CN215774860U

CN215774860U - Novel automatic feeding system of water material

Info

Publication number: CN215774860U
Application number: CN202122055718.9U
Authority: CN
Inventors: 倪树明
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-27
Filing date: 2021-08-27
Publication date: 2022-02-11
Anticipated expiration: 2031-08-27

Abstract

The utility model relates to the field of machinery, in particular to a feeding system. A novel automatic water feeding system comprises a material tower, a water tower, a liquid storage tank, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and a control box, wherein a conveyor is arranged between a discharge port of the material tower and a feed port of the stirring tank; the water tower is connected with the stirring tank; the liquid storage tank is connected with a metering pump, and the metering pump is connected with a stirring tank; the circulating pipeline is provided with a circulating pipeline liquid outlet which is connected with the feeding groove. Through the design, the utility model provides a novel automatic water feeding system, which realizes automatic feeding through the matching work of parts such as a material tower, a water tower, a liquid storage tank, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and the like, and has the advantages of convenience and rapidness in installation, low cost, simplicity and convenience in feeding operation, capability of continuously supplying feed, long feed fermentation time and good feeding effect.

Description

Novel automatic feeding system of water material

Technical Field

The utility model relates to the field of machinery, in particular to a feeding system.

Background

The feeding system for raising pigs has the disadvantages of more powder, more dust, easy breakage of a conveying pipeline, difficult dosing and the like when the dry line is used, and the traditional water line also has the disadvantages of high cost, complex feeding, long feeding time, crowded feeding and the like.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a novel automatic water feeding system to solve at least one technical problem.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a novel automatic water-material feeding system is characterized by comprising a material tower for storing feed, a water tower for storing water, a liquid storage tank for storing EM original dew, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and a control box, wherein a single chip microcomputer is arranged in the control box, a stirring motor is arranged on the stirring tank, and the single chip microcomputer is connected with the stirring motor in a control mode;

the material tower is arranged on one side of the stirring tank, a conveyor is arranged between a discharge hole of the material tower and a feed hole of the stirring tank, the conveyor comprises a conveying motor, and the single chip microcomputer is in control connection with the conveying motor;

the liquid outlet of the water tower is connected with the first liquid inlet of the stirring tank through a water inlet pipeline, a first electromagnetic valve is mounted on the water inlet pipeline, and the single chip microcomputer is in control connection with the first electromagnetic valve;

the liquid outlet of the liquid storage tank is connected with the liquid inlet of the metering pump through a pipeline, the liquid outlet of the metering pump is connected with the second liquid inlet of the stirring tank through a pipeline, and the single chip microcomputer is in control connection with the metering pump;

the liquid outlet of the stirring tank is connected with the liquid inlet of the first pump body through a pipeline, the liquid outlet of the first pump body is connected with the liquid inlet of the fermentation tank through a pipeline, and the single chip microcomputer is connected with the first pump body in a control mode;

the liquid outlet of the fermentation tank is connected with the liquid inlet of a second pump body through a pipeline, the liquid outlet of the second pump body is connected with the liquid inlet of a circulating pipeline through a pipeline, and the singlechip is controlled and connected with the second pump body;

the circulating pipeline is provided with at least one circulating pipeline liquid outlet, and the circulating pipeline liquid outlet is connected with the liquid inlet of the feeding groove through a pipeline.

Be equipped with first level sensor in the agitator tank, the singlechip with adopt electric connection between the first level sensor.

One side of agitator tank is equipped with weighing device, the singlechip with adopt electric connection between the weighing device.

Be equipped with the second liquid level sensor in the fermentation cylinder, the singlechip with adopt electric connection between the second liquid level sensor, the inlet opening department of fermentation cylinder is equipped with the second solenoid valve, single chip microcomputer control connects the second solenoid valve, the liquid outlet department of fermentation cylinder is equipped with the third solenoid valve, single chip microcomputer control connects the third solenoid valve.

One side of the fermentation tank is provided with a third pump body, the liquid outlet of the fermentation tank is connected with the liquid inlet of the third pump body through a pipeline, and the liquid outlet of the third pump body is connected with the liquid inlet of the fermentation tank through a pipeline.

