CN215753018U - A unmanned aerial vehicle for forest landscape resource investigation - Google Patents

Abstract

The utility model discloses an unmanned aerial vehicle for forest landscape resource investigation, and relates to the technical field of forest landscape resources. According to the utility model, through the cooperation use between the unmanned aerial vehicle body, the solar photovoltaic panel, the storage battery and the photovoltaic inverter, the situation that the unmanned aerial vehicle is out of control due to sudden loss of electric energy caused by insufficient electric quantity in the flight use process of the unmanned aerial vehicle is prevented, through the cooperation use between the supporting plate, the supporting rod, the cushion pad, the sliding block, the sliding groove and the round rod and the spring, the situation that when the unmanned aerial vehicle lands, impact force directly acts on the unmanned aerial vehicle body to damage the unmanned aerial vehicle is avoided, through the unmanned aerial vehicle body, the cooperation use between the infrared inductor and the smoke inductor, a user can conveniently monitor animal activities in a forest, the scene resource scene with vivid images is favorably shot, through the smoke inductor, fires in the forest can be timely monitored.

Description

A unmanned aerial vehicle for forest landscape resource investigation

Technical Field

The utility model relates to the technical field of forest landscape resources, in particular to an unmanned aerial vehicle for forest landscape resource investigation.

Background

The forest landscape resource refers to various substances and factors which can attract tourists, have protection or tourism development and utilization values and can generate corresponding social benefits, economic benefits and environmental benefits in the forest resource and the environmental elements thereof. The quality evaluation of the forest landscape resources is an important link of a forest resource management system and is the basis of forest landscape construction. With the development of forest tourism industry, it is very important to evaluate the quality of forest landscape and guide the production practice by using the evaluation result. Along with the development of science and technology, at present in the investigation process of forest landscape resource, can use an unmanned aerial vehicle for forest landscape resource investigation usually, but among the prior art, the used energy of the unmanned aerial vehicle that most are used for forest landscape resource investigation all is the battery, can cause unmanned aerial vehicle crash out of control when the battery does not have the electricity in the use, causes the loss.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an unmanned aerial vehicle for forest landscape resource investigation, which aims to solve the problems in the background technology.

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

the utility model provides an unmanned aerial vehicle for forest landscape resource investigation, includes unmanned aerial vehicle body, wing and bracing piece, solar photovoltaic board is installed at the top of unmanned aerial vehicle body, and the bottom central authorities of unmanned aerial vehicle body install camera device, the control panel is installed to the front side of unmanned aerial vehicle body, and the bottom of unmanned aerial vehicle body is provided with the spout, the inside of spout is provided with round bar and spring, the internally mounted of unmanned aerial vehicle body has battery and photovoltaic inverter, the one end fixed mounting of wing has drive arrangement, the screw is installed at drive arrangement's top, the bottom fixedly connected with backup pad of bracing piece, the bottom fixedly connected with blotter of backup pad, the top of bracing piece is connected with the slider.

As a further scheme of the utility model: the wing is provided with four, and four the one end that drive arrangement was kept away from to the wing symmetry fixed connection respectively is in the both sides of unmanned aerial vehicle body, infrared inductor is installed to the low portion of the wing that unmanned aerial vehicle body one side set up, and the bottom of the wing that unmanned aerial vehicle body opposite side set up installs smoke sensor.

As a still further scheme of the utility model: the backup pad is provided with two, the bracing piece is provided with four, every the backup pad all with two the bracing piece corresponds to be connected, the spout is provided with four, four the spout sets up front side and rear side in unmanned aerial vehicle body bottom both sides respectively, institute and every the inside of spout all is provided with two the round bar, the top and the bottom of round bar and the top and the bottom wall connection of spout, the spring runs through in the outer wall of round bar, and spring and round bar adaptation.

As a still further scheme of the utility model: the one end and the slider that the backup pad was kept away from to the bracing piece run through in the bottom of unmanned aerial vehicle body and are in the inside of spout, and the bracing piece runs through in the part of unmanned aerial vehicle body and is connected through sliding fit with the unmanned aerial vehicle body.

As a still further scheme of the utility model: the slider is connected with the sliding groove in a sliding fit mode, the two ends of the slider penetrate through the outer wall of the round rod, the slider is connected with the round rod in a clearance fit mode, and the top of the slider is in contact with the bottom of the spring.

As a still further scheme of the utility model: the supporting remote control unit that is provided with of unmanned aerial vehicle body, and unmanned aerial vehicle body and remote control unit adaptation, control panel and battery, drive arrangement infrared inductor, smoke sensor, camera device and photovoltaic inverter all pass through wire electric connection.

