CN116347197A - High-altitude monitoring device and method for building site - Google Patents

Abstract

The invention discloses a high-altitude monitoring device for a construction site and a method thereof, belonging to the technical field of high-altitude monitoring devices, wherein the high-altitude monitoring device comprises a mounting column, the surface of the mounting column is fixedly connected with a fixing frame, and the surface of the fixing frame is rotationally connected with a mounting shell; in the working process of the monitoring device, the protective shell, the elastic expansion plate and the damping spring are utilized to protect the mounting shell and the camera lens, so that impact of the protective shell on the fixing frame is reduced, the fixing frame is enabled to be loosened or damaged by the direct action of the mounting shell on the fixing frame when sundries are large or impact force is large, rainwater can flow into the collecting box in rainy days, the collecting box can move downwards together with the shielding eave when water in the collecting box reaches a certain weight, the shielding eave and the collecting box can shield through grooves and fence plates on two sides of the protective shell, and the rainwater can be prevented from entering the interior of the protective shell through the through grooves, so that the working range of the mounting shell and the camera lens is kept dry.

Description

High-altitude monitoring device and method for building site

Technical Field

The invention relates to the technical field of high-altitude monitoring devices, in particular to a high-altitude monitoring device for a building site and a method thereof.

Background

The building site is the building site that carries out construction to the building, and the construction site is big in the mobile volume of workman in daily work process to safety precaution is generally not perfect enough in the building site, and operational environment is comparatively complicated, can not avoid taking place some accidents in the in-process of construction, and people are difficult to know the process of accident, thereby lead to being difficult to handle, perhaps have the condition such as building site steel steal, lead to the building materials of building site to lose, influence the normal use of building site, and then all can install surveillance camera head in the building site.

The prior art can install the surveillance camera head in the building site in the high altitude generally, the surveillance camera head of building site is installed on the surface of the outer mounting bracket of construction building or tower crane support frame generally, the building site is in the work progress, the debris that inevitably has flies upward or drops from the eminence, the surveillance camera head can lead to the surveillance camera head skew or damage to pounding to the debris that drops, lead to the surveillance camera head to can not carry out stable surveillance shooting to the building site, moreover the surveillance camera head receives weather influence in the high altitude easily, can not clear shooting monitor picture, and the surveillance camera head damages and needs the manual work to high altitude to maintain and change, the easy accident takes place.

Disclosure of Invention

The invention aims to provide a high-altitude monitoring device and a high-altitude monitoring method for a building site, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a high altitude monitoring device for building site, includes the erection column, the fixed surface of erection column is connected with the mount, the mount surface rotates and is connected with the installation shell, the inside fixedly connected with camera lens of installation shell, the surface of mount is equipped with protection machanism, protection machanism is used for protecting the camera lens, be equipped with damper between protection machanism and the mount, damper is used for reducing protection machanism's impact to the mount, protection machanism both sides all are equipped with shrink mechanism, shrink mechanism is used for shrinking when the installation shell rotates, protection machanism's both sides all are equipped with shielding mechanism, shielding mechanism is used for automatic shielding to the installation shell both sides when raining;

as a further scheme of the invention, the protection mechanism comprises a protection shell, the protection shell is arranged on the surface of the fixing frame through the damping mechanism, the protection shell corresponds to an opening on one side of the camera lens, and the upper end of the protection shell is fixedly connected with a soft arc protection top;

as a further scheme of the invention, the damping mechanism comprises a through hole, the through hole is formed in the surface of one side, close to the fixed frame, of the protective shell, the fixed frame is positioned in the through hole, the bottom of the inner wall of the through hole and the surface of the bottom of the fixed frame are connected with elastic expansion plates, a damping spring is connected between the top of the inner wall of the through hole and the surface of the fixed frame, the surface of the fixed frame is fixedly connected with a top movable plate, the upper end of the top movable plate penetrates through the protective shell and then extends to the arc-shaped protective top, and the fixed part of the inner wall of the protective shell is fixedly connected with a U-shaped blocking plate;

as a further scheme of the invention, the contraction mechanism comprises a plurality of groups of through grooves, a plurality of groups of through grooves are respectively formed on the two side surfaces of the protective shell, a fence plate is elastically and slidably connected in each group of through grooves, a fixed plate is fixedly connected to one side surface of the fence plate, which is close to the installation shell, of the fence plate, an elastically telescopic poking plate is fixedly connected to the two side surfaces of the installation shell, and the poking plate extends to the surface position of the fixed plate;