The fermentation tank is at least two, and at least two the liquid outlet of fermentation tank all passes through pipe connection collecting pipe, be equipped with the discharge gate on the collecting pipe, the inlet of the second pump body is connected to the discharge gate, discharge gate department ann has the fourth solenoid valve, single chip microcomputer control connection the fourth solenoid valve.

The liquid outlet of the water tower is respectively connected with the stirring tank and the fermentation tank through a cleaning pipeline, a fifth electromagnetic valve is arranged on the cleaning pipeline, and the singlechip is in control connection with the fifth electromagnetic valve.

The liquid outlet of the water tower is connected with the feeding groove through a water supply pipeline, and a valve for manual opening is arranged on the water supply pipeline.

An electric heating pipe is arranged in the water tower, and the singlechip is controlled and connected with the electric heating pipe; be equipped with temperature sensor in the water tower, the singlechip with adopt electric connection between the temperature sensor.

The circulating pipeline comprises a first pipe orifice and a second pipe orifice, the first pipe orifice is connected with a liquid inlet of the fourth pump body, and a liquid outlet of the fourth pump body is connected with the second pipe orifice;

a pressure control valve is arranged at the liquid inlet of the feeding groove.

Through the design, the utility model provides a novel automatic water feeding system, which realizes automatic feeding through the matching work of parts such as a material tower, a water tower, a liquid storage tank, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and the like, and has the advantages of convenience and rapidness in installation, low cost, simplicity and convenience in feeding operation, capability of continuously supplying feed, long feed fermentation time and good feeding effect.

Drawings

FIG. 1 is a partial schematic structural view of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1, a novel automatic water feeding system comprises a material tower 1 for storing feed, a water tower 2 for storing water, a liquid storage tank 3 for storing EM original dew, a stirring tank 7, a fermentation tank 8, a circulating pipeline 12, a feeding trough 13 and a control box 6, wherein a single chip microcomputer is arranged in the control box, a stirring motor is arranged on the stirring tank, and the single chip microcomputer is connected with the stirring motor in a control way; the material tower is arranged on one side of the stirring tank, a conveyor 5 is arranged between a discharge port of the material tower and a feed port of the stirring tank, the conveyor comprises a conveying motor, and the conveying motor is controlled and connected by the single chip microcomputer; a liquid outlet of the water tower is connected with a first liquid inlet of the stirring tank through a water inlet pipeline, a first electromagnetic valve is arranged on the water inlet pipeline, and the single chip microcomputer is connected with the first electromagnetic valve in a control mode; the liquid outlet of the liquid storage tank is connected with the liquid inlet of the metering pump 4 through a pipeline, the liquid outlet of the metering pump is connected with the second liquid inlet of the stirring tank through a pipeline, and the metering pump is controlled and connected by the single chip microcomputer; the liquid outlet of the stirring tank is connected with the liquid inlet of the first pump body 9 through a pipeline, the liquid outlet of the first pump body is connected with the liquid inlet of the fermentation tank through a pipeline, and the single chip microcomputer is connected with the first pump body in a control mode; the liquid outlet of the fermentation tank is connected with the liquid inlet of the second pump body 11 through a pipeline, the liquid outlet of the second pump body is connected with the liquid inlet of the circulating pipeline through a pipeline, and the singlechip is controlled and connected with the second pump body; the circulating pipeline is provided with at least one circulating pipeline liquid outlet, and the circulating pipeline liquid outlet is connected with a liquid inlet of the feeding groove through a pipeline. Through the design, the utility model provides a novel automatic water feeding system, which realizes automatic feeding through the matching work of parts such as a material tower, a water tower, a liquid storage tank, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and the like, and has the advantages of convenience and rapidness in installation, low cost, simplicity and convenience in feeding operation, capability of continuously supplying feed, long feed fermentation time and good feeding effect.

In order to guarantee the using effect of the automatic feeding system, the single chip microcomputer and the stirring motor are electrically connected, the single chip microcomputer and the conveying motor are electrically connected, the single chip microcomputer and the first electromagnetic valve are electrically connected, the single chip microcomputer and the metering pump are electrically connected, the single chip microcomputer and the first pump body are electrically connected, and the single chip microcomputer and the second pump body are electrically connected. The conveyor may be a screw conveyor.

