CN114449145A

CN114449145A - Environmental monitoring device for construction

Info

Publication number: CN114449145A
Application number: CN202210034159.XA
Authority: CN
Inventors: 王朝萱; 温秋填
Original assignee: Guangdong Ensheng Technology Co ltd
Current assignee: Guangdong Ensheng Technology Co ltd
Priority date: 2022-01-13
Filing date: 2022-01-13
Publication date: 2022-05-06

Abstract

The utility model relates to an environmental monitoring device for construction relates to environmental monitoring's field, its include the supporting mechanism with set up in monitoring facilities on the supporting mechanism, the supporting mechanism include the base, set up in vertical pole on the base, through swing assembly set up in swing arm on the vertical pole and set up in the mount pad of swing arm, monitoring facilities rotates and connects in the mount pad bottom, monitoring facilities is provided with the safety cover, the mount pad is provided with the clean subassembly with the safety cover laminating through adjustment mechanism, the mount pad is provided with and is used for driving monitoring facilities pivoted rotating assembly, the mount pad is provided with the dust absorption subassembly that is used for absorbing the dust around the safety cover. The monitoring equipment is driven to rotate through the rotating assembly, so that the protective cover is driven to rotate, and dust on the outer side of the protective cover can be cleaned by the cleaning assembly when the cleaning assembly and the protective cover move relatively due to the fact that the cleaning assembly is attached to the protective cover.

Description

Environmental monitoring device for construction

Technical Field

The application relates to the field of environmental monitoring, in particular to an environmental monitoring device for building construction.

Background

With the development of science and technology and the progress of times, the building industry is continuously developed, and because the building occupies a large area and has wide personnel, a large amount of monitoring equipment is needed to ensure the safety prevention and the timeliness of accident handling.

Chinese patent with publication number CN214744277U discloses a building equipment supervisory equipment for safety relates to safety and uses control technical field, including the surveillance camera head, the surveillance camera head openly installs monitor, and has seted up temperature detector in the middle of the monitor, the rain cover is installed to the surveillance camera head upper end, and rain cover one end is connected with the searchlight, the rotation axis has been run through to the surveillance camera head side, the side of rain cover is run through there is the fixed screw, the welding of the first lower extreme of surveillance camera has the column spinner, and the welding of column spinner outside upper end has tensile motor, tensile motor upper end is connected with tensile pole, the column spinner lower extreme is connected with flexible post. The utility model discloses in, if the unusual circumstances appears in the back of surveillance camera head in the consideration of this product, current supervisory equipment can't look over, so installed the column spinner at surveillance camera head lower extreme, through the drive of motor, made surveillance camera head realize rotation function for the control area can increase.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: because through there being the dust in the building construction environment, moreover because the going on of construction leads to floating this dust in the air of construction environment, and in order to monitoring facilities, protect, install the safety cover through the camera department that can be at monitoring facilities for the easy adhesion of dust is on the surface of safety cover, and in the long term, influences monitoring facilities's monitoring easily.

Disclosure of Invention

In order to clear up the dust on protection cover surface, this application provides an environmental monitoring device for construction.

The application provides an environmental monitoring device for construction adopts following technical scheme:

the utility model provides an environmental monitoring device for construction, include the supporting mechanism with set up in the last monitoring facilities of supporting mechanism, the supporting mechanism include the base, set up in vertical pole on the base, through swing assembly set up in swinging arms on the vertical pole, set up in the mount pad of swinging arms, monitoring facilities rotates and connects in the mount pad bottom, monitoring facilities is provided with the safety cover, the mount pad is provided with the clean subassembly with the safety cover laminating through adjustment mechanism, the mount pad is provided with and is used for driving monitoring facilities pivoted rotating assembly, the mount pad is provided with the dust absorption subassembly that is used for absorbing the dust around the safety cover.

Through adopting above-mentioned technical scheme, when the dust on safety cover surface was cleared up to needs, rotate through rotatory subassembly drive monitoring facilities to drive the safety cover and rotate, because clean subassembly and safety cover laminating, when making clean subassembly and safety cover carry out relative motion, clean subassembly can clear up the dust in the safety cover outside.

Optionally, the adjusting mechanism includes a horizontal adjusting cylinder arranged on the mounting seat, and a vertical adjusting cylinder arranged on a piston rod of the horizontal adjusting cylinder, and the cleaning assembly is arranged on the piston rod of the vertical adjusting cylinder.

