CN113923402A

CN113923402A - Wisdom building site multiple spot control management system based on cloud platform is controlled

Info

Publication number: CN113923402A
Application number: CN202111045538.0A
Authority: CN
Inventors: 王贵美; 薛阳; 王健; 王光辉; 王伟星
Original assignee: Pancheng Design Co ltd
Current assignee: Pancheng Design Co ltd
Priority date: 2021-09-07
Filing date: 2021-09-07
Publication date: 2022-01-11
Anticipated expiration: 2041-09-07
Also published as: CN113923402B

Abstract

The intelligent building site multipoint monitoring and management system based on the cloud deck control comprises lifting columns fixedly installed on two side edges of a building site gate, wherein the tops of the lifting columns on two sides are fixedly provided with a cross beam together, a sliding rail is fixed at one end of the cross beam, a containing box is arranged at the bottom of the sliding rail, the sliding rail can drive the containing box to move, and a cleaning box is fixed at the other end of the cross beam; the invention can carry out one-to-one monitoring management on the engineering truck in real time, can effectively monitor the normative of the operation of the engineering truck, does not need to switch the fixed monitoring in a construction site back and forth to search the engineering truck, greatly improves the convenience for the multipoint monitoring management of the engineering truck, and does not have the problem of monitoring dead angles.

Description

Wisdom building site multiple spot control management system based on cloud platform is controlled

Technical Field

The invention relates to the field of monitoring management systems, in particular to an intelligent construction site multipoint monitoring management system based on holder control.

Background

Along with the continuous development of building trade, the building site also constantly develops to wisdom management direction, can realize the better management to building site personnel and scene, and the use of camera can not be left in the management of wisdom building site. The existing intelligent construction site management mode generally manages personnel through a camera arranged at a gate, monitors the construction site through a plurality of cameras arranged in the construction site, can basically meet the monitoring management of the construction site, manages vehicles only through the cameras in the construction site, cannot effectively manage drivers, cannot monitor the driving state of the drivers, manages safety problems such as whether the drivers wear safety helmets when the drivers get off, inevitably has monitoring dead angles due to the complex environment in the construction site, cannot monitor each construction vehicle in real time, adopts a mode of fixed-point monitoring of a plurality of cameras, and greatly reduces the monitoring efficiency by monitoring whether the construction vehicles are cleaned to reduce dust before driving out of the construction site and observing the monitoring of a dust-reducing area for a long time, the management of the engineering vehicle is time-consuming and labor-consuming.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent construction site multipoint monitoring and management system based on holder control. The technical scheme is as follows:

the invention provides an intelligent building site multipoint monitoring and management system based on cloud deck control, which comprises lifting columns fixedly installed on two side edges of a building site gate, wherein the tops of the lifting columns on two sides are fixedly provided with a cross beam together;

a translation track is arranged at the bottom in the cross beam, a slidable horizontal moving block is arranged in the translation track, a first translation mechanism capable of driving the horizontal moving block to slide is further arranged in the translation track, the bottom of the horizontal moving block is rotatably connected with a transversely arranged telescopic rod, a cross plate is fixed at the telescopic end of the telescopic rod, clamping rods capable of sliding are arranged at two ends of the bottom of the cross plate, a second translation mechanism is arranged in the cross plate, and the second translation mechanism can drive the clamping rods at two sides to be close to and away from each other;

the storage box is internally provided with a storage cavity with an opening facing one side of the cross beam, first cavities on the same horizontal plane are arranged at the bottom of the storage cavity in a matrix manner, a circuit connecting assembly is arranged in each first cavity, a camera assembly is arranged at the bottom of the lifting column and just above each first cavity, the bottom of each camera assembly is fixedly provided with an electromagnet, the electromagnet can adsorb the circuit connecting assembly and insert into a slot at the bottom of the camera assembly to charge and read a local video of the camera assembly, and the clamping rod can clamp and take out any camera assembly stored in the storage cavity;

a cleaning assembly is arranged in the cleaning box and can clean the surface of the camera assembly and the bottom slot;

a wireless signal transmission module is arranged in the camera assembly and can remotely and wirelessly transmit the shot video;

the camera assembly is also internally provided with a voice module which can record surrounding sound, and the monitoring center can broadcast through the voice module;

the top of the cross beam is fixed with an identification camera which can identify the position and the shape of a vehicle.

