CN213484991U - Intelligent camera for identifying floater on water surface - Google Patents

Abstract

The utility model belongs to surface of water monitoring facilities field, especially, a surface of water floater discernment intelligent camera machine, including the hull base, the top fixed mounting of hull base has places the piece, and the top of placing the piece is seted up flutedly, is equipped with the fixed block in the recess, and the top fixed mounting of fixed block has two dead levers, and one side of two dead levers has all been seted up changes the hole, and two change downthehole all rotate and install the pivot, and the both ends of two pivots all extend to change the hole outer and one end screw thread that is close to each other and install same camera body, place the inside of piece and set up the installation cavity that is located the recess below, rotate on the bottom inner wall of installation cavity and install first lead screw guide pin bushing, fixed cup jointed fixed gear and screw thread and cup jointed first lead screw on. The utility model discloses simple structure, be convenient for fix the camera among the supervisory equipment on water and be convenient for adjust the angle of making a video recording of camera.

Description

Intelligent camera for identifying floater on water surface

Technical Field

The utility model relates to a surface of water monitoring facilities field especially relates to a surface of water floater discernment intelligent camera machine.

Background

At present, with the pace of industrialization, agriculture and urbanization, serious environmental pollution is caused by human factors, and a large amount of floaters containing a large amount of substances harmful to human bodies appear on water surfaces of lakes, rivers, reservoirs, water plants and the like. Water pollution has seriously breached the ecological environment and directly threatens human survival and development, so for the sustainable development of human beings, the water pollution problem must be solved and the control must be carried out from the discharge of pollutants. Therefore, the visual monitoring of the floating objects on the water surface is a problem which needs to be solved urgently. The monitoring of water surface (especially drinking water source, reservoir, river, etc.) is realized mainly by arranging special person to monitor. This requires a significant investment of human and material resources. In order to solve the problems, a camera is also used for real-time monitoring in some scenes, but people still need to be stuck at the terminal equipment, so that a large amount of manual assistance work is still needed, and the real-time and accurate response to the monitoring situation cannot be realized.

In order to meet the requirements of practical application, the intelligent monitoring of the water surface needs to be researched aiming at various defects of manual monitoring, namely, the monitoring scene is automatically analyzed without manual intervention, and the monitoring scene is timely responded. The intelligent monitoring technology of the water surface floater is one of important contents in intelligent visual monitoring, relates to a plurality of research fields such as image processing, image analysis, machine vision, mode recognition, artificial intelligence and the like, and is a comprehensive problem across subjects. Firstly, carrying out technical processing on a monitoring picture to improve the image quality, then detecting targets appearing in a scene, identifying and classifying the targets, and further taking measures to automatically clean the targets. Traditional camera among supervisory equipment is not convenient for fix and is not convenient for adjust the angle of making a video recording of camera, so the utility model relates to a surface of water floater discernment intelligent camera is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing an intelligent camera for identifying water surface floaters.

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

an intelligent camera for identifying floaters on water surface comprises a hull base, wherein a placing block is fixedly arranged at the top of the hull base, a groove is formed in the top of the placing block, a fixed block is arranged in the groove, two fixed rods are fixedly arranged at the top of the fixed block, rotary holes are formed in one side of each of the two fixed rods, rotary shafts are rotatably arranged in the two rotary holes, one end of each of the two rotary shafts, which extends out of the rotary hole and is close to the rotary hole, is provided with a camera body, an installation cavity is formed in the placing block and is positioned below the groove, a first lead screw guide sleeve is rotatably arranged on the inner wall of the bottom of the installation cavity, a fixed gear is fixedly sleeved on the first lead screw guide sleeve, a first lead screw is sleeved on the first lead screw through threads, a movable plate is fixedly arranged at the top end of the first lead screw, and a movable rack, the top of installation cavity has seted up two movable grooves along vertical direction, the rotation groove has all been seted up to the both sides of recess, and two movable grooves communicate with the rotation groove that corresponds respectively mutually, and equal movable mounting has first rack in two movable grooves, and two rotate the inslot and all rotate and install the second lead screw guide pin bushing, two second lead screw guide pin sheathes in all fixedly cup joint with first rack engaged with rotating gear, and the equal screw thread of one end that is close to each other has cup jointed the second lead screw, and the equal fixed mounting of one end that two lead screws are close to each other has semi-circular gear.

