CN210284648U - Aerial survey control point shooting device - Google Patents

Abstract

The utility model relates to an aviation monitoring devices field, more specifically say, it relates to aerial survey control point shooting device, include: a body, the body comprising: protective housing and aerial survey camera, aerial survey camera sets up in protective housing, and protective housing includes: casing, standing groove and protector, the standing groove sets up in the casing, and protector sets up on the casing, and aerial survey camera sets up in the standing groove, is provided with damper between aerial survey camera and the casing, and damper includes: buffer layer, spring, the buffer layer is fixed to be set up in the casing, and aerial survey camera butt is on the buffer layer, and the spring sets up between casing and aerial survey camera, and fixedly on the spring be provided with the clamping part that is used for the centre gripping aerial survey camera. Through being provided with protective housing on aerial survey camera, the produced effort of unmanned aerial vehicle striking can be carried out the shock attenuation with spring and buffer layer between protective housing and the aerial survey camera, avoids causing the damage of aerial survey camera.

Description

Aerial survey control point shooting device

Technical Field

The utility model relates to an aviation monitoring devices field, more specifically says that it relates to aerial survey control point and shoots the device.

Background

Aerial surveying, also called photogrammetry and remote sensing today. The method belongs to the remote sensing science in the mapping science, and utilizes a non-contact sensor to acquire space-time information related to a target. The unmanned aerial vehicle aerial survey is powerful supplement of the traditional aerial photogrammetry means, and has the characteristics of flexibility, high efficiency, rapidness, fineness, accuracy, low operation cost, wide application range, short production period and the like. The current aerial survey control point shooting device generally adopts an aerial survey camera installed on an unmanned aerial vehicle.

Chinese patent with publication number CN205801536U discloses a but, camera quick detach device and aerial survey unmanned aerial vehicle for on aerial survey unmanned aerial vehicle, including installation base and supporting baseplate, fix on the camera cabin body through the installation base, set up supporting baseplate on the installation base, be used for fixed camera on unmanned aerial vehicle, but this kind of but quick detach device can realize fixing the camera and use on unmanned aerial vehicle, but meet the striking at unmanned aerial vehicle, when the circumstances such as fall, can not prevent the power transmission that the striking produced to the camera in, thereby can cause the damage of camera, consequently, need improve it.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a device is shot to aerial survey control point, it is through being provided with protective housing on aerial survey camera, and spring and buffer layer between protective housing and the aerial survey camera can carry out the shock attenuation with the produced effort of unmanned aerial vehicle striking, avoid causing the damage of aerial survey camera.

In order to achieve the above purpose, the utility model provides a following technical scheme:

aerial survey control point camera device includes: a body, said body comprising: protective housing and aerial survey camera, aerial survey camera set up in protective housing, protective housing include: casing, standing groove and protector, the standing groove set up in the casing, protector set up on the casing, aerial survey camera set up in the standing groove, aerial survey camera and casing between be provided with damper, damper include: buffer layer and spring, the buffer layer fixed set up in the casing, aerial survey camera butt on the buffer layer, the spring set up between casing and aerial survey camera, and the fixed clamping part that is used for centre gripping aerial survey camera that is provided with on the spring.

Through above-mentioned technical scheme, aerial survey control point shooting device includes: protective housing and aerial survey camera, set up the aerial survey camera in protective housing's standing groove, through being provided with damper between casing and the aerial survey camera, aerial survey camera butt is on the buffer layer, be provided with spring and clamping part simultaneously, fix the aerial survey camera through spring and clamping part, the elasticity of spring carries out the cushioning effect simultaneously, can make unmanned aerial vehicle meet the striking, when the circumstances such as fall, carry out the shock attenuation with the produced effort of unmanned aerial vehicle striking, can avoid producing the damage to the aerial survey camera.

The utility model discloses further set up to: the protection device comprises: elastic component and protective cover, the protective cover set up on elastic component, the protective cover include: the cover body is arranged on the connecting portion, and the connecting portion is fixedly connected with the elastic assembly.

Through above-mentioned technical scheme, be provided with the protective cover on elastic component, the protective cover includes lid and connecting portion, through connecting portion and elastic component fixed connection to with the fixed setting of protective cover on protective housing, can protect aerial survey camera through the protective cover, avoid causing the damage to the camera lens of aerial survey camera in the use.

