CN218022177U - Atmospheric quality monitoring device based on unmanned aerial vehicle - Google Patents

Abstract

The utility model discloses an atmospheric quality monitoring devices based on unmanned aerial vehicle belongs to unmanned aerial vehicle atmospheric quality monitoring technology field, the device includes unmanned aerial vehicle assembly and support assembly, the support assembly assemble in the bottom of unmanned aerial vehicle assembly, when installation atmospheric quality monitoring, the catching groove of withholding both sides riser bottom rotates outwards with the hand, make the first support in both sides outwards expand and be the L type, diaphragm in the first support in both sides contacts each other, pass through both sides slider lapse and compression spring with the second support in both sides, rotate outwards to expand the storage plate through the third pivot, and through the length that the board was stretched in the adjustment of the spacing post of elasticity, place detection device on the diaphragm in both sides and make both sides second support push down monitoring devices's upper end and fix, can make the support assembly expand when using, accomodate the inside of returning the inslot and block when not using, make life higher.

Description

Atmospheric quality monitoring device based on unmanned aerial vehicle

Technical Field

The utility model belongs to the technical field of unmanned aerial vehicle atmospheric quality monitoring, specifically speaking relates to an atmospheric quality monitoring devices based on unmanned aerial vehicle.

Background

With the development of industrialization, people need to effectively prevent and treat air pollution in living environments. In the process of preventing and controlling atmospheric pollution, the monitoring of atmospheric quality is of great importance, however, the traditional monitoring device is influenced by terrain and space, and the effective monitoring of medium-low-altitude atmosphere cannot be met. Therefore, the prior art provides an atmospheric quality monitoring device based on the unmanned aerial vehicle by combining the unmanned aerial vehicle.

The installation atmospheric quality monitoring device is installed through supports such as bolts and the like and the bottom of the unmanned aerial vehicle mostly on the existing unmanned aerial vehicle, and the installation mode needs frequent dismantlement installing support, and the long-time dismantlement installation can increase the risk of unmanned aerial vehicle damage.

SUMMERY OF THE UTILITY MODEL

Install the atmospheric quality monitoring device mostly through supports such as bolts and unmanned aerial vehicle bottom to current unmanned aerial vehicle, this kind of mounting means needs frequent dismantlement installing support, and long-time dismantlement installation can increase the problem of the risk of unmanned aerial vehicle damage, the utility model provides an atmospheric quality monitoring device based on unmanned aerial vehicle, the device include unmanned aerial vehicle assembly and support assembly, support assembly assemble in the bottom of unmanned aerial vehicle assembly, this subassembly cooperation is used the life that can effectual increase equipment.

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model provides an atmospheric quality monitoring devices based on unmanned aerial vehicle, includes unmanned aerial vehicle assembly and support assembly, the bottom of support assembly at unmanned aerial vehicle assembly.

Preferably, the unmanned aerial vehicle assembly comprises a body, propellers are assembled at four corners of the body, and an inner groove is formed in the bottom of the body; through the inner groove for mounting the bracket assembly.

Preferably, the bracket assembly comprises a first bracket and a second bracket which are symmetrical, and the second bracket is symmetrically and slidably connected with the inner wall between the first brackets on two sides; can hold in the palm the end to monitoring devices through first support, can carry on spacingly to monitoring devices's top through the second support, can accomodate the inside that gets into the inner groovy through first support and second support.

Preferably, the first support comprises a vertical plate, the top of the vertical plate is fixedly connected with a first rotating shaft, one side of the vertical plate is provided with a concave groove, the inside of the concave groove is provided with mounting grooves which are symmetrical front and back, one side of the vertical plate close to the bottom of the concave groove is rotatably connected with a second rotating shaft, the outer wall of the second rotating shaft is fixedly connected with a transverse plate, and the bottom of the transverse plate is provided with a fastening groove; rotate through the inside both sides of first pivot and inner groovy and be connected, make the diaphragm accomodate into the inside in concave groove through the second pivot, be used for installing the second support through the mounting groove.

