CN212325132U - Hydrodynamic remote feeding system - Google Patents

Abstract

The utility model discloses a hydrodynamic remote feeding system, which comprises a high-pressure water pump and a storage bin; a high-pressure water pump: the water inlet of the device is communicated with an external water source through a pipeline, the water outlet of the device is communicated with a Venturi water material mixer through a water outlet pipe, a feed inlet of the Venturi water material mixer is communicated with a double-layer horizontal rotation type feeder, a stock bin is communicated with a feed inlet of the double-layer horizontal rotation type feeder, a discharge outlet of the Venturi water material mixer is communicated with a distributor through a feed conveying pipe, a discharge outlet of the distributor is communicated with five shunting joints, the shunting joints are communicated with a rotary material spreader through shunting pipes, and the rotary material spreader is fixed on a floating support; the hydrodynamic remote feeding system can reduce the feed breakage rate, reduce the loss of feed nutrient components, save energy and reduce the labor intensity of users.

Description

Hydrodynamic remote feeding system

Technical Field

The utility model relates to an aquaculture pond fodder technical field of throwing something and feeding specifically is a hydrodynamic force long-range system of throwing something and feeding.

Background

Pond culture refers to a production mode of aquatic economic animals and plants by using a pond, and is characterized in that people intervene and regulate environmental conditions influencing animal growth through the input of seedlings and related substances to obtain complex system activities with maximum output, in the culture process, feed needs to be thrown into the pond to feed the animals, the traditional feeding mode mostly adopts mechanical timed feeding or manual feeding, the mechanical timed feeding has high energy consumption, the feed is easy to damage and cause waste, meanwhile, in the conveying process, the feed is easy to heat to cause nutrition loss, the manual feeding wastes time and labor, the feeding range is uneven, the size difference of commercial fishes is easy to cause, and the fish culture effect is poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a hydrodynamic force long-range system of throwing something and feeding, this hydrodynamic force long-range system of throwing something and feeding can reduce the fodder breakage rate, alleviates fodder nutrient composition's loss, and the energy saving reduces user's intensity of labour, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a hydrodynamic remote feeding system comprises a high-pressure water pump and a storage bin;

a high-pressure water pump: the water inlet of the device is communicated with an external water source through a pipeline, the water outlet of the device is communicated with a Venturi water material mixer through a water outlet pipe, a feed inlet of the Venturi water material mixer is communicated with a double-layer horizontal rotation type feeder, a stock bin is communicated with a feed inlet of the double-layer horizontal rotation type feeder, a discharge outlet of the Venturi water material mixer is communicated with a distributor through a feed conveying pipe, a discharge outlet of the distributor is communicated with five shunting joints, the shunting joints are communicated with a rotary material spreader through shunting pipes, and the rotary material spreader is fixed on a floating support;

the input ends of the high-pressure water pump and the rotary material scattering device are electrically connected with the output end of an external single chip microcomputer, and the output end of the external single chip microcomputer is electrically connected with the input end of an external power supply.

Furthermore, the high-pressure water pump is a variable frequency pump, the water outlet pipe is provided with a flow detector, the output end of the flow detector is electrically connected with the input end of the external single chip microcomputer, and the flow detector can monitor water flow information in real time and change the water flow through the variable frequency pump.

Further, double-deck flat rotary type is glassware down includes drum, transport axle, communicating pipe, transport blade and conveyor motor, the drum is equipped with two, and through communicating pipe intercommunication, a drum and feed bin intercommunication, another drum and venturi water material blender intercommunication, the inner wall of drum rotates and is connected with the transport axle, the side of carrying the axle is equipped with transport blade, and two are carried blade to revolve to opposite, conveyor motor fixes the side at the drum, and its output shaft and transport hub connection, the output of outside singlechip is connected to its input electricity, and double-deck flat rotary type is glassware down can guarantee that rivers can not return the feed bin in, is convenient for control the unloading speed of fodder simultaneously.

Compared with the prior art, the beneficial effects of the utility model are that: this hydrodynamic remote feeding system has following benefit:

this hydrodynamic force long-range system of throwing something and feeding adopts hydrodynamic force to carry out the fodder and throws something and feed, uses manpower sparingly, and save time can effectually reduce the fodder damaged, alleviates the fodder extravagant, guarantees that the fodder keeps suitable temperature at the in-process of carrying, alleviates the loss of fodder nutrient composition, utilizes rotatory glassware that spills simultaneously to make throwing of fodder spill the scope bigger, throws something and feeds area more even, has reduced the difference of commodity fish individual size, has guaranteed the commodity rate.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1 high-pressure water pump, 2 outlet pipes, 3 flow detectors, 4 Venturi water mixers, 5 double-layer horizontal rotary feeders, 51 cylinders, 52 conveying shafts, 53 communicating pipes, 54 conveying blades, 55 conveying motors, 6 bins, 7 conveying pipes, 8 distributors, 9 shunting joints, 10 shunting pipes, 11 rotary spreaders and 12 floating supports.