Through adopting above-mentioned technical scheme, use monitoring facilities to monitor construction environment on every side as required, for making clean subassembly can not obstruct monitoring facilities's monitoring, successively adjust horizontal adjustment cylinder and vertical adjustment cylinder, make clean subassembly be located the top of safety cover for clean subassembly is difficult for sheltering from the camera in the safety cover.

Optionally, the cleaning assembly comprises a horizontal sleeve arranged at the piston rod of the vertical adjusting cylinder, a horizontal rod arranged inside the horizontal sleeve in a sliding manner, a cleaning piece arranged at one end, close to the protective cover, of the horizontal rod, and a cleaning spring arranged between the horizontal rod and the horizontal sleeve, and the cleaning piece is attached to the protective cover.

Through adopting above-mentioned technical scheme, when needs use clean subassembly to clear up the dust on safety cover surface, adjust horizontal adjustment cylinder and vertical adjustment cylinder, make the laminating of cleaning member and safety cover to make clean spring compressed, make clean spring can promote the horizon bar to the direction that is close to the safety cover, make the cleaning member can support in the outside of safety cover with certain dynamics.

Optionally, the rotating assembly includes a rotating electrical machine disposed on the mounting base, a rotating gear disposed at an output end of the rotating electrical machine, and a rotating gear ring circumferentially disposed on an outer side of the monitoring device, and the rotating gear is engaged with the rotating gear ring.

Through adopting above-mentioned technical scheme, when needs drive monitoring facilities and rotate, start the rotating electrical machines, the rotating electrical machines output shaft passes through rotatory gear drive rotatory ring gear and rotates to drive monitoring facilities and rotate.

Optionally, the dust absorption subassembly including set up in the dust absorption cylinder at mount pad top, set up in the dust absorption case of dust absorption cylinder piston rod bottom, with the dust absorption pipe of dust absorption case intercommunication and set up in the dust absorption fill of dust absorption case one end is kept away from to the dust absorption pipe, the air inlet of dust absorption fill is towards the safety cover, dust absorption fill and cleaning piece are located the relative both sides of safety cover respectively.

Through adopting above-mentioned technical scheme, when the cleaning member cleaned the safety cover, adjustable dust absorption cylinder made the dust absorption fight highly the same in the height of safety cover, then started the suction box, made the suction box fight suction air through the dust absorption pipe with the dust absorption, when the cleaning member cleaned the safety cover, partly dust can waft around the safety cover, fought through the dust absorption and siphoned away the dust around the safety cover, reduced the phenomenon of dust adhesion in the safety cover outside again.

Optionally, a rotating assembly used for driving the vertical rod to rotate is arranged on the base, the rotating assembly comprises a rotating motor arranged on the base, a rotating gear arranged at the output end of the rotating motor and a rotating gear ring arranged on the outer side of the vertical rod and meshed with the rotating gear, and the vertical rod is rotatably connected with the base.

Through adopting above-mentioned technical scheme, start to rotate the motor, rotate the motor and pass through the running gear and rotate the gear ring and drive vertical pole and rotate to can adjust monitoring facilities's angle, increase monitoring facilities's monitoring range.

Optionally, the vertical rod is rotatably connected with the swinging rod, and the swinging assembly comprises a counterweight sleeve sleeved outside the swinging rod and a swinging cylinder hinged between the counterweight sleeve and the vertical rod.

Through adopting above-mentioned technical scheme, when the monitoring angle of monitoring facilities is adjusted to needs, start swing cylinder, can adjust the inclination of swinging arms to can adjust monitoring facilities's monitoring angle.

Optionally, the dust collection box is provided with a reflector through the connecting assembly, and the reflector faces the protective cover.

Through adopting above-mentioned technical scheme, because the setting of reflector for the dead angle position at the camera back can be shot to the camera, thereby improves monitoring facilities's practicality.

Optionally, the coupling assembling including set up in the connection motor of dust suction box bottom and set up in connect the connecting axle of motor output, the connecting axle rotates to be connected in the dust suction box bottom, reflector one end is connected with the connecting axle.

By adopting the technical scheme, the motor is started and connected, the output end of the motor is connected, and the reflector is driven to rotate by the connecting shaft, so that the angle of the reflector can be adjusted, and images at different angles can be reflected.

Optionally, a cushion pad is arranged at the bottom of the dust collection box corresponding to the position of the reflector.