Preferably, the second support comprises a plate body, one side of the plate body is fixedly connected with symmetrical sliding blocks, the bottoms of the sliding blocks on two sides are provided with insertion holes, the tops of the sliding blocks on two sides are fixedly connected with springs, one side of the bottom of the plate body, which is far away from the sliding blocks, is provided with an accommodating groove, the inside of the accommodating groove, which is close to one side, is rotatably connected with a third rotating shaft, the outer wall of the third rotating shaft is fixedly connected with an accommodating plate, the accommodating plate is hollow, the front side and the rear side of the accommodating plate are provided with a plurality of limiting holes, the inside of the accommodating plate is slidably connected with an extending plate, the front side and the rear side of the extending plate are elastically connected with symmetrical elastic limiting columns, and the elastic limiting columns penetrate out of the limiting holes; through the inside of slider insertion mounting groove, through the jack cover at the outer wall of traveller, make the storage plate rotate through the third pivot and accomodate the inside of accomodating the groove, can adjust the length of stretching the board through pressing down the spacing post of elasticity.

Preferably, the slider insert the inside of mounting groove, jack and spring housing are in the outer wall of traveller, and first pivot is connected with the inside both sides rotation of inner groovy.

Advantageous effects

Compared with the prior art, the beneficial effects of the utility model are that:

(1) The utility model discloses in, when installation atmospheric quality monitoring, the catching groove that withholds both sides riser bottom rotates outwards with the hand, make the first support in both sides outwards expand and be the L type, diaphragm on the first support in both sides contacts each other, pass through both sides slider lapse and compression spring with the second support in both sides, rotate outwards through the third pivot and expand the storage plate, and stretch the length of board through the spacing post adjustment of elasticity, place detection device on the diaphragm of both sides and make the second support in both sides push down monitoring devices's upper end and fix, can make the support assembly expand when using, accomodate the inside of returning the inner groovy and block when not using, make life higher.

(2) The utility model discloses in, when accomodating, will stretch the inside of board withdrawal storage plate, and rotate the storage plate and accomodate the inside of accomodating the groove, rotate the both sides diaphragm through the second pivot to concave groove department and accomodate, and raise the second support, make the plate body compress tightly downwards through the elasticity of spring, with the diaphragm chucking in the inside of concave groove, rotate the inside of the inside inner groovy of the first support in both sides through first pivot, make the first mutual chucking of support in both sides, it is more convenient to use.

Drawings

Fig. 1 is a schematic structural view of an air quality monitoring device based on an unmanned aerial vehicle according to the present invention;

fig. 2 is a schematic diagram of the structure of the unmanned aerial vehicle assembly of the present invention;

FIG. 3 is a schematic view of the structure of the middle support assembly of the present invention;

FIG. 4 is a schematic view of a first bracket structure of the present invention;

fig. 5 is a schematic view of a second bracket structure of the present invention.

The corresponding relationship between the reference numbers of the figures and the names of the components in the figures is as follows:

1. an unmanned aerial vehicle assembly; 11. a body; 12. a propeller; 13. an inner groove;

2. a bracket assembly; 21. a first bracket; 211. a vertical plate; 212. a concave groove; 213. mounting grooves; 214. a traveler;

215. a first rotating shaft; 216. a second rotating shaft; 217. a transverse plate; 22. a second bracket; 221. a plate body; 222. a spring;

223. a slider; 224. a jack; 225. a receiving groove; 226. a storage plate; 227. a limiting hole; 228. an elastic limit column;

229. extending the plate; 2210. and a third rotating shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Example 1

As shown in fig. 1, it is the utility model discloses an air quality monitoring devices structure sketch map based on unmanned aerial vehicle of preferred embodiment, an air quality monitoring devices based on unmanned aerial vehicle of this embodiment, including unmanned aerial vehicle assembly 1 and support assembly 2, support assembly 2 assemble in the bottom of unmanned aerial vehicle assembly 1.

