CN218649751U - Feed feeding mechanism for feed breeding in fishing ground - Google Patents

Abstract

The utility model relates to a feeding mechanism for feeding breeding feed in a fishing ground, which comprises a feed storage bin and a mixer; the mixer is connected with the feed storage bin. The feed in the feed storage bin is quantitatively conveyed to the mixer, is sprayed into the gas below through the mixer, is uniformly mixed, and is conveyed to a rear distributor along with the gas. The utility model has the advantages that: the feed is uniformly mixed, the feed delivery is kept smooth by controlling the feed amount, and the blockage of pipelines due to feed caking is avoided; the feeding environment of the feed in the bin can be mastered, the feed is abnormal in humidity and temperature, and timely intervention can be performed.

Description

Feed feeding mechanism for feed breeding in fishing ground

Technical Field

The utility model relates to a fishing ground is bred and is thrown something and feed the equipment field, especially a fishing ground is bred fodder and is thrown something and feed and use reinforced mechanism.

Background

Ocean fishing ground area is big, and breed density is high, for the convenience of fishing ground fodder is thrown something and fed, generally can set up more and throw something and feed, adopts the fodder ware of throwing something and feeding of bank to carry out the simultaneous and concentrate and throw something and feed, and every cultured fish of throwing something and feeding receives the influence of different factors such as variety, breeding age, and the amount of throwing something and feeding of each point of throwing something is different, if concentrate simultaneously and throw something and feed, can't throw something and feed to different and carry out the weight to the point of throwing something, and because throw something and feed and set up more. Meanwhile, feeding can cause feed shunting, and in order to ensure that each feeding point transmits enough feed, the work load of feed supply and feed transmission is large.

As the Chinese utility model patent: a multifunctional feed feeder convenient to manage (notice number: CN 212260162U) discloses a feeding scheme: the material drives the blanking device through the first motor to carry out blanking on the second blanking pipe, one end of the second blanking pipe is connected with the fan, the other end of the second blanking pipe is connected with the material throwing plate through the first blanking pipe, the material is directly conveyed into the material throwing plate through the blanking pipe under the action of the fan, and the material throwing plate rotates under the action of the second motor to evenly throw the material.

Although the dynamics of throwing the feed has been solved to above-mentioned scheme is difficult to control, leads to throwing the material scheduling problem evenly inadequately, but the device of throwing something and feeding storage fodder volume is too little, needs carry out the throwing something and feeding of each point of throwing something and feeding through artifical thrust unit, and it is slow to throw something and feed speed, can't satisfy the large-scale demand of throwing something and feeding of large-scale ocean fishery, and can't throw the material in a definite quantity, is difficult to manage the volume of throwing something and feeding of each point of throwing something and feeding of fishery.

The existing feeding device still has the problems of uneven feed mixing, blocking due to caking, low feeding speed and the like, and the feed feeding is influenced. Therefore, a feeding device needs to be researched, and the requirements of continuous feeding and large feeding amount of the breeding feed in a large-scale fishery can be met.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model provides a feed feeding mechanism for fishery culture to satisfy the continuous feeding and the large feeding amount requirement of large-scale fishery culture.

The utility model provides a feeding mechanism for feeding breeding feed in a fishing ground, which comprises a feed storage bin, a mixer and a feeder; the mixer is connected with the feed storage bin; said feeder being located between said feed storage bin and said mixer;

the feeder comprises a cavity, a feeding hole, a discharging chassis, a rotary impeller, a rotating mechanism and a mounting rack; the feeding port is positioned at the top of the cavity; the rotary impeller is fixed on an output shaft of the rotating mechanism through the mounting frame; the discharging base plate is positioned at the bottom of the cavity and is provided with a discharging hole;

the cavity is provided with a partition plate and a rotating blade, the cavity is divided into an upper dispersing cavity and a lower dispersing cavity, and the partition plate is provided with a middle outlet; the rotating mechanism penetrates through the partition plate, and the rotating blades are fixed on the rotating mechanism through the mounting frame.

Preferably, the rotating impeller is provided with a plurality of chambers.

Preferably, the top end of the mounting frame is conical.