Preferably, the first translation mechanism includes a first screw rod transversely disposed in the translation track, the first screw rod transversely penetrates through the horizontal moving block and is connected through threads, a first moving motor is fixed on one side in the translation track, one end of the first screw rod is in power connection with the first moving motor, and the other end of the first screw rod is in rotational connection with the inner wall of the translation track.

Preferably, the second translation mechanism comprises a second screw rod which is transversely and rotatably arranged in the transverse plate, the second screw rod simultaneously traverses the clamping rods at two sides and is connected through threads, a second translation motor for controlling the second screw rod to rotate is fixedly arranged in the transverse plate, and the thread direction of the second screw rod is opposite to that of the clamping rods at two sides in threaded connection.

Preferably, a rotation control motor for driving the telescopic rod to rotate is fixed in the horizontal moving block.

Preferably, the camera subassembly includes the base, the electro-magnet is provided with two and fixes respectively the both ends of base bottom, bottom just is two in the base the electro-magnet is equipped with two circular telegram chambeies, circular telegram chamber one side inner wall outwards is fixed with fixed conducting strip, the intracavity that circular telegram slides and is equipped with slip conducting strip, both sides fixed conducting strip passes through the wire with both sides respectively the electro-magnet is connected, both sides the slip conducting strip all is in with the setting power in the base passes through the wire and connects, the power sets up bottom just is located both sides in the base position between the electro-magnet, bottom just is located both sides in the base position department still is equipped with the memory between the electro-magnet, the memory is used for storing and shoots the video recording, the power with the slot has all been seted up to the memory bottom.

Preferably, the opening has been seted up jointly to the outer one side inner wall of circular telegram chamber with fixed conducting strip, both sides the bottom of clamp bar all is equipped with the inserted bar, slip conducting strip with be connected with first spring between the circular telegram intracavity wall, first spring makes through elasticity the slip conducting strip with slip conducting strip butt and circular telegram, and then will electric power transport extremely in the power in the electro-magnet makes the electro-magnet circular telegram produces magnetism, both sides the inserted bar can pass through both sides respectively the opening gets into in the circular telegram intracavity, the inserted bar with can promote when slip conducting strip offsets the slip conducting strip with fixed conducting strip breaks away from the butt, and then realizes the electro-magnet outage.

Preferably, one side of the top of the base is provided with an inclined plane, an L-shaped rod is rotatably arranged on the inclined plane and consists of two sections of parts which are perpendicular to each other, one section of the L-shaped rod is perpendicular to the inclined plane of the base, the other section of the L-shaped rod is parallel to the inclined plane of the base, a control motor is arranged in the inclined plane of the top of the base, the L-shaped rod is connected with one end, perpendicular to the inclined plane, of the control motor, the control motor drives the L-shaped rod to rotate with the vertical part of the inclined plane, the L-shaped rod and the parallel section of the inclined plane can be always parallel to the inclined plane, and a pan-tilt camera is fixed at one end of the parallel part of the L-shaped rod and the inclined plane.

Preferably, the circuit connecting assembly comprises a first sliding plate which is arranged in the first cavity and can slide up and down, iron sheets are fixed at two ends of the top of the first sliding plate, a charging plug and a data connector are fixed at the top of the first sliding plate, when the base is placed in the containing cavity, the iron sheets are right below the electromagnet and can be adsorbed by the electromagnet, the charging plug and the data connector respectively correspond to the power supply and the memory below, the charging plug can be inserted through a slot at the bottom of the power supply and charge the power supply, the data connector can be inserted through a slot below the first screw and is in data connection with the data connector, video stored in the data connector is read out and stored in a host connected with the system, and the memory is emptied at the same time, and a second spring is fixed between the bottom of the first sliding plate and the bottom wall of the first cavity and can provide power for downward moving and resetting of the first sliding plate.

