamic conditions such as the situation, the people stream and the like of important parts in the building, and achieves the purposes of performing real-time evidence collection and rechecking on various abnormal conditions and timely processing.

The existing residential area often has the phenomenon of high-altitude falling objects when living, such as common wall skin falling, falling of living objects on a windowsill or artificial high-altitude object throwing, not only seriously affects the personal safety of the residential area, but also causes damage to floors of the residential area and objects placed on the ground under the direct impact of the falling objects, thereby causing certain financial loss, and after the high-altitude falling objects happen in the residential area, workers in the residential area cannot effectively deal with the high-altitude falling objects and track down the reasons of the high-altitude falling objects in the first time, thereby affecting the living safety and living experience of residents in the residential area.

In view of the above, the invention provides an intelligent building monitoring system, which can automatically block and buffer objects falling from a high place through a protection mechanism in the intelligent building monitoring system, so as to reduce the damage or financial loss to human bodies when the objects directly fall on the ground, thereby effectively improving the intelligence and safety of the intelligent building monitoring system in use.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the intelligent building monitoring system, which can be used for automatically blocking and buffering objects falling from a high place through a protection mechanism in the intelligent building monitoring system, so that the damage or financial loss to a human body caused by the objects directly falling on the ground is reduced, and the intelligence and the safety of the intelligent building monitoring system in use are effectively improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: an intelligent building monitoring system, the system adopts the form of local area network to transmit information; the intelligent building monitoring system comprises an induction module, a main control module and a monitoring module;

the induction module takes a photoelectric sensor as a carrier, and the photoelectric sensor is arranged at the end part of the bottom end of the building; the photoelectric sensor can sense an object falling from a top floor of the photoelectric sensor and transmit sensed information to the main control module;

the main control module is connected with the induction module and comprises a working unit and an alarm unit;

the working unit takes a group of protection mechanisms as a carrier, the protection mechanisms are connected side by side and are arranged on a building at the bottom end of the photoelectric sensor, and the protection mechanisms can receive information transmitted by the photoelectric sensor and work under the control of the information;

the alarm unit takes a buzzer as a carrier, and the buzzer can receive information transmitted by the photoelectric sensor and give an alarm under the control of the information;

the monitoring module comprises a monitoring unit and a cloud server, and the monitoring unit is connected with the cloud server;

the monitoring unit takes a camera arranged at the side end of the building as a carrier, and the camera can monitor objects falling on the building and transmit monitored information to the cloud server;

the cloud server can integrate, store and manage the information monitored by the monitoring unit;

when the intelligent building monitoring system works, when an object falls at a higher position of a building, the photoelectric sensor arranged at the bottom end of the building can sense the object falling at the position, and then the photoelectric sensor transmits the sensed signal to the protection mechanism and enables the protection mechanism to work, so that the protection mechanism in a working state can automatically receive the falling object and play a protection effect, and meanwhile, the photoelectric sensor can transmit the sensed signal to a community property and control a buzzer in the protection mechanism to give an alarm, thereby effectively reminding a worker to efficiently and timely treat the building with an accident; and the camera that sets up on building can shoot the record with the process that the object dropped to the video picture that will monitor transmits for the cloud ware and stores and handles, thereby makes things convenient for the staff of district to carry out the analysis and the judgement of accident through the shooting information of transferring in the cloud ware, thereby the reason of understanding the accident that can understand and reduce the emergence of this accident, has improved intelligent building monitored control system's intellectuality and validity when using greatly.

