Disclosure of Invention
The invention aims to solve the problems and provide a big data security monitoring management method and a big data security monitoring management system with an early warning processing function.
The invention realizes the purpose through the following technical scheme:
a big data security protection monitoring management method with an early warning processing function comprises the following steps:
s1, obtaining building space data and real-time video data of a building outer wall area, and obtaining the real-time space data of a moving object when the moving object is detected to appear in the real-time video of the building outer wall area;
s2, judging the moving direction of the moving object based on the real-time space data of the moving object;
when the moving object moves from the bottom of the building to the top of the building, marking the moving object as an invading object and sending an early warning signal to a control terminal;
when the moving object moves towards the bottom of the building, the position of a falling point of the moving object is calculated based on real-time space data of the moving object, a protection mechanism at a corresponding position on the building is controlled to be unfolded, and meanwhile, the moving object is marked as a falling object and an early warning signal is sent to a control terminal.
The utility model provides a big data security protection monitoring management system who possesses early warning processing function, is including laying a plurality of surveillance camera head at building outer wall top, connecting the portable range unit who is close to top position department on the building outer wall and locating the early warning protection mechanism who is close to bottom position department on the building outer wall, a plurality of surveillance camera head is used for acquireing building outer wall region real-time video data and detects whether there is moving object in the building outer wall region, portable range unit is used for acquireing the real-time spatial data of moving object in the building outer wall region.
As a further optimization scheme of the invention, the mobile distance measuring mechanism comprises a regulating component connected to the outer wall of the building, an annular track connected to the regulating component, a plurality of mobile power supply mechanisms connected to the annular track, a distance meter connected to the mobile power supply mechanisms and an auxiliary connecting mechanism;
regulation and control subassembly includes that a plurality of connects the T shape link on building wall, locates the drive assembly in one of them T shape link and locates the annular rotating assembly in the circular orbit, circular orbit and a plurality of the equal fixed connection of T shape link, drive assembly's output extends to in the circular orbit and is connected with the annular rotating assembly for drive annular rotating assembly rotates in the circular orbit, supplementary coupling mechanism's one end and the detachable connection of annular rotating assembly.
As a further optimization scheme of the invention, a first cavity is arranged in one of the T-shaped connecting frames, a sealing cover is detachably connected to an opening at the upper end of the first cavity, and the driving assembly is arranged in the first cavity;
the driving assembly comprises a supporting frame connected to the inner wall of the first cavity, a first motor installed on the supporting frame, a first bevel gear connected to the output shaft end of the first motor, a first shaft body penetrating through the first cavity and extending into the annular track, and a second bevel gear and a third bevel gear which are respectively connected to the two ends of the first shaft body, wherein the second bevel gear is meshed with the first bevel gear, and the third bevel gear is matched with the annular rotating assembly.
As a further optimization scheme of the invention, the annular track comprises an annular circular tube connected to the T-shaped connecting frame, an annular chute formed in the annular circular tube, an annular insulating strip connected to the inner wall of the annular circular tube, and a first conductive strip and a second conductive strip arranged on the annular insulating strip, wherein the first conductive strip and the second conductive strip are connected to an external power supply.
As a further optimization scheme of the invention, the annular rotating assembly comprises a plurality of second shaft bodies movably connected to the inner wall of the annular circular tube, chain wheels connected to the outer walls of the second shaft bodies, a third shaft body connected to the upper end of one of the second shaft bodies, a fourth bevel gear connected to the upper end of the third shaft body, and chains sleeved on the chain wheels, wherein the fourth bevel gear is meshed with the third bevel gear, and one end of the auxiliary connecting mechanism is detachably connected with the chains.
As a further optimized solution of the present invention, the mobile power supply mechanism includes a G-shaped carriage slidably connected to the annular circular tube, a first conductive member and a second conductive member connected to the G-shaped carriage, and a second chamber disposed on the G-shaped carriage, wherein the first conductive member and the second conductive member are respectively in contact with the first conductive bar and the second conductive bar.