Preferably, the cleaning assembly comprises a cleaning chamber arranged in the cleaning box and having an opening facing one side of the cross beam, a second cavity is arranged at the bottom of the cleaning chamber, a second sliding plate capable of sliding up and down is arranged in the second cavity, two wiping rods are fixed at the top of the second sliding plate and can be inserted into two slots at the bottom of the base, a metal rod is fixed on the second sliding plate and can be attracted by the electromagnet at the bottom of the base to drive the second sliding plate to ascend, a third spring is fixedly connected between the bottom of the second sliding plate and the bottom wall of the second cavity and provides power for the second sliding plate to reset, a ventilation cavity is arranged on the side edge and the bottom of the second sliding plate except for the second cavity, and an air hole is communicated between the ventilation cavity and the cleaning chamber, an air exhaust device is arranged in the cleaning box, an air outlet of the air exhaust device is communicated with the ventilation cavity through a pipeline, and an air inlet of the air exhaust device is communicated with the outside air.

In conclusion, the invention has the following beneficial effects:

1. the intelligent construction site multipoint monitoring management system can perform one-to-one monitoring management on the engineering vehicle in real time, can effectively monitor the normative of the operation of the engineering vehicle, does not need to switch fixed monitoring in a construction site back and forth to search the engineering vehicle, greatly improves the convenience of the multipoint monitoring management of the engineering vehicle, and does not have the problem of monitoring dead angles;

2. the camera assembly can automatically finish the placing and taking of the camera assembly on the top of the engineering truck when the engineering truck enters and exits a construction site, can automatically position according to the shapes of different types of engineering trucks and the positions and angles when the engineering truck parks, ensures the accuracy of placing and taking down the camera assembly at the position of the top of the vehicle, is very convenient to use, can switch in the direction of the tail of the vehicle and the direction of a cab, can effectively monitor and manage the engineering truck and a driver in real time, and monitors whether the driver has the problem of illegal driving;

3. the camera module can automatically clean the used camera, and then automatically put the cleaned camera module back into the storage box for charging and reading and emptying the monitoring video, so that the camera module can also perform stable monitoring shooting when being used next time, and the problems of unclear shooting due to dust, insufficient electric quantity and insufficient memory are avoided;

4. the camera assembly is stably installed on the top of the engineering truck in an electromagnet mode, is placed in the storage box and the cleaning box, can be adsorbed by the electromagnet to complete charging, data connection and cleaning and sealing work of the slot, and is stably fixed in the storage box and the cleaning box by magnetic force, so that the stability of the camera assembly during placement is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 2;

FIG. 4 is a schematic view of the embodiment of the present invention in the direction of C-C in FIG. 2;

FIG. 5 is an enlarged schematic view of the portion of the container of FIG. 1 in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 5;

FIG. 7 is a schematic diagram of a camera assembly according to an embodiment of the present invention;

FIG. 8 is a partial structural diagram of the first view angle of FIG. 2 according to the embodiment of the present invention;

FIG. 9 is a partial structural diagram of FIG. 2 from a second perspective in accordance with an embodiment of the present invention;

FIG. 10 is an enlarged schematic view of the portion of the cleaning tank of FIG. 1 in accordance with an embodiment of the present invention;

FIG. 11 is a schematic view of the embodiment of the present invention in the direction E-E of FIG. 10;

FIG. 12 is a state diagram of the camera assembly capturing the rear of the truck in the embodiment of the present invention;

fig. 13 is a state diagram of the camera assembly shooting the cab of the engineering truck in the embodiment of the invention.

Detailed Description

The intelligent building site multipoint monitoring and management system based on the cloud deck control is described by combining the attached drawings 1-13, and comprises lifting columns 11 fixedly installed on two side edges of a building site gate, wherein the tops of the lifting columns 11 on two sides are fixedly provided with a cross beam 12, one end of the cross beam 12 is fixedly provided with a slide rail 13, the bottom of the slide rail 13 is provided with a containing box 14, the slide rail 13 can drive the containing box 14 to move, and the other end of the cross beam 12 is fixedly provided with a cleaning box 15;

a translation track 16 is formed in the bottom of the cross beam 12, a slidable horizontal moving block 17 is arranged in the translation track 16, a first translation mechanism capable of driving the horizontal moving block 17 to slide is further arranged in the translation track 16, a transversely arranged telescopic rod 18 is rotatably connected to the bottom of the horizontal moving block 17, a transverse plate 19 is fixed at the telescopic end of the telescopic rod 18, slidable clamping rods 20 are arranged at two ends of the bottom of the transverse plate 19, a second translation mechanism is arranged in the transverse plate 19, and the second translation mechanism can drive the clamping rods 20 at two sides to approach and move away from each other;