As a further improvement, the feed storage bin is internally provided with a temperature transmitter and a humidity transmitter.

As a further improvement, the feed storage bin is connected with a weighing instrument.

As a further improvement, the feed storage bin is internally provided with a feed level controller.

As a further improvement, the outlet of the feed storage bin is provided with a plug board.

The feeding mechanism for feeding the aquaculture feed in the fishery controls the feeding speed by arranging the feeder, the mixer is blocked by the excessive feeding amount of the feed storage bin, and the conveying amount of 3-8 tons per hour can be realized; the feed is quantitatively delivered to the mixer, is sprayed into the gas below the mixer through the mixer, is uniformly mixed, and is delivered to the distributor along with the gas.

Compared with the prior art, the utility model has the advantages that the feed mixing is ensured to be uniform, the feed transmission is kept smooth by controlling the feed amount of the feed, and the feed is prevented from caking and blocking the pipeline; the feeding environment of the feed in the bin can be mastered, the feed is abnormal in humidity and temperature, and timely intervention can be performed.

Drawings

FIG. 1 is a schematic view of the feed feeding of the fish farm of the present invention;

FIG. 2 is a front view of the feeding mechanism of the present invention;

FIG. 3 is a cross-sectional view of the feeder of the present invention;

fig. 4 is a top view of the discharging chassis of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

The utility model provides a feeding mechanism for feeding breeding feed in a fishing ground, which comprises a feed storage bin 21 and a mixer 22 as shown in figure 2; the mixer 22 is connected to the conveying mechanism 1 and the feed storage bin 21, respectively.

In this embodiment, as shown in fig. 1, after the high-pressure airflow is conveyed by the conveying mechanism 1, the feeding mechanism 2 fully mixes the feed and the air, the distributor 3 selects a single feeding opening and communicates with the corresponding feeding pipeline 4, the feed is conveyed to the spreader 5 at the end of the feeding pipeline 4, and the feed is spread to the target feeding point by the spreader 5 in a rotating manner.

The fodder is added from the feeding port of the fodder storage 21, and the fodder storage 21 can store a large amount of fodder for the fodder to be transported. In this embodiment, be equipped with temperature transmitter 84 and humidity transducer 82 in the feed storage storehouse 21, humidity and temperature in the monitoring storehouse avoid the storehouse in the fodder caking, influence the transmission of fodder. The feed storage bin 21 is connected with a weighing instrument 25, and the feed feeding amount can be recorded visually according to the change of the feed amount in the bin. And a material level controller 26 is arranged in the feed storage bin 21 and used for monitoring the lowest material storage amount in the bin and reminding an operator of feeding materials in time.

The outlet of the feed storage bin 21 is provided with an inserting plate 24, the feed falling amount in the bin can be controlled by controlling the inserting amount of the inserting plate 24 at the outlet, and the outlet can be blocked by the inserting plate 24 according to overhaul or other requirements to stop feeding.

The mixer 22 is connected with the feed storage bin 21, the mixer 22 is an existing device, in the embodiment, the mixer 22 is a mixing ejector of model HTP-100 produced by Jiangyin Huatian scientific and technological development Limited, so that the feed and the air flowing at high speed are fully and uniformly mixed, and the feed and the air are mixed and rapidly advance.

As shown in fig. 3-4, the feeding mechanism 2 further comprises a feeder 23; the feeder 23 is located between the feed storage bin 21 and the mixer 22, as shown in fig. 3-4, the feeder 23 comprises a cavity 231, a feeding port 232, a discharging chassis 233, a rotary impeller 234, a rotating mechanism 235, and a mounting frame 236; in this embodiment, the feeding port 232 is located at the top of the cavity 231, the rotating mechanism 235 drives an output shaft to rotate by a motor, and the rotary impeller 234 is fixed on the output shaft of the rotating mechanism 235 through the mounting frame 236; the rotary impeller 234 continuously rotates along with the output shaft, the number of the rotary impellers 234 is a plurality of chambers, preferably 6, feed falls into the cavity 231 from the top of the cavity 231, the feed falling is divided into six parts, the amount of the six parts of feed is optimal, the feed does not influence the transmission excessively, and the feed does not influence the feeding efficiency too little; the discharging base plate 233 is located at the bottom of the cavity 231, the discharging base plate 233 is provided with a discharging hole 2331, the separated fodder continuously rotates under the rotation of the rotary impeller 234, and when the fodder passes through the discharging hole 2331, the fodder falls out of the discharging hole 2331.

