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CN-224205958-U - Automatic feeding mechanism of unmanned aerial vehicle for aquaculture

CN224205958UCN 224205958 UCN224205958 UCN 224205958UCN-224205958-U

Abstract

The utility model relates to an automatic feeding mechanism of an unmanned aerial vehicle for aquaculture, which belongs to the technical field of aquaculture and comprises a feed box arranged in an unmanned aerial vehicle main body, wherein a lower support plate is arranged below the unmanned aerial vehicle main body, a discharge hole penetrates through the lower support plate, a fixed cylinder is fixedly arranged on the bottom surface of the lower support plate, a rotating cylinder is arranged on the lower part of the fixed cylinder, two material guiding rotating plates are fixedly arranged on the lower part of the rotating cylinder, a plurality of discharge holes are uniformly formed in the lower part of the rotating cylinder, and a plurality of groups of arc material guiding groove plates are fixedly arranged between the two material guiding rotating plates. The feeding efficiency is high, and the uniformity and the accuracy of feeding the feed on the water surface are higher.

Inventors

  • JIAO KAIWANG
  • JIAO JINYAN
  • WANG LINLIN

Assignees

  • 山东堃特智能装备有限公司

Dates

Publication Date
20260508
Application Date
20250606

Claims (4)

  1. 1. The utility model provides an automatic feeding mechanism of unmanned aerial vehicle for aquaculture, including installing workbin (2) in unmanned aerial vehicle main part (1), workbin (2) bottom is equipped with discharge gate (5), be equipped with motorised valve (6) on discharge gate (5), a serial communication port, unmanned aerial vehicle main part (1) below is installed lower backup pad (3), discharge gate (5) pass lower backup pad (3) setting, lower backup pad (3) bottom surface is fixed and is equipped with fixed drum (7), fixed drum (7) lower part is equipped with rotatable rotation drum (8), rotation drum (8) lower part is fixed and is equipped with two guide swivel plates (13), a plurality of discharge gate (14) have evenly been seted up to rotation drum (8) lower part, be equipped with a plurality of arc guide frid (15) between two guide swivel plates (13), every arc guide frid (15) are including two, an arc guide channel is constituteed with discharge gate (14) to every arc guide frid.
  2. 2. The automatic feeding mechanism of an unmanned aerial vehicle for aquaculture according to claim 1, wherein a wear-resistant circular ring (9) is arranged between the lower part of the fixed cylinder (7) and the upper part of the rotary cylinder (8), the upper part of the rotary cylinder (8) is of an inner flanging structure, the inner flanging is clamped on the wear-resistant circular ring (9), a gear ring (10) is fixedly arranged on the upper part of the rotary cylinder (8), a motor (11) is arranged on the lower supporting plate (3), and the motor (11) is connected with the gear ring (10) through a gear (12) on a main shaft.
  3. 3. An automatic feeding mechanism for an unmanned aerial vehicle for aquaculture according to claim 2, wherein the wear-resistant ring (9) is of a split type structure and is mounted on the lower part of the fixed cylinder (7) by screws.
  4. 4. An automatic feeding mechanism for an unmanned aerial vehicle for aquaculture according to claim 1, wherein the discharge openings (14) are evenly distributed at annular intervals in the lower part of the rotating cylinder (8).

Description

Automatic feeding mechanism of unmanned aerial vehicle for aquaculture Technical Field The utility model relates to an automatic feeding mechanism of an unmanned aerial vehicle for aquaculture, and belongs to the technical field of aquaculture. Background Aquaculture is to use water area for human to cultivate, and to use aquaculture technology and facilities to cultivate aquatic economic animals according to ecological habit of cultivated objects and requirements on water area environment conditions. In the aquaculture process, the aquaculture area needs to be fed with feed regularly, and the mode of adopting artifical feeding is efficient, with high costs, is difficult to accomplish simultaneously and throws the material accuracy. The application of the unmanned aerial vehicle in aquaculture feeding is an important innovation direction of modern intelligent fishery. The feeding amount is accurately controlled, a large-area water area is covered, and the cultivation efficiency and the management level are obviously improved. There is a need to design a feeding mechanism for use on an unmanned aerial vehicle. Disclosure of utility model The utility model aims to solve the technical problems that in the prior art, the artificial feeding efficiency is low and the feeding accuracy is difficult to achieve, and provides an automatic feeding mechanism of an unmanned aerial vehicle for aquaculture. The utility model is realized by the following technical scheme: That is, an automatic feeding mechanism of unmanned aerial vehicle for aquaculture, including installing the workbin in the unmanned aerial vehicle main part, the workbin bottom is equipped with the discharge gate, be equipped with the motorised valve on the discharge gate, the lower bolster is installed to unmanned aerial vehicle main part below, the discharge gate passes the lower bolster setting, the fixed drum that is equipped with in lower bolster bottom surface, fixed drum lower part is equipped with rotatable rotation drum, it is fixed to be equipped with two guide revolving plates to rotate the drum lower part, a plurality of discharge gate has evenly been seted up to rotate the drum lower part, it is fixed to be equipped with a plurality of groups arc guide frid between two guide revolving plates, every group arc guide frid is including two, every group arc guide frid constitutes an arc guide passageway with the discharge gate. The fodder that waits to throw into feeds is packed into in the workbin, and remote control opens the motorised valve, and the fodder falls into fixed drum and rotates in the drum by the discharge gate, simultaneously, rotates the drum and begins to rotate, and two guide revolving plates are together rotatory, and fodder in the drum is discharged by the discharge gate under the effect of centrifugal force, under the direction effect of individual arc guide passageway, and the fodder is the arc form and is thrown out at unmanned aerial vehicle flight's in-process. The feeding efficiency is high, and the uniformity and the accuracy of feeding the feed on the water surface are higher. Further preferably, a wear-resistant circular ring is arranged between the lower part of the fixed cylinder and the upper part of the rotary cylinder, the upper part of the rotary cylinder is of an inner flanging structure, the inner flanging is clamped on the wear-resistant circular ring, a gear ring is fixedly arranged on the upper part of the rotary cylinder, a motor is mounted on the lower supporting plate, and the motor is connected with the gear ring through a gear on the main shaft. The motor drives the rotating cylinder to rotate through the gear and gear ring transmission mechanism, and the wear-resistant ring is used as a wear-resistant replaceable piece, so that the fixed cylinder and the rotating cylinder are prevented from being in direct contact, and a good protection effect is achieved. Further preferably, the wear-resistant ring is of a split structure and is mounted on the lower portion of the fixed cylinder by using screws. Is convenient to replace, can realize the replacement of the split single chip, the cost is reduced. Further preferably, the discharge holes are evenly distributed at annular intervals at the lower part of the rotary cylinder. Compared with the prior art, the utility model has the following beneficial effects: The fodder that waits to throw into feeds is packed into in the workbin, and remote control opens the motorised valve, and the fodder falls into fixed drum and rotates in the drum by the discharge gate, simultaneously, rotates the drum and begins to rotate, and two guide revolving plates are together rotatory, and fodder in the drum is discharged by the discharge gate under the effect of centrifugal force, under the direction effect of individual arc guide passageway, and the fodder is the arc form and is thrown out at unmanned aerial vehicle flight's in-process. The feeding efficiency is high, and the