the storage box 14 is internally provided with a storage cavity 21 with an opening facing one side of the cross beam 12, first cavities 22 on the same horizontal plane are arranged at the bottom of the storage cavity 21 in a matrix manner, a circuit connection assembly is arranged in each first cavity 22, a camera assembly is arranged at the bottom of the lifting column 11 and over each first cavity 22, an electromagnet 23 is fixedly arranged at the bottom of each camera assembly, the electromagnet 23 can adsorb the circuit connection assembly and insert the circuit connection assembly into a slot at the bottom of the camera assembly for charging and reading a local video of the camera assembly, and the clamping rod 20 can clamp and take out any camera assembly stored in the storage cavity 21;

a cleaning component is arranged in the cleaning box 15, and can clean the surface of the camera component and the slot at the bottom of the camera component, so that dust on a construction site is prevented from being accumulated on the camera component for a long time to influence shooting definition, and meanwhile, the dust is prevented from entering the slot to influence the stability of circuit connection;

still be equipped with voice module in the camera subassembly, voice module can record surrounding sound, and the surveillance center also can broadcast through voice module simultaneously.

Specifically, the lifting column 11 is close to the both sides of passing in and out door and all is equipped with the camera that is used for discerning the vehicle license plate, and 11 one side still is provided with and is used for hindering the current railing of vehicle.

Specifically, the first translation mechanism includes a first screw 24 transversely disposed in the translation track 16, the first screw 24 transversely penetrates through the horizontal moving block 17 and is connected through a thread, a first moving motor 25 is fixed on one side in the translation track 16, one end of the first screw 24 is in power connection with the first moving motor 25, and the other end of the first screw 24 is rotatably connected with the inner wall of the translation track 16.

Specifically, the second translation mechanism comprises a second screw rod 26 transversely and rotatably arranged in the transverse plate 19, the second screw rod 26 simultaneously traverses the clamping rods 20 at two sides and is connected through threads, and a second translation motor 27 for controlling the rotation of the second screw rod 26 is fixedly arranged in the transverse plate 19.

Specifically, the thread directions of the second screw 26 and the two clamping rods 20 in threaded connection are opposite, and further, when the second screw 26 rotates, the two clamping rods 20 on the two sides are controlled to approach and separate from each other through the two opposite spiral directions.

Specifically, a rotation control motor 28 for driving the telescopic rod 18 to rotate is fixed in the horizontal moving block 17.

Specifically, the camera assembly comprises a base 29, the electromagnets 23 are provided with two pieces and respectively fixed at two ends of the bottom of the base 29, two electrifying cavities 30 are arranged at the bottom in the base 29 and opposite to the two electromagnets 23, a fixed conducting strip 31 is fixed on the inner wall of the outward side of the electrifying cavity 30, a sliding conducting strip 32 is arranged in the electrifying cavity 30 in a sliding way, the fixed conducting strips 31 at two sides are respectively connected with the electromagnets 23 at two sides through leads, the sliding conducting strips 32 at two sides are both connected with a power supply 33 arranged in the base 29 through leads, the power supply 33 is arranged at the bottom in the base 29 and is positioned between the electromagnets 23 at two sides, a memory 34 is also arranged at the bottom in the base 29 and at the position between the electromagnets 23 at the two sides, the memory 34 is used for storing the shooting videos, and slots are formed in the bottoms of the power supply 33 and the memory 34.

Specifically, the opening 35 has been seted up jointly to circular telegram chamber 30 outside one side inner wall with fixed conducting strip 31, both sides the bottom of clamping bar 20 all is equipped with inserted bar 36, slide conducting strip 32 with be connected with first spring 37 between the circular telegram chamber 30 inner wall, first spring 37 makes through elasticity slide conducting strip 32 with slide conducting strip 32 butt and circular telegram, and then will electric power transport extremely in the power 33 in the electro-magnet 23, make the electro-magnet 23 circular telegram produces magnetism, both sides inserted bar 36 can be respectively through both sides opening 35 gets into in the circular telegram chamber 30, inserted bar 36 with can promote when sliding conducting strip 32 offsets slide conducting strip 32 with fixed conducting strip 31 breaks away from the butt, and then realizes the electro-magnet 23 cuts off the power supply.