Wherein the protection mechanism comprises a sliding cavity arranged on the wall of the building, the upper end and the lower end of the sliding cavity are respectively provided with an opening end, the inside of the sliding cavity is connected with a protection plate which can generate elastic deformation and is made of stainless steel material in a sliding way, the opening end of the bottom end of the sliding cavity is provided with an arc-shaped extrusion plate, the bottom end of the extrusion plate is arranged to be horizontal, and one side of the extrusion plate is provided with a reinforcing block capable of fixing the shape of the extrusion plate, the bottom end of the protection plate is provided with an arc-shaped end matched with the upper surface of the extrusion plate, a group of traction rods are symmetrically connected on the side surface of the top end of the protection plate, sliding grooves matched with the traction rods are arranged on the outer wall of the corresponding sliding cavity, the outer end of the traction rod is connected with a traction plate, a pneumatic push rod is mounted on the building wall corresponding to the top end of the middle of the traction plate, and the bottom end of the pneumatic push rod is connected with the middle of the top surface of the traction plate; the protection mechanism is provided with a controller, and the controller is used for controlling the automatic operation of the protection mechanism; when the device works, in order to reduce the injury to pedestrians and the loss to financial resources caused by objects falling from high places of a building, a group of protection mechanisms connected side by side are arranged at the bottom end of the building, after the protection mechanisms receive signals transmitted by a photoelectric sensor, a controller controls a pneumatic push rod to drive a traction plate at the bottom end of the pneumatic push rod to move downwards, the traction plate can drive a protection plate to slide towards the bottom of a sliding cavity through a traction rod when moving downwards, the protection plate at the opening at the bottom end of the sliding cavity can elastically deform under the extrusion action of an extrusion plate when moving downwards, and meanwhile, the side surface of the protection plate which elastically deforms can be bent at the bottom end of the sliding cavity by setting the shape of the extrusion plate, so that the bottom end of the bent protection plate can protrude towards the direction far away from the sliding cavity and can accept the objects falling from the top of the sliding cavity, and the objects falling from the high places can be effectively blocked and, the damage or financial loss to the human body when the artificial leather directly falls on the ground is reduced; and after the object drops on the upper surface of the bent protection plate, the controller controls the pneumatic push rod to reset and drives the bent protection plate to be recovered into the sliding cavity, at the moment, the protection plate can be pushed to drop to the ground through the pushing of the bottom end of the sliding cavity in the recovery process, and in the process, workers monitor the accident site to avoid pedestrians walking at the bottom of the protection mechanism, so that the recovery of the dropped object and the continuity of the protection mechanism in working are facilitated, meanwhile, the protection plate is set to be elastic and can be recovered in the form of the inside of the sliding cavity, the rusting damage caused by the fact that the protection plate is exposed in the external environment for a long time is reduced, meanwhile, the influences caused by sunshine on the appearance of the building and residents at the bottom end of the building can also be reduced, and the using effect of the protection mechanism is greatly improved.

Preferably, the length which can be sensed by the photoelectric sensor along the width direction of the building is kept between 1.5 and 2m, the photoelectric sensor is arranged at a position of four layers on the building, and the protection mechanism is arranged at a position of two layers on the building; when the photoelectric sensor works, in order to further improve the using effect of the photoelectric sensor and the protection mechanism, the photoelectric sensor can sense objects falling from different positions of the building in a larger range by setting the sensing width of the photoelectric sensor during working; when the relative installation positions of the photoelectric sensor and the protection mechanism are close, the photoelectric sensor can transmit a signal of object falling to the protection mechanism, but the protection mechanism needs a certain time when receiving the signal and driving the protection plate to work, so that the object with higher speed falls on the ground when the protection plate does not work completely, and when the installation positions of the photoelectric sensor and the protection mechanism are higher, the photoelectric sensor and the protection mechanism can not block the object falling from the bottom floor and play a protection effect, at the moment, by setting the installation positions of the photoelectric sensor and the protection mechanism, the photoelectric sensor and the protection mechanism can not only act on the bottom floor more effectively, but also can drive the protection plate to move fully and support the falling object after receiving the signal by the protection mechanism, thereby greatly improving the use effect of the protection mechanism.

Preferably, the end part of the arc-shaped end of the protection plate is connected with a bending part capable of generating elastic deformation, and the free end of the bending part inclines to one side far away from the sliding cavity; the during operation, in order to improve the effect of accepting and collecting of protection plate to the object that drops, set up the kink through the arc end tip at the protection plate this moment, make the kink that sets up can shelter from the object that drops, reduce the object that drops and drop subaerial and to the injury that the pedestrian caused from its outer fringe after striking the protection plate, and incline to one side of keeping away from the sliding chamber through the free end that sets up the kink, make the cavity opening that kink and protection plate constitute bigger, thereby increased the accepting area of protection plate to the object that drops, further improved protection mechanism's result of use.

