CN216546685U - Sensor load protection equipment for collecting remote sensing big data - Google Patents

Abstract

The utility model discloses sensor load protection equipment for collecting remote sensing big data, which comprises a connecting seat, wherein the top end of the connecting seat is provided with a mounting seat, and two sides of the connecting seat are movably hinged with support legs. This sensor load protection equipment of big data collection of remote sensing is through being provided with buffer spring, spring groove and mounting panel, unmanned aerial vehicle installs the top at the mount pad, the mount pad can be through mounting panel extrusion buffer spring when unmanned aerial vehicle descending production is rocked, buffer spring then can play the cushioning effect according to the elasticity of self, through buffering camera or other subassemblies that protection unmanned aerial vehicle lower part that can be better carried to unmanned aerial vehicle, thereby can increase the life of unmanned aerial vehicle and other subassemblies, spring groove and spacing post can carry on spacingly to buffer spring when mounting panel extrusion buffer spring, the solution is that not cushion effectively to unmanned aerial vehicle, unmanned aerial vehicle and the easy problem of damaging of carrier.

Description

Sensor load protection equipment for collecting remote sensing big data

Technical Field

The utility model relates to the technical field of sensor load protection equipment, in particular to sensor load protection equipment for collecting remote sensing big data.

Background

The unmanned aerial vehicle is an unmanned aerial vehicle operated by utilizing a radio remote control device and a self-contained program control device, along with the popularization of agricultural insurance, more and more unmanned aerial vehicles are started to be applied to a carried data collecting device, as the carriers are expensive and the unmanned aerial vehicle can be protected by the undercarriage, the undercarriage is very important, when a sensor load protecting device for collecting remote sensing large data is used, the unmanned aerial vehicle is not effectively buffered, and the unmanned aerial vehicle and the carriers are easy to damage; the size of the landing gear is inconvenient to adjust, and the flexibility is poor; the utility model is inconvenient to park in uneven places and use; aiming at the problems provided above, an improvement is provided for a sensor load protection device for remote sensing big data collection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide sensor load protection equipment for collecting remote sensing big data, and aims to solve the problems that an unmanned aerial vehicle is not effectively buffered and the unmanned aerial vehicle and a carrier are easily damaged in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a sensor load protection equipment that remote sensing big data was collected, includes the connecting seat, the top of connecting seat is provided with the mount pad, the both sides activity hinge of connecting seat has the stabilizer blade, the externally mounted of stabilizer blade bottom has the rubber sleeve, the both sides fixedly connected with mounting panel of mount pad bottom, the spacing post of both sides fixedly connected with on connecting seat top, the bottom fixedly connected with spring groove of mounting panel, the inside fixedly connected with buffer spring in spring groove.

Preferably, the top end fixed connection of buffer spring and spacing post, spacing post sets up the bottom at the spring inslot portion, the connecting seat is provided with two sets ofly.

Preferably, both sides fixedly connected with adjusting sleeve of mount pad one end, the both sides fixedly connected with of the mount pad other end adjusts the loop bar, the fixed orifices has been seted up to the inside of adjusting the loop bar, the inside of fixed orifices is provided with the construction bolt.

Preferably, the adjusting sleeve is sleeved at one end outside the adjusting sleeve rod, a plurality of groups of fixing holes are arranged in the adjusting sleeve rod, and the fixing holes are arranged in the adjusting sleeve rod at equal intervals.

Preferably, one side fixedly connected with of stabilizer blade is solid fixed ring, be provided with spacing spring between the stabilizer blade, the both sides fixedly connected with installation piece of spacing spring, fixedly connected with fixed cable between installation piece and the solid fixed ring.

Preferably, the support legs are symmetrically distributed about the vertical center line of the connecting seat, and the limiting spring and the fixing inhaul cable are arranged at the bottom end of the connecting seat.

Compared with the prior art, the utility model has the beneficial effects that: the sensor load protection device for collecting the remote sensing big data not only realizes effective buffering of the unmanned aerial vehicle, realizes the convenience for adjusting the size of the undercarriage, but also realizes the convenience for the unmanned aerial vehicle to park in different places;

(1) by arranging the buffer spring, the limiting post, the spring groove and the mounting plate, the unmanned aerial vehicle is mounted at the top end of the mounting seat, when the unmanned aerial vehicle shakes due to landing, the mounting seat can extrude the buffer spring through the mounting plate, the buffer spring can play a role in buffering according to the elasticity of the buffer spring, and a camera or other components carried at the lower part of the unmanned aerial vehicle can be better protected by buffering the unmanned aerial vehicle, so that the service lives of the unmanned aerial vehicle and other components can be prolonged, when the mounting plate extrudes the buffer spring, the spring groove and the limiting post can limit the buffer spring, and the buffer spring can be limited to prevent the buffer spring from driving the mounting seat to shake left and right;