Specifically, the insertion rod 36 is made of an insulating material.

Specifically, base 29 top one side sets up to the inclined plane of slope, rotates on the inclined plane and is provided with L shape pole 38, L shape pole 38 comprises two sections looks vertically part, one of them section perpendicular to the inclined plane of base 29, another section then with the inclined plane of base 29 keeps parallel, be provided with control motor 39 in the inclined plane of base 29 top, L shape pole 38 with the perpendicular one end in inclined plane with control motor 39 is connected control motor 39 drives L shape pole 38 and the pivoted in-process of inclined plane vertical part, L shape pole 38 can keep parallel with the inclined plane parallel section all the time, L shape pole 38 and inclined plane keep parallel part one end fixed with cloud platform camera 40.

Specifically, the circuit connection assembly includes a first sliding plate 41 which is arranged in the first cavity 22 and can slide up and down, iron sheets 42 are fixed at both ends of the top of the first sliding plate 41, a charging plug 43 and a data connector 44 are further fixed at the top of the first sliding plate, when the base 29 is placed in the accommodating cavity 21, the iron sheets 42 are right below the electromagnet 23 and can be adsorbed by the electromagnet 23, the charging plug 43 and the data connector 44 respectively correspond to the power supply 33 and the memory 34, the charging plug 43 can be inserted through a slot at the bottom of the power supply 33 and charge the power supply 33, the data connector 44 can be inserted through a slot at the lower part of the first screw 24 and is in data connection with the data connector 44, and video stored in the data connector 44 is read out and stored in a host connected with the system, and meanwhile, the reservoir 34 is emptied, a second spring 45 is fixed between the bottom of the first sliding plate 41 and the bottom wall of the first cavity 22, and the second spring 45 can provide power for downward movement and resetting of the first sliding plate 41.

Specifically, the cleaning assembly includes a cleaning chamber 46 disposed in the cleaning box 15 and having an opening facing one side of the cross beam 12, a second cavity 47 is disposed at the bottom of the cleaning chamber 46, a second sliding plate 48 capable of sliding up and down is disposed in the second cavity 47, two wiping rods 49 are fixed at the top of the second sliding plate 48, the wiping rods 49 can be inserted into two slots at the bottom of the base 29 to seal the slots while wiping and cleaning the slots, so as to prevent dust generated during cleaning the outside of the base 29 from entering the slots, a metal rod 50 is further fixed on the second sliding plate 48, the metal rod 50 can be attracted by the electromagnet 23 at the bottom of the base 29 to drive the second sliding plate 48 to ascend, and a third spring 51 is fixedly connected between the bottom of the second sliding plate 48 and the bottom wall of the second cavity 47, the third spring 51 provides power for the second sliding plate 48 to return, a vent cavity 52 is formed on the side and bottom of the second sliding plate 48 except the second cavity 47, and an air hole 53 is communicated between the vent cavity 52 and the cleaning chamber 46.

Specifically, an air suction device 54 is arranged in the cleaning box 15, an air outlet of the air suction device 54 is communicated with the ventilation cavity 52 through a pipeline 56, and an air inlet of the air suction device 54 is communicated with the outside air.

Specifically, an identification camera 55 is fixed to the top of the cross beam 12, and the identification camera 55 can identify the position and the shape of the vehicle.

The use method of the invention comprises the following steps:

in an initial state, the base 29 is stored in the storage cavity 21 and directly faces the upper side of the first cavity 22, the sliding conducting strip 32 abuts against the fixed conducting strip 31 under the elastic force of the first spring 37, the electromagnet 23 is in a powered-on state and has magnetism, the electromagnet 23 adsorbs the iron sheet 42 in the first cavity 22 directly below through magnetism, the base 29 is further fixed, meanwhile, the first sliding plate 41 is driven to be located at an upper limit position, at the moment, the second spring 45 is in a tensioned state, the charging plug 43 and the data connector 44 are respectively inserted into the slots at the bottoms of the power supply 33 and the memory 34, and when charging is carried out, the second sliding plate 48 is located at a lower limit position.