as a further scheme of the invention, the shielding mechanism comprises two telescopic shielding eaves, the two shielding eaves are respectively and fixedly connected to the two side surfaces of the arc-shaped protective roof, the shielding eaves are arc-shaped, the shielding eaves are positioned at positions corresponding to the fence plates, the two sides of the arc-shaped protective roof are fixedly connected with collecting boxes, one sides of the collecting boxes, which are close to the protective shell, are elastically telescopic plates, the collecting boxes are in a water drop shape, the collecting boxes are positioned at the rear sides of the shielding eaves and correspond to the through groove positions, the collecting boxes are attached to the shielding eaves, and the shielding eaves are communicated with the collecting boxes;

as a further scheme of the invention, the surface of the mounting shell is fixedly connected with a fixing ring, the upper end of the fixing ring is fixedly connected with a supporting plate, the surface of one side of the supporting plate, which is close to the camera lens, is connected with a first sliding plate and a second sliding plate in a sliding way, the surfaces of the first sliding plate and the second sliding plate are fixedly connected with U-shaped wiping frames, the surface of one side, which is close to the camera lens, of the wiping frames is fixedly connected with wiping cotton, the surface of the first sliding plate is fixedly connected with a first pulling rope, the surfaces of the two sides of the supporting plate and the surface of the mounting shell are fixedly connected with fixing columns, the first pulling rope extends to the position of the collecting box after bypassing the fixing columns, which are close to one side of the first sliding plate, passes through the protecting shell, the first pulling rope is connected with the collecting box, the first pulling rope has elasticity, the surface of the second sliding plate is fixedly connected with a second pulling rope, the second pulling rope extends to the middle position of the side wall of the protecting shell after bypassing the columns, which are close to the position of the second sliding plate, the second pulling rope passes through the sliding block and is connected with the collecting box below the sliding block;

as a further scheme of the invention, sliding grooves are formed in the surfaces of two sides of the installation shell, reflective mirrors are elastically arranged in the two sliding grooves, one side, close to the fixed ring, of each reflective mirror extends to the position of the fixed ring, the two reflective mirrors are in sliding connection with two sides of the fixed ring, the surfaces of the reflective mirrors are fixedly connected with third pull ropes, the surfaces of the installation shell are fixedly connected with two fixing rods, the two third pull ropes are respectively connected with the surfaces of the first sliding plate and the second sliding plate after bypassing the fixing rods, and the third pull ropes close to the first sliding plate are connected with the second sliding plate and are connected with the first sliding plate;

the method for using the high-altitude monitoring device for the construction site comprises the following specific steps:

step one: installing a high-altitude monitoring device on the surface of an outer building installation frame or a tower crane support frame of a building site;

step two: after the installation is completed, the camera lens is protected by the protection mechanism;

step three: the shock absorption mechanism can slow down the impact of the protection mechanism on the fixing frame after sundries hit the protection mechanism;

step four: the contraction mechanism contracts when the mounting shell rotates;

step five: the shielding mechanism can automatically shield the two sides of the installation shell in rainy days.

Compared with the prior art, the invention has the beneficial effects that:

1. in the working process of the monitoring device, the protective shell, the elastic expansion plate and the damping spring are utilized to protect the mounting shell and the camera lens, so that the impact of the protective shell on the fixing frame is reduced, the fixing frame is enabled to be loosened or damaged by the direct action of the mounting shell on the fixing frame when sundries are large or impact force is large, the stable shooting of the camera lens is affected, rainwater can flow into the collecting box in rainy days, the collecting box can move downwards together with the shielding eave when water in the collecting box reaches a certain weight, the shielding eave and the collecting box can shield through grooves and fence plates on two sides of the protective shell, rainwater is prevented from entering the interior of the protective shell through the through grooves, the drying of the mounting shell and the camera lens in the working range is facilitated, and the phenomenon that the rainwater can flow into the interior of the protective shell along the surface to cause the damage of the camera lens, the shooting can not be achieved, and normal monitoring is affected.