As shown in fig. 2, which is a schematic structural view of the unmanned aerial vehicle assembly of the present invention, the unmanned aerial vehicle assembly 1 includes a body 11, propellers 12 are assembled at four corners of the body 11, and an inner groove 13 is formed at the bottom of the body 11; through the inner recess 13 for mounting the bracket assembly 2.

As shown in fig. 3, which is a schematic structural view of the middle bracket assembly of the present invention, the bracket assembly 2 includes a first bracket 21 and a second bracket 22 that are symmetrical, and the second bracket 22 is symmetrically and slidably connected to an inner wall between the first brackets 21 at two sides; can hold in the palm the end to monitoring devices through first support 21, can carry on spacingly to monitoring devices's top through second support 22, can accomodate the inside that gets into inner groovy 13 through first support 21 and second support 22.

As shown in fig. 4, which is a schematic view of a first support structure of the present invention, the first support 21 includes a vertical plate 211, a first rotating shaft 215 is fixedly connected to the top of the vertical plate 211, a concave groove 212 is formed on one side of the vertical plate 211, a front-back symmetrical mounting groove 213 is formed inside the concave groove 212, a second rotating shaft 216 is rotatably connected to one side of the vertical plate 211 close to the bottom of the concave groove 212, a horizontal plate 217 is fixedly connected to the outer wall of the second rotating shaft 216, and a fastening groove is formed at the bottom of the horizontal plate 217; the first rotating shaft 215 is rotatably connected with both sides of the inner groove 13, and the second rotating shaft 216 allows the transverse plate 217 to be received in the inner groove 212, and is used for mounting the second bracket 22 through the mounting groove 213.

As shown in fig. 5, which is a schematic structural diagram of the second bracket of the present invention, the second bracket 22 includes a plate body 221, one side of the plate body 221 is fixedly connected with a symmetrical sliding block 223, the bottom of the sliding block 223 on both sides is provided with a jack 224, the top of the sliding block 223 on both sides is fixedly connected with a spring 222, one side of the bottom of the plate body 221, which is far away from the sliding block 223, is provided with a storage groove 225, the interior of the storage groove 225, which is near one side, is rotatably connected with a third rotating shaft 2210, the outer wall of the third rotating shaft 2210 is fixedly connected with a storage plate 226, the storage plate 226 is hollow, the front side and the rear side of the storage plate 226 are provided with a plurality of limiting holes 227, the interior of the storage plate 226 is slidably connected with a stretching plate 229, the front side and the rear side of the stretching plate 229 are elastically connected with symmetrical elastic limiting posts 228, and the elastic limiting posts 228 penetrate through the limiting holes 227; the slide block 223 is inserted into the mounting groove 213, the insertion hole 224 is sleeved on the outer wall of the sliding column 214, the receiving plate 226 is rotated by the third rotating shaft 2210 to be received into the receiving groove 225, and the length of the extending plate 229 can be adjusted by pressing the elastic limiting column 228.

The sliding block 223 is inserted into the mounting groove 213, the insertion hole 224 and the spring 222 are sleeved on the outer wall of the sliding column 214, and the first rotating shaft 215 is rotatably connected with two sides inside the inner groove 13.

The working principle is as follows: when the atmospheric quality monitoring device is installed, the fastening grooves at the bottoms of the vertical plates 211 at two sides are buckled by hands to rotate outwards, so that the first supports 21 at two sides are unfolded outwards to form an L shape, the transverse plates 217 on the first supports 21 at two sides are contacted with each other, the second supports 22 at two sides slide upwards through the sliding blocks 223 at two sides and compress the springs 222, the storage plates 226 are unfolded outwards through the rotation of the third rotating shafts 2210, the length of the extension plates 229 is adjusted through the elastic limiting columns 228, the detection device is placed on the transverse plates 217 at two sides, the second supports 22 at two sides press the upper ends of the monitoring device to be fixed, the support assembly 2 can be unfolded when in use, the interior of the concave grooves 13 is stored and clamped when not in use, and the service life is longer.

