Summary of the invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a dustproof agricultural equipment for camera shooting comprises an airflow utilization device, a generator, an energy storage battery, a flow guide cover, an air outlet pipe, a bottom frame and a camera fixing device, a guide cover is arranged above the camera fixing device, a bottom frame is arranged at the bottom of the guide cover, the bottom frame is buckled with the air guide sleeve, the air guide sleeve is arranged on the camera fixing device through the bottom frame, the bottom of the flow guide cover is provided with three air outlet pipes, the flow guide cover is connected with the air outlet pipes, the central position of the top of the flow guide cover is provided with a generator, the generator is vertically arranged at the top of the air guide sleeve, two energy storage batteries are arranged at two sides of the generator, the energy storage battery is electrically connected with the generator, the top of the generator is provided with an airflow utilization device, and the airflow utilization device is vertically arranged on the top of the generator and is connected with the air guide sleeve.
As a further optimization of the technical scheme, the airflow utilization device comprises a rectifying mechanism, a power-assisted transmission mechanism, a diversion main pipe, a transmission shaft and diversion branch pipes, wherein the four diversion branch pipes are arranged at the bottom end of the diversion main pipe and connected with the diversion main pipe, the transmission shaft is arranged at the center of the interior of the diversion main pipe and vertically installed inside the diversion main pipe through a bearing seat, the power-assisted transmission mechanism is arranged at the top end of the diversion main pipe and connected with the transmission shaft, the rectifying mechanism is arranged at the top of the power-assisted transmission mechanism, and the rectifying mechanism is matched with the power-assisted transmission mechanism.
As the further optimization of this technical scheme, fairing mechanism constitute by air inlet overhead guard, roof, air intake, outer cone dome, rectification end shield, water conservancy diversion inner cover, outer cone dome outer lane on be equipped with eight air intakes, air intake and outer cone dome structure as an organic whole, outer cone dome top be equipped with the roof, roof and outer cone dome looks lock, the inside central point of outer cone dome put and be equipped with the water conservancy diversion inner cover, water conservancy diversion inner cover top be equipped with the air inlet overhead guard, air inlet overhead guard and water conservancy diversion inner cover structure as an organic whole, water conservancy diversion inner cover bottom be equipped with the rectification end shield, rectification end shield and water conservancy diversion inner cover connect, rectification end shield and outer cone dome looks lock.
As a further optimization of the technical scheme, the power-assisted transmission mechanism comprises a power-assisted magnetic ring, a right magnetic stripe, blades, a left magnetic stripe and a fixed shaft sleeve, wherein the fixed shaft sleeve is arranged at the center inside the power-assisted magnetic ring, six blades are arranged on the outer ring of the fixed shaft sleeve and are connected with the fixed shaft sleeve, the left magnetic stripe and the right magnetic stripe are arranged on two sides of each blade, and the left magnetic stripe and the right magnetic stripe are buckled with the blades.
As a further optimization of the technical scheme, the power assisting magnetic ring is composed of a right cambered surface magnetic block, a left cambered surface magnetic block, a magnetic insulating block and a circular cover, six magnetic insulating blocks are arranged on an inner ring of the circular cover, the magnetic insulating blocks are embedded and installed on a groove in the inner wall of the circular cover, a left cambered surface magnetic block and a right cambered surface magnetic block are arranged on two sides of the magnetic insulating block, and the left cambered surface magnetic block and the right cambered surface magnetic block are buckled with the magnetic insulating blocks.
As the further optimization of this technical scheme, camera fixing device constitute by camera safety cover, power supply joint, bearing roof, activity stabilizer blade, positioning mechanism, bearing roof top central point put and be equipped with the camera safety cover, the camera safety cover install perpendicularly at bearing roof top surface, the inside power supply joint that is equipped with of camera safety cover, bearing roof bottom central point put and be equipped with positioning mechanism, positioning mechanism install perpendicularly on the bearing roof, bearing roof outer lane on be equipped with four activity stabilizer blades, activity stabilizer blade and positioning mechanism hinge cooperation.