By adopting the technical scheme, when the reflector is folded, the phenomenon that the reflector is damaged due to overlarge laminating force can be reduced.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when dust on the surface of the protective cover needs to be cleaned, the monitoring equipment is driven to rotate through the rotating assembly, so that the protective cover is driven to rotate, and the cleaning assembly can clean the dust on the outer side of the protective cover when the cleaning assembly and the protective cover move relatively due to the fact that the cleaning assembly is attached to the protective cover;

2. when the protective cover is cleaned by the cleaning piece, the dust collection cylinder can be adjusted to enable the height of the dust collection hopper to be the same as that of the protective cover, then the dust collection box is started to enable the dust collection box to suck air through the dust collection pipe and the dust collection hopper, when the protective cover is cleaned by the cleaning piece, a part of dust can float around the protective cover, the dust around the protective cover is sucked away through the dust collection hopper, and the phenomenon that the dust is adhered to the outer side of the protective cover again is reduced;

3. due to the arrangement of the reflector, the camera can shoot dead angle positions at the back of the camera, and therefore the practicability of the monitoring equipment is improved.

Drawings

FIG. 1 is a schematic illustration of the present application;

figure 2 is a schematic view of the cleaning assembly of the present application.

Description of reference numerals: 1. a base; 11. rotating the motor; 12. a rotating gear; 13. rotating the gear ring; 2. a vertical rod; 21. a rectangular hole; 211. a counterweight sleeve; 212. a swing cylinder; 3. a swing lever; 301. a rotating electric machine; 302. a rotating gear; 303. rotating the gear ring; 4. a mounting seat; 401. a horizontal adjusting cylinder; 402. a vertical adjustment cylinder; 41. moving the hole; 411. a horizontal sleeve; 412. a horizontal bar; 413. a cleaning member; 414. cleaning the spring; 421. a dust collection cylinder; 422. a dust collection box; 423. a dust collection pipe; 424. a dust suction hopper; 4220. a reflective mirror; 4221. connecting a motor; 4222. a connecting shaft; 5. monitoring equipment; 51. a protective cover.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses environmental monitoring device for construction. Referring to fig. 1, an environmental monitoring device for construction, including supporting mechanism and monitoring facilities 5, monitoring facilities 5 installs on supporting mechanism, supporting mechanism includes base 1, vertical pole 2, swinging arms 3, mount pad 4 and monitoring facilities 5, vertical pole 2 rotates to be connected in base 1 top, vertical pole 2 is vertical setting, the swing subassembly is installed in the 2 outsides of vertical pole, connect through the swing subassembly between swinging arms 3 and the

vertical pole

2, 4 fixed mounting of mount pad are in 3 bottoms of swinging arms, monitoring facilities 5 rotates through the bearing and connects in mount pad 4 bottoms, and monitoring facilities 5 installs the bottom and is hemispherical safety cover 51.

Adjustment mechanism is installed to mount pad 4 bottom, and mount pad 4 is connected with clean subassembly through adjustment mechanism, and rotating assembly is installed to mount pad 4 bottom, and rotating assembly is used for driving monitoring facilities 5 to rotate, and just clean subassembly and the laminating of safety cover 51 outside. The monitoring device 5 is driven to rotate by the rotating component, so that relative motion is generated between the protective cover 51 and the monitoring device 5, and dust on the outer side of the protective cover 51 is cleaned by the cleaning component.

The rotating assembly comprises a rotating motor 301, a rotating gear 302 and a rotating gear ring 303, the rotating motor 301 is vertically installed at the bottom of the installation seat 4, the rotating gear 302 is connected to an output shaft of the rotating motor 301 in a key mode, the rotating gear ring 303 is circumferentially fixed to the outer side of the monitoring device 5, and the rotating gear 302 is meshed with the rotating gear ring 303. When the monitoring device 5 needs to be driven to rotate, the rotating motor 301 is started, and an output shaft of the rotating motor 301 drives the rotating gear ring 303 to rotate through the rotating gear 302, so that the monitoring device 5 is driven to rotate.