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, the present invention provides a technical solution: a hydrodynamic remote feeding system comprises a high-pressure water pump 1 and a storage bin 6;

high-pressure water pump 1: the high-pressure water pump 1 is a variable frequency pump capable of controlling the flow of water and conveniently managing hydrodynamic force, the water outlet pipe 2 is provided with a flow detector 3, the flow detector 3 is arranged to accurately acquire water flow information, the water inlet of the high-pressure water pump is communicated with an external water source through a pipeline, the water outlet of the high-pressure water pump is communicated with a Venturi water mixer 4 through a water outlet pipe 2, the feed inlet of the Venturi water mixer 4 is communicated with a double-layer flat-spiral type discharger 5, the Venturi water mixer 4 can uniformly mix water and feed to enable the water and the feed to be efficiently mixed together, the feed bin 6 is communicated with the feed inlet of the double-layer flat-spiral type discharger 5, the feed can enter the double-layer flat-spiral type discharger 5 from the feed bin 6 and enter the double-layer flat-spiral type discharger 5 along the double-layer flat-spiral type discharger 5 to be mixed, and the double-layer flat-spiral, Two conveying blades 54 and a conveying motor 55 are arranged, the two cylinders 51 are communicated through a communication pipe 53, feed is transferred between the two cylinders 51 through the communication pipe 53, one cylinder 51 is communicated with the bin 6, the other cylinder 51 is communicated with the venturi water material mixer 4, the inner wall of the cylinder 51 is rotatably connected with a conveying shaft 52, the side surface of the conveying shaft 52 is provided with the conveying blades 54, the rotating directions of the two conveying blades 54 are opposite, so that the bidirectional conveying of the feed is ensured, the water cannot flow back into the bin 6, the conveying motor 55 is fixed on the side surface of the cylinder 51, the output shaft of the conveying motor 55 is connected with the conveying shaft 52, during actual work, the output shaft of the conveying motor 55 drives the conveying shaft 52 to rotate, the conveying blades 54 on the side surface of the conveying shaft 52 rotate to convey the feed into the venturi water material mixer 4, the discharge port of the venturi water material mixer 4 is communicated with the distributor 8, the discharge port of the distributor 8 is communicated with five shunt connectors 9, the shunt connectors 9 are communicated with a rotary material spreader 11 through shunt tubes 10, the rotary material spreader 11 is fixed on a floating support 12, the distributor 8 is arranged to distribute a mixture of water and feed to be communicated with the rotary material spreader 11 positioned at different positions of the pond, efficient material spreading is achieved, meanwhile, the rotary material spreader 11 can improve the spreading area of the feed, the feed can be uniformly spread into the pond, and the size individual difference of commercial fishes is reduced;

wherein, the input ends of the high-pressure water pump 1, the conveying motor 55 and the rotary material spreader 11 are electrically connected with the output end of an external singlechip, and the output end of the external singlechip is electrically connected with an external power supply and the input end of the flow detector 3;

it is worth noting that the system is not usable when the air temperature is lower than 0 ℃, and the damage of each device is avoided.

When in use: the high-pressure water pump 1 is controlled to adjust the pressure and flow value of water, an external water source is conveyed into the Venturi water mixer 4 through the water outlet pipe 2, meanwhile, feed in the bin 6 enters the cylinder 51, the output shaft of the conveying motor 55 drives the conveying shaft 52 and the conveying blades 54 on the side face of the conveying shaft to rotate, the feed is driven to move along the cylinder 51, the feed enters the cylinder 51 at the bottom end from the cylinder 51 at the top end along the communicating pipe 53 and then enters the Venturi water mixer 4 to be fully mixed with the water, the mixed feed enters the distributor 8 along the conveying pipe 7, split flows enter each split pipe 10, and the self-rotating distributor 11 is sprayed into a pond.

It should be noted that the specific model of the external single chip microcomputer disclosed in this embodiment is STM32F100RB, the preferred model of the high-pressure water pump 1 is CRF1-36, the preferred model of the conveying motor 55 is YZR112M-6, the preferred model of the flow detector 3 is LDG-MIK, and the external single chip microcomputer controls the high-pressure water pump 1, the conveying motor 55 and the rotary spreader 11 to work by a method commonly used in the prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. A hydrodynamic remote feeding system is characterized in that: comprises a high-pressure water pump (1) and a storage bin (6);

high-pressure water pump (1): the water inlet of the device is communicated with an external water source through a pipeline, the water outlet of the device is communicated with a Venturi water mixer (4) through a water outlet pipe (2), the feed inlet of the Venturi water mixer (4) is communicated with a double-layer flat rotary feeder (5), the stock bin (6) is communicated with the feed inlet of the double-layer flat rotary feeder (5), the discharge outlet of the Venturi water mixer (4) is communicated with a distributor (8) through a feed delivery pipe (7), the discharge outlet of the distributor (8) is communicated with five shunt joints (9), the shunt joints (9) are communicated with a rotary feeder (11) through shunt pipes (10), and the rotary feeder (11) is fixed on a floating support (12);

the input ends of the high-pressure water pump (1) and the rotary material scattering device (11) are electrically connected with the output end of an external single chip microcomputer, and the output end of the external single chip microcomputer is electrically connected with the input end of an external power supply.

2. A hydrodynamic remote feeding system according to claim 1, wherein: the high-pressure water pump (1) is a variable frequency pump, the water outlet pipe (2) is provided with a flow detector (3), and the output end of the flow detector (3) is electrically connected with the input end of an external single chip microcomputer.

3. A hydrodynamic remote feeding system according to claim 1, wherein: double-deck flat rotary feeder (5) include drum (51), carry axle (52), communicating pipe (53), transport blade (54) and conveying motor (55), drum (51) are equipped with two, and communicate through communicating pipe (53), and a drum (51) and feed bin (6) intercommunication, and another drum (51) and venturi water material blender (4) intercommunication, the inner wall of drum (51) rotates and is connected with and carries axle (52), the side of carrying axle (52) is equipped with transport blade (54), and the direction of rotation of two transport blade (54) is opposite, conveying motor (55) are fixed in the side of drum (51), and its output shaft is connected with carrying axle (52), and the output of outside singlechip is connected to its input electricity.

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