As the further optimization of this technical scheme, positioning mechanism constitute by bottom plate, hinge, carousel, interior activity ring, spiral bull stick, the bottom plate outer lane on be equipped with four hinges, hinge mounting on the bottom plate outer lane, bottom plate below be equipped with the carousel, the carousel top be equipped with interior activity ring, the carousel adopt sliding fit through interior activity ring and bottom plate, carousel bottom central point put and be equipped with spiral bull stick, spiral bull stick install perpendicularly on the carousel.
As a further optimization of the technical scheme, the left cambered surface magnetic block and the left magnetic strip are always kept to attract with different poles, and the right cambered surface magnetic block and the right magnetic strip are always kept to repel with the same poles.
Advantageous effects
The dustproof agricultural equipment for camera shooting, provided by the invention, has the advantages of reasonable design and strong functionality, and has the following beneficial effects:
the invention can stably and quickly fix the camera through the fixing structure formed by the camera fixing device, so that the camera can be blown by wind or washed by rainwater, better stability can be kept, higher radian shake of the camera lens is avoided, the growth shooting effect of crops is improved, a large amount of horizontally moving wind can be formed due to wider field through the wind power recovery structure formed by the airflow utilization device, the horizontally moving wind can be guided by the wind power recovery structure formed by the utilization device, the wind vertically moves, the kinetic energy of the wind is converted into the rotary mechanical energy of the generator in the process, the generated electric energy is continuously stored in the energy storage battery, so that the camera can be continuously powered, and the vertically moving wind can be continuously discharged around the camera lens from the air outlet pipe by the structural arrangement of the diversion cover and the air outlet pipe, an air curtain is formed, so that the dustproof and muddy water-proof effects of the camera lens are realized, and the camera lens is prevented from being polluted by dust and muddy water;
according to the invention, through a rotary structure formed by the bottom plate, the rotary disc, the inner movable circular ring and the spiral rotating rod, during operation, the bearing top plate, the movable support legs and the support structure formed by the hinge are perpendicular to the ground, then the rotary disc is rotated clockwise by means of external force, the spiral rotating rod is enabled to quickly deepen into the soil under the action of generated spiral rotary motion, the inclined support angle of each movable support leg can be automatically adjusted along with the depth of the spiral rotating rod during the deepening process of the spiral rotating rod under the connecting action of the hinge, the spiral rotating rod is ensured to be always in a vertical state during the deepening process, the stability of the camera after installation can be improved, and after the camera is horizontally installed on a camera protective cover, the charging connector at the rear end can be automatically butted with the power supply connector, so that the installation efficiency of the;
under the action of a horizontal movement airflow recovery structure formed by an air inlet top cover, a top plate, an air inlet, an outer conical circular cover, a rectification bottom cover and an inner diversion cover, airflow which horizontally moves in the field is contacted with the outer wall of the outer conical circular cover, enters the inner conical circular cover through the air inlet, flows upwards along the outer wall of the inner diversion cover, and finally enters the inner diversion cover through the air inlet top cover;
the left cambered surface magnetic block and the left magnetic strip are always kept in heteropolar attraction, the right cambered surface magnetic block and the right magnetic strip are always kept in homopolar repulsion, when the blades are driven to rotate by vertically moving airflow, heteropolar attraction formed by the left cambered surface magnetic block and the left magnetic strip is combined with homopolar repulsion magnetic repulsion generated between the right cambered surface magnetic block and the right magnetic strip, and the blades can perform high-speed rotary motion under the action of minimum resistance generated by the kinetic energy generated by the airflow, so that the power generation efficiency of the generator is improved, the airflow is boosted to a certain degree, the boosted airflow enters the flow guide cover through the flow guide main pipe and is finally sprayed out of the air outlet pipe, and an air curtain is formed around the camera lens, so that the dustproof and muddy water prevention functions of the camera lens are realized.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Example 1
Referring to fig. 1-5, the present invention provides an embodiment of a dustproof agricultural apparatus for camera shooting:
referring to fig. 1, a dustproof agricultural equipment of making a video recording, its structure includes the air current utilizes the device 1, the generator 2, the energy storage battery 3, the dome 4, the air-out pipe 5, the chassis 6, the camera fixing device 7, the top of the camera fixing device 7 is equipped with the dome 4, the bottom of the dome 4 is equipped with the chassis 6, the chassis 6 and the dome 4 are buckled, the dome 4 is installed on the camera fixing device 7 through the chassis 6, the bottom of the dome 4 is equipped with three air-out pipes 5 with uniform equidistance, the bottom of the dome 4 is the half-circular groove structure and is connected with the air-out pipe 5, the center position of the top of the dome 4 is equipped with the generator 2, the generator 2 is installed at the top of the dome 4 vertically, two sides of the generator 2 are the axial symmetry structure and are equipped with two energy storage batteries 3, the energy storage battery 3 is electrically connected with the generator 2, the top of the generator 2 is provided with an airflow utilization device 1, and the airflow utilization device 1 is vertically arranged on the top of the generator 2 and is connected with a flow guide cover 4.