Adjustment mechanism includes horizontal adjustment cylinder 401 and vertical adjustment cylinder 402, horizontal adjustment cylinder 401 horizontal installation is at 4 tops of mount pad, vertical adjustment cylinder 402 is vertical to be installed in horizontal adjustment cylinder 401 output, the piston rod of vertical adjustment cylinder 402 is down, mount pad 4 is seted up and is supplied the removal hole 41 that vertical adjustment cylinder 402 passed, the length direction in removal hole 41 is parallel with horizontal adjustment cylinder 401's length direction, vertical adjustment cylinder 402 piston rod stretches out the 4 bottoms of mount pad through removing hole 41, and clean subassembly installation is in vertical adjustment cylinder 402 piston rod tip.

Referring to fig. 1 and 2, the cleaning assembly includes a horizontal sleeve 411, a horizontal rod 412, a cleaning member 413 and a cleaning spring 414, the horizontal sleeve 411 is horizontally installed at the bottom of the piston rod of the vertical adjusting cylinder 402, one end of the horizontal sleeve 411 far away from the vertical adjusting cylinder 402 is in an open setting, the horizontal rod 412 is slidably arranged at one end of the horizontal sleeve 411 far away from the vertical adjusting cylinder 402, the cleaning spring 414 is installed inside the horizontal sleeve 411, two opposite ends of the cleaning spring 414 are respectively connected with the horizontal sleeve 411 and the horizontal rod 412, in addition, the cleaning member 413 is fixedly connected at one end of the horizontal rod 412 far away from the horizontal sleeve 411, the cleaning member 413 is in an arc setting, one end of the cleaning member 413 far away from the horizontal rod 412 is attached to a corresponding position outside the protective cover 51, and the cleaning member 413 is made of a sponge material and has certain elasticity.

When dust on the surface of the protection cover 51 needs to be cleaned by using the cleaning assembly, the horizontal adjusting cylinder 401 and the vertical adjusting cylinder 402 are adjusted to enable the cleaning piece 413 to be attached to the protection cover 51, the cleaning spring 414 is compressed, the cleaning spring 414 can push the horizontal rod 412 towards the direction close to the protection cover 51, the cleaning piece 413 can be abutted to the outer side of the protection cover 51 with certain force, and then the monitoring device 5 is driven to rotate through the rotating assembly, so that the cleaning piece 413 can clean dust on the outer side of the protection cover 51. Use monitoring facilities 5 to monitor construction environment around as needs, for making clean subassembly can not obstruct monitoring facilities 5's monitoring, successively adjust horizontal adjustment cylinder 401 and vertical adjustment cylinder 402, make cleaner 413 be located the top of safety cover 51 for cleaner 413 is difficult for sheltering from the camera in the safety cover 51.

Referring to fig. 1, the dust collection assembly includes a dust collection cylinder 421, a dust collection box 422, a dust collection pipe 423 and a dust collection bucket 424, the dust collection cylinder 421 is vertically installed at the top of the installation seat 4, the dust collection cylinder 421 is located on one side of the horizontal adjustment cylinder 401, a piston rod of the dust collection cylinder 421 penetrates through the installation seat 4 and extends out of the bottom of the installation seat 4, the dust collection box 422 is fixedly installed at the bottom of the piston rod of the dust collection cylinder 421, the dust collection pipe 423 is communicated with the dust collection box 422, the dust collection bucket 424 is communicated with one end of the dust collection pipe 423 away from the dust collection box 422, an air inlet of the dust collection bucket 424 faces towards the protection cover 51, and the dust collection bucket 424 and the cleaning piece 413 are respectively located on two opposite sides of the protection cover 51.

When the cleaning member 413 cleans the protective cover 51, the dust suction cylinder 421 can be adjusted to make the height of the dust suction bucket 424 equal to that of the protective cover 51, then the dust suction box 422 is started to make the dust suction box 422 suck air through the dust suction pipe 423 and the dust suction bucket 424, when the cleaning member 413 cleans the protective cover 51, a part of dust can float around the protective cover 51, the dust around the protective cover 51 is sucked through the dust suction bucket 424, and the phenomenon that the dust is adhered to the outer side of the protective cover 51 again is reduced. In addition, even when the cleaning member 413 is not used, dust in the surrounding environment can be sucked by the dust hopper 424, so that the influence of the dust on constructors is reduced, and the influence of the dust on the surrounding environment is reduced.

Coupling assembling is installed to suction box 422 bottom, and suction box 422 installs reflector 4220 through coupling assembling, and coupling assembling is including connecting motor 4221 and connecting axle 4222, and suction box 422 bottom is installed two and is placed the seat, and connecting axle 4222 is installed in suction box 422 bottom through two seat rotations of placing, connects motor 4221 fixed connection in suction box 422 bottom, and connects motor 4221 output and connecting axle 4222 one end fixed connection, in addition, reflector 4220 fixed mounting is in the outside of connecting axle 4222.