As a further optimization scheme of the invention, the auxiliary connecting mechanism comprises a second motor arranged in the second chamber, a screw rod connected to an output shaft end of the second motor, a square moving rod penetrating through the second chamber, and an electric clamping jaw connected to one end of the square moving rod, wherein a screw hole matched with the screw rod is arranged on the square moving rod, and the electric clamping jaw is used for clamping a chain.
As a further optimization scheme of the invention, the early warning protection mechanism comprises a first protection plate connected to an outer wall of a building, a third chamber and a first accommodating groove which are arranged in the first protection plate, a third motor connected to the inner wall of the third chamber, a bobbin connected to an output shaft end of the third motor, a rope connected to the bobbin, a first T-shaped protection plate arranged in the first accommodating groove, a second accommodating groove arranged in the first T-shaped protection plate, a first spring connected between the first T-shaped protection plate and the inner wall of the first accommodating groove, a second T-shaped protection plate arranged in the second accommodating groove, a third accommodating groove arranged in the second T-shaped protection plate, a second spring connected between the second T-shaped protection plate and the inner wall of the second accommodating groove, a third T-shaped protection plate arranged in the third accommodating groove, a fourth accommodating groove arranged in the third T-shaped protection plate, a third spring connected between the third T-shaped protection plate and the inner wall of the third accommodating groove, a fourth T-shaped protection plate arranged in the fourth accommodating groove, and a fourth spring connected between the inner wall of the fourth T-shaped protection plate, one end of the rope penetrates through the first protection plate, the third chamber and the third T-shaped protection plate in sequence, and the third T-shaped protection plate, and the fourth T-shaped protection plate are fixedly connected with the third accommodating groove.
The invention has the beneficial effects that: the invention can monitor and early warn the building outer wall area, can acquire and judge data in real time when a thief climbs into a room along the wall, throws objects at high altitude or falls down from the building outer wall area, and performs corresponding early warning protection and warning, thereby greatly reducing the occurrence rate of property loss and accidents, and having higher safety.
Detailed Description
The present application will now be described in further detail with reference to the drawings, and it should be noted that the following detailed description is given for purposes of illustration only and should not be construed as limiting the scope of the present application, as these numerous insubstantial modifications and variations can be made by those skilled in the art based on the teachings of the present application.
Example 1
A big data security protection monitoring management method with an early warning processing function comprises the following steps:
s1, obtaining building space data and real-time video data of a building outer wall area, and obtaining the real-time space data of a moving object when the moving object is detected to appear in the real-time video of the building outer wall area;
s2, judging the moving direction of the moving object based on the real-time space data of the moving object;
when the moving object moves from the bottom of the building to the top of the building, marking the moving object as an invading object and sending an early warning signal to the control terminal;
when the moving object moves towards the bottom of the building, the position of a falling point of the moving object is calculated based on real-time space data of the moving object, the protection mechanism at the corresponding position on the building is controlled to be unfolded, and meanwhile, the moving object is marked as a falling object and an early warning signal is sent to the control terminal.
The building outer wall area can be monitored and early-warned, when thieves climb into a room along the wall, throw objects from high altitude or fall objects and the like in the building outer wall area, data acquisition and judgment can be carried out in real time, corresponding early-warning protection and warning are carried out, the occurrence rate of property loss and accidents can be greatly reduced, and the safety is higher.
As shown in fig. 1, a big data security protection monitoring management system who possesses early warning processing function, including laying a plurality of surveillance camera head 1 at building outer wall top, connect the portable distancing mechanism 2 that is close to top position department on the building outer wall and locate the early warning safeguard mechanism 3 that is close to bottom position department on the building outer wall, a plurality of surveillance camera head 1 is used for acquireing building outer wall region real-time video data and detects whether there is the moving object in building outer wall region, portable distancing mechanism 2 is arranged in acquireing the real-time spatial data of moving object in the building outer wall region.