(2) by arranging the mounting bolt, the adjusting sleeve, the adjusting loop bar and the fixing hole, when the diameter between the connecting seats needs to be adjusted, the mounting bolt is screwed out from the inside of the fixing hole, so that the adjusting loop bar is not fixed, the adjusting loop bar slides in the adjusting sleeve after the adjusting loop bar is not fixed, so that the diameter between the connecting seats is adjusted, the size of the undercarriage can be adjusted by adjusting the diameter between the connecting seats, the undercarriage can be conveniently installed on unmanned aerial vehicles with different sizes by adjusting the size of the undercarriage, and the adjusting loop bar is fixed again by screwing the mounting bolt into the inside of the fixing hole after the undercarriage is adjusted;

(3) through being provided with the stabilizer blade, gu fixed ring, the rubber sleeve, the fixed cable, spacing spring and installation piece, the rubber sleeve can contact with ground when unmanned aerial vehicle descends, spacing spring can carry out further buffering to unmanned aerial vehicle through the elasticity of self when rubber sleeve and ground contact, it is safer to use, stabilizer blade activity hinge is in the both sides of connecting seat, can make this kind of unmanned aerial vehicle descend to not the position of co-altitude through making stabilizer blade activity hinge in the both sides of connecting seat, thereby can make unmanned aerial vehicle be arranged in the environment that the topography is complicated, prevent that unmanned aerial vehicle from descending to the problem that leads to unmanned aerial vehicle to fall to hinder when not having flat road surface and better landing place.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic top view of the mounting base of the present invention;

FIG. 3 is an enlarged front sectional view of the spring slot of the present invention;

fig. 4 is a side view enlarged structure schematic diagram of the adjusting sleeve of the present invention.

In the figure: 1. a connecting seat; 2. a mounting seat; 3. a buffer spring; 4. a limiting column; 5. a support leg; 6. a fixing ring; 7. a rubber sleeve; 8. fixing a stay cable; 9. a limiting spring; 10. mounting blocks; 11. installing a bolt; 12. an adjustment sleeve; 13. adjusting the loop bar; 14. a spring slot; 15. mounting a plate; 16. and (7) fixing holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-4, a sensor load protection device for collecting remote sensing big data comprises a connecting seat 1, wherein an installation seat 2 is arranged at the top end of the connecting seat 1, supporting legs 5 are movably hinged to two sides of the connecting seat 1, a rubber sleeve 7 is arranged outside the bottom ends of the supporting legs 5, installation plates 15 are fixedly connected to two sides of the bottom end of the installation seat 2, limiting columns 4 are fixedly connected to two sides of the top end of the connecting seat 1, a spring groove 14 is fixedly connected to the bottom end of the installation plate 15, and a buffer spring 3 is fixedly connected to the interior of the spring groove 14;

the buffer spring 3 is fixedly connected with the top ends of the limiting columns 4, the limiting columns 4 are arranged at the bottom ends inside the spring grooves 14, and the connecting seat 1 is provided with two groups;

specifically, as shown in fig. 1 and fig. 3, unmanned aerial vehicle installs the top at mount pad 2, mount pad 2 can extrude buffer spring 3 through mounting panel 15 when unmanned aerial vehicle descending production rocks, buffer spring 3 then can play the cushioning effect according to the elasticity of self, through buffering camera or other subassemblies that protection unmanned aerial vehicle lower part that can be better carried to unmanned aerial vehicle, thereby can increase the life of unmanned aerial vehicle and other subassemblies, spring groove 14 and spacing post 4 can carry on spacingly to buffer spring 3 when mounting panel 15 extrudees buffer spring 3, spacing buffer spring 3 can prevent that buffer spring 3 from driving mount pad 2 and rock about.

Example 2: two sides of one end of the mounting seat 2 are fixedly connected with adjusting sleeves 12, two sides of the other end of the mounting seat 2 are fixedly connected with adjusting loop bars 13, fixing holes 16 are formed in the adjusting loop bars 13, mounting bolts 11 are arranged in the fixing holes 16, the adjusting sleeves 12 are sleeved at one end of the outer portion of the adjusting loop bars 13, a plurality of groups of fixing holes 16 are formed, and the fixing holes 16 are arranged in the adjusting loop bars 13 at equal intervals;

specifically, as shown in fig. 2 and 4, when the diameter between the connecting seats 1 needs to be adjusted, the mounting bolt 11 is screwed out from the inside of the fixing hole 16 to enable the adjusting loop bar 13 to lose fixation, after the adjusting loop bar 13 loses fixation, the adjusting loop bar 13 slides in the inside of the adjusting sleeve 12 to adjust the diameter between the connecting seats 1, the size of the landing gear can be adjusted by adjusting the diameter between the connecting seats 1, the landing gear can be conveniently installed on unmanned aerial vehicles with different sizes by adjusting the size of the landing gear, and after adjustment, the adjusting loop bar 13 is fixed again by screwing the mounting bolt 11 into the inside of the fixing hole 16.