Example 2

As shown in fig. 1-5, it is the utility model discloses an atmospheric quality monitoring device based on unmanned aerial vehicle of another preferred embodiment, an atmospheric quality monitoring device based on unmanned aerial vehicle of this embodiment, on the basis of embodiment 1, when accomodating, will stretch inside of board 229 withdrawal storage plate 226, and rotate storage plate 226 and accomodate into the inside of accomodating groove 225, rotate both sides diaphragm 217 to concave groove 212 department through second pivot 216 and accomodate, and raise second support 22, make plate body 221 compress tightly downwards through the elasticity of spring 222, with diaphragm 217 chucking in the inside of concave groove 212, rotate the inside of the first support 21 of both sides inwards concave groove 13 through first pivot 215, make the first support 21 of both sides chucking each other, it is more convenient to use.

The above description is for further details of the present invention, and it is not assumed that the embodiments of the present invention are limited to these descriptions, and it is obvious to those skilled in the art that the present invention can be implemented by a plurality of simple deductions or replacements without departing from the concept of the present invention, and all should be considered as belonging to the protection scope defined by the claims submitted by the present invention.

Claims (5)

1. An atmosphere quality monitoring device based on an unmanned aerial vehicle comprises an unmanned aerial vehicle assembly (1), a bracket assembly (2) is assembled at the bottom of the unmanned aerial vehicle assembly (1),

the method is characterized in that:

the support assembly (2) comprises symmetrical first supports (21), and second supports (22) are connected to the inner wall between the first supports (21) on the two sides in a sliding mode.

2. The atmospheric quality monitoring device based on unmanned aerial vehicle of claim 1, characterized in that: first support (21) including riser (211), the first pivot of top fixedly connected with (215) and one side of riser (211) be provided with concave groove (212), the inside of concave groove (212) is provided with mounting groove (213) of longitudinal symmetry, one side that riser (211) are close to concave groove (212) bottom is rotated and is connected with second pivot (216), the outer wall fixedly connected with diaphragm (217) of second pivot (216), the bottom of diaphragm (217) is provided with the catching groove.

3. An atmosphere quality monitoring device based on unmanned aerial vehicle according to claim 2, characterized in that: the second support (22) comprises a plate body (221), symmetrical sliding blocks (223) are fixedly connected to one side of the plate body (221), jacks (224) are formed in the bottoms of the sliding blocks (223) on the two sides, springs (222) are fixedly connected to the tops of the sliding blocks (223), a containing groove (225) is formed in one side, far away from the sliding blocks (223), of the bottom of the plate body (221), a third rotating shaft (2210) is rotatably connected to the inside of the containing groove (225) close to one side, a containing plate (226) is fixedly connected to the outer wall of the third rotating shaft (2210), the containing plate (226) is hollow, a plurality of limiting holes (227) are formed in the front side and the rear side of the containing plate (226), an extending plate (229) is slidably connected to the inside of the containing plate (226), symmetrical elastic limiting columns (228) are elastically connected to the front side and the rear side of the extending plate (229), and the elastic limiting columns (228) penetrate out of the limiting holes (227).

4. The atmospheric quality monitoring device based on unmanned aerial vehicle of claim 3, characterized in that: unmanned aerial vehicle assembly (1) include organism (11), the four corners of organism (11) be equipped with screw (12) and the bottom is provided with inner groovy (13).

5. The atmospheric quality monitoring device based on unmanned aerial vehicle of claim 4, characterized in that: the sliding block (223) is inserted into the mounting groove (213), the insertion hole (224) and the spring (222) are sleeved on the outer wall of the sliding column (214), and the first rotating shaft (215) is rotatably connected with two sides inside the inner groove (13).

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