It should be noted that, when the above method is executed, real-time video data at the corresponding building outer wall area is obtained in real time by the monitoring cameras 1 covering the whole building outer wall area through a plurality of shooting ranges, when the monitoring cameras 1 detect that a moving object signal appears at a certain area of the building outer wall, the distance measuring mechanism obtains the space data of the moving object appearing at the corresponding area by controlling the moving time, judges the moving direction of the moving object, judges that the moving object belongs to a thief or an overhead falling object according to the moving direction and performs corresponding early warning processing, specifically, the moving direction of the moving object is judged according to the space data and the building space data of the moving object, when the height data of the moving object is continuously increased, the moving object is determined to be a thief, and the building floor and a room number corresponding to the position of the moving object are positioned in real time by combining the building space data, and an early warning signal is sent to the control terminal, the early warning signal includes the position data determined to be the thief, wherein the control terminal includes mobile communication terminals of building police and security guard personnel, and the high-altitude dangerous position signal timely and the high-altitude security data of the moving object are capable of preventing the collision of the moving object, and the early warning data of the moving object from being directly decreasing, and preventing the damage of the moving object caused by the collision of the moving object, and the security protection of the moving object, and the moving object.
As shown in fig. 2, fig. 3 and fig. 4, the mobile distance measuring mechanism 2 includes a control assembly 21 connected to an outer wall of the building, an annular rail 22 connected to the control assembly 21, a plurality of mobile power supply mechanisms 23 connected to the annular rail 22, a distance meter 24 connected to the mobile power supply mechanisms 23, and an auxiliary connection mechanism 25;
regulation and control subassembly 21 includes that a plurality of connects the T link 2101 on building wall, locate the drive assembly in one of them T link 2101 and locate the annular runner assembly in annular track 22, annular track 22 and the equal fixed connection of a plurality of T link 2101, drive assembly's output extends to in the annular track 22 and is connected with annular runner assembly, be used for driving annular runner assembly and rotate in annular track 22, the one end and the detachable connection of annular runner assembly of supplementary coupling mechanism 25.
It should be noted that, as described above, when the monitoring camera 1 detects that a moving object appears in the building outer wall area, and the moving distance measuring mechanism 2 obtains spatial data of the corresponding moving object, specifically, the auxiliary connecting mechanism 25 connected to the moving power supply mechanism 23 closest to the corresponding monitoring camera 1 is controlled to be connected to the annular rotating component in the annular track 22, the driving component in the regulating and controlling component 21 drives the annular rotating component in the annular track 22 to move along the annular track 22 by a corresponding distance, and drives the corresponding distance measuring instrument 24 to move in the same direction and at the same distance until the distance measuring instrument 24 moves to the moving object and performs distance measurement on the moving object, specifically, in the moving process, when the distance data is detected to change, the distance measuring instrument 24 is located right above the moving object, and then the moving object is analyzed to belong to the thief or the high altitude through continuous distance measurement, and the warning operation as described above is performed;
wherein, the quantity of portable power supply mechanism 23 and distancer 24 is the multiunit, does not show completely in the picture, and a plurality of distancers 24 can be responsible for the data detection in corresponding region respectively, improve the emergent efficiency of early warning of system.
A first chamber 2102 is arranged in one T-shaped connecting frame 2101, a sealing cover 2103 is detachably connected to an opening at the upper end of the first chamber 2102, and a driving assembly is arranged in the first chamber 2102;
the driving assembly comprises a supporting frame 2104 connected to the inner wall of the first chamber 2102, a first motor 2105 mounted on the supporting frame 2104, a first bevel gear 2106 connected to an output shaft end of the first motor 2105, a first shaft 2108 penetrating the first chamber 2102 and extending into the annular track 22, a second bevel gear 2107 and a third bevel gear 2109 respectively connected to two ends of the first shaft 2108, wherein the second bevel gear 2107 is engaged with the first bevel gear 2106, and the third bevel gear 2109 is engaged with the annular rotating assembly.