Example 3: one side of each support leg 5 is fixedly connected with a fixing ring 6, a limiting spring 9 is arranged between the support legs 5, two sides of each limiting spring 9 are fixedly connected with an installation block 10, a fixing inhaul cable 8 is fixedly connected between each installation block 10 and the corresponding fixing ring 6, the support legs 5 are symmetrically distributed about the vertical center line of the connecting seat 1, and the limiting springs 9 and the fixing inhaul cables 8 are arranged at the bottom end of the connecting seat 1;

specifically, as shown in fig. 1, rubber sleeve 7 can contact with ground when unmanned aerial vehicle descends, spacing spring 9 can carry out further buffering to unmanned aerial vehicle through the elasticity of self when rubber sleeve 7 contacts with ground, it is safer to use, stabilizer blade 5 activity hinge connects the both sides at connecting seat 1, can make this kind of small unmanned aerial vehicle descend to the not position of co-altitude in both sides through making stabilizer blade 5 activity hinge connect at connecting seat 1, thereby can make unmanned aerial vehicle be arranged in the environment that the topography is complicated, prevent that unmanned aerial vehicle from descending to lead to the problem that unmanned aerial vehicle fell and hinder when not having flat road surface and better landing point.

The working principle is as follows: when the unmanned aerial vehicle is used, the mounting bolts 11 are screwed out of the fixing holes 16 to enable the adjusting sleeve rods 13 to lose fixation, the adjusting sleeve rods 13 slide in the adjusting sleeves 12 after the adjusting sleeve rods 13 lose fixation to adjust the diameters between the connecting seats 1, the diameters between the adjusting connecting seats 1 can adjust the sizes of the landing gears, the landing gears can be conveniently mounted on unmanned aerial vehicles with different sizes by adjusting the sizes of the landing gears, the mounting bolts 11 are screwed into the fixing holes 16 again after adjustment to re-fix the adjusting sleeve rods 13, the unmanned aerial vehicle is mounted at the top end of the mounting seats 2, when the unmanned aerial vehicle lands to shake, the mounting seats 2 can extrude the buffer springs 3 through the mounting plates 15, the buffer springs 3 can play a buffer role according to the elasticity of the buffer springs, and the cameras or other components carried at the lower part of the unmanned aerial vehicle can be better protected by buffering the unmanned aerial vehicle, thereby prolonging the service life of the unmanned aerial vehicle and other components, the spring groove 14 and the limit post 4 can limit the buffer spring 3 when the mounting plate 15 extrudes the buffer spring 3, the buffer spring 3 is limited to prevent the buffer spring 3 from driving the mounting seat 2 to shake left and right, the rubber sleeve 7 can be contacted with the ground when the unmanned aerial vehicle lands, when the rubber sleeve 7 contacts with the ground, the limiting spring 9 can further buffer the unmanned aerial vehicle through the elasticity of the limiting spring, the use is safer, the supporting legs 5 are movably hinged on the two sides of the connecting seat 1, the small unmanned aerial vehicle can be descended to different height positions by movably hinging the support legs 5 at the two sides of the connecting seat 1, thereby can make unmanned aerial vehicle be arranged in the environment that the topography is complicated, prevent that unmanned aerial vehicle from descending to the problem that leads to unmanned aerial vehicle to fall to hinder when not having flat road surface and better landing place.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a sensor load protection equipment of big data collection of remote sensing, includes connecting seat (1), its characterized in that: the top of connecting seat (1) is provided with mount pad (2), the both sides activity hinge joint of connecting seat (1) has stabilizer blade (5), the externally mounted of stabilizer blade (5) bottom has rubber sleeve (7), both sides fixedly connected with mounting panel (15) of mount pad (2) bottom, the spacing post of both sides fixedly connected with (4) on connecting seat (1) top, the bottom fixedly connected with spring groove (14) of mounting panel (15), inside fixedly connected with buffer spring (3) of spring groove (14).

2. The sensor load protection device for remote sensing big data collection according to claim 1, wherein: buffer spring (3) and the top fixed connection of spacing post (4), spacing post (4) set up the bottom in spring groove (14) inside, connecting seat (1) is provided with two sets ofly.

3. The sensor load protection device for remote sensing big data collection according to claim 1, wherein: the utility model discloses a fixing device for fixing a mounting seat, including mount pad (2), both sides fixedly connected with adjusting sleeve (12) of mount pad (2) one end, both sides fixedly connected with adjusting loop bar (13) of mount pad (2) the other end, fixed orifices (16) have been seted up to adjusting loop bar (13) inside, the inside of fixed orifices (16) is provided with construction bolt (11).

4. The sensor load protection device for remote sensing big data collection according to claim 3, wherein: the adjusting sleeve (12) is sleeved at one end of the outer portion of the adjusting sleeve rod (13), a plurality of groups of fixing holes (16) are formed, and the fixing holes (16) are arranged in the adjusting sleeve rod (13) at equal intervals.

5. The sensor load protection device for remote sensing big data collection according to claim 1, wherein: the fixing device is characterized in that one side of each support leg (5) is fixedly connected with a fixing ring (6), a limiting spring (9) is arranged between the support legs (5), two sides of the limiting spring (9) are fixedly connected with an installation block (10), and a fixing inhaul cable (8) is fixedly connected between the installation block (10) and the fixing ring (6).

6. The remote sensing big data collection sensor load protection device according to claim 5, characterized in that: the support legs (5) are symmetrically distributed about the vertical center line of the connecting seat (1), and the limiting spring (9) and the fixing inhaul cable (8) are arranged at the bottom end of the connecting seat (1).

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