The utility model discloses further set up to: the elastic component comprises: mount, elastic frame and reset spring, the mount fixed set up on the casing, the mount include bottom plate and curb plate, the bottom plate on be provided with the eye-splice seat, the fixed pull rod that is provided with on the eye-splice seat, elastic frame arrange in the curb plate in, the elastic frame on be provided with the eye-splice, and the eye-splice sets up with the eye-splice seat is corresponding, elastic frame and bottom plate between fixed reset spring that is provided with, and reset spring along the vertical direction on the bottom plate symmetry set up.

Through the technical scheme, the fixed mount that is provided with on the casing, the mount includes bottom plate and curb plate, be provided with the eye-splice seat on the bottom plate, be provided with the elastic frame in the curb plate, be provided with the eye-splice that corresponds the setting with the eye-splice seat on the elastic frame, and the fixed reset spring that is provided with between elastic frame and the bottom plate, through pressing down the elastic frame, can make the elastic frame to going up the motion in the direction that is close to the bottom plate, reset spring is compressed simultaneously, the eye-splice joint is in the eye-splice seat, shrink, can be with in the protective cover shrink resilience frame, the protective cover causes the damage with ground contact in avoiding the use. When the protective cover needs to be disassembled, the pull rod is pulled in the direction away from the elastic frame, the elastic frame is pressed again, the reset spring is compressed again, after the elastic frame is compressed for a certain distance, the reset spring releases elastic restoring force to drive the elastic frame to move away from the bottom plate, meanwhile, the inserting buckle slides out of the inserting buckle seat, the elastic frame is popped out, and therefore the protective cover can be popped out and disassembled.

The utility model discloses further set up to: the side plate is provided with an anti-falling baffle, and a sliding groove for sliding the elastic frame is formed between the anti-falling baffle and the fixed frame.

Through above-mentioned technical scheme, be provided with the anticreep baffle on the mount, and constitute the spout between anticreep baffle and the mount, make the elastic frame can carry out sliding motion in the spout, simultaneously through the anticreep baffle, can avoid the elastic frame to drop from the mount.

The utility model discloses further set up to: the connecting portion in be provided with external screw hole, the elastic frame on be provided with the internal thread hole corresponding with the screw hole, threaded connection between elastic frame and the connecting portion.

Through above-mentioned technical scheme, be provided with external screw hole in the connecting portion, be provided with corresponding internal thread hole on the elastic frame, fix connecting portion and elastic frame through threaded connection, it is more convenient to dismouting.

The utility model discloses further set up to: the connecting part, the elastic frame and the fixing frame are internally provided with a cavity, and the bottom plate is provided with a through hole which is arranged corresponding to the cavity.

Through above-mentioned technical scheme, be provided with the cavity in connecting portion, elastic frame and the mount, set up the through-hole that sets up with the cavity is corresponding on the bottom plate simultaneously, can make the passing through of the shooting light of aerial survey camera, satisfy the demand that aerial survey camera took pictures.

The utility model discloses further set up to: the shell comprises a fixed plate and a movable plate, and a hinge is arranged between the fixed plate and the movable plate.

Through above-mentioned technical scheme, the casing includes fixed plate and fly leaf, and is articulated between fixed plate and the fly leaf, can rotate the fly leaf to open the casing, can realize placing aerial survey camera in the casing.

The utility model discloses further set up to: the movable plate is provided with a hasp, and the fixed plate is fixedly connected with the movable plate through the hasp.

Through above-mentioned technical scheme, be provided with the hasp on the fly leaf, the fixed plate is connected through the hasp with the fly leaf, carries out the joint, can realize freely opening and closing of fixed plate and fly leaf.

The utility model discloses further set up to the clamping part on be provided with the buffering strip.

Through above-mentioned technical scheme, fixedly between clamping part and aerial survey camera being provided with the buffering strip, can increase the frictional force between clamping part and the aerial survey camera through the buffering strip, make the clamping part more stable to the aerial survey camera centre gripping, carry out the shock attenuation through the produced effort of buffering strip with unmanned aerial vehicle striking simultaneously, avoid causing the damage of aerial survey camera.