It should be noted that, as described above, in the process of driving the corresponding distance meter 24 to move, the auxiliary connection mechanism 25 on the corresponding mobile power supply mechanism 23 is connected to the annular rotation component, and then the drive component drives the annular rotation component to rotate and drives the corresponding auxiliary connection mechanism 25 to move in the same direction and at the same distance, wherein when the drive component is in operation, the first motor 2105 drives the first bevel gear 2106 to rotate, the first bevel gear 2106 drives the second bevel gear 2107 engaged therewith to rotate after rotating, the second bevel gear 2107 drives the first shaft 2108 and the third bevel gear 2109 to rotate after rotating, and the third bevel gear 2109 drives the annular rotation component to rotate for a corresponding distance after rotating.
The annular track 22 comprises an annular circular tube 2201 connected to the T-shaped connecting frame 2101, an annular sliding groove 2205 formed in the annular circular tube 2201, an annular insulating strip 2202 connected to the inner wall of the annular circular tube 2201, and a first conductive strip 2203 and a second conductive strip 2204 arranged on the annular insulating strip 2202, wherein the first conductive strip 2203 and the second conductive strip 2204 are connected to an external power supply.
It should be noted that, when the annular rotating assembly rotates correspondingly, the auxiliary connecting mechanism 25 drives the corresponding mobile power supply mechanism 23 to move in the same direction and at the same distance, in this process, the mobile power supply mechanism 23 is always in contact with the first conductive strip 2203 and the second conductive strip 2204 arranged in the annular circular tube 2201, so that the power-on state can be always maintained in the moving process, and the auxiliary connecting mechanism 25 and the distance meter 24 therein can be powered.
The annular rotating assembly comprises a plurality of second shaft bodies 2110 movably connected to the inner wall of the annular circular tube 2201, chain wheels 2111 connected to the outer walls of the second shaft bodies 2110, third shaft bodies 2113 connected to the upper end of one of the second shaft bodies 2110, fourth bevel gears 2114 connected to the upper ends of the third shaft bodies 2113, and chains 2112 sleeved on the chain wheels 2111, wherein the fourth bevel gears 2114 are meshed with the third bevel gears 2109, and one end of the auxiliary connecting mechanism 25 is detachably connected with the chains 2112.
It should be noted that, as described above, after the third bevel gear 2109 rotates, the fourth bevel gear 2114 engaged with the third bevel gear is driven to rotate, the fourth bevel gear 2114 rotates to drive the third shaft 2113 and the second shaft 2110 to rotate, the second shaft 2110 rotates to drive the sprocket 2111 thereon to rotate, after the sprocket 2111 rotates, the driving chain 2112 moves in the circular tube 2201 by a corresponding distance, and drives the auxiliary connecting mechanism 25 connected thereto to move in the same direction and at the same distance.
The mobile power supply mechanism 23 includes a G-shaped carriage 2301 slidably connected to the circular tube 2201, a first conductive member and a second conductive member connected to the G-shaped carriage 2301, and a second chamber 2302 disposed on the G-shaped carriage 2301, wherein the first conductive member and the second conductive member are respectively in contact with the first conductive strip 2203 and the second conductive strip 2204.
It should be noted that when the movable power supply mechanism 23 moves along the chain 2112, the first conductive member and the second conductive member connected thereto are always in contact with the corresponding first conductive bar 2203 and second conductive bar 2204 during the movement, and are always kept in a power-on state, so as to supply power to the electric devices in the auxiliary connection mechanism 25 and the distance meter 24.
The auxiliary connection mechanism 25 includes a second motor 2501 disposed in the second chamber 2302, a screw 2502 connected to an output shaft end of the second motor 2501, a square moving rod 2503 penetrating through the second chamber 2302, and an electric clamping jaw 2504 connected to one end of the square moving rod 2503, wherein a screw hole matched with the screw 2502 is formed in the square moving rod 2503, and the electric clamping jaw 2504 is used for clamping the chain 2112.
