CN217240750U - Unmanned aerial vehicle monitoring device for on-site construction progress - Google Patents

Abstract

The utility model relates to a site operation control technical field specifically indicates a site operation progress unmanned aerial vehicle monitoring device. Including unmanned aerial vehicle body and control subassembly, the control subassembly includes carriage and angle adjusting part, angle adjusting part includes the motor, there is the bull stick output shaft one end of motor, there is the vortex cover on the bull stick, there is the turbine at the top in the carriage, there is the connecting rod turbine bottom, there is pole one on the connecting rod, there is fly leaf one side pole one end, the fly leaf opposite side has two one ends of pole, the two other ends of pole have the carousel, there is the dead lever in the carriage, through connecting axle four connection between dead lever and the pole two, the carousel passes through bearing two and the carriage in the bottom be connected, there are two fixed subassemblies and supervisory equipment at the carousel top, fixed subassembly includes riser and L type slider, there is the threaded rod L type slider one side. The utility model discloses a convenient removal is provided, the angle of the regulation supervisory equipment of being convenient for, conveniently dismantles supervisory equipment, carries out the site operation progress unmanned aerial vehicle monitoring device who overhauls to it.

Description

Unmanned aerial vehicle monitoring device for on-site construction progress

Technical Field

The utility model relates to a site operation control technical field specifically indicates a site operation progress unmanned aerial vehicle monitoring device.

Background

The construction project supervision work is work with strong technical requirements, large workload and strict responsibility requirements, various procedures on a construction site are various, and important procedures and general procedures or construction processes need to be supervised to ensure the quality of construction projects.

The construction environment condition is complex and the quality of construction workers is different, so that the management of construction site supervision is very important, the general construction supervision depends on the inspection of managers, the supervision efficiency is low, and the labor cost is increased.

The supervisory equipment of common supplementary control all fixes the inconvenient regulation of angle on a certain position, can appear the dead angle during consequently control, can cause constructor lazy phenomenon, and supervisory equipment is also inconvenient dismantlement to get off the maintenance if need repair simultaneously.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a convenient removal, the angle of the regulation supervisory equipment of being convenient for, the convenient supervisory equipment of dismantling, the site operation progress unmanned aerial vehicle monitoring device who overhauls it.

The utility model discloses the technical scheme who adopts does: the utility model provides a site operation progress unmanned aerial vehicle monitoring device which characterized in that: the monitoring assembly comprises a connecting frame arranged at the bottom of the unmanned aerial vehicle body and an angle adjusting assembly arranged in the connecting frame, the angle adjusting assembly comprises a motor arranged in the connecting frame, one end of an output shaft of the motor is connected with a rotating rod, a vortex sleeve is sleeved on the rotating rod, a turbine is connected at the top of the connecting frame through a connecting shaft, the vortex sleeve is meshed with the turbine and is connected with the bottom of the turbine, a connecting rod is connected at the bottom of the turbine, a first rod is sleeved on the connecting rod, one end of the first rod is connected with one side of a movable plate, the other side of the movable plate is connected with one end of a second rod, the other end of the second rod is connected with a rotary table, a fixed rod is arranged in the connecting frame and is connected with the second rod through a fourth connecting shaft, the rotary table is connected with the bottom of the connecting frame through a second bearing, and two fixing assemblies and monitoring equipment are arranged at the top of the rotary table, the fixed component comprises a vertical plate and an L-shaped sliding block, wherein the vertical plate and the L-shaped sliding block are arranged at the top of the rotary table, and a threaded rod penetrating through the vertical plate is arranged on one side of the L-shaped sliding block.

One side of the motor is connected with one side inside the connecting frame, and one end of the rotating rod is connected with the other side inside the connecting frame through a bearing I.

One end of the first rod is connected with one side of the movable plate through a second connecting shaft, the other side of the movable plate is connected with one end of the second rod through a third connecting shaft, and the other end of the second rod is connected with the rotary table through a fifth connecting shaft.

The monitoring device is arranged between the two fixed components.

The L-shaped sliding block is connected with the rotary table in a sliding mode, and a sliding groove for the L-shaped sliding block to slide is formed in the rotary table.