Preferably, place one side of piece and offer the first screw hole that is linked together with the installation cavity, first screw hole internal thread installs first threaded rod, and the both ends of first threaded rod all extend to outside the first screw hole and one end is rotated with the one end of activity rack and is connected, and the fixed cover of the other end has connect first knob.

Preferably, the thread directions of the two second screw rods are opposite.

Preferably, the fixed block is cylindrical and fixed with limit gear on the fixed block, and two semicircular gears all mesh with limit gear.

Preferably, the inner walls of the two sides of the mounting cavity are provided with sliding grooves in the vertical direction, sliding blocks are arranged in the sliding grooves in a sliding mode, and the two sliding blocks are used for fixing the two sides of the movable plate respectively.

Preferably, the fixed block is hollow setting, and the second screw hole has been seted up at the top, and second screw hole internal thread installs the second threaded rod, and the both ends of second threaded rod all extend to outside the second screw hole and the bottom rotates and install the movable rod, and the fixed cover in top has connect the second knob, set up the mounting groove that is linked together with the commentaries on classics hole along vertical direction between two dead levers and the fixed block, equal movable mounting has the second rack with linkage gear engaged with in two mounting grooves, and the top at the movable rod is all fixed to the bottom of two second racks.

In the utility model, the intelligent camera for identifying the floating objects on the water surface firstly places the fixed block in the groove, then drives the first threaded rod to rotate inwards by rotating the first knob, thereby driving the inward movement of the movable rack, the movable rack drives the fixed gear and the first lead screw guide sleeve to rotate, the first lead screw guide sleeve drives the first lead screw to move downwards, the first lead screw drives the movable plate to move downwards, thereby driving the two first racks to move downwards, the two first racks drive the two rotating gears to rotate, thereby driving the two second lead screw guide sleeves to rotate, the two second lead screw guide sleeves drive the two second lead screws with opposite thread directions to move oppositely, thereby driving the two semi-circular gears to move oppositely, when the two semi-circular gears are meshed with the limit gear, the fixing block can be fixed in the groove, and the camera body can be fixed on the placing block.

When the shooting angle of camera body needs to be adjusted, the downward movement of second threaded rod and movable rod has been driven through rotating the second knob, can drive the downward movement of two second racks, and two second racks have driven the rotation of two linkage gears, can drive the rotation of pivot, and the pivot can drive the rotation of camera body, can adjust the shooting angle of camera body, and makes the angle can be stable. The utility model discloses simple structure, convenient to use, be convenient for fix the camera among the supervisory equipment on water and be convenient for adjust the angle of making a video recording of camera.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent camera for identifying floating objects on water surface according to the present invention;

fig. 2 is a schematic structural diagram of a part a of the intelligent camera for identifying floating objects on the water surface;

fig. 3 is a schematic structural diagram of a part B of the intelligent camera for identifying the floating objects on the water surface;

fig. 4 is a schematic diagram of an internal structure of the water surface floater identifying smart camera related to the fixing block according to the present invention;

fig. 5 is a side view of the water surface floater identifying smart camera about the placing block.

In the figure: the camera comprises a hull base 1, a placing block 2, a camera body 3, a fixing rod 4, a fixing block 5, a clamping block 6, a groove 7, a movable plate 8, a first rack 9, a movable rack 10, a first threaded rod 11, a first lead screw guide sleeve 12, a fixed gear 13, a first lead screw 14, a limiting gear 15, a semicircular gear 16, a second lead screw 17, a rotating gear 18, a second lead screw guide sleeve 19, a movable groove 20, a rotating shaft 21, a second knob 22, a second threaded rod 23, a movable rod 24, a second rack 25, a mounting groove 26, a linkage gear 27, a first knob 28 and a mounting cavity 29.

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.