When a vehicle enters the entrance side of a gate of a construction site, the number plate of the vehicle is identified through a license plate identification camera, when the vehicle is detected to be a recorded vehicle and a engineering vehicle, the rotation control motor 28 is controlled and the telescopic rod 18 is driven to rotate, the transverse plate 19 faces one side of the containing box 14, the first moving motor 25 is controlled and the first screw rod 24 is driven to rotate, the first screw rod 24 drives the horizontal moving block 17 to move towards the direction close to the containing box 14 through threaded connection, when the horizontal moving block 17 moves to a limit position and stops, the telescopic rod 18 is controlled to extend, the transverse plate 19 is driven to move into the containing cavity 21, the clamping rod 20 is located on two sides of the base 29, if the base 29 does not exist in the containing cavity 21 after the transverse plate 19 is aligned with the transverse plate 19, the sliding rail 13 is controlled and the containing box 14 is driven to translate until the row with the base 29 is moved to be aligned with the transverse plate 19, at this time, the second translation motor 27 is controlled and drives the second screw rod 26 to rotate, the second screw rod 26 drives the clamping rods 20 at two sides to approach each other through threaded connection, at this time, the insertion rods 36 at two sides are inserted into the electrifying cavity 30 through the through holes 35 at two sides, the insertion rods 36 push the sliding conducting strips 32 to move and compress the first springs 37, at this time, the sliding conducting strips 32 are separated from abutting contact with the fixed conducting strips 31, the electromagnet 23 is powered off and loses magnetism, at this time, the iron sheets 42 are not adsorbed by magnetic force, the first sliding plate 41 descends under the elasticity of the second springs 45, the charging plugs 43 and the data connectors 44 are pulled out from the slots at the bottom of the base 29, the fixing of the base 29 in the accommodating cavity 21 is released, at this time, the horizontal translation moving block 17 is controlled to move the base 29 out of the accommodating cavity 21, at this time, the position and the shape of the vehicle are identified through the identification camera 55, if the driving position of the engineering vehicle head is located in the movable range of the transverse plate 19, at this time, according to the specific position and orientation angle of the vehicle head, the horizontal moving block 17 is moved to the front of the vehicle driving position, and at the same time, the rotation control motor 28 is controlled and drives the telescopic rod 18 to rotate, the transverse plate 19 and the base 29 are rotated to be opposite to the vehicle driving position, if the vehicle head driving position of the engineering vehicle exceeds the movable range of the transverse plate 19, the recognition camera 55 prompts the driver to move the vehicle to the movable range of the transverse plate 19 through voice, at this time, the transverse plate 19 and the base 29 are readjusted to be opposite to the vehicle driving position, at this time, the control telescopic rod 18 is extended, and drives the transverse plate 19 and the base 29 to move to the top of the vehicle head and to be close to the driving door position, at this time, the lifting column 11 is controlled to descend and drives the cross beam 12 to descend, so that the base 29 is placed at the top of the vehicle head and to be close to the door edge position of the driving position, at this time, the second translation motor 27 is controlled and drives the clamping rods 20 at two sides to be far away from each other, and then drive inserted bar 36 and move out from the circular telegram chamber 30, slide conducting strip 32 at this moment under first spring 37 elasticity again with fixed conducting strip 31 butt, electro-magnet 23 circular telegram and production magnetism and firmly adsorb on the roof at this moment, then inserted bar 36 moves out from through opening 35 completely, the inclined plane and the engineering truck driver seat door direction at the top of base 29 this moment are located the same direction, cloud platform camera 40 is towards the rear of a vehicle direction, opens the railing this moment, passes the vehicle.