Compared with the prior art, the utility model has the beneficial effects that: through the cooperation use between the unmanned aerial vehicle body, the solar photovoltaic panel, the storage battery and the photovoltaic inverter, the function of supplying power to the electrical equipment on the unmanned aerial vehicle is realized, the energy conservation and the environmental protection are realized, the situation that the unmanned aerial vehicle loses electric energy suddenly due to insufficient electric quantity in the flying use process of the unmanned aerial vehicle to cause the unmanned aerial vehicle to be out of control is prevented, further, the probability that the unmanned aerial vehicle loses due to insufficient electric quantity is reduced, through the cooperation use between the supporting plate, the supporting rod, the buffer pad, the sliding block, the sliding groove, the round rod and the spring, the supporting plate transmits the impact force to the unmanned aerial vehicle body after the impact force is buffered by the spring through the supporting rod, thereby forming a buffer and shock absorption effect on the unmanned aerial vehicle body, the impact force is prevented from being directly applied to the unmanned aerial vehicle body when the unmanned aerial vehicle descends, the damage to the unmanned aerial vehicle is caused, the service life of the unmanned aerial vehicle is prolonged, through the cooperation use among the unmanned aerial vehicle body, the infrared inductor and the smoke inductor, the device is convenient for a user to monitor animal activities in the forest, is favorable for shooting vivid landscape resource scenes, can timely monitor fires in the forest through the smoke sensor, is convenient for timely extinguishing the fire, and further can better protect the safety of the forest.

Drawings

Fig. 1 is a top view of an unmanned aerial vehicle main view for forest landscape resource survey.

Fig. 2 is a schematic structural diagram of an unmanned aerial vehicle main view for forest landscape resource investigation.

Fig. 3 is a sectional view of a front view of a main body of the unmanned aerial vehicle for forest landscape resource survey.

The labels in the figure are: 1. an unmanned aerial vehicle body; 2. a solar photovoltaic panel; 3. an airfoil; 4. a drive device; 5. a propeller; 6. a support plate; 7. a control panel; 8. an infrared sensor; 9. a smoke sensor; 10. a cushion pad; 11. a support bar; 12. a camera device; 13. a storage battery; 14. a photovoltaic inverter; 15. a slider; 16. a chute; 17. a round bar; 18. a spring.

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.

Referring to fig. 1 to 3, in the embodiment of the utility model, an unmanned aerial vehicle for forest landscape resource investigation comprises an unmanned aerial vehicle body 1, wings 3 and a support rod 11, a solar photovoltaic panel 2 is installed at the top of the unmanned aerial vehicle body 1, a camera device 12 is installed at the center of the bottom of the unmanned aerial vehicle body 1, a control panel 7 is installed at the front side of the unmanned aerial vehicle body 1, a chute 16 is arranged at the bottom of the unmanned aerial vehicle body 1, a round rod 17 and a spring 18 are arranged inside the chute 16, a storage battery 13 and a photovoltaic inverter 14 are installed inside the unmanned aerial vehicle body 1, a driving device 4 is fixedly installed at one end of each wing 3, a remote control device is arranged in a matching manner on the unmanned aerial vehicle body 1, the unmanned aerial vehicle body 1 is matched with the remote control device, the control panel 7 is electrically connected with the storage battery 13, the driving device 4, an infrared inductor 8, a smoke inductor 9, the camera device 12 and the photovoltaic inverter 14 through leads, four wings 3 are arranged, one ends of the four wings 3, which are far away from a driving device 4, are respectively and symmetrically fixedly connected to two sides of an unmanned aerial vehicle body 1, an infrared inductor 8 is arranged at the lower part of the wing 3 arranged on one side of the unmanned aerial vehicle body 1, a smoke inductor 9 is arranged at the bottom of the wing 3 arranged on the other side of the unmanned aerial vehicle body 1, a propeller 5 is arranged at the top of the driving device 4, a support plate 6 is fixedly connected to the bottom of a support rod 11, two support plates 6 are arranged, four support rods 11 are arranged, each support plate 6 is correspondingly connected with the two support rods 11, four sliding grooves 16 are arranged, four sliding grooves 16 are respectively arranged at the front side and the rear side of two sides of the bottom of the unmanned aerial vehicle body 1, two round rods 17 are arranged inside each sliding groove 16, the top and the bottom of each round rod 17 are connected with the inner walls of the top and the bottom of each sliding groove 16, and springs 18 penetrate through the outer walls of the round rods 17, and spring 18 and round bar 17 adaptation, the bottom fixedly connected with blotter 10 of backup pad 6, the top of bracing piece 11 is connected with slider 15, the one end and the slider 15 that backup pad 6 was kept away from to bracing piece 11 run through in the bottom of unmanned aerial vehicle body 1 and be in the inside of spout 16, and bracing piece 11 runs through in the part of unmanned aerial vehicle body 1 and is connected through sliding fit with unmanned aerial vehicle body 1, slider 15 is connected through sliding fit with spout 16, and the both ends of slider 15 run through in the outer wall of round bar 17, slider 15 is connected through clearance fit with round bar 17, and the top of slider 15 contacts with the bottom of spring 18.