2. When the weight of water in the collecting boxes reaches a certain weight, the collecting boxes on two sides can sequentially act on the first pulling rope and the second pulling rope to move, the first pulling rope and the second pulling rope can respectively drive the first sliding plate and the second sliding plate to move, the first sliding plate and the second sliding plate can drive the wiping frame and the wiping cotton to move downwards together, the wiping cotton can wipe half of the mirror surface of the camera lens once, the surface of the camera lens is favorably kept clean, rainwater is prevented from adhering to the surface of the camera lens, normal monitoring shooting of the camera lens is affected, the first sliding plate and the second sliding plate alternately move, the camera lens is divided into two parts to wipe, shielding of a picture shot by the camera lens during wiping is reduced, and the camera lens is prevented from being shielded during wiping, and shooting of the camera lens is prevented from being affected.

3. According to the invention, in the process of monitoring in a rainy day, when the collecting box drives the first sliding plate to move downwards, the first sliding plate drives the third pulling rope to move together, the third pulling rope bypasses the fixed rod and then pulls the reflector close to one side of the second sliding plate to move, the reflector slides in the sliding groove, one end of the reflector close to the camera lens gradually tilts under the action of the fixed ring in the process of moving the reflector, after the reflector fully stretches out, the camera lens can shoot a picture shielded by wiping cotton through reflection of the reflector, and when the second sliding plate moves downwards, the reflector on the other side can move out, so that when the picture shot by the camera lens is blocked, the picture blocked by the camera lens is compensated by the reflector, and the situation that the camera lens cannot completely shoot a monitoring picture when the camera lens is blocked is avoided, so that real-time recording cannot be performed when an accident occurs is avoided.

Drawings

FIG. 1 is a flow chart of the method of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic view of the present invention in general section;

FIG. 4 is a schematic view of the structure shown in FIG. 3A;

FIG. 5 is a schematic structural view of the connection relationship between the mounting post, the fixing frame and the protective shell in the invention;

FIG. 6 is a schematic view of the structure of the mounting posts, the mounting bracket and the mounting shell surface of the present invention;

FIG. 7 is a schematic view of the connection of the mounting shell, retaining ring, support plate and reflector of the present invention;

FIG. 8 is a schematic view of the structure of the inside of the protective shell according to the present invention;

FIG. 9 is a schematic view of the structure of FIG. 8B;

fig. 10 is a schematic view of the structure at C in fig. 8.

In the drawings, the list of components represented by the various numbers is as follows:

the mounting post 1, the fixing frame 2, the mounting shell 3, the camera lens 4, the protective shell 5, the arc-shaped protective roof 6, the through opening 7, the elastic expansion plate 8, the damping spring 9, the roof moving plate 10, the blocking plate 11, the through groove 12, the fence plate 13, the fixed plate 14, the toggle plate 15, the shielding eave 16, the collecting box 17, the fixed ring 18, the supporting plate 19, the first sliding plate 20, the second sliding plate 21, the wiping frame 22, the wiping cotton 23, the first sliding rope 24, the fixed post 25, the second sliding rope 26, the sliding block 27, the sliding groove 28, the reflecting mirror 29, the third sliding rope 30 and the fixed rod 31.

Detailed Description

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a high altitude monitoring device for building site, including erection column 1, the fixed surface of erection column 1 is connected with mount 2, mount 2 surface rotation is connected with installation shell 3, the inside fixedly connected with camera lens 4 of installation shell 3, the surface of mount 2 is equipped with protection machanism, protection machanism is used for protecting camera lens 4, be equipped with damper between protection machanism and the mount 2, damper is used for reducing the impact of protection machanism to mount 2, protection machanism both sides all are equipped with shrink mechanism, shrink mechanism is used for shrinking when installation shell 3 rotates, protection machanism's both sides all are equipped with shielding mechanism, shielding mechanism is used for automatic shielding the installation shell 3 both sides when raining;

the protection mechanism comprises a protection shell 5, the protection shell 5 is arranged on the surface of the fixed frame 2 through a damping mechanism, the protection shell 5 is opened corresponding to one side of the camera lens 4, and the upper end of the protection shell 5 is fixedly connected with a soft arc protection top 6;