After the base 29 is installed on the roof of the vehicle, the control motor 39 is started and drives the L-shaped rod 38 to rotate, further the pan-tilt camera 40 is driven to rotate to the side edge of the vehicle door along the inclined plane, a driver is shot by the pan-tilt camera 40, the building site management personnel can remotely monitor the state of the driver of the engineering vehicle through wireless signal transmission, fatigue driving of the driver is avoided, meanwhile, the building site management personnel can also monitor the building site around the engineering vehicle through the pan-tilt camera 40, when the engineering vehicle runs to a discharging place, the control motor 39 is controlled and drives the pan-tilt camera 40 to rotate to face the tail direction of the vehicle again, further the unloading process of the vehicle is monitored, whether the discharging phenomenon exists or not is monitored, after the engineering vehicle finishes unloading and drives away, whether the engineering vehicle drives into a dust fall area to clean the dust fall or not, and whether the engineering vehicle has the uncleanness or uncleanness marking phenomenon is monitored or not, when a driver gets off the vehicle, the holder camera 40 can be controlled to rotate to the side of a vehicle door, shooting can be carried out along with the driver, whether the driver wears a helmet or not and behaviors and directions after getting off the vehicle are monitored, a construction site manager can remind timely through the voice module when the fact that the engineering vehicle is incompletely unloaded, is not sufficiently cleaned and does not wear the helmet after getting off the vehicle is monitored, and when the fact that the driver has suspicious behaviors after getting off the vehicle is found, the position of the engineering vehicle can be quickly judged through the camera, so that a worker can arrive at the site at the first time;

when the engineering truck is ready to be driven out from a gate of a construction site, the license plate of the vehicle is identified through the license plate camera at the moment, the position of the vehicle and the position of the base 29 are identified through the identification camera 55, the direction of the horizontal moving block 17 and the telescopic rod 18 is rotated, the transverse plate 19 is opposite to the direction of the base 29 on the roof, the parking position and the parking angle of the engineering truck are adapted, the engineering truck is prompted to move to the moving range of the transverse plate 19 through the identification camera 55, the telescopic rod 18 is extended, the transverse plate 19 is driven to move to the top of the base 29 above the roof, the two inserting rods 36 are opposite to the side edges of the through holes 35 on the two sides, the control inserting rods 36 are inserted into the electrifying cavity 30 again at the moment, the power failure of the electromagnet 23 is realized, the cross beam 12 is lifted and the engineering truck is released, and the horizontal moving block 17 is controlled to move towards the cleaning box 15 at the moment, simultaneously, the telescopic rod 18 is rotated to enable the transverse plate 19 to face one side of the cleaning box 15, when the horizontal moving block 17 moves to the limit position, the telescopic rod 18 is extended and the base 29 is moved into the cleaning chamber 46, the wiping rod 49 is enabled to face the lower portions of the two slots at the bottom of the base 29, the control insertion rod 36 is moved out of the power-on cavity 30 at the moment, the electromagnet 23 is electrified again to generate magnetism, the metal rod 50 is further adsorbed upwards, the second sliding plate 48 is driven to ascend, the base 29 is further fixed, the wiping rod 49 is driven to ascend and is inserted into the slots, the two slots are wiped, cleaned and sealed through the wiping rod 49, the air suction device 54 is started at the same time, air is conveyed into the ventilation cavity 52 through the pipeline 56, the air is sprayed out through the air hole 53, the base 29 and the pan-tilt camera 40 are cleaned through wind power, surface dust is blown away, at the moment, the base 29 is moved back into the containing cavity 21 from the cleaning chamber 46 through the clamping rod 20 for storage, at this time, after the charging plug 43 and the data connector 44 are inserted into the slots, the charging plug 43 charges the power supply 33, the data connector 44 reads data from the memory 34, and the read video file and the license plate of the vehicle are synchronously registered.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an wisdom building site multiple spot control management system based on cloud platform is controlled, includes the lift post on fixed mounting both sides limit at building site gate department, its characterized in that: the top parts of the lifting columns on the two sides are jointly and fixedly provided with a cross beam, one end of the cross beam is fixedly provided with a slide rail, the bottom of the slide rail is provided with an accommodating box, the slide rail can drive the accommodating box to move, and the other end of the cross beam is fixedly provided with a cleaning box;

2. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: the first translation mechanism comprises a first screw rod which is transversely arranged in the translation track, the first screw rod transversely penetrates through the horizontal moving block and is connected with the horizontal moving block through threads, a first moving motor is fixed on one side in the translation track, one end of the first screw rod is in power connection with the first moving motor, and the other end of the first screw rod is in rotating connection with the inner wall of the translation track.

3. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: the second translation mechanism comprises a second screw rod which is transversely and rotatably arranged in the transverse plate, the second screw rod simultaneously traverses the clamping rods on the two sides and is connected through threads, a second translation motor used for controlling the second screw rod to rotate is fixedly arranged in the transverse plate, and the thread direction of the second screw rod in threaded connection with the clamping rods on the two sides is opposite.

4. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: and a rotary control motor for driving the telescopic rod to rotate is fixed in the horizontal moving block.

5. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: the camera component comprises a base, the electromagnets are provided with two parts and fixed at two ends of the bottom of the base respectively, the bottom of the base is just right opposite to two parts, the electromagnets are provided with two electrified cavities, one inner wall of the electrified cavity facing outwards is fixed with a fixed conducting strip, the electrified cavities are internally provided with sliding conducting strips in a sliding mode, two sides of the sliding conducting strips are respectively connected with two sides of the electromagnets through wires, two sides of the sliding conducting strips are connected with a power supply in the base through wires, the power supply is arranged at the bottom of the base and located at two sides of the positions between the electromagnets, the bottom of the base is located at two sides of the positions between the electromagnets, a storage is further arranged at the positions, the storage is used for storing and shooting videos, and slots are formed in the bottom of the storage.

6. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 5, wherein: the opening has been seted up jointly to the inside wall of the one side that the circular telegram chamber is outside with fixed conducting strip, both sides the bottom of clamp bar all is equipped with the inserted bar, slip conducting strip with be connected with first spring between the circular telegram intracavity wall, first spring makes through elasticity slip conducting strip with slip conducting strip butt and circular telegram, and then will electric power transport extremely in the power in the electro-magnet makes the electro-magnet circular telegram produces magnetism, both sides the inserted bar can pass through both sides respectively the opening gets into the circular telegram intracavity, the inserted bar with can promote when slip conducting strip offsets slip conducting strip with fixed conducting strip breaks away from the butt, and then realizes the electro-magnet outage.

7. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: one side of the top of the base is provided with an inclined plane, an L-shaped rod is rotatably arranged on the inclined plane and consists of two sections of parts which are perpendicular to each other, one section of the L-shaped rod is perpendicular to the inclined plane of the base, the other section of the L-shaped rod is parallel to the inclined plane of the base, a control motor is arranged in the inclined plane of the top of the base, one end, perpendicular to the inclined plane, of the L-shaped rod is connected with the control motor, the control motor drives the L-shaped rod and the inclined plane vertical part to rotate, the L-shaped rod and the inclined plane parallel section can be always parallel to the inclined plane, and a pan-tilt camera is fixed at one end of the parallel part of the L-shaped rod and the inclined plane.

8. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: the circuit connecting assembly comprises a first sliding plate which is arranged in the first cavity and can slide up and down, iron sheets are fixed at two ends of the top of the first sliding plate, a charging plug and a data connector are fixed at the top of the first sliding plate, a second spring is fixed between the bottom of the first sliding plate and the bottom wall of the first cavity, and the second spring can provide power for the first sliding plate to move down and reset.

9. The intelligent building site multipoint monitoring and management system based on holder control as claimed in claim 1, wherein: the cleaning assembly comprises a cleaning chamber which is arranged in the cleaning box and has an opening facing one side of the cross beam, a second cavity is arranged at the bottom of the cleaning chamber, a second sliding plate capable of sliding up and down is arranged in the second cavity, two wiping rods are fixed at the top of the second sliding plate and can be inserted into two slots at the bottom of the base, a metal rod is further fixed on the second sliding plate and can be attracted by the electromagnet at the bottom of the base, a third spring is fixedly connected between the bottom of the second sliding plate and the bottom wall of the second cavity and provides power for the resetting of the second sliding plate, ventilation cavities are arranged on the side edges and the bottom of the second sliding plate except the second cavity, air holes are communicated between the ventilation cavities and the cleaning chamber, and air suction equipment is arranged in the cleaning box, the air outlet of the air pumping device is communicated with the ventilation cavity through a pipeline, and the air inlet of the air pumping device is communicated with the outside air.