Preferably, the bottom end of the side wall of the sliding cavity corresponding to the arc-shaped end is provided with an arc-shaped extension plate, and the lower surface of the extension plate is attached to the upper surface of the arc-shaped end; during work, although the bent part can shield a falling object, the arrangement of the bent part also influences the pushing of the protection plate on the falling object when the protection plate slides into the sliding cavity and falls to the ground, at the moment, the arc-shaped extension plate is arranged at the bottom end of the side wall of the sliding cavity corresponding to the top end of the arc-shaped end, so that when the protection plate slides towards the inside of the sliding cavity along with the driving bent part, the arranged extension plate can apply pressure on the side wall of the moving bent part, and the bent part is gradually extruded into a horizontal shape under the action of the extension plate, so that the object at the top end of the protection plate falls; and the extension board that sets up can carry out more effective control and spacing with the deformation of extrusion board mutually supporting and to the guard plate in this department to further improvement protection machanism's result of use.

Preferably, the side surfaces of the sliding cavity corresponding to the length direction of the sliding cavity are provided with extension grooves, the side ends of the protection plate corresponding to the extension grooves are provided with extension parts extending out of the outer ends of the extension grooves, the outer edges of the top ends of the extension parts are provided with clamping grooves, clamping blocks are movably clamped in the clamping grooves, the end surfaces of the bottom ends of the clamping blocks are provided with matching grooves, the bottom ends of the clamping grooves are attached to the end surfaces of the top ends of the matching grooves, and the top ends of the clamping grooves are attached to the upper end surfaces of the clamping blocks; during operation, protect the building through setting up a set of protection machanism that meets side by side, make the single protection machanism that the volume is littleer process and installation more easily, simultaneously also can make more convenient change and maintenance when single protection machanism breaks down, and in order to improve the protection machanism that arranges the setting at the integrative nature and the validity of during operation, set up convex extension this moment through the side at the guard plate, and cooperate through the cooperation groove on the fixture block and the draw-in groove on the extension, the extension can act on adjacent extension through the fixture block when the motion this moment, make two extensions more have integrative nature and can the simultaneous movement under the fixture block effect, thereby improved protection machanism at during operation integrative nature and validity greatly.

Preferably, the width of the matching groove in the arrangement direction of the sliding cavities is twice of the width of the clamping groove; the during operation, for further improvement guard plate result of use after the cooperation, this moment through the width that sets up the cooperation groove for cooperation groove on the fixture block with the both sides on the extension behind the draw-in groove cooperation respectively, the tip of two adjacent extensions can effectual contact align, thereby make the guard plate of arranging the setting can be more complete, reduce between two adjacent extensions because of there being the not good problem of guard plate result in guard plate work effect in the clearance, thereby further improvement the result of use of guard plate after the cooperation.

The invention has the following beneficial effects:

1. according to the intelligent building monitoring system, objects falling from a high place are automatically blocked and buffered through the protection mechanism in the intelligent building monitoring system, so that the damage or financial loss to a human body caused when the objects directly fall on the ground is reduced, and the intelligence and the safety of the intelligent building monitoring system in use are effectively improved.

2. According to the invention, the bent part is arranged at the end part of the arc-shaped end of the protection plate, so that the falling object can be shielded by the bent part, the falling object is reduced from falling on the ground from the outer edge of the protection plate after impacting on the protection plate and causing injury to pedestrians, and the use effect of the protection mechanism is effectively improved.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a block diagram of an intelligent building monitoring system according to the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a front view of the shield mechanism of the present invention when connected;

FIG. 4 is a perspective view of a single guard mechanism of the present invention;

FIG. 5 is a perspective view of a single guard mechanism of the present invention in operation;

FIG. 6 is a perspective view of a single safety mechanism of the present invention during reset;

in the figure: the device comprises a photoelectric sensor 1, a protection mechanism 2, a sliding cavity 21, an extrusion plate 22, a sliding groove 23, a traction plate 24, a pneumatic push rod 25, an extension groove 26, a camera 3, a protection plate 4, an arc-shaped end 41, a traction rod 42, a bent part 43, an extension plate 44, an extension part 45, a clamping groove 46, a clamping block 5, a matching groove 51 and a reinforcing block 6.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the following embodiments.