the damping mechanism comprises a through hole 7, the through hole 7 is formed in the surface of one side, close to the fixed frame 2, of the protective shell 5, the fixed frame 2 is positioned in the through hole 7, an elastic expansion plate 8 is connected between the bottom of the inner wall of the through hole 7 and the surface of the bottom of the fixed frame 2, a damping spring 9 is connected between the top of the inner wall of the through hole 7 and the surface of the fixed frame 2, a top movable plate 10 is fixedly connected to the surface of the fixed frame 2, the upper end of the top movable plate 10 penetrates through the protective shell 5 and then extends to the position of the arc-shaped protective top 6, and a U-shaped blocking plate 11 is fixedly connected to the fixed part of the inner wall of the protective shell 5;

the contraction mechanism comprises a plurality of groups of through grooves 12, the plurality of groups of through grooves 12 are respectively arranged on the two side surfaces of the protective shell 5, a fence plate 13 is connected in each group of through grooves 12 in a common elastic sliding manner, a fixed plate 14 is fixedly connected to the surface of one side of the fence plate 13, which is close to the installation shell 3, a stirring plate 15 which is elastically telescopic is fixedly connected to the surface of the two sides of the installation shell 3, and the stirring plate 15 extends to the surface position of the fixed plate 14;

the shielding mechanism comprises two telescopic shielding eaves 16, the two shielding eaves 16 are respectively and fixedly connected to the two side surfaces of the arc-shaped protective roof 6, the shielding eaves 16 are arc-shaped, the shielding eaves 16 are positioned at positions corresponding to the fence plates 13, the two sides of the arc-shaped protective roof 6 are fixedly connected with collecting boxes 17, one side, close to the protective shell 5, of each collecting box 17 is an elastically telescopic plate, each collecting box 17 is in a water drop shape, the collecting boxes 17 are positioned at positions, corresponding to the through grooves 12, of the rear sides of the shielding eaves 16, the collecting boxes 17 are attached to the shielding eaves 16, and the shielding eaves 16 are communicated with the collecting boxes 17;

in the process that the high-altitude monitoring device is arranged on the surface of the high-altitude installation column 1 for working, when sundries hit the surfaces of the arc-shaped protection top 6 and the protection shell 5, the protection shell 5 can block the sundries, so that the phenomenon that the photographing lens 4 is deviated and rocked or damaged and cannot normally and stably photograph, the monitoring effect is influenced, after the protection shell 5 is hit, the protection shell 5 can rock up and down under the action of the elastic expansion plate 8 and the damping spring 9 to slow down the impact force, the fixing frame 2 can slide in the through hole 7, the impact of the installation shell 3 on the fixing frame 2 is reduced, the fixing frame 2 can be loosened or damaged by the direct action of the installation shell 3 when the sundries are larger or the impact force is larger, the stable photographing of the photographing lens 4 is influenced, the rocking amplitude of the protection shell 5 is larger when the impact force of the sundries on the protection shell 5 is larger, the blocking plate 11 can be contacted with the fixed frame 2 to block the protective shell 5, when the protective shell 5 is prevented from shaking greatly, the protective shell 5 can touch the mounting shell 3, thereby leading to shaking of the mounting shell 3, influencing normal monitoring shooting of the camera lens 4, when sundries are smashed on the surface of the arc-shaped protective top 6, sundries stay on the surface of the arc-shaped protective top 6, when the protective shell 5 shakes, the top moving plate 10 can move the arc-shaped protective top 6 up and down, thereby being beneficial to pushing sundries staying on the surface of the arc-shaped protective top 6, leading sundries to be separated from the upper part of the protective shell 5, avoiding sundries being accumulated on the surface of the arc-shaped protective top 6, influencing the damping effect, being unfavorable for buffering impact force of subsequent sundries, when monitoring angles need to be adjusted in the monitoring process, the mounting shell 3 and the camera lens 4 can rotate to one side, the mounting shell 3 can drive the toggle plate 15 to rotate together, the toggle plate 15 of rotation direction can act on fixed plate 14 to be close to mount 2 one side and remove, fixed plate 14 can drive fence plate 13 and remove to being close to mount 2 one side together, fence plate 13 can slide in logical inslot 12, be favorable to reducing shielding of fence plate 13 to taking a photograph of camera lens 4, avoid protecting crust 5 directly to the both sides position of camera lens 4, during installation shell 3 rotates, protecting crust 5 can shelter from the shooting picture of camera lens 4, influence the normal surveillance shooting of camera lens 4, lead to groove 12 can play ventilation and heat dissipation's effect, in the rainy day, the rainwater can flow along the surface of arc protection top 6 in shielding eaves 16 and collecting box 17 of both sides, the water in shielding eaves 16 also can flow to collecting box 17 in, when the water in collecting box 17 reaches certain weight, collecting box 17 can be down moved together with shielding eaves 16, it can shelter from eaves 16 and collecting box 17 can shelter from through groove 12 and fence plate 13 with the camera lens 4 both sides, prevent that the rainwater can enter into inside protecting crust 5 through leading to the groove 12, be favorable to making installation shell 3 and keeping the normal surveillance camera lens 5 in the scope of the face of the camera lens 5, can reduce the noise and can not lead to the noise in the side of the protection shell 5, and prevent that the noise from leading to the noise from being lost in the protection shell 5 from the side collision when the face of the camera lens is broken down in the side of the surface of the protection 5.