Referring to fig. 2, the airflow utilization device 1 comprises a rectification mechanism 11, a power-assisted transmission mechanism 12, a main diversion pipe 13, a transmission shaft 14, and a branch diversion pipe 15, four diversion branch pipes 15 are uniformly arranged at the bottom end of the diversion main pipe 13 at equal intervals, the diversion branch pipes 15 are connected with the diversion main pipe 13, the diversion branch pipe 15 is connected with the diversion cover 4 through the diversion main pipe 13, a transmission shaft 14 is arranged at the center position inside the diversion main pipe 13, the transmission shaft 14 is vertically arranged inside the flow guide main pipe 13 through a bearing seat, the top of the flow guide main pipe 13 is provided with a power-assisted transmission mechanism 12, the power-assisted transmission mechanism 12 is arranged at the top end of the diversion main pipe 13 and is connected with the transmission shaft 14, the top of the power-assisted transmission mechanism 12 is provided with a rectifying mechanism 11, the rectifying mechanism 11 is matched with the power-assisted transmission mechanism 12, and the transmission shaft 14 is connected with the generator 2.
Referring to fig. 3, the rectifying mechanism 11 is composed of an air inlet top cover 11a, a top plate 11b, air inlets 11c, an outer conical cover 11d, a rectifying bottom cover 11e, and an inner guide cover 11f, eight air inlets 11c are uniformly and equidistantly arranged on an outer ring of the outer conical cover 11d, the air inlets 11c and the outer conical cover 11d are of an integrated structure, each air inlet 11c surrounds the outer conical cover 11d to form a circular wall structure, the top plate 11b is arranged at the top of the outer conical cover 11d, the top plate 11b is fastened with the outer conical cover 11d, an inner guide cover 11f is arranged at the center of the inner part of the outer conical cover 11d, the air inlet top cover 11a is arranged at the top end of the inner guide cover 11f, the air inlet top cover 11a is integrated with the inner guide cover 11f, the bottom end of the inner guide cover 11f is provided with the rectifying bottom cover 11e connected with the inner guide cover 11f, the fairing bottom cover 11e is of a circular structure, the bottom of the fairing bottom cover is in a circular opening state, the circumferential diameters of the outer ring of the fairing bottom cover 11e and the inner ring of the outer cone circular cover 11d are equal, and the fairing bottom cover 11e and the outer cone circular cover 11d are buckled.
Referring to fig. 4, the power transmission mechanism 12 is composed of a power magnetic ring 12a, a right magnetic stripe 12b, blades 12c, a left magnetic stripe 12d and a fixed shaft sleeve 12e, the fixed shaft sleeve 12e is arranged at the center inside the power magnetic ring 12a, six blades 12c are arranged on the outer ring of the fixed shaft sleeve 12e, the blades 12c are connected with a transmission shaft 14 through the fixed shaft sleeve 12e, the left magnetic stripe 12d and the right magnetic stripe 12b are arranged on two sides of the blades 12c, and the left magnetic stripe 12d and the right magnetic stripe 12b are buckled with the blades 12 c.