And the vertical plate is provided with a threaded hole for the threaded rod to penetrate through.

And one end of the threaded rod, which is far away from the L-shaped sliding block, is provided with a handle.

The utility model discloses beneficial effect:

the utility model has simple integral structure. According to the field construction progress unmanned aerial vehicle monitoring device, the monitoring assembly can be conveniently moved through the arrangement of the unmanned aerial vehicle body, so that the field construction progress can be monitored; through the arrangement of the angle adjusting assembly, the angle of the monitoring equipment can be adjusted during monitoring, so that the site construction progress can be monitored in an all-round manner; through the setting of fixed subassembly, the monitoring equipment of convenient dismantlement installation, the monitoring equipment of convenient to overhaul.

Drawings

Fig. 1 is the utility model relates to a site operation progress unmanned aerial vehicle monitoring device's overall structure schematic diagram.

Fig. 2 is the utility model discloses a site operation progress unmanned aerial vehicle monitoring device's connection frame, angle modulation subassembly, fixed subassembly connection structure sketch map

In the drawings:

1. an unmanned aerial vehicle body; 2. a connecting frame; 3. an angle adjustment assembly; 4. a fixing assembly; 5. monitoring equipment; 3.1, a motor; 3.2, rotating the rod; 3.3, a vortex sleeve; 3.4, a turbine; 3.5, a first rod; 3.6, a movable plate; 3.7, a second rod; 3.8, a turntable; 3.9, fixing a rod; 4.1, erecting a plate; 4.2, an L-shaped sliding block; 4.3, threaded rod.

Detailed Description

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

In order to solve the convenient removal, be convenient for adjust supervisory equipment's angle, conveniently dismantle supervisory equipment, overhaul it, the utility model provides a site operation progress unmanned aerial vehicle monitoring device as shown in the figure, its characterized in that: comprises an unmanned aerial vehicle body 1 and a monitoring component, wherein the monitoring component comprises a connecting frame 2 arranged at the bottom of the unmanned aerial vehicle body 1 and an angle adjusting component 3 arranged in the connecting frame 2, the angle adjusting component 3 comprises a motor 3.1 arranged in the connecting frame 2, one end of an output shaft of the motor 3.1 is connected with a rotating rod 3.2, a vortex sleeve 3.3 is sleeved on the rotating rod 3.2, the top of the inside of the connecting frame 2 is connected with a turbine 3.4 through a connecting shaft, the vortex sleeve 3.3 is meshed with the turbine 3.4 to be connected, the bottom of the turbine 3.4 is connected with a connecting rod, a first rod 3.5 is sleeved on the connecting rod, one end of the first rod 3.5 is connected with one side of a movable plate 3.6, the other side of the movable plate 3.6 is connected with one end of a second rod 3.7, the other end of the second rod 3.7 is connected with a rotary plate 3.8, a fixing rod 3.9 is arranged in the connecting frame 2, and the fixing rod 3.9 is connected with the second rod 3.7 through a connecting shaft, carousel 3.8 is connected through the bottom in bearing two and the link frame 2, carousel 3.8 top is equipped with two fixed subassemblies 4 and supervisory equipment 5, fixed subassembly 4 is including setting up riser 4.1 and the L type slider 4.2 at carousel 3.8 top, L type slider 4.2 one side is equipped with the threaded rod 4.3 that runs through riser 4.1.

The utility model discloses in one side of motor 3.1 is connected with 2 inside one sides of linking frame, be connected through bearing one between the one end of bull stick 3.2 and the 2 inside opposite sides of linking frame.

The utility model discloses in be connected through connecting axle two between the one end of pole one 3.5 and the fly leaf 3.6 one side, be connected through connecting axle three between the fly leaf 3.6 opposite side and the two 3.7 one ends of pole, be connected through connecting axle five between the two 3.7 other ends of pole and the carousel 3.8.

The utility model discloses in supervisory equipment 5 sets up between two fixed subassemblies 4.

The utility model discloses in L type slider 4.2 and carousel 3.8 sliding connection, be equipped with on the carousel 3.8 and supply the gliding spout of L type slider 4.2.