When monitoring is carried out in a rainy day, rain drops fall on the surface of the camera lens 4, as a further scheme of the invention, the surface of the installation shell 3 is fixedly connected with a fixed ring 18, the upper end of the fixed ring 18 is fixedly connected with a supporting plate 19, the surface of one side of the supporting plate 19, which is close to the camera lens 4, is slidably connected with the same first sliding plate 20 and the second sliding plate 21, the surfaces of the first sliding plate 20 and the second sliding plate 21 are fixedly connected with a U-shaped wiping frame 22, the surface of one side, which is close to the camera lens 4, of the wiping frame 22 is fixedly connected with wiping cotton 23, the surface of the first sliding plate 20 is fixedly connected with a first sliding rope 24, the surfaces of both sides of the supporting plate 19 and the surface of the installation shell 3 are fixedly connected with fixed columns 25, the first sliding rope 24 bypasses the fixed columns 25, which are close to one side of the first sliding plate 20, and then extends to the position of the collecting box 17, the first sliding rope 24 passes through the protective shell 5, the first sliding rope 24 is connected with the collecting box 17, the surface of the first sliding plate 21 is fixedly connected with a second sliding frame 26, the second sliding rope 26 is fixedly connected with the surface of the second sliding plate 21, the second sliding rope 26 passes through the protective box 5, the second sliding block 27 is connected with the position of the second sliding block 27, and the second sliding block 27 is located at the position of the end of the protective box 5, and the protective box 27 is located at the position of the end of the protective box 5; when the weight of water in the collecting boxes 17 reaches a certain weight in rainy days, the collecting boxes 17 at two sides move downwards together, the collecting boxes 17 close to the first sliding plate 20 pull the first sliding plate 20 to move together, the first sliding plate 20 pulls the first sliding plate 20 to move downwards after bypassing the fixed column 25, the first sliding plate 20 drives the wiping frame 22 to move downwards together with the wiping cotton 23, the wiping cotton 23 wipes a half mirror surface of the camera lens 4 close to one side of the first sliding plate 20, then the wiping frame 22 passes over the camera lens 4, the collecting boxes 17 close to the second sliding plate 21 move downwards for a certain distance and then act on the sliding block 27 to move downwards together, the sliding block 27 drives the second sliding plate 26 to move downwards together, the second pull rope 26 can walk around the fixed column 25 and then drive the second sliding plate 21 to move downwards, the second sliding plate 21 can drive the wiping frame 22 and the wiping cotton 23 which are close to the second sliding plate 21 to move downwards, the wiping cotton 23 which is close to the second sliding plate 21 can wipe the half mirror surface of the camera lens 4 which is close to one side of the second sliding plate 21, the surface of the camera lens 4 is kept clean, rainwater is prevented from being adhered to the surface of the camera lens 4, normal monitoring shooting of the camera lens 4 is influenced, the first sliding plate 20 and the second sliding plate 21 alternately move, the camera lens 4 is divided into two parts to wipe, shielding of pictures shot by the camera lens 4 during wiping is reduced, the camera lens 4 is prevented from being shielded during wiping, and shooting of the camera lens 4 is prevented from being influenced.