Referring to fig. 5, the power assisting magnetic ring 12a is composed of a right arc-shaped magnetic block 12a1, a left arc-shaped magnetic block 12a2, a magnet-isolating block 12a3 and a circular cover 12a4, six magnet-isolating blocks 12a3 are uniformly arranged on an inner ring of the circular cover 12a4 at equal intervals, the magnet-isolating block 12a3 is embedded in a groove on the inner wall of the circular cover 12a4, a left arc-shaped magnetic block 12a2 and a right arc-shaped magnetic block 12a1 are arranged on two sides of the magnet-isolating block 12a3, the left arc-shaped magnetic block 12a2 and the right arc-shaped magnetic block 12a1 are buckled with the magnet-isolating block 12a3, the left arc-shaped magnetic block 12a2 and the left magnetic strip 12d are always kept to attract with different poles, and the right arc-shaped magnetic block 12a1 and the right magnetic strip 12b are always.
The inner diversion cover 11f is of a hollow conical structure, and one end of a vertex angle is arranged vertically upwards.
The outer cone circular cover 11d is connected with the flow guide main pipe 13 through a circular cover 12a4, and the circular cover 12a4 is arranged at the bottom of the outer cone circular cover 11d and buckled with the same.
Example 2
Referring to fig. 1-7, the present invention provides an embodiment of a dustproof agricultural apparatus for camera shooting:
referring to fig. 1, a dustproof agricultural equipment of making a video recording, its structure includes the air current utilizes the device 1, the generator 2, the energy storage battery 3, the dome 4, the air-out pipe 5, the chassis 6, the camera fixing device 7, the top of the camera fixing device 7 is equipped with the dome 4, the bottom of the dome 4 is equipped with the chassis 6, the chassis 6 and the dome 4 are buckled, the dome 4 is installed on the camera fixing device 7 through the chassis 6, the bottom of the dome 4 is equipped with three air-out pipes 5 with uniform equidistance, the bottom of the dome 4 is the half-circular groove structure and is connected with the air-out pipe 5, the center position of the top of the dome 4 is equipped with the generator 2, the generator 2 is installed at the top of the dome 4 vertically, two sides of the generator 2 are the axial symmetry structure and are equipped with two energy storage batteries 3, the energy storage battery 3 is electrically connected with the generator 2, the top of the generator 2 is provided with an airflow utilization device 1, and the airflow utilization device 1 is vertically arranged on the top of the generator 2 and is connected with a flow guide cover 4.
Referring to fig. 2, the airflow utilization device 1 comprises a rectification mechanism 11, a power-assisted transmission mechanism 12, a main diversion pipe 13, a transmission shaft 14, and a branch diversion pipe 15, four diversion branch pipes 15 are uniformly arranged at the bottom end of the diversion main pipe 13 at equal intervals, the diversion branch pipes 15 are connected with the diversion main pipe 13, the diversion branch pipe 15 is connected with the diversion cover 4 through the diversion main pipe 13, a transmission shaft 14 is arranged at the center position inside the diversion main pipe 13, the transmission shaft 14 is vertically arranged inside the flow guide main pipe 13 through a bearing seat, the top of the flow guide main pipe 13 is provided with a power-assisted transmission mechanism 12, the power-assisted transmission mechanism 12 is arranged at the top end of the diversion main pipe 13 and is connected with the transmission shaft 14, the top of the power-assisted transmission mechanism 12 is provided with a rectifying mechanism 11, the rectifying mechanism 11 is matched with the power-assisted transmission mechanism 12, and the transmission shaft 14 is connected with the generator 2.
