CN209782119U - Unmanned aerial vehicle signal receiver elevating gear for remote sensing - Google Patents

Abstract

the utility model discloses a signal receiver elevating gear for unmanned aerial vehicle remote sensing, which comprises a supporting table, be provided with the receiver containing box in the brace table, and receiver containing box inner wall is the sponge material, be provided with the telescopic link in the receiver containing box, its telescopic link upper end is provided with signal receiver, and the telescopic link lower extreme is provided with flexible motor, the shape of receiver containing box inner wall is identical with the shape of telescopic link, receiver containing box inner wall is provided with the spout, and the spout inner wall is provided with the slide. This signal receiver elevating gear for unmanned aerial vehicle remote sensing is provided with the signal receiver who is connected with the telescopic link to the telescopic link is connected with flexible motor, and the device still is provided with inside receiver containing box for sponge material, makes the device's signal receiver can contract in the receiver containing box through the telescopic link like this, makes it receive the protection, and it is more convenient to use.

Description

Unmanned aerial vehicle signal receiver elevating gear for remote sensing

Technical Field

the utility model relates to an unmanned aerial vehicle equipment technical field specifically is a signal receiver elevating gear for unmanned aerial vehicle remote sensing.

background

The unmanned aerial vehicle collects electromagnetic wave information of a target object by using a sensor, identifies the target object after processing and analyzing, reveals the geometry, physical properties, interrelation and change rule thereof by using modern scientific technology, namely 'remote sensing', is divided according to a sensor carrying platform and comprises space remote sensing, aviation remote sensing and ground remote sensing, natural disasters exist in the use field, such as national and local disaster monitoring, early warning, assessment, emergency rescue command system, civil field and the like, and a signal receiver is required when the remote sensing is used.

However, the existing signal receiver is inconvenient to move, store and use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a signal receiver elevating gear for unmanned aerial vehicle remote sensing to the signal receiver who mentions in solving above-mentioned background uses inconvenient problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an unmanned aerial vehicle is signal receiver elevating gear for remote sensing, includes a supporting bench, be provided with the receiver containing box in the supporting bench, and receiver containing box inner wall is the sponge material, be provided with the telescopic link in the receiver containing box, its telescopic link upper end is provided with signal receiver, and the telescopic link lower extreme is provided with flexible motor, the shape of receiver containing box inner wall is identical with the shape of telescopic link, receiver containing box inner wall is provided with the spout, and the spout inner wall is provided with the slide, the slide block is connected with the receiver containing box in the spout.

Preferably, a rotating shaft is arranged on one side of the supporting table, a locking block is arranged on the rotating shaft, a support is arranged on one side of the rotating shaft, a solar panel is arranged on the other side of the support, one end of the solar panel is electrically connected to the storage battery through a connecting wire, the solar panel is connected with the supporting table through the rotating shaft, and the solar panel is connected with the supporting table through the locking block.

Preferably, a push rod is arranged on the supporting table, the lower end of the supporting table is provided with a wheel, one end of the wheel is provided with a connecting shaft, the connecting shaft of the wheel is connected with the supporting table, a buckling block is arranged on one side of the connecting shaft, and the wheel is connected with the supporting table through the connecting shaft and the buckling block.

Preferably, the signal receiver is connected with the receiver containing box through a telescopic rod and a telescopic motor, and the telescopic rod is of a multi-section structure.

Compared with the prior art, the beneficial effects of the utility model are that: this signal receiver elevating gear for unmanned aerial vehicle remote sensing is provided with the signal receiver who is connected with the telescopic link to the telescopic link is connected with flexible motor, and the device still is provided with inside receiver containing box for sponge material, makes the device's signal receiver can contract in the receiver containing box through the telescopic link like this, makes it receive the protection, and it is more convenient to use.

Drawings

Fig. 1 is a front view of the lifting device of the signal receiver for remote sensing of the unmanned aerial vehicle of the present invention;

Fig. 2 is an expanded cross-sectional view of the lifting device of the signal receiver for remote sensing of the unmanned aerial vehicle of fig. 1;

Fig. 3 is an expanded view of the lifting wheel of the signal receiver for remote sensing of the unmanned aerial vehicle;

Fig. 4 is the utility model relates to a signal receiver elevating gear slide and receiver containing box are connected to unmanned aerial vehicle remote sensing.

