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CN-224205960-U - Quantitative feeder for scallop seedling raising baits

CN224205960UCN 224205960 UCN224205960 UCN 224205960UCN-224205960-U

Abstract

The utility model relates to the technical field of feeders, in particular to a scallop seedling raising bait quantitative feeder which comprises a shell mechanism for loading and unloading scallop seedling raising baits, wherein the shell mechanism comprises a shell, the upper end of the shell is provided with a feed hopper for feeding, the lower end of the shell is sleeved with a discharge pipe for discharging, and a stirring mechanism for mixing the scallop seedling raising baits is arranged in the shell mechanism. When detecting the head and detecting the material of throwing, step motor carries out forward rotation earlier to the bait stirring, and step motor drives the axostylus axostyle reversal after stirring certain time, drives the driving gear through the drive assembly transmission and rotates and let throw the feed cylinder and can rotate in the discharging pipe is inside, lets first awl end and second awl end stagger the input of realizing the bait, makes things convenient for the input of bait through mechanical structure's cooperation.

Inventors

  • LIU RUIJIAO
  • SHI TIANFENG
  • SUN SHI

Assignees

  • 大连金砣水产食品有限公司

Dates

Publication Date
20260508
Application Date
20250607

Claims (7)

  1. 1. The quantitative feeder for the scallop seedling bait is characterized by comprising a shell mechanism (1) for loading and taking the scallop seedling bait, The shell mechanism (1) comprises a shell (11), a feed hopper (12) for feeding is arranged at the upper end of the shell (11), and a discharge pipe (13) for discharging is sleeved at the lower end of the shell (11); A stirring mechanism (2) for carrying out mixing action on the scallop seedling bait is arranged in the shell mechanism (1); The stirring mechanism (2) comprises a stepping motor (21) and a baffle plate (24), wherein the stepping motor (21) is fixedly arranged on the outer wall of the lower end of the shell (11), the baffle plate (24) is fixedly connected to the lower end of the inner wall of the shell (11), the output end of the stepping motor (21) is fixedly connected with a shaft lever (22), and the shaft lever (22) penetrates through the bottom plate of the shell (11) and penetrates through the baffle plate (24) and is rotationally connected with the top of the shell (11); a detection mechanism (3) for detecting the scallop seedling raising pool is arranged outside the lower end of the shell mechanism (1); The detection mechanism (3) comprises a detection head (33) for detecting the scallop seedling raising pool; a quantifying mechanism (4) for controlling the blanking action is arranged in the shell (11); The quantitative mechanism (4) comprises a driving gear (41), a transmission assembly (42), a feeding gear (43) and a feeding barrel (44), wherein the driving gear (41) is in limiting rotation with the outer wall of the shaft lever (22) through the transmission assembly (42), the feeding barrel (44) is movably sleeved in the discharging pipe (13), the feeding gear (43) is sleeved on the outer wall of the feeding barrel (44), a first conical bottom (45) is fixedly connected to the lower end of the feeding barrel (44), a second conical bottom (46) is arranged at the lower end of the first conical bottom (45), and the second conical bottom (46) is fixedly arranged in the discharging pipe (13).
  2. 2. The quantitative feeder for scallop seedling baits according to claim 1, wherein the feed hopper (12) is funnel-shaped, a barrel cover is detachably connected to the upper end of the feed hopper (12), and the discharge pipe (13) is L-shaped.
  3. 3. The quantitative feeder for scallop seedling baits according to claim 2, wherein the outer wall of the shaft lever (22) is provided with stirring blades (23) at the parts of the shell (11) and the partition plate (24), the stirring blades (23) are a plurality of, and the plurality of the stirring blades are arranged in a plurality of annular equidistant arrays at the outer wall of the shaft lever (22).
  4. 4. The quantitative feeder for scallop seedling baits according to claim 3, wherein the detecting mechanism (3) further comprises an outer barrel (31) and a detecting rod (32), the upper end of the outer barrel (31) penetrates through the lower end of the outer barrel (11) and extends to the upper portion of the lower end of the outer barrel (11), the upper end of the detecting rod (32) is fixedly connected with the lower end of the partition plate (24), the lower end of the detecting rod (32) penetrates through the lower end of the outer barrel (11) and extends to the outside of the lower end of the outer barrel (31), and the upper end of the detecting head (33) is fixedly connected with the lower end of the detecting rod (32).
  5. 5. The quantitative feeder for scallop seedling baits according to claim 4, wherein a cleaning rod (34) is fixed at the lower end of the outer barrel (31), the lower end of the cleaning rod (34) is in a hook shape, the surface of the detection head (33) is contacted with the hook surface at the lower end of the cleaning rod (34), a cleaning gear (35) is arranged at the part, located on the inner wall of the outer shell (11), of the outer barrel (31), and the cleaning gear (35) is connected with the driving gear (41) through a synchronous gear belt.
  6. 6. The quantitative feeder for scallop seedling baits according to claim 5, wherein the transmission assembly (42) comprises ratchet blocks (421) and arc grooves (422), the surfaces of the ratchet blocks (421) are fixed on the inner wall of the driving gear (41), the ratchet blocks (421) are triangular, the ratchet blocks (421) are arranged in a plurality and are arranged on the inner wall of the driving gear (41) in an equidistant array mode, the arc grooves (422) are formed in the outer wall of the bottom of the shaft lever (22), the arc grooves (422) are three and are arranged on the outer wall of the shaft lever (22) in an equidistant array mode, elastic sheets (423) are fixedly arranged on the inner wall of the arc grooves (422), pawls (424) are rotatably arranged, the surfaces of the pawls (424) are in contact with the surfaces of the elastic sheets (423), and the surfaces of the pawls (424) are in contact with the surfaces of the ratchet blocks (421).
  7. 7. The quantitative feeder for scallop seedling raising baits according to claim 6, wherein an annular groove is formed in the outer wall of the discharging pipe (13), the surface of the feeding gear (43) is in contact with the inner wall of the annular groove formed in the outer wall of the discharging pipe (13), the feeding gear (43) is connected with the driving gear (41) through a synchronous gear belt, the first conical bottom (45) and the second conical bottom (46) are identical in structure, and holes for discharging are formed in the surface of the feeding gear.