Referring to fig. 3, the rectifying mechanism 11 is composed of an air inlet top cover 11a, a top plate 11b, air inlets 11c, an outer conical cover 11d, a rectifying bottom cover 11e, and an inner guide cover 11f, eight air inlets 11c are uniformly and equidistantly arranged on an outer ring of the outer conical cover 11d, the air inlets 11c and the outer conical cover 11d are of an integrated structure, each air inlet 11c surrounds the outer conical cover 11d to form a circular wall structure, the top plate 11b is arranged at the top of the outer conical cover 11d, the top plate 11b is fastened with the outer conical cover 11d, an inner guide cover 11f is arranged at the center of the inner part of the outer conical cover 11d, the air inlet top cover 11a is arranged at the top end of the inner guide cover 11f, the air inlet top cover 11a is integrated with the inner guide cover 11f, the bottom end of the inner guide cover 11f is provided with the rectifying bottom cover 11e connected with the inner guide cover 11f, the fairing bottom cover 11e is of a circular structure, the bottom of the fairing bottom cover is in a circular opening state, the circumferential diameters of the outer ring of the fairing bottom cover 11e and the inner ring of the outer cone circular cover 11d are equal, and the fairing bottom cover 11e and the outer cone circular cover 11d are buckled.
Referring to fig. 4, the power transmission mechanism 12 is composed of a power magnetic ring 12a, a right magnetic stripe 12b, blades 12c, a left magnetic stripe 12d and a fixed shaft sleeve 12e, the fixed shaft sleeve 12e is arranged at the center inside the power magnetic ring 12a, six blades 12c are arranged on the outer ring of the fixed shaft sleeve 12e, the blades 12c are connected with a transmission shaft 14 through the fixed shaft sleeve 12e, the left magnetic stripe 12d and the right magnetic stripe 12b are arranged on two sides of the blades 12c, and the left magnetic stripe 12d and the right magnetic stripe 12b are buckled with the blades 12 c.
Referring to fig. 5, the power assisting magnetic ring 12a is composed of a right arc-shaped magnetic block 12a1, a left arc-shaped magnetic block 12a2, a magnet-isolating block 12a3 and a circular cover 12a4, six magnet-isolating blocks 12a3 are uniformly arranged on an inner ring of the circular cover 12a4 at equal intervals, the magnet-isolating block 12a3 is embedded in a groove on the inner wall of the circular cover 12a4, a left arc-shaped magnetic block 12a2 and a right arc-shaped magnetic block 12a1 are arranged on two sides of the magnet-isolating block 12a3, the left arc-shaped magnetic block 12a2 and the right arc-shaped magnetic block 12a1 are buckled with the magnet-isolating block 12a3, the left arc-shaped magnetic block 12a2 and the left magnetic strip 12d are always kept to attract with different poles, and the right arc-shaped magnetic block 12a1 and the right magnetic strip 12b are always.
Referring to fig. 6, the camera fixing device 7 is composed of a camera protecting cover 71, a power supply connector 72, a bearing top plate 73, movable support legs 74 and a positioning mechanism 75, the camera protecting cover 71 is arranged at the center of the top of the bearing top plate 73, the camera protecting cover 71 is vertically installed on the top surface of the bearing top plate 73, the power supply connector 72 is arranged inside the camera protecting cover 71, the positioning mechanism 75 is arranged at the center of the bottom of the bearing top plate 73, the positioning mechanism 75 is vertically installed on the bearing top plate 73, four movable support legs 74 are uniformly arranged on the outer ring of the bearing top plate 73 at equal intervals, and the movable support legs 74 are in hinge fit with the positioning mechanism 75.
Referring to fig. 7, the positioning mechanism 75 is composed of a bottom plate 75a, a hinge 75b, a rotating plate 75c, an inner movable ring 75d and a spiral rotating rod 75e, the bottom plate 75a is arranged at the bottom of the bearing top plate 73 and welded to the bottom plate, four hinges 75b are uniformly arranged on the outer ring of the bottom plate 75a at equal intervals, the hinges 75b are installed on the outer ring of the bottom plate 75a, the bottom plate 75a is connected with the movable support legs 74 through the hinges 75b, the rotating plate 75c is arranged below the bottom plate 75a, the inner movable ring 75d is arranged at the top of the rotating plate 75c, the rotating plate 75c is in sliding fit with the bottom plate 75a through the inner movable ring 75d, the spiral rotating rod 75e is arranged at the center of the bottom of the rotating plate 75c, and the spiral rotating rod 75e is vertically installed on the rotating plate 75 c.