The connecting motor 4221 is started, the output end of the connecting motor 4221 drives the reflector 4220 to rotate through the connecting shaft 4222, the reflector 4220 faces the protective cover 51, and when the monitoring device 5 rotates to the position, inside the monitoring device, of the camera to face the reflector 4220, due to the arrangement of the reflector 4220, the camera can shoot dead angle positions on the back face of the camera, and therefore the practicability of the monitoring device 5 is improved.

When the reflective mirror 4220 is not needed to be used, the reflective mirror 4220 can be attached to the bottom of the dust collection box 422 through the same distance, in order to reduce the phenomenon that the reflective mirror 4220 is damaged due to overlarge attaching force, a cushion pad is horizontally bonded to the bottom of the dust collection box 422, the reflective mirror 4220 can rotate to be attached to the bottom of the cushion pad, the cushion pad is made of a rubber material and has certain elasticity, and the cushion pad can buffer the reflective mirror 4220.

Rectangular hole 21 has been seted up in the 2 outsides of vertical pole, and rectangular hole 21 runs through the both sides that vertical pole 2 is relative, and rectangular hole 21 inner wall horizontal installation has the articulated shaft, and swing lever 3 passes rectangular hole 21, and the articulated shaft runs through swing lever 3, rotates through the articulated shaft between swing lever 3 and the vertical pole 2 and is connected, and installs the swing subassembly between vertical pole 2 and the swing lever 3. The swing assembly comprises a balance weight sleeve 211 and a swing cylinder 212, the balance weight sleeve 211 is fixedly sleeved on the outer side of the swing rod 3, and the balance weight sleeve 211 is located at one end, far away from the mounting seat 4, of the swing rod 3. The swing cylinder 212 is installed between the weight sleeve 211 and the vertical rod 2, and opposite ends of the swing cylinder 212 are hinged to the weight sleeve 211 and the vertical rod 2, respectively.

When the monitoring angle of the monitoring device 5 needs to be adjusted, the swing cylinder 212 is started, the inclination angle of the swing rod 3 can be adjusted, and therefore the monitoring angle of the monitoring device 5 can be adjusted. In addition, after the inclination angle of the swing lever 3 is adjusted, the relative height between the mirror 4220 and the monitoring device 5 can also be adjusted, so that the angle of the image reflected by the mirror 4220 to the monitoring device 5 can be adjusted, and the shooting range can be increased.

In order to improve monitoring facilities 5's monitoring range, install the runner assembly on base 1, the runner assembly includes rotating motor 11, rotating gear 12 and rotation ring gear 13, rotates motor 11 fixed mounting in base 1 top, rotates 13 keys of ring gear and is connected in rotating motor 11 output shafts, rotates the fixed cover of ring gear 13 and locates the 2 outsides of vertical pole, and rotates ring gear 13 and rotating gear 12 meshing. The rotating motor 11 is started, and the rotating motor 11 drives the vertical rod 2 to rotate through the rotating gear 12 and the rotating gear ring 13, so that the angle of the monitoring device 5 can be adjusted.

The implementation principle of the environment monitoring device for building construction in the embodiment of the application is as follows: arrange the device in around the construction environment, monitor the surrounding environment through monitoring facilities 5, during the monitoring, accessible rotating assembly drive vertical pole 2 rotates, can adjust the orientation of swinging arms 3 to adjust monitoring facilities 5's position, thereby improve monitoring facilities 5's monitoring range. When a certain amount of dust adheres to the surface of the protective cover 51, the horizontal adjusting cylinder 401 and the vertical adjusting cylinder 402 are adjusted to enable the cleaning piece 413 to be attached to the protective cover 51, the cleaning spring 414 is compressed, the cleaning spring 414 can push the horizontal rod 412 towards the direction close to the protective cover 51, the cleaning piece 413 can be abutted to the outer side of the protective cover 51 with a certain force, and then the monitoring device 5 is driven to rotate through the rotating assembly, so that the cleaning piece 413 can clean the dust on the outer side of the protective cover 51. When the cleaning member 413 cleans the protective cover 51, the dust suction cylinder 421 can be adjusted to make the height of the dust suction bucket 424 equal to that of the protective cover 51, then the dust suction box 422 is started to make the dust suction box 422 suck air through the dust suction pipe 423 and the dust suction bucket 424, when the cleaning member 413 cleans the protective cover 51, a part of dust can float around the protective cover 51, the dust around the protective cover 51 is sucked through the dust suction bucket 424, and the phenomenon that the dust is adhered to the outer side of the protective cover 51 again is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an environmental monitoring device for construction which characterized in that: including supporting mechanism with set up in monitoring facilities (5) on the supporting mechanism, supporting mechanism include base (1), set up in vertical pole (2) on base (1), through swing assembly set up in swing lever (3) on vertical pole (2) and set up in mount pad (4) of swing lever (3), monitoring facilities (5) rotate to be connected in mount pad (4) bottom, monitoring facilities (5) are provided with safety cover (51), mount pad (4) are provided with the clean subassembly of laminating with safety cover (51) through adjustment mechanism, mount pad (4) are provided with and are used for driving monitoring facilities (5) pivoted rotating assembly, mount pad (4) are provided with the dust absorption subassembly that is used for absorbing dust around safety cover (51).