When the camera lens 4 is wiped, the wiping cotton 23 still shields part of a shooting picture of the camera lens 4, as a further scheme of the invention, sliding grooves 28 are formed on the surfaces of two sides of the installation shell 3, reflective mirrors 29 are elastically arranged in the two sliding grooves 28, one sides of the two reflective mirrors 29 close to the fixed ring 18 extend to the position of the fixed ring 18, the two reflective mirrors 29 are in sliding connection with two sides of the fixed ring 18, the surfaces of the two reflective mirrors 29 are fixedly connected with third pull ropes 30, the surfaces of the installation shell 3 are fixedly connected with two fixed rods 31, the two third pull ropes 30 are respectively connected with the surfaces of the first sliding plate 20 and the second sliding plate 21 after bypassing the fixed rods 31, the third pull ropes 30 close to the first sliding plate 20 are connected with the second sliding plate 21, and the third pull ropes 30 close to the second sliding plate 21 are connected with the first sliding plate 20; in the process of monitoring in a rainy day, when the collecting box 17 drives the first sliding plate 20 to move downwards, the first sliding plate 20 drives the third sliding rope 30 to move together, the third sliding rope 30 bypasses the fixed rod 31 and then pulls the reflector 29 close to one side of the second sliding plate 21 to move, the reflector 29 slides in the sliding groove 28, one end of the reflector 29 close to the camera lens 4 can be tilted gradually under the action of the fixed ring 18 in the moving process of the reflector 29, after the reflector 29 stretches out completely, the camera lens 4 can shoot a picture shielded by the wiping cotton 23 through the reflection of the reflector 29, the reflector 29 on the other side can be moved out when the second sliding plate 21 moves downwards, the picture blocked by the camera lens 4 is compensated by the reflector 29, and the situation that the camera lens 4 cannot completely shoot a monitoring picture when the camera lens 4 is blocked is avoided, so that real-time recording cannot be performed when an accident occurs is avoided.

The method for using the high-altitude monitoring device for the construction site comprises the following specific steps:

step one: installing a high-altitude monitoring device on the surface of an outer building installation frame or a tower crane support frame of a building site;

step two: after the installation is completed, the protection mechanism can protect the camera lens 4;

step three: the shock absorption mechanism can slow down the impact of the protection mechanism on the fixing frame 2 after sundries hit the protection mechanism;

step four: the contraction mechanism contracts when the mounting case 3 rotates;

step five: the shielding mechanism can automatically shield the two sides of the installation shell 3 in rainy days.

Claims (8)

1. High altitude monitoring device for building site, including erection column (1), its characterized in that: the utility model discloses a camera lens, including erection column (1), mount (2) surface rotation is connected with erection shell (3), erection shell (3) inside fixedly connected with camera lens (4), the surface of mount (2) is equipped with protection machanism, protection machanism is used for protecting camera lens (4), be equipped with damper between protection machanism and mount (2), damper is used for reducing the impact of protection machanism to mount (2), the protection machanism both sides all are equipped with shrinkage mechanism, shrinkage mechanism is used for shrinking when erection shell (3) rotate, protection machanism's both sides all are equipped with shielding mechanism, shielding mechanism is used for shielding in the rainy day to erection shell (3) both sides automatically.

2. A building site uses high altitude monitoring apparatus as claimed in claim 1, wherein: the protection mechanism comprises a protection shell (5), the protection shell (5) is arranged on the surface of the fixing frame (2) through the damping mechanism, the protection shell (5) corresponds to one side opening of the camera lens (4), and the upper end of the protection shell (5) is fixedly connected with a soft arc protection top (6).

3. A building site uses high altitude monitoring apparatus as claimed in claim 2, wherein: the damping mechanism comprises a through hole (7), the through hole (7) is formed in the position, close to the protective shell (5), of one side surface of the fixed frame (2), the fixed frame (2) is located in the through hole (7), an elastic expansion plate (8) is connected with the bottom surface of the inner wall of the through hole (7) and the bottom surface of the fixed frame (2), a damping spring (9) is connected between the top of the inner wall of the through hole (7) and the surface of the fixed frame (2), a top movable plate (10) is fixedly connected with the surface of the fixed frame (2), and the upper end of the top movable plate (10) penetrates through the protective shell (5) and then extends to the position of the arc-shaped protective top (6), and a U-shaped blocking plate (11) is fixedly connected with the inner wall of the protective shell (5).