It should be noted that, because the distance meters 24 are arranged in different numbers, when the corresponding distance meter 24 is controlled to move, the positions of the other distance meters 24 do not need to be adjusted, so when the corresponding distance meter 24 is adjusted to move, the corresponding auxiliary connecting mechanism 25 needs to be controlled to be connected with the chain 2112, specifically, when the corresponding distance meter 24 is adjusted to move, the second motor 2501 works and drives the screw 2502 to rotate, the screw 2502 rotates and then drives the square moving rod 2503 to move towards the position of the chain 2112 for a specified distance until the electric clamping jaw 2504 moves to a position where the electric clamping jaw can contact with the chain 2112, and then the chain 2112 is clamped by the electric clamping jaw 2504, at this time, the electric clamping jaw 2504 and the chain 2112 are in a connected state, and when the chain 2112 moves, the electric clamping jaw 2504 can be driven to move in the same direction and distance, and the corresponding mobile power supply mechanism 23 and the distance meter 24 can be driven to move in the same direction and distance.
As shown in fig. 5, the early warning protection mechanism 3 includes a first protection plate 301 connected to an outer wall of a building, a third chamber 302 and a first receiving groove 303 disposed in the first protection plate 301, a third motor 304 connected to an inner wall of the third chamber 302, a winding reel 305 connected to an output shaft end of the third motor 304, a rope 306 connected to the winding reel 305, a first T-shaped protection plate 307 disposed in the first receiving groove 303, a second receiving groove 309 disposed in the first T-shaped protection plate 307, a first spring 308 connected between the first T-shaped protection plate 307 and the inner wall of the first receiving groove 303, a second T-shaped protection plate 310 disposed in the second receiving groove 309, a third receiving groove 312 disposed in the second T-shaped protection plate 310, a second spring 311 connected between inner walls of the second T-shaped protection plate 310 and the second receiving groove 309, a third T-shaped protection plate 313 disposed in the third receiving groove 312, a fourth T-shaped protection plate 315 disposed in the third T-shaped receiving groove 313, a third spring 314 connected between inner walls of the third T-shaped protection plate 313 and the third receiving groove 312, a fourth T-shaped protection plate 315 connected between the third T-shaped protection plate 307 and the fourth T-shaped receiving groove 316, and a fourth T-shaped protection plate 316 fixed end of the third T-shaped protection plate 306 and a fourth T-shaped protection plate 316, which are sequentially connected between the third T-shaped protection plate 310.
It should be noted that, as described above, when it is determined that the moving object is a falling object or a falling object, the corresponding early warning protection mechanism 3 is controlled to be deployed, specifically, the third motor 304 in the corresponding first protection plate 301 is controlled to rotate, the rope 306 is gradually released, the rope 306 does not apply a pulling force to the fourth T-shaped protection plate 316 any more, at this time, the first spring 308, the second spring 311, the third spring 314, and the fourth spring 317 gradually rebound, and the corresponding first T-shaped protection plate 307, the second T-shaped protection plate 310, the third T-shaped protection plate 313, and the fourth T-shaped protection plate 316 are ejected until the early warning protection mechanism 3 is completely deployed, the protection range reaches the maximum, the moving object can be effectively prevented from directly falling to the ground to cause damage to pedestrians, animals, vehicles, and the like near the building, the early warning function of security monitoring is greatly improved, the third motor 304 is controlled to rotate reversely and drive the winding drum to rotate reversely 305 during retraction, the rope 306 is wound on the winding drum 305 again, and the fourth T-shaped protection plate 316, the third T-shaped protection plate 313, the second T-shaped protection plate 310, the first T-shaped protection plate 307 is gradually retracted to the first protection plate 303.
In the description of the present invention, it is to be understood that the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to imply that the number of technical features indicated are in fact significant. 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.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
In the present invention, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the second feature or the first and second features may be indirectly contacting each other through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.
Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.
The above examples are merely illustrative of several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.