Be equipped with first level sensor in the agitator tank, adopt electric connection between singlechip and the first level sensor. One side of agitator tank is equipped with weighing device, adopts electric connection between singlechip and the weighing device. Be convenient for detect the liquid level in the agitator tank through first level sensor, still can detect the material quality in the agitator tank through weighing device, and then be convenient for control box control system's operation.

Be equipped with the second liquid level sensor in the fermentation cylinder, adopt electric connection between singlechip and the second liquid level sensor, the inlet opening department of fermentation cylinder is equipped with the second solenoid valve, and singlechip control connects the second solenoid valve, and the liquid outlet department of fermentation cylinder is equipped with the third solenoid valve, and singlechip control connects the third solenoid valve. Detecting the liquid level of the fermentation tank through a second liquid level sensor, for example, when the liquid level in the fermentation tank is low, controlling a first pump body to convey materials into the fermentation tank through a single chip microcomputer; the second electromagnetic valve or the third electromagnetic valve can be matched with the material input into the fermentation tank or the material output from the fermentation tank.

One side of the fermentation tank is provided with a third pump body 10, the liquid outlet of the fermentation tank is connected with the liquid inlet of the third pump body through a pipeline, and the liquid outlet of the third pump body is connected with the liquid inlet of the fermentation tank through a pipeline. When the liquid level is higher in the fermentation cylinder, realize the circulation of the material of fermentation cylinder through the third pump body for the fodder is in suspension state in the aquatic, does benefit to and feeds, has also reduced the situation emergence of pipe blockage simultaneously.

The fermentation tanks are at least two, the liquid outlets of the at least two fermentation tanks are connected with a material collecting pipe through a pipeline, a discharge port is arranged on the material collecting pipe and connected with a liquid inlet of the second pump body, a fourth electromagnetic valve is arranged at the discharge port, and the fourth electromagnetic valve is controlled and connected by a single chip microcomputer. At least two fermentation tanks can be recycled, thereby not only ensuring the uninterrupted supply of the feed, but also ensuring the fermentation time of the feed and further improving the digestibility of the feed.

The liquid outlet of water tower passes through washing pipeline 15 and connects agitator tank and fermentation cylinder respectively, and the washing pipeline is last to be installed with the fifth solenoid valve, and singlechip control connects the fifth solenoid valve. When the system stops operating, the water tower supplies water, so that the staff can clean the stirring tank and the fermentation tank conveniently.

The liquid outlet of the water tower is connected with the feeding trough through a water supply pipeline 16, and a valve for manual opening is arranged on the water supply pipeline. Under the condition that power failure or trouble took place, staff's accessible manual opening valve guaranteed the water supply to in the pig house.

An electric heating pipe is arranged in the water tower, and the electric heating pipe is controlled and connected by the singlechip. A temperature sensor is arranged in the water tower, and the single chip microcomputer is electrically connected with the temperature sensor. The water in the water tower is heated by the electric heating pipe, so that the subsequent processes of material mixing, material fermentation and the like are facilitated, and the heating temperature in the water tower can be set to be 50 ℃.

The circulating pipeline comprises a first pipe orifice and a second pipe orifice, the first pipe orifice is connected with a liquid inlet of the fourth pump body 14, and a liquid outlet of the fourth pump body is connected with the second pipe orifice; the liquid inlet of the feeding groove is provided with a pressure control valve. The feeding trough can adopt a disc-shaped feeding trough. Make the material circulate at circulating line circulation through the fourth pump body, avoided the fodder deposit to lead to the pipeline to block up to cooperate pressure control valve to guarantee the effect of feeding.