As shown in fig. 1-6, the intelligent building monitoring system according to the present invention uses a local area network to transmit information; the intelligent building monitoring system comprises an induction module, a main control module and a monitoring module;

the induction module takes a photoelectric sensor 1 as a carrier, and the photoelectric sensor 1 is arranged at the bottom end part of the building; the photoelectric sensor 1 can sense an object falling from a top floor of the photoelectric sensor and transmit sensed information to the main control module;

the working unit takes a group of protection mechanisms 2 as a carrier, the protection mechanisms 2 are connected side by side and are arranged on a building at the bottom end of the photoelectric sensor 1, and the protection mechanisms 2 can receive information transmitted by the photoelectric sensor 1 and work under the control of the information;

the alarm unit takes a buzzer as a carrier, and the buzzer can receive information transmitted by the photoelectric sensor 1 and give an alarm under the control of the information;

the monitoring unit takes a camera 3 arranged at the side end of the building as a carrier, and the camera 3 can monitor objects falling on the building and transmit monitored information to the cloud server;

when the intelligent building monitoring system works, when an object falls at a higher position of a building, the photoelectric sensor 1 arranged at the bottom end of the building can sense the object falling at the position, and then the photoelectric sensor 1 transmits the sensed signal to the protection mechanism 2 and enables the protection mechanism to work, so that the protection mechanism 2 in a working state can automatically receive the falling object and play a protection effect, and meanwhile, the photoelectric sensor 1 can transmit the sensed signal to a community property and control a buzzer in the community property to give an alarm, thereby effectively reminding a worker to efficiently and timely process the building with an accident; and the camera 3 that sets up on building can shoot the record with the process that the object dropped to transmit the video picture that monitors for the cloud ware and store and handle, thereby make things convenient for the staff of district to carry out the analysis and the judgement of accident through the shooting information of transferring in the cloud ware, thereby the reason of understanding the accident that can understand and reduce the emergence of this accident, improved intelligent building monitored control system's intellectuality and validity when using greatly.

Wherein the protection mechanism 2 comprises a sliding cavity 21 installed on a building wall, open ends are respectively arranged at the upper end and the lower end of the sliding cavity 21, a protection plate 4 which can generate elastic deformation and is made of stainless steel materials is slidably connected inside the sliding cavity 21, an arc-shaped extrusion plate 22 is arranged at the open end at the bottom end of the sliding cavity 21, the bottom end of the extrusion plate 22 is arranged in a horizontal shape, a reinforcing block 6 which can fix the shape of the extrusion plate 22 is arranged at one side of the extrusion plate 22, an arc-shaped end 41 matched with the upper surface of the extrusion plate 22 is arranged at the bottom end of the protection plate 4, a group of traction rods 42 are symmetrically connected on the side surface at the top end of the protection plate 4, sliding grooves 23 matched with the traction rods 42 are respectively arranged on the outer wall of the sliding cavity 21 corresponding to the traction rods 42, the outer ends of the traction rods 42 are connected with a traction plate 24, a pneumatic push rod, the bottom end of the pneumatic push rod 25 is connected with the middle part of the top surface of the traction plate 24; the protection mechanism 2 is provided with a controller, and the controller is used for controlling the automatic operation of the protection mechanism 2; in order to reduce the injury of objects falling from high positions of the building to pedestrians and the loss of financial resources, the protecting mechanisms 2 connected side by side are arranged at the bottom end of the building, when the protecting mechanisms 2 receive signals transmitted by the photoelectric sensor 1, the controller controls the pneumatic push rod 25 to drive the traction plate 24 at the bottom end to move downwards, the traction plate 24 can drive the protection plate 4 to slide towards the bottom of the sliding cavity 21 through the traction rod 42 when moving downwards, the protection plate 4 at the opening at the bottom end of the sliding cavity 21 can elastically deform under the extrusion action of the extrusion plate 22 when moving downwards, and simultaneously, by setting the shape of the extrusion plate 22, the side surface of the protection plate 4 which elastically deforms can be bent at the bottom end of the sliding cavity 21, so that the bottom end of the bent protection plate 4 can protrude towards the direction far away from the sliding cavity 21 and can accept objects falling from the top of the protection plate, therefore, objects falling from a high place can be effectively blocked and buffered, and the damage or financial loss to a human body when the objects directly fall on the ground is reduced; and after the object falls on the upper surface of the bent protection plate 4, the controller controls the pneumatic push rod 25 to reset and drive the bent protection plate 4 to be recovered into the sliding cavity 21, at the moment, the protection plate 4 can push the object on the upper surface to fall onto the ground by pushing the bottom end of the sliding cavity 21 in the recovery process, in the process, the workers monitor the accident scene to prevent the pedestrians from walking at the bottom of the protection mechanism 2, the recovery of the falling objects is convenient, the continuity of the protection mechanism 2 in working is convenient, meanwhile, the protection plate 4 is arranged to be elastic and can be recovered in the slide cavity 21, so that the rusting damage caused by the long-term exposure of the protection plate 4 in the external environment is reduced, meanwhile, the influence of the sunlight on the appearance of the building and the sunshine of residents at the bottom of the building can be reduced, so that the using effect of the protection mechanism 2 is greatly improved.