2. The environmental monitoring device for building construction according to claim 1, characterized in that: the adjusting mechanism comprises a horizontal adjusting cylinder (401) arranged on the mounting base (4) and a vertical adjusting cylinder (402) arranged at the piston rod of the horizontal adjusting cylinder (401), and the cleaning assembly is arranged at the piston rod of the vertical adjusting cylinder (402).

3. The environmental monitoring device for building construction according to claim 2, characterized in that: the cleaning assembly comprises a horizontal sleeve (411) arranged at a piston rod of the vertical adjusting cylinder (402), a horizontal rod (412) arranged inside the horizontal sleeve (411) in a sliding mode, a cleaning piece (413) arranged at one end, close to the protective cover (51), of the horizontal rod (412) and a cleaning spring (414) arranged between the horizontal rod (412) and the horizontal sleeve (411), and the cleaning piece (413) is attached to the protective cover (51).

4. The environmental monitoring device for building construction according to claim 1, characterized in that: the rotating assembly comprises a rotating motor (301) arranged on the mounting seat (4), a rotating gear (302) arranged at the output end of the rotating motor (301) and a rotating gear ring (303) circumferentially arranged on the outer side of the monitoring device (5), and the rotating gear (302) is meshed with the rotating gear ring (303).

5. The environmental monitoring device for building construction according to claim 3, characterized in that: dust collection assembly including set up in dust absorption cylinder (421), the setting in at mount pad (4) top dust absorption cylinder (421) piston rod bottom suction box (422), with dust absorption pipe (423) of suction box (422) intercommunication and set up in dust absorption pipe (423) keep away from dust absorption fill (424) of suction box (422) one end, the air inlet of dust absorption fill (424) is towards safety cover (51), dust absorption fill (424) and cleaning piece (413) are located the both sides that safety cover (51) is relative respectively.

6. The environmental monitoring device for building construction according to claim 5, characterized in that: be provided with on base (1) and be used for driving vertical pole (2) pivoted runner assembly, runner assembly including set up in rotation motor (11) on base (1), set up in rotating gear (12) of motor (11) output and set up in vertical pole (2) outside and with rotating gear (12) meshing's rotation ring gear (13), vertical pole (2) are connected with base (1) rotation.

7. The environmental monitoring device for building construction according to claim 1, characterized in that: be provided with the swing subassembly between vertical pole (2) and swinging arms (3), vertical pole (2) rotate with swinging arms (3) and are connected, the swing subassembly is located including the cover counterweight sleeve (211) in the swinging arms (3) outside and articulate in swing cylinder (212) between counterweight sleeve (211) and vertical pole (2).

8. The environmental monitoring device for building construction according to claim 7, characterized in that: the dust collection box (422) is provided with a reflector (4220) through a connecting assembly, and the reflector (4220) faces the protective cover (51).

9. The environmental monitoring device for building construction according to claim 8, wherein: coupling assembling including set up in connection motor (4221) and set up in connection motor (4221) output of dust collection box (422) bottom connecting axle (4222), connecting axle (4222) rotate to be connected in dust collection box (422) bottom, reflector (4220) one end is connected with connecting axle (4222).

10. The environmental monitoring device for building construction according to claim 9, characterized in that: a cushion pad is arranged at the bottom of the dust collection box (422) corresponding to the position of the reflector (4220).