Example one

Referring to fig. 1-5, an intelligent camera for identifying floating objects on water surface comprises a hull base 1, a placing block 2 is fixedly installed at the top of the hull base 1, a groove 7 is formed at the top of the placing block 2, a fixing block 5 is arranged in the groove 7, two fixing rods 4 are fixedly installed at the top of the fixing block 5, rotating holes are formed in one side of the two fixing rods 4, rotating shafts 21 are rotatably installed in the two rotating holes, one end of each of the two ends of each of the two rotating shafts 21 extends out of the corresponding rotating hole and is close to each other, a same camera body 3 is installed through a thread, an installation cavity 29 is formed in the placing block 2 and is located below the groove 7, a first lead screw guide sleeve 12 is rotatably installed on the inner wall of the bottom of the installation cavity 29, a fixed gear 13 is fixedly sleeved on the first lead screw guide sleeve 12, a first lead screw 14 is sleeved through, slidable mounting has the movable rack 10 with fixed gear 13 engaged with on the bottom inner wall of installation cavity 29 along the horizontal direction, two movable grooves 20 have been seted up along vertical direction in the top of installation cavity 29, the rotation groove has all been seted up to the both sides of recess 7, two movable grooves 20 communicate with the rotation groove that corresponds respectively, and equal movable mounting has first rack 9 in two movable grooves 20, two rotate the inslot and all rotate and install second lead screw guide pin bushing 19, all fixedly cup joint the rotating gear 18 with first rack 9 engaged with on two second lead screw guide pin bushings 19, and the equal screw thread of one end that is close to each other has cup jointed second lead screw 17, the equal fixed mounting of one end that two lead screws 17 are close to each other has semi-circular gear 16.

Example two

The utility model discloses in, place one side of piece 2 and offer the first screw hole that is linked together with installation cavity 29, first threaded rod 11 is installed to first screw hole internal thread, first threaded rod 11's both ends all extend to first screw hole outside and one end rotate with the one end of activity rack 10 and be connected, the fixed cup joint of the other end has first knob 28, first threaded rod 11 rotates inwards through rotating first knob 28, the inward movement of activity rack 10 can have been driven, activity rack 10 has driven the rotation of fixed gear 13 with first lead screw guide pin bushing 12.

The utility model discloses in, the screw thread direction of two second lead screws 17 is opposite setting, and two second lead screw guide pin bushings 19 have driven the relative movement of two second lead screws 17 that the screw thread direction set up for opposite, can drive two semicircular gear 16's relative movement.

The utility model discloses in, fixed block 5 has cup jointed stop gear 15 for fixed on cylindrical setting and the fixed block 5, and two semi-circular gear 16 all mesh with stop gear 15 mutually, when two semi-circular gear 16 all with stop gear 15 intermeshing, can fix fixed block 5 in recess 7, can fix camera body 3 on placing piece 2.

The utility model discloses in, all having seted up the spout in the vertical direction on the both sides inner wall of installation cavity 29, sliding installation has the slider in the spout is equal, and two sliders are fixed respectively the both sides of fly leaf 8, through the spout and the slider be convenient for the removal of fly leaf 8.

In the utility model, the fixed block 5 is hollow, the top is provided with a second threaded hole, a second threaded rod 23 is installed in the second threaded hole, both ends of the second threaded rod 23 extend out of the second threaded hole, the bottom is rotatably provided with a movable rod 24, the top is fixedly sleeved with a second knob 22, mounting grooves 26 communicated with the rotating hole are vertically arranged between the two fixed rods 4 and the fixed block 5, second racks 25 engaged with the linkage gear 27 are movably mounted in the two mounting grooves 26, the bottoms of the two second racks 25 are fixed on the top of the movable rod 24, the second threaded rod 23 and the movable rod 24 are driven to move downwards by rotating the second knob 22, namely, the two second racks 25 can be driven to move downwards, the two second racks 25 drive the rotation of the two linkage gears 27, namely, the rotation of the rotating shaft 21 can be driven, the pivot 21 can drive the rotation of camera body 3, can adjust the shooting angle of camera body 3, and makes the angle can be stable.

In the utility model, firstly, the fixed block 5 is placed in the groove 7, then the first threaded rod 11 is driven to rotate inwards by rotating the first knob 28, so that the movable rack 10 can be driven to move inwards, the movable rack 10 drives the fixed gear 13 and the first lead screw guide sleeve 12 to rotate, the first lead screw guide sleeve 12 drives the first lead screw 14 to move downwards, the first lead screw 14 drives the movable plate 8 to move downwards, namely, the two first racks 9 can move downwards, the two first racks 9 drive the two rotating gears 18 to rotate, so that the two second lead screw guide sleeves 19 can be driven to rotate, the two second lead screw guide sleeves 19 drive the two second lead screws 17 with opposite thread directions to move towards each other, namely, the two semicircular gears 16 can be driven to move towards each other, when the two semicircular gears 16 are meshed with the limit gear 15, can fix fixed block 5 in recess 7, can fix camera body 3 on placing piece 2.