To sum up, the utility model discloses following beneficial effect has:

(1) the protective shell is arranged on the aerial survey camera, and a spring and a buffer layer between the protective shell and the aerial survey camera can absorb the acting force generated by the collision of the unmanned aerial vehicle, so that the damage to the aerial survey camera is avoided;

(2) through being provided with elastic component on protective assembly, the last fixed protective cover that is provided with of elastic component protects aerial survey camera's camera lens through the protective cover, and through elastic component's the motion that stretches out and contract simultaneously, messenger's protective cover pops out respectively in the mount and compresses, and the dismouting is more convenient.

Drawings

Fig. 1 is an overall schematic view of the present invention;

fig. 2 is a schematic view of the stretched structure of the protective cover of the present invention;

FIG. 3 is a schematic structural view of the present invention;

FIG. 4 is a schematic view of the internal structure of the protective casing of the present invention;

fig. 5 is a cross-sectional view of the present invention;

fig. 6 is a partially enlarged view of a in fig. 5.

Reference numerals: 1. a body; 2. a protective housing; 21. a housing; 211. a fixing plate; 212. a movable plate; 213. a hinge; 214. a hasp; 22. a placement groove; 23. a guard; 24. an elastic component; 240. a through hole; 241. a fixed mount; 242. an elastic frame; 243. a return spring; 244. a socket; 245. inserting and buckling; 246. an anti-drop baffle plate; 247. a chute; 248. a base plate; 249. a side plate; 250. a cavity; 25. a protective cover; 251. a cover body; 252. a connecting portion; 253. an external threaded hole; 254. an internally threaded bore; 3. an aerial survey camera; 31. a shooting channel; 4. a shock absorbing assembly; 41. a buffer layer; 42. a spring; 421. a clamping portion; 422. a buffer strip; 6. a pull rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Aerial survey control point shooting device, as shown in fig. 1 and 4, including body 1, body 1 includes protecting sheathing 2 and aerial survey camera 3, and aerial survey camera 3 sets up in protecting sheathing 2. The protective casing 2 includes: the aerial surveying device comprises a shell 21, a placing groove 22 and a protection device 23, wherein the placing groove 22 is arranged in the shell 21, the aerial surveying camera 3 is arranged in the placing groove 22, and the protection device 23 is arranged on the shell 21. Referring to fig. 3, the housing 21 includes a fixed plate 211 and a movable plate 212, the movable plate 212 is disposed along a height direction of the housing 21, the movable plate 212 is disposed opposite to a plate where the shielding device 23 is disposed, the fixed plate 211 is disposed on the movable plate 212, and a hinge 213 is disposed between one side surface of the movable plate 212 and the fixed plate 211 corresponding to the side surface. Meanwhile, the movable plate 212 is provided with a buckle 214, the buckle 214 and the hinge 213 are oppositely arranged on the movable plate 212, and the movable plate 212 is fixedly connected with the fixed plate 211 through the buckle 214. The hasp 214 is opened, the movable plate 212 is rotated to open the housing 21, the aerial survey camera 3 is placed in the placing groove 22, and then the hasp 214 is closed to fix the aerial survey camera 3 in the placing groove 22.

The unmanned aerial vehicle generally can meet the condition such as striking, fall in the use to can cause the damage of camera, in the power transmission that the collision produced is to aerial survey camera 3, be provided with damper assembly 4 between aerial survey camera 3 and casing 21 in order to avoid. As shown in fig. 4 and 5, the damping member 4 includes a buffer layer 41 and springs 42, the buffer layer 41 is disposed in the housing 21 and disposed on the upper and lower surfaces of the aerial camera 3 for damping the impact and vibration of the aerial camera 3. The springs 42 are disposed on four sides of the aerial survey camera 3, and the springs 42 are fixedly provided with clamping portions 421, and the clamping portions 421 are fixedly provided with buffer strips 422. Put into clamping part 421 with aerial survey camera 3 in to carry out the centre gripping through buffering strip 422, carry out the cushioning effect through spring 42 and buffering strip 422 to the power that the unmanned aerial vehicle striking produced, thereby can avoid the impact to cause aerial survey camera 3's damage.