Description

Quantitative feeder for scallop seedling raising baits Technical Field The utility model relates to the technical field of feeders, in particular to a scallop seedling raising bait quantitative feeder. Background The scallop is used as a marine shellfish with higher economic value, is widely distributed in coastal areas, has important economic and ecological values, and along with the development of the breeding industry, the scallop is grown to become a key link in the breeding industry chain, when the scallop grows seedlings, the scallop needs to be fished out of a farm and transferred into a culture pond for fertilization and seedling treatment, and when the scallop grows seedlings, the young scallop needs to be fed with baits at regular time. The feeder is fixed at the side of the pond through the underframe, mixed baits are thrown into the feeder until a specified time, the mixed materials of the feeder and the fed materials are separated, and the mixed materials are additionally mixed before feeding, so that the working steps are increased, the development conditions of seedlings in different ponds are different, and accurate feeding cannot be achieved only by the time specification. Based on the above, the utility model designs a scallop seedling raising bait quantitative feeder to solve the problems Disclosure of utility model The utility model is provided in view of the problem that the bait cannot be accurately and quantitatively fed at fixed time in the prior art. Therefore, the utility model aims to provide a scallop seedling raising bait quantitative feeder. In order to solve the technical problems, the utility model provides the following technical proposal that the utility model comprises a shell mechanism for carrying out the loading and unloading actions on the scallop seedling raising baits, The shell mechanism comprises a shell, a feeding hopper for feeding is arranged at the upper end of the shell, and a discharging pipe for discharging is sleeved at the lower end of the shell; A stirring mechanism for carrying out mixing action on scallop seedling raising baits is arranged in the shell mechanism; The stirring mechanism comprises a stepping motor and a baffle plate, the stepping motor is fixedly arranged on the outer wall of the lower end of the shell, the baffle plate is fixedly connected to the lower end of the inner wall of the shell, the output end of the stepping motor is fixedly connected with a shaft lever, and the shaft lever penetrates through the bottom plate of the shell and penetrates through the baffle plate and is rotationally connected with the top of the shell; The outer part of the lower end of the shell mechanism is provided with a detection mechanism for detecting the scallop seedling raising pool; The detection mechanism comprises a detection head for detecting the scallop seedling raising pool; a quantifying mechanism for controlling the blanking action is arranged in the shell; The quantitative mechanism comprises a driving gear, a transmission assembly, a feeding gear and a feeding barrel, wherein the driving gear is in limiting rotation with the outer wall of the shaft rod through the transmission assembly, the feeding barrel is movably sleeved in the discharging pipe, the feeding gear is sleeved on the outer wall of the feeding barrel, the lower end of the feeding barrel is fixedly connected with a first cone bottom, a second cone bottom is arranged at the lower end of the first cone bottom, and the second cone bottom is fixedly arranged in the discharging pipe. As an optimal scheme of the quantitative feeder for scallop seedling raising baits, the feeder hopper is funnel-shaped, the upper end of the feeder hopper is detachably connected with a cylinder cover, and the discharging pipe is L-shaped. As a preferable scheme of the quantitative feeder for the scallop seedling raising baits, the outer end of the shaft rod is provided with a plurality of stirring blades at the outer shell and the partition plate, and the stirring blades are distributed in a plurality of annular equidistant arrays at the outer wall of the shaft rod. The utility model relates to a scallop seedling raising bait quantitative feeder, which is a preferable scheme, wherein the detecting mechanism further comprises an outer barrel and a detecting rod, the upper end of the outer barrel penetrates through the lower end of the outer shell and extends to the upper part of the lower end of the outer shell, the upper end of the detecting rod is fixedly connected with the lower end of a partition plate, the lower end of the detecting rod penetrates through the lower end of the outer shell and extends to the outside of the lower end of the outer barrel, and the upper end of the detecting head is fixedly connected with the lower end of the detecting rod. As a preferable scheme of the quantitative feeder for the scallop seedling raising baits, the lower end of the outer barrel is fixedly provided with th