When the shooting angle of camera body 3 needs to be adjusted, the second knob 22 is rotated to drive the downward movement of the second threaded rod 23 and the movable rod 24, the downward movement of the two second racks 25 can be driven, the two second racks 25 drive the rotation of the two linkage gears 27, the rotation of the rotating shaft 21 can be driven, the rotating shaft 21 can drive the rotation of the camera body 3, the shooting angle of the camera body 3 can be adjusted, and the angle can be stabilized. The utility model discloses simple structure, convenient to use, be convenient for fix the camera among the supervisory equipment on water and be convenient for adjust the angle of making a video recording of camera.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An intelligent camera for identifying water surface floaters comprises a hull base (1) and is characterized in that a placing block (2) is fixedly mounted at the top of the hull base (1), a groove (7) is formed in the top of the placing block (2), a fixing block (5) is arranged in the groove (7), two fixing rods (4) are fixedly mounted at the top of the fixing block (5), rotating holes are formed in one sides of the two fixing rods (4), rotating shafts (21) are rotatably mounted in the two rotating holes, one end of each of the two rotating shafts (21) extends out of the corresponding rotating hole and is close to the corresponding rotating hole in threaded manner, a same camera body (3) is mounted on one end of each of the two fixing rods (5), a mounting cavity (29) located below the corresponding groove (7) is formed in the placing block (2), a first lead screw guide sleeve (12) is rotatably mounted on the inner wall of the bottom of the mounting cavity (29), a fixing gear (13) is fixedly sleeved on the first, a movable plate (8) is fixedly arranged at the top end of the first screw rod (14), a movable rack (10) meshed with the fixed gear (13) is arranged on the inner wall of the bottom of the mounting cavity (29) in a sliding manner along the horizontal direction, the top of the mounting cavity (29) is provided with two movable grooves (20) along the vertical direction, the two sides of the groove (7) are both provided with rotating grooves, the two movable grooves (20) are respectively communicated with the corresponding rotating grooves, and a first rack (9) is movably arranged in each of the two movable grooves (20), a second screw guide sleeve (19) is rotatably arranged in each of the two rotary grooves, a rotary gear (18) engaged with the first rack (9) is fixedly sleeved on each of the two second screw guide sleeves (19), and the one end that is close to each other is all threaded sleeve and is had second lead screw (17), and the one end that two lead screws (17) are close to each other all fixed mounting have semicircular gear (16).

2. The intelligent camera for identifying the floating objects on the water surface as claimed in claim 1, wherein a first threaded hole communicated with the mounting cavity (29) is formed in one side of the placing block (2), a first threaded rod (11) is internally threaded in the first threaded hole, two ends of the first threaded rod (11) extend out of the first threaded hole, one end of the first threaded rod is rotatably connected with one end of the movable rack (10), and a first knob (28) is fixedly sleeved at the other end of the first threaded rod.

3. The intelligent camera for identifying the floater on the water as claimed in claim 1, wherein the thread directions of the two second screw rods (17) are opposite.

4. The intelligent camera for identifying the floater on the water surface as claimed in claim 1, wherein the fixed block (5) is cylindrical, a limit gear (15) is fixedly sleeved on the fixed block (5), and the two semicircular gears (16) are meshed with the limit gear (15).

5. The intelligent camera for identifying the floating objects on the water surface as claimed in claim 1, wherein the inner walls of the two sides of the mounting cavity (29) are provided with sliding grooves along the vertical direction, the sliding grooves are internally provided with sliding blocks in a sliding manner, and the two sliding blocks are respectively fixed on the two sides of the movable plate (8).

6. The intelligent camera for identifying the floating objects on the water surface as claimed in claim 1, wherein the fixed block (5) is a hollow set, a second threaded hole is formed in the top of the fixed block, a second threaded rod (23) is installed in the second threaded hole in a threaded manner, two ends of the second threaded rod (23) extend out of the second threaded hole, a movable rod (24) is installed at the bottom end of the second threaded rod in a rotating manner, a second knob (22) is fixedly sleeved on the top end of the second threaded rod, mounting grooves (26) communicated with the rotating hole are formed in the vertical direction between the two fixed rods (4) and the fixed block (5), second racks (25) meshed with the linkage gears (27) are movably mounted in the two mounting grooves (26), and the bottoms of the two second racks (25) are fixed on the top of the movable rod (24.

Images