After the aerial survey camera 3 is placed, when the aerial survey camera 3 is used, the lens of the aerial survey camera 3 is easily damaged by contacting with the outside, and in order to avoid damage to the lens of the aerial survey camera 3, a protection device 23 is arranged on the housing 21. As shown in fig. 2 and 5, the protection device 23 includes an elastic member 24 and a protection cover 25, the elastic member 24 is fixedly disposed on the housing 21, and the protection cover 25 is disposed on the elastic member 24. Referring to fig. 5, the elastic assembly 24 includes a fixed frame 241, an elastic frame 242 and a return spring 243, the fixed frame 241 includes a bottom plate 248 and a side plate 249, the bottom plate 248 is fixedly disposed on the housing 21, a socket 244 is disposed on the bottom plate 248, the socket 244 is formed by two elastic rods disposed oppositely, the two elastic rods are disposed on the bottom plate 248 in an inclined manner, the elastic frame 242 is disposed on the inner side of the side plate 249, and a socket 245 is disposed on the elastic frame 242 at a position corresponding to the socket 244. The return springs 243 are fixedly disposed between the elastic frame 242 and the bottom plate 248, and the return springs 243 are disposed symmetrically in the vertical direction within the bottom plate 248. The side plate 249 is provided with a retaining plate 246, and a sliding groove 247 for sliding the elastic frame 242 is formed between the retaining plate 246 and the fixed frame 241. The elastic frame 242 is provided with an internal threaded hole 254, the protective cover 25 includes a cover 251 and a connecting portion 252, the connecting portion 252 is provided with an external threaded hole 253 corresponding to the internal threaded hole 254, and the cover 251 is fixed to the elastic assembly 24 for use by screwing the connecting portion 252 to the elastic frame 242.

After the protective cover 25 is installed, the protective cover 25 needs to be retracted into the elastic member 24 in order to reduce damage to the protective cover 25. As shown in fig. 1 and 6, when the protective cover 25 is pressed, the protective cover 25 moves, the elastic frame 242 slides in the sliding slot 247, the latch 245 moves, and the return spring 243 is compressed. After the elastic frame 242 moves for a certain distance, when the inserting buckle 245 reaches the inserting buckle seat 244, the arc-shaped structure at the end part of the inserting buckle 245 is matched with the arc-shaped structure of the inserting buckle seat 244, and the distance between the inserting buckle seats 244 is slightly larger than the maximum diameter of the end part of the inserting buckle 245 in the horizontal direction, so that the inserting buckle 245 is clamped in the inserting buckle seat 244. And stopping pressing the protective cover 25, and contracting the protective cover 25 into the elastic frame 242 to use the aerial survey camera 3.

As shown in fig. 2 and 5, in order to emit the shooting light for shooting when the aerial camera 3 is used, the buffer layer 41 near the lens of the aerial camera 3 is provided with the shooting channel 31, the bottom plate 248 is provided with the through hole 240, the connecting portion 252, the elastic frame 242 and the fixing frame 241 are provided with the cavity 250 corresponding to the through hole 240, and the cover 251 is a transparent cover and can enable the shooting light to penetrate through the protective housing 2 for use.

After aerial survey camera 3 uses the completion, when dismantling or changing protective cover 25, in order to make the operation more convenient, stretch protective cover 25 from the elasticity frame 242 in. As shown in fig. 2 and 6, the pull rod 6 is disposed on the buckle seat 244, the pull rod 6 penetrates through the protection device 23, and the pull rod 6 is fixedly disposed on the buckle seat 244, the pull rod 6 is pulled in a direction away from the elastic frame 242, so that the buckle seat 244 is away from each other, the protection cover 25 is pressed again, the protection cover 25 continues to move, the buckle 245 is driven to move, the return spring 243 is compressed, when the return spring 243 is compressed to the lowest point, the return spring 243 releases the elastic restoring force, the elastic frame 242 is driven to move opposite to the pressed movement, the buckle 245 is driven to slide out from the buckle seat 244, and the protection cover 25 is driven to pop out from the elastic frame 242. The pull rod 6 is released, and then the cover 251 is screwed, so that the connecting part 252 is screwed out of the elastic frame 242, and the operation is more convenient and faster to detach or replace.