When the novel automatic water-material feeding system is used, water stored in a water tower is conveyed into a stirring tank through a pipeline, at the moment, a single chip microcomputer controls a stirring motor to start to operate, after a first liquid level sensor detects that the liquid level in the stirring tank reaches a certain height, the single chip microcomputer controls a first electromagnetic valve to be closed to stop water inflow, feed in a material tower is conveyed into the stirring tank through a conveyor, after a certain time or after the liquid level rises to the certain height again, the conveyor is stopped to convey the feed, EM original dew is injected into the stirring tank through a metering pump within a certain time, and the operation of the stirring motor is kept in the process; when the first liquid level sensor detects that the liquid level in the stirring tank is low, the stirring motor is controlled to stop running through the single chip microcomputer; the materials mixed in the stirring tank are conveyed into the fermentation tank through the first pump body, so that the materials start to ferment in the fermentation tank, the third pump body is used for ensuring the circulating circulation of the materials of the fermentation tank, and the plurality of fermentation tanks can be recycled through the cooperation of the second liquid level sensor, the second electromagnetic valve and the third electromagnetic valve; the fermented materials in the fermentation tank enter the material collecting pipe, the materials in the material collecting pipe are conveyed to a circulating pipeline in the pigsty by the second pump body, and the feeding time can be controlled by opening and closing a fourth electromagnetic valve; after the materials enter the circulating pipeline, the materials circulate in the circulating pipeline and keep constant pressure under the action of the fourth pump body, and the materials flow through the pressure control valve and then enter the feeding groove to finish the feeding process; the system can also supply water through a water tower, so that workers can conveniently clean the stirring tank and the fermentation tank; and under the condition that power failure or trouble takes place, staff's accessible manually opens the valve, guarantees the water supply to in the pig house through the water tower.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the utility model as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A novel automatic water-material feeding system is characterized by comprising a material tower for storing feed, a water tower for storing water, a liquid storage tank for storing EM original dew, a stirring tank, a fermentation tank, a circulating pipeline, a feeding groove and a control box, wherein a single chip microcomputer is arranged in the control box, a stirring motor is arranged on the stirring tank, and the single chip microcomputer is connected with the stirring motor in a control mode;

2. The novel automatic water feeding system as claimed in claim 1, wherein a first liquid level sensor is disposed in the stirring tank, and the single chip microcomputer is electrically connected to the first liquid level sensor.

3. The novel automatic water and material feeding system as claimed in claim 1 or 2, wherein a weighing device is arranged on one side of the stirring tank, and the single chip microcomputer is electrically connected with the weighing device.

4. The novel automatic water feeding system according to claim 2, wherein a second liquid level sensor is arranged in the fermentation tank, the single chip microcomputer is electrically connected with the second liquid level sensor, a second electromagnetic valve is arranged at a liquid inlet of the fermentation tank, the single chip microcomputer is in control connection with the second electromagnetic valve, a third electromagnetic valve is arranged at a liquid outlet of the fermentation tank, and the single chip microcomputer is in control connection with the third electromagnetic valve.

5. The automatic feeding system of claim 4, wherein a third pump is disposed at one side of the fermentation tank, the liquid outlet of the fermentation tank is connected to the liquid inlet of the third pump through a pipeline, and the liquid outlet of the third pump is connected to the liquid inlet of the fermentation tank through a pipeline.

6. A novel automatic water feeding system as claimed in claim 4 or 5, wherein there are at least two fermentation tanks, at least two liquid outlets of the fermentation tanks are connected to a material collecting pipe through a pipeline, the material collecting pipe is provided with a material outlet, the material outlet is connected to a liquid inlet of a second pump body, a fourth electromagnetic valve is installed at the material outlet, and the singlechip controls and connects the fourth electromagnetic valve.

7. The novel automatic water feeding system according to claim 1, wherein a liquid outlet of the water tower is connected with the stirring tank and the fermentation tank through a cleaning pipeline, a fifth electromagnetic valve is installed on the cleaning pipeline, and the fifth electromagnetic valve is controlled and connected by the single chip microcomputer.

8. The automatic feeding system of claim 1, wherein the outlet of the water tower is connected to the feeding trough by a water supply pipeline, and the water supply pipeline is provided with a valve for manual opening.

9. The novel automatic water feeding system according to claim 1, wherein an electric heating pipe is arranged in the water tower, and the single chip microcomputer is connected with the electric heating pipe in a control manner;

be equipped with temperature sensor in the water tower, the singlechip with adopt electric connection between the temperature sensor.

10. The novel automatic water-feeding system as claimed in claim 1, wherein the circulation pipeline comprises a first pipe orifice and a second pipe orifice, the first pipe orifice is connected with a liquid inlet of a fourth pump body, and a liquid outlet of the fourth pump body is connected with the second pipe orifice;

a pressure control valve is arranged at the liquid inlet of the feeding groove.