In the figure: 1. supporting table, 2, receiver containing box, 3, pivot, 4, latch segment, 5, support, 6, solar panel, 7, wheel, 8, push rod, 9, signal receiver, 10, telescopic link, 11, flexible motor, 12, connecting wire, 13, battery, 14, knot piece, 15, connecting axle, 16, slide, 17, spout.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a signal receiver lifting device for unmanned aerial vehicle remote sensing comprises a supporting table 1, a receiver containing box 2, a rotating shaft 3, a locking block 4, a support 5, a solar panel 6, wheels 7, a push rod 8, a signal receiver 9, a telescopic rod 10, a telescopic motor 11, a connecting wire 12, a storage battery 13, a buckling block 14, a connecting shaft 15, a sliding plate 16 and a sliding groove 17, wherein the receiver containing box 2 is arranged in the supporting table 1, the inner wall of the receiver containing box 2 is made of sponge materials, the rotating shaft 3 is arranged on one side of the supporting table 1, the locking block 4 is arranged on the rotating shaft 3, the support 5 is arranged on one side of the rotating shaft 3, the solar panel 6 is arranged on the other side of the support 5, one end of the solar panel 6 is electrically connected with the storage battery 13 through the connecting wire 12, the solar panel 6, the solar panel 6 is connected with the supporting platform 1 through the locking block 4, the solar panel 6 forms a bolt fixed connection structure with the supporting platform 1 through the locking block 4, so that the solar panel 6 of the device can turn over, thereby facilitating the lighting angle during adjustment of the device, and leading the solar power generation effect to be better, a push rod 8 is arranged on the supporting platform 1, a wheel 7 is arranged at the lower end of the supporting platform 1, one end of the wheel 7 is provided with a connecting shaft 15, the connecting shaft 15 is connected with the supporting platform 1, a buckling block 14 is arranged at one side of the connecting shaft 15, the wheel 7 is connected with the supporting platform 1 through the connecting shaft 15, the wheel 7 forms a rotary movable connection structure with the supporting platform 1 through the buckling block 14, the wheel 7 is connected with the supporting platform 1 through the buckling block 14, and thus leading the wheel 7 of the device to rotate, thereby the side surface of the device is jointed with the ground to be changed into a supporting foot pad, the device is fixed, a telescopic rod 10 is arranged in a receiver containing box 2, the upper end of the telescopic rod 10 is provided with a signal receiver 9, the lower end of the telescopic rod 10 is provided with a telescopic motor 11, the model of the telescopic motor 11 is YNT-01, the signal receiver 9 is connected with the receiver containing box 2 through the telescopic rod 10 and the telescopic motor 11, the signal receiver 9 and the receiver containing box 2 form a telescopic movable connecting structure through the telescopic rod 10 and the telescopic motor 11, and the telescopic rod 10 has a multi-section structure, so that the signal receiver 9 of the device can be lifted, thereby being convenient for the storage and the use, being safer, the shape of the inner wall of the receiver containing box 2 is matched with the shape of the telescopic rod 10, the inner wall of the receiver containing box, the sliding plate 16 is clamped in the sliding groove 17 to be connected with the receiver accommodating box 2, the sliding plate 16 and the receiver accommodating box 2 form a sliding connection structure through the sliding groove 17, so that the device can seal the opening of the receiver accommodating box 2 through the sliding plate 16 to prevent the signal receiver 9 from being damaged, and the sliding plate 16 is clamped and connected with the sliding groove 17.

The working principle is as follows: when the signal receiver lifting device for the unmanned aerial vehicle remote sensing is used, the device is moved through the wheels 7 at the bottom of the device, when the device is moved to a proper position, the wheels 7 of the device can be rotated by 90 degrees through the connecting shaft 15, the connecting shaft 15 and the buckling block 14 are buckled and fixed, so that the wheels 7 form a function of supporting a foot pad, the device is more stable, then the solar panel 6 is overturned through the rotating shaft 3 to form a certain angle, so that the irradiation of sunlight is received, the solar energy is converted into electric energy, the electric energy is stored in the storage battery 13 through the connecting lead 12, then the telescopic motor 11 is started to drive the telescopic rod 10 to extend upwards, so that the signal receiver 9 is lifted, then the signal receiver 9 is used for receiving signals, and after the device is used, the signal receiver 9 can be retracted into the receiver accommodating box 2 through the telescopic rod 10, then slide 16 in the spout 17 for receiver containing box 2 seals, then turns over solar panel 6 and packs up, then rotates wheel 7 reverse 90 degrees, makes it become wheel 7 form, then promotes through push rod 8 with it and removes the transportation, and this is this signal receiver elevating gear for the unmanned aerial vehicle remote sensing's use process.

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 modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (4)

1. The utility model provides an unmanned aerial vehicle signal receiver elevating gear for remote sensing which characterized in that: including brace table (1), be provided with receiver containing box (2) in brace table (1), and receiver containing box (2) inner wall is the sponge material, be provided with telescopic link (10) in receiver containing box (2), its telescopic link (10) upper end is provided with signal receiver (9), and telescopic link (10) lower extreme is provided with flexible motor (11), the shape of receiver containing box (2) inner wall is identical with the shape of telescopic link (10), receiver containing box (2) inner wall is provided with spout (17), and spout (17) inner wall is provided with slide (16), slide (16) block is connected with receiver containing box (2) in spout (17).

2. The remote sensing signal receiver elevating gear of unmanned aerial vehicle of claim 1, characterized in that: supporting bench (1) one side is provided with pivot (3), and is provided with latch segment (4) on pivot (3), pivot (3) one side is provided with support (5), and support (5) opposite side is provided with solar panel (6), solar panel (6) one end is through connecting wire (12) electric connection in battery (13), solar panel (6) are connected with supporting bench (1) through pivot (3), and solar panel (6) are connected with supporting bench (1) through latch segment (4).

3. The remote sensing signal receiver elevating gear of unmanned aerial vehicle of claim 1, characterized in that: the supporting table is characterized in that a push rod (8) is arranged on the supporting table (1), wheels (7) are arranged at the lower end of the supporting table (1), one ends of the wheels (7) are provided with connecting shafts (15), the connecting shafts (15) are connected with the supporting table (1), buckling blocks (14) are arranged on one sides of the connecting shafts (15), and the wheels (7) are connected with the supporting table (1) through the connecting shafts (15) and the buckling blocks (14).

4. The remote sensing signal receiver elevating gear of unmanned aerial vehicle of claim 1, characterized in that: the signal receiver (9) is connected with the receiver containing box (2) through a telescopic rod (10) and a telescopic motor (11), and the telescopic rod (10) is of a multi-section structure.