The working principle of the utility model is as follows: in the using process, firstly, solar energy is directly converted into electric energy by using the solar photovoltaic panel 2, then, direct current voltage generated by the solar photovoltaic panel is converted into usable alternating current by the photovoltaic inverter 14 and is stored by the storage battery 13, so that the function of supplying power to electrical equipment on the unmanned aerial vehicle is realized, the unmanned aerial vehicle is energy-saving and environment-friendly, the unmanned aerial vehicle is prevented from losing electric energy suddenly due to insufficient electric quantity in the flying using process of the unmanned aerial vehicle, the probability of losing the unmanned aerial vehicle due to insufficient electric quantity is further reduced, when the unmanned aerial vehicle finishes investigation flight and landing, the unmanned aerial vehicle body 1 is firstly contacted with the ground through the supporting plate 6, the abrasion to the supporting plate 6 is effectively reduced through the cushion pad 10 arranged at the bottom of the supporting plate 6, when the weight of the unmanned aerial vehicle body 1 generates impact force on the supporting plate 6 when the unmanned aerial vehicle body 1 lands, backup pad 6 reaches again after the buffering of spring 18 with the impact force through bracing piece 11 and gives unmanned aerial vehicle body 1, thereby form a buffering absorbing effect for unmanned aerial vehicle body 1, thereby it directly acts on unmanned aerial vehicle body 1 to cause the damage to unmanned aerial vehicle to have avoided the impact force when unmanned aerial vehicle descends, unmanned aerial vehicle's life has been prolonged, through infrared inductor 8 and the smoke sensor 9 that sets up on the unmanned aerial vehicle, convenient to use person monitors the animal activity in the forest, thereby be convenient for shoot vivid scenery resource scene, and through smoke sensor 9, can in time monitor the conflagration that takes place in the forest, be convenient for in time put out a fire, and then better protect forest safety.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (6)

1. The utility model provides an unmanned aerial vehicle for forest landscape resource investigation, includes unmanned aerial vehicle body (1), wing (3) and bracing piece (11), its characterized in that: the solar photovoltaic panel (2) is installed at the top of the unmanned aerial vehicle body (1), the camera device (12) is installed in the center of the bottom of the unmanned aerial vehicle body (1), the control panel (7) is installed on the front side of the unmanned aerial vehicle body (1), and the bottom of the unmanned aerial vehicle body (1) is provided with a chute (16), a round rod (17) and a spring (18) are arranged inside the chute (16), a storage battery (13) and a photovoltaic inverter (14) are arranged in the unmanned aerial vehicle body (1), a driving device (4) is fixedly arranged at one end of the wing (3), a propeller (5) is arranged at the top of the driving device (4), the bottom fixedly connected with backup pad (6) of bracing piece (11), the bottom fixedly connected with blotter (10) of backup pad (6), the top of bracing piece (11) is connected with slider (15).

2. A drone for forest landscape resource investigation according to claim 1, characterised in that: wing (3) are provided with four, and four the one end difference symmetry fixed connection that drive arrangement (4) were kept away from in wing (3) is in the both sides of unmanned aerial vehicle body (1), infrared inductor (8) are installed to the low portion of wing (3) that unmanned aerial vehicle body (1) one side set up, and smog inductor (9) are installed to the bottom of wing (3) that unmanned aerial vehicle body (1) opposite side set up.

3. A drone for forest landscape resource investigation according to claim 1, characterised in that: backup pad (6) are provided with two, bracing piece (11) are provided with four, every backup pad (6) all with two bracing piece (11) correspond the connection, spout (16) are provided with four, four spout (16) set up respectively in the front side and the rear side of unmanned aerial vehicle body (1) bottom both sides, institute and every the inside of spout (16) all is provided with two round bar (17), the top and the bottom of round bar (17) and the top and the bottom wall connection of spout (16), spring (18) run through in the outer wall of round bar (17), and spring (18) and round bar (17) adaptation.

4. A drone for forest landscape resource investigation according to claim 1, characterised in that: one end and slider (15) that backup pad (6) were kept away from in bracing piece (11) run through in the bottom of unmanned aerial vehicle body (1) and are in the inside of spout (16), and bracing piece (11) run through in the part of unmanned aerial vehicle body (1) and be connected through sliding fit with unmanned aerial vehicle body (1).

5. A drone for forest landscape resource investigation according to claim 1, characterised in that: slider (15) are connected through sliding fit with spout (16), and the both ends of slider (15) run through in the outer wall of round bar (17), slider (15) are connected through clearance fit with round bar (17), and the bottom contact of the top of slider (15) and spring (18).

6. A drone for forest landscape resource investigation according to claim 1, characterised in that: the unmanned aerial vehicle body (1) is provided with the remote control unit in a matched manner, the unmanned aerial vehicle body (1) is matched with the remote control unit, and the control panel (7) is electrically connected with the storage battery (13), the driving device (4), the infrared inductor (8), the smoke inductor (9), the camera device (12) and the photovoltaic inverter (14) through wires.

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