The implementation principle of the embodiment is as follows: the outside of aerial survey camera 3 is provided with protecting sheathing 2, is provided with damper 4 in the protecting sheathing 2, and damper 4 sets up between aerial survey camera 3 and casing 21, can carry out the shock attenuation with the produced effort of unmanned aerial vehicle striking through spring and buffer layer, avoids causing the damage of aerial survey camera. Meanwhile, a protective device 23 is arranged on the housing 21, the protective device 23 includes an elastic component 24 and a protective cover 25, and the protective cover 25 is fixedly arranged in the elastic component 24. The lens of aerial survey camera 3 is protected through protective cover 25, and simultaneously through the stretch and the shrink of elastic component 24, make protective cover 25 pop out respectively in mount 241 and the motion of compression, protective cover 25 sets up and protects protective cover 25 in mount 241 during the compression, uses. When popping out, the protective cover 25 is stretched, so that the protective cover 25 is more conveniently disassembled and assembled due to larger operation space during disassembly.

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

Claims (9)

1. Aerial survey control point camera device includes: -a body (1), characterized in that said body (1) comprises: protective housing (2) and aerial survey camera (3), aerial survey camera (3) set up in protective housing (2), protective housing (2) include: casing (21), standing groove (22) and protector (23), standing groove (22) set up in casing (21), protector (23) set up on casing (21), aerial survey camera (3) set up in standing groove (22), aerial survey camera (3) and casing (21) between be provided with damper (4), damper (4) include: buffer layer (41) and spring (42), buffer layer (41) fixed the setting in casing (21), aerial survey camera (3) butt on buffer layer (41), spring (42) set up between casing (21) and aerial survey camera (3), and fixed clamping part (421) that are used for centre gripping aerial survey camera (3) that are provided with on spring (42).

2. The aerial survey control point camera as claimed in claim 1, characterized in that said shielding means (23) comprises: elastic component (24) and protective cover (25), protective cover (25) set up on elastic component (24), protective cover (25) include: the cover body (251) is arranged on the connecting portion (252), and the connecting portion (252) is fixedly connected with the elastic component (24).

3. The aerial survey control point camera as claimed in claim 2, wherein the resilient member (24) comprises: mount (241), elastic frame (242) and reset spring (243), mount (241) fixed the setting on casing (21), mount (241) including bottom plate (248) and curb plate (249), bottom plate (248) on be provided with socket (244), fixed pull rod (6) of being provided with on socket (244), elastic frame (242) set up in curb plate (249), elastic frame (242) on be provided with eye-splice (245), and eye-splice (245) and socket (244) corresponding the setting, elastic frame (242) and bottom plate (248) between fixedly be provided with reset spring (243), and reset spring (243) along vertical direction on bottom plate (248) symmetry setting.

4. The aerial survey control point camera device as claimed in claim 3, wherein the side plate (249) is provided with a retaining plate (246), and a sliding groove (247) for sliding the elastic frame (242) is formed between the retaining plate (246) and the fixing frame (241).

5. The aerial survey control point camera device as claimed in claim 4, wherein an external threaded hole (253) is formed in the connecting portion (252), an internal threaded hole (254) corresponding to the threaded hole (253) is formed in the elastic frame (242), and the elastic frame (242) and the connecting portion (252) are in threaded connection.

6. The aerial survey control point shooting device according to claim 5, wherein a cavity (250) is arranged in the connecting part (252), the elastic frame (242) and the fixing frame (241), and the bottom plate (248) is provided with a through hole (240) corresponding to the cavity (250).

7. The aerial survey control point camera device according to claim 1, characterized in that the housing (21) comprises a fixed plate (211) and a movable plate (212), and a hinge (213) is arranged between the fixed plate (211) and the movable plate (212).

8. The aerial survey control point camera device as claimed in claim 7, wherein the movable plate (212) is provided with a buckle (214), and the fixed plate (211) is fixedly connected with the movable plate (212) through the buckle (214).

9. The aerial survey control point camera device as claimed in claim 1, characterized in that a buffer strip (422) is provided on the holding portion (421).

Images