The inner diversion cover 11f is of a hollow conical structure, and one end of a vertex angle is arranged vertically upwards.
The outer cone circular cover 11d is connected with the flow guide main pipe 13 through a circular cover 12a4, and the circular cover 12a4 is arranged at the bottom of the outer cone circular cover 11d and buckled with the same.
The power supply connector 72 is embedded on the camera protective cover 71 and is electrically connected with the energy storage battery 3.
The specific realization principle is as follows:
the camera can be stably and quickly fixed through a fixing structure formed by the camera fixing device 7, so that the camera can be blown by wind or washed by rainwater, better stability can be kept, higher radian shaking of a lens is avoided, the growth shooting effect of crops is improved, a rotating structure formed by the bottom plate 75a, the rotating disc 75c, the inner movable circular ring 75d and the spiral rotating rod 75e enables a supporting structure formed by the bearing top plate 73, the movable supporting legs 74 and the hinge 75b to be vertical to the ground during operation, then the rotating disc 75c is rotated clockwise by means of external force, the spiral rotating rod 75e rapidly deepens to the inside of soil under the action of generated spiral rotating motion, and the inclined supporting angle of each movable supporting leg 74 of the spiral rotating rod 75e can be automatically adjusted along with the depth of the spiral rotating rod 75e under the connecting action of the hinge 75b during the deepening process of the spiral rotating rod 75e, the camera is horizontally arranged behind the camera protective cover 71, a charging connector at the rear end can be automatically butted with a power supply connector 72, so that the camera installation efficiency is improved, a large amount of horizontally moving wind can be formed due to a wind power recovery structure formed by the airflow utilization device 1 because the field is wide, the horizontally moving wind can be guided by the wind power recovery structure formed by the device, the wind can vertically move, the kinetic energy of the wind is converted into the rotary mechanical energy of the generator 2 in the process, the generated electric energy is continuously stored in the energy storage battery 3, so that the camera can be continuously powered, the vertically moving wind can be continuously discharged around the camera lens from the air outlet pipe 5 by the structural arrangement of the diversion cover 4 and the air outlet pipe 5, an air curtain is formed, so that the dustproof and muddy water-proof effects of the camera lens are realized, the camera lens is prevented from being polluted by dust and muddy water, under the action of a horizontal movement air flow recovery structure formed by the air inlet top cover 11a, the top plate 11b, the air inlet 11c, the outer cone circular cover 11d, the rectification bottom cover 11e and the air guide inner cover 11f, air flows horizontally in the field and contacts with the outer wall of the outer cone circular cover 11d through the air inlet 11c, flows upwards along the outer wall of the air guide inner cover 11f, finally flows into the air guide inner cover 11f through the air inlet top cover 11a, the horizontally moving air flow is converted into vertically moving air flow under the connecting action of the air guide main pipe 13 and the circular cover 12a4, the vertically moving air flow contacts with each blade 12c in the circular cover 12a4, and the vertical kinetic energy of the air flow is converted into mechanical rotary motion of the transmission shaft 14 by the fixed, the generator 2 is enabled to generate electricity efficiently, thereby realizing continuous power supply for the camera, the opposite poles of the left cambered magnetic block 12a2 and the left magnetic strip 12d are always kept to attract each other, the same poles of the right cambered magnetic block 12a1 and the right magnetic strip 12b are always kept to repel each other, when the blade 12c is driven to rotate by vertically moving air flow, the opposite poles of the left cambered magnetic block 12a2 and the left magnetic strip 12d attract each other and magnetically attract each other in combination with the same pole repelling magnetic repulsion force generated between the right cambered magnetic block 12a1 and the right magnetic strip 12b, the kinetic energy generated by the air flow can be utilized to enable each blade 12c to carry out high-speed rotary motion under the action of the generated minimum resistance, thereby improving the generating efficiency of the generator 2, boosting the air flow to a certain degree, enabling the boosted air flow to enter the flow guide hood 4 through the flow guide main pipe 13, and finally ejected from the air outlet pipe 5, and forming an air, the dustproof and muddy water prevention functions of the camera lens are realized.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.