As an embodiment of the invention, the length which can be sensed by the photoelectric sensor 1 along the width direction of the building is kept at 1.5-2m, and the photoelectric sensor 1 is arranged at the position of four layers on the building, and the protection mechanism 2 is arranged at the position of two layers on the building; when the photoelectric sensor works, in order to further improve the use effect of the photoelectric sensor 1 and the protection mechanism 2, the photoelectric sensor 1 can sense objects falling from different positions of the building in a wider range by setting the sensing width of the photoelectric sensor 1 during working; when the relative installation positions of the photoelectric sensor 1 and the protection mechanism 2 are relatively close, the photoelectric sensor 1 can transmit a signal of object falling to the protection mechanism 2, but the protection mechanism 2 needs a certain time when receiving the signal and driving the protection plate 4 to work, so that the object with higher speed falls on the ground when the protection plate 4 does not work completely, and when the installation positions of the photoelectric sensor 1 and the protection mechanism 2 are higher, the photoelectric sensor 1 and the protection mechanism 2 cannot block the object falling from the bottom floor and play a protection effect, at this time, by setting the installation positions of the photoelectric sensor 1 and the protection mechanism 2, the photoelectric sensor 1 and the protection mechanism 2 can not only act on the bottom floor more effectively, but also the protection mechanism 2 can drive the protection plate 4 to move sufficiently and support the falling object after receiving the signal, thereby greatly improving the use effect of the protection mechanism 2.

As an embodiment of the present invention, the end portion of the arc-shaped end 41 of the protection plate 4 is connected with a bending portion 43 capable of generating elastic deformation, and the free end of the bending portion 43 is inclined to the side far away from the sliding cavity 21; in operation, in order to improve the effect of accepting and collecting the object that drops of protection plate 4, set up kink 43 through the arc end 41 tip at protection plate 4 this moment, make the kink 43 that sets up shelter from the object that drops, reduce the object that drops and drop subaerial and to the injury that the pedestrian led to the fact from its outer fringe after striking protection plate 4, and incline to the one side of keeping away from sliding cavity 21 through the free end that sets up kink 43, make the cavity opening that kink 43 and protection plate 4 constitute bigger, thereby increased protection plate 4 to the area of accepting of the object that drops, further improved the result of use of protection mechanism 2.

As an embodiment of the present invention, an arc-shaped extension plate 44 is disposed at the bottom end of the side wall of the sliding cavity 21 corresponding to the arc-shaped end 41, and a lower surface of the extension plate 44 is attached to an upper surface of the arc-shaped end 41; during operation, although the bent portion 43 can shield a falling object, the arrangement of the bent portion 43 also affects the pushing of the protection plate 4 to the falling object when the protection plate slides into the sliding cavity 21 and falls to the ground, at this time, by arranging the arc-shaped extension plate 44 at the bottom end of the side wall of the sliding cavity 21 corresponding to the top end of the arc-shaped end 41, when the protection plate 4 slides towards the inside of the sliding cavity 21 with the bending portion 43 being driven, the arranged extension plate 44 can apply pressure to the side wall of the moving bent portion 43, so that the bent portion 43 is gradually pressed into a horizontal shape under the action of the extension plate 44 and the object at the top end of the protection plate 4 falls; and the extension plate 44 can be matched with the extrusion plate 22 and can more effectively control and limit the deformation of the protection plate 4 at the position, so that the using effect of the protection mechanism 2 is further improved.