4. A building site uses high altitude monitoring apparatus as claimed in claim 2, wherein: the shrinkage mechanism comprises a plurality of groups of through grooves (12), the through grooves (12) are respectively formed in two side surfaces of the protective shell (5), each group of through grooves (12) are internally provided with fence plates (13) in a common elastic sliding connection mode, the fence plates (13) are close to a fixed plate (14) fixedly connected with one side surface of the installation shell (3), elastic telescopic stirring plates (15) are fixedly connected with two side surfaces of the installation shell (3), and the stirring plates (15) extend to the surface positions of the fixed plate (14).

5. The high altitude construction site monitoring apparatus according to claim 4, wherein: the shielding mechanism comprises two telescopic shielding eaves (16), the two shielding eaves (16) are respectively and fixedly connected to the two side surfaces of the arc-shaped protection roof (6), the shielding eaves (16) are arc-shaped, the shielding eaves (16) are located at positions corresponding to the fence plates (13), collecting boxes (17) are fixedly connected to the two sides of the arc-shaped protection roof (6), the collecting boxes (17) are close to the plates which are elastically telescopic on one side of the protection shell (5), the collecting boxes (17) are in a water drop shape, the collecting boxes (17) are located at positions corresponding to the through grooves (12) on the rear side of the shielding eaves (16), the collecting boxes (17) are attached to the shielding eaves (16), and the shielding eaves (16) are communicated with the collecting boxes (17).

6. The high altitude construction site monitoring apparatus according to claim 5, wherein: the utility model discloses a camera lens, including installation shell (3) fixed surface, fixed ring (18) are fixed surface, fixed surface (18) are connected with fixed surface (19), fixed surface (19) are close to camera lens (4) one side fixed surface sliding connection has the same first sliding plate (20) and second sliding plate (21), first sliding plate (20) and second sliding plate (21) surface all fixed surface are connected with U-shaped and wipe frame (22), wipe frame (22) are close to camera lens (4) one side fixed surface and are connected with and wipe cotton (23), fixed surface (20) of first sliding plate is connected with first pull rope (24), fixed surface (25) are connected with installation shell (3) both sides surface of support plate (19), first pull rope (24) walk around fixed surface (25) close to first sliding plate (20) one side after extending to collection box (17) position, first pull rope (24) pass protective housing (5), first pull rope (24) are connected with second sliding plate (21) have first pull rope (24), the second pull rope (26) bypasses the fixed column (25) close to the position of the second sliding plate (21) and then extends to the middle position of the side wall of the protective shell (5), the end part of the second pull rope (26) penetrates through the protective shell (5) and then is connected with the sliding block (27), the sliding block (27) is located below the collecting box (17), and the sliding block (27) slides on the surface of the protective shell (5).

7. The high altitude monitoring device for construction site according to claim 6, wherein: the utility model discloses a sliding door is characterized by comprising a mounting shell (3), a reflector (29) is arranged in the surface of both sides of the mounting shell (3), a sliding groove (28) is formed in the surface of both sides of the mounting shell (3), the two reflector (29) are close to the position of the fixed ring (18), one side of the fixed ring (18) is extended to the position of the fixed ring (18), the two reflector (29) are connected with the two sides of the fixed ring (18) in a sliding manner, the surface of the reflector (29) is fixedly connected with a third pull rope (30), the surface of the mounting shell (3) is fixedly connected with two fixing rods (31), and the two third pull ropes (30) are respectively connected with the surface of the first sliding plate (20) and the surface of the second sliding plate (21) after bypassing the fixing rods (31), and the third pull ropes (30) close to the first sliding plate (20) are connected with the second sliding plate (20).

8. A method for using the high-altitude monitoring device for a construction site, which is applicable to the high-altitude monitoring device for a construction site according to any one of claims 1 to 7, and is characterized in that: the method comprises the following specific steps:

step one: installing a high-altitude monitoring device on the surface of an outer building installation frame or a tower crane support frame of a building site;

step two: after the installation is completed, the protection mechanism can protect the camera lens (4);

step three: the shock absorption mechanism can slow down the impact of the protection mechanism on the fixing frame (2) after sundries hit the protection mechanism;

step four: the contraction mechanism contracts when the mounting shell (3) rotates;

step five: the shielding mechanism can automatically shield the two sides of the installation shell (3) in rainy days.

Images