CN217446208U

CN217446208U - Novel liquid automatic feeding system

Info

Publication number: CN217446208U
Application number: CN202220961170.6U
Authority: CN
Inventors: 倪树明
Original assignee: Individual
Current assignee: Sichuan Texuan Ran Animal Husbandry Technology Co ltd
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-09-20
Anticipated expiration: 2032-04-21

Abstract

The utility model relates to the field of machinary, concretely relates to feeding system. A novel liquid automatic feeding system comprises an automatic feeding system body, wherein the automatic feeding system body comprises a material tower, a first water tower and a storage tank, the material tower, the first water tower and the storage tank are all connected with a water and material premixing bin, and the water and material premixing bin is connected with a pulping machine; the fiberizer is connected with a storage transition pool, the storage transition pool is connected with a fermentation tank, one side of the fermentation tank is provided with a liquid level pipe, and the liquid level pipe is connected with an air compressor. The utility model has simple feeding and high feeding efficiency; and the cooperation work of equipment such as fiberizer, fermentation cylinder, air compressor has reduced the situation emergence of pipeline jam, and the fermentation cylinder can fill into the air and form the effect of pneumatic stirring in the use to the reproduction degree of regulation and control aerobic bacteria anaerobe etc. avoids too acidizing, has guaranteed feeding system's result of use, has improved user's