The utility model discloses in be equipped with the screw hole that supplies threaded rod 4.3 to run through on the riser 4.1.

The utility model discloses in threaded rod 4.3 keeps away from L type slider 4.2 one end and is equipped with the handle.

The unmanned aerial vehicle monitoring device for the field construction progress is characterized in that if the field construction needs to be monitored, the unmanned aerial vehicle body 1 can drive the monitoring assembly to move, so that the device can move, the field construction can be monitored in multiple directions, if a dead angle exists during monitoring, the angle of the monitoring equipment 5 can be adjusted through the unmanned aerial vehicle body 1 and the angle adjusting assembly 3, the rotating rod 3.2 is driven to rotate by starting the motor 3.1, the vortex sleeve 3.3 also rotates, and the vortex sleeve 3.3 is meshed with the turbine 3.4, so that the turbine 3.4 is driven to rotate, the connecting rod rotates around the connecting shaft one, the rod one 3.5 also rotates, the movable plate 3.6 is driven to move, the rod two 3.7 rotates around the connecting shaft four, the rotary plate 3.8 is driven to rotate, and the angle of the monitoring equipment 5 is adjusted; if need overhaul supervisory equipment 5, the handle of accessible rotatory fixed subassembly 4 to drive threaded rod 4.3 rotatory, because threaded rod 4.3 and screw hole screw thread swivelling joint, make L type slider 4.2 slide on carousel 3.8, thereby separate with supervisory equipment 5, then can take out supervisory equipment 5 from carousel 3.8.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (7)

1. The utility model provides a field construction progress unmanned aerial vehicle monitoring device which characterized in that: comprises an unmanned aerial vehicle body (1) and a monitoring component, wherein the monitoring component comprises a connecting frame (2) arranged at the bottom of the unmanned aerial vehicle body (1) and an angle adjusting component (3) arranged in the connecting frame (2), the angle adjusting component (3) comprises a motor (3.1) arranged in the connecting frame (2), one end of an output shaft of the motor (3.1) is connected with a rotating rod (3.2), a vortex sleeve (3.3) is sleeved on the rotating rod (3.2), the top of the inside of the connecting frame (2) is connected with a turbine (3.4) through a connecting shaft, the vortex sleeve (3.3) is meshed with the turbine (3.4) and is connected with a connecting rod, a first rod (3.5) is sleeved on the connecting rod, one end of the first rod (3.5) is connected with one side of a movable plate (3.6), the other side of the movable plate (3.6) is connected with one end of a second rod (3.7), and the other end of the second rod (3.7) is connected with a rotary plate (3.8), be equipped with dead lever (3.9) in linking frame (2), be connected through the connecting axle four between dead lever (3.9) and the pole two (3.7), carousel (3.8) are connected through bearing two and linking frame (2) bottom, carousel (3.8) top is equipped with two fixed subassembly (4) and supervisory equipment (5), fixed subassembly (4) are including setting up riser (4.1) and L type slider (4.2) at carousel (3.8) top, L type slider (4.2) one side is equipped with threaded rod (4.3) that run through riser (4.1).

2. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: one side of the motor (3.1) is connected with one side inside the connecting frame (2), and one end of the rotating rod (3.2) is connected with the other side inside the connecting frame (2) through a bearing I.

3. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: one end of the first rod (3.5) is connected with one side of the second movable plate (3.6) through a second connecting shaft, the other side of the second movable plate (3.6) is connected with one end of the second rod (3.7) through a third connecting shaft, and the other end of the second rod (3.7) is connected with the turntable (3.8) through a fifth connecting shaft.

4. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: the monitoring device (5) is arranged between the two fixing assemblies (4).

5. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: l type slider (4.2) and carousel (3.8) sliding connection, be equipped with on carousel (3.8) and supply the gliding spout of L type slider (4.2).

6. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: and a threaded hole for the threaded rod (4.3) to penetrate through is formed in the vertical plate (4.1).

7. The unmanned aerial vehicle monitoring device of on-site construction progress of claim 1, characterized in that: and a handle is arranged at one end, far away from the L-shaped sliding block (4.2), of the threaded rod (4.3).

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