As an embodiment of the present invention, the side surfaces of the sliding cavity 21 corresponding to the length direction thereof are all provided with an extending groove 26, the side ends of the protection plate 4 corresponding to the extending groove 26 are all provided with an extending portion 45 extending to the outer end of the extending groove 26, the outer edge of the top end of the extending portion 45 is provided with a clamping groove 46, the clamping groove 46 is movably clamped with the fixture block 5, the end surface of the bottom end of the fixture block 5 is provided with a matching groove 51, the bottom end of the clamping groove 46 is attached to the end surface of the top end of the matching groove 51, and the top end of the clamping groove 46 is attached to the upper end surface of the fixture block 5; during operation, protect the building through setting up a set of protection machanism 2 that meets side by side, make the single protection machanism 2 that the volume is littleer process and installation more easily, also can make more convenient change and maintenance when single protection machanism 2 breaks down simultaneously, and in order to improve the integrative nature and the validity of arranging protection machanism 2 that sets up at the during operation, set up convex extension 45 through the side at protection plate 4 this moment, and cooperate through cooperation groove 51 on the fixture block 5 and draw-in groove 46 on the extension 45, extension 45 can act on adjacent extension 45 through fixture block 5 when the motion this moment, make two extension 45 more have an organic whole nature and ability simultaneous movement under the effect of fixture block 5, thereby improved protection machanism 2 at the during operation an organic whole nature and validity greatly.

As an embodiment of the present invention, the width of the engagement groove 51 in the arrangement direction of the slide cavities 21 is twice the width of the catching groove 46; the during operation, in order to further improve the result of use of guard plate 4 after the cooperation, this moment through the width that sets up cooperation groove 51, make cooperation groove 51 on the fixture block 5 cooperate the back respectively with draw-in groove 46 on both sides extension 45, the tip of two adjacent extensions 45 can effectual contact align, thereby make the guard plate 4 of arranging the setting can be more complete, reduce because of there being the not good problem of 4 work effects of guard plate that lead to in the clearance between two adjacent extensions 45, thereby further improvement the result of use of guard plate 4 after the cooperation.

When the device works, when an object falls at a higher position of a building, the photoelectric sensor 1 arranged at the bottom end of the building can sense the object falling to the position, then the photoelectric sensor 1 transmits the sensed signal to the protection mechanism 2 and enables the protection mechanism to work, then the controller controls the pneumatic push rod 25 to drive the traction plate 24 at the bottom end of the pneumatic push rod to move downwards, at the moment, the traction plate 24 can drive the protection plate 4 to slide towards the bottom of the sliding cavity 21 through the traction rod 42 when moving downwards, at the moment, the protection plate 4 positioned at the opening at the bottom end of the sliding cavity 21 can elastically deform under the extrusion action of the extrusion plate 22 when moving downwards, and meanwhile, by setting the shape of the extrusion plate 22, the side surface of the protection plate 4 which elastically deforms can bend at the bottom end of the sliding cavity 21, so that the bottom end of the bent protection plate 4 can protrude towards the direction far away from the sliding cavity 21 and can accept the object falling from the top of the, therefore, objects falling from a high place can be effectively blocked and buffered, and the damage or financial loss to a human body when the objects directly fall on the ground is reduced; meanwhile, the photoelectric sensor 1 can also transmit a sensing signal to a residential property and control a buzzer in the residential property to give an alarm, so that workers are effectively reminded of efficiently and timely treating a building with an accident; and the camera 3 that sets up on building can shoot the record with the process that the object dropped to transmit the video picture that monitors for the cloud ware and store and handle, thereby make things convenient for the staff of district to carry out the analysis and the judgement of accident through the shooting information of transferring in the cloud ware, thereby the reason of understanding the accident that can understand and reduce the emergence of this accident, improved intelligent building monitored control system's intellectuality and validity when using greatly.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An intelligent building monitoring system, the system adopts the form of local area network to transmit information; the method is characterized in that: the intelligent building monitoring system comprises an induction module, a main control module and a monitoring module;