The top end of the mounting frame 236 is tapered, so that feed falling from the upper end slides down the tapered mounting frame 236, and the feed is prevented from being accumulated on the top end of the mounting frame 236.

The feeder 23 outputs the feed uniformly and continuously, and the discharge amount is changed by changing the rotating speed, so that the problems that the feed storage bin 21 drops too much feed, the mixer 22 is blocked, and the feed is not uniformly mixed and a pipeline is blocked are solved.

The cavity 231 is provided with a partition plate 237 and a rotating blade 238, the cavity 231 is divided into an upper layer of dispersion cavity and a lower layer of dispersion cavity, and the partition plate 237 is provided with a middle outlet 2371; the rotating mechanism 235 passes through the partition 237, and the rotating blade 238 is fixed on the rotating mechanism 235 through the mounting frame 236; the fodder falls into the cavity 231 from the inlet 232, is pushed to the middle outlet 2371 by the rotary impeller 234 and then enters the rotary impeller 234, is discharged from the outlet 2331 after rotating 180 degrees in the rotary impeller 234, and can be discharged continuously while preventing the lower conveying gas from entering the upper bin by the rotary discharge of the rotary impeller 234.

The intermediate outlet 2371 is offset from the opening of the discharge gate 2331, so that the difference between the intermediate outlet 2371 and the discharge gate 2331 is 180 degrees, and a conveying gas flow is prevented from entering the upper bin from the discharge gate.

The feeding speed is controlled by controlling the rotation of the rotating mechanism 235, adjusting the rotation speed of the impeller or the blades, and the rotating mechanism 235 can be closed to stop feeding.

The feeding mechanism for feeding the breeding feed in the fishery of the utility model controls the feeding speed by arranging the feeder 23, avoids the excessive blanking amount of the feed storage bin 21 from blocking the mixer 22, and can realize the conveying amount of 3-8 tons per hour; the feed is quantitatively fed to the mixer 22, sprayed into the gas below through the mixer 22, uniformly mixed, and then conveyed to the dispenser 3 along with the gas.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (7)

1. The feeding mechanism for feeding the breeding feed in the fishing ground is characterized by comprising a feed storage bin, a mixer and a feeder; the mixer is connected with the feed storage bin; said feeder being located between said feed storage bin and said mixer;

the feeder comprises a cavity, a feeding hole, a discharging chassis, a rotary impeller, a rotating mechanism and a mounting rack; the feeding port is positioned at the top of the cavity; the rotating impeller is fixed on an output shaft of the rotating mechanism through the mounting frame; the discharging base plate is positioned at the bottom of the cavity and is provided with a discharging hole;

the cavity is provided with a partition plate and a rotating blade, the cavity is divided into an upper dispersing cavity and a lower dispersing cavity, and the partition plate is provided with a middle outlet; the rotating mechanism penetrates through the partition plate, and the rotating blades are fixed on the rotating mechanism through the mounting frame.

2. A feeding mechanism for feeding of feed for fishery culture according to claim 1, wherein said rotary impeller is provided with a plurality of chambers.

3. A feeding mechanism for feeding feed in fishery aquaculture as claimed in claim 1, wherein the top end of said mounting bracket is tapered.

4. A feeding mechanism for feeding of feed bred in a fishing ground as defined in claim 1, wherein a temperature transmitter and a humidity transmitter are provided in said feed storage bin.

5. A feeding mechanism for feeding of feed for fishery culture according to claim 1, wherein a weighing instrument is connected to said feed storage bin.

6. A feeding mechanism for feeding of feed for fishery culture according to claim 1, wherein a feed level controller is provided in said feed storage bin.

7. A feeding mechanism for feeding of feed for fishery culture according to claim 1, wherein an outlet of said feed storage bin is provided with an insert plate.

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