the induction module takes a photoelectric sensor (1) as a carrier, and the photoelectric sensor (1) is arranged at the end part of the bottom end of the building; the photoelectric sensor (1) can sense an object falling from a top floor and transmit sensed information to the main control module;

the working unit takes a group of protection mechanisms (2) as a carrier, the protection mechanisms (2) are connected side by side and are arranged on a building at the bottom end of the photoelectric sensor (1), and the protection mechanisms (2) can receive information transmitted by the photoelectric sensor (1) and work under the control of the information;

the alarm unit takes a buzzer as a carrier, and the buzzer can receive information transmitted by the photoelectric sensor (1) and give an alarm under the control of the information;

the monitoring unit takes a camera (3) arranged at the side end of the building as a carrier, and the camera (3) can monitor objects falling on the building and transmit monitored information to the cloud server;

wherein the protection mechanism (2) comprises a sliding cavity (21) arranged on the wall of the building, the upper end and the lower end of the sliding cavity (21) are respectively provided with an open end, the inside of the sliding cavity (21) is connected with a protection plate (4) in a sliding manner, the open end at the bottom end of the sliding cavity (21) is provided with a curved extrusion plate (22), the bottom end of the extrusion plate (22) is arranged in a horizontal manner, one side of the extrusion plate (22) is provided with a reinforcing block (6) capable of fixing the shape of the extrusion plate, the bottom end of the protection plate (4) is provided with a curved end (41) matched with the upper surface of the extrusion plate (22), the side surface at the top end of the protection plate (4) is symmetrically connected with a group of traction rods (42), the outer wall of the sliding cavity (21) corresponding to the traction rods (42) is provided with sliding chutes (23) matched with the traction rods, a pneumatic push rod (25) is arranged on the building wall corresponding to the top end of the middle part of the traction plate (24), and the bottom end of the pneumatic push rod (25) is connected with the middle part of the top surface of the traction plate (24); the protection mechanism (2) is provided with a controller, and the controller is used for controlling the automatic operation of the protection mechanism (2).

2. The intelligent building monitoring system of claim 1, wherein: the length which can be sensed by the photoelectric sensor (1) along the width direction of the building is kept between 1.5 and 2m, the photoelectric sensor (1) is arranged at the position of four layers on the building, and the protection mechanism (2) is arranged at the position of two layers on the building.

3. The intelligent building monitoring system of claim 1, wherein: the end part of the arc-shaped end (41) of the protection plate (4) is connected with a bending part (43) capable of generating elastic deformation, and the free end of the bending part (43) inclines to one side far away from the sliding cavity (21).

4. The intelligent building monitoring system of claim 3, wherein: the bottom end of the side wall of the sliding cavity (21) corresponding to the arc-shaped end (41) is provided with an arc-shaped extension plate (44), and the lower surface of the extension plate (44) is attached to the upper surface of the arc-shaped end (41).

5. The intelligent building monitoring system of claim 4, wherein: extension groove (26) have all been seted up on sliding chamber (21) along the side that its length direction corresponds, guard plate (4) all are provided with extension (45) that stretch out to extension groove (26) outer end with the corresponding side in extension groove (26), just the top outward flange of extension (45) all is provided with draw-in groove (46), the inside activity joint of draw-in groove (46) has fixture block (5), be provided with cooperation groove (51) on the bottom terminal surface of fixture block (5), the bottom of draw-in groove (46) is laminated with the top terminal surface in cooperation groove (51) mutually, the top of draw-in groove (46) is laminated with the up end of fixture block (5) mutually.

6. The intelligent building monitoring system of claim 5, wherein: the width of the matching groove (51) along the arrangement direction of the sliding cavities (21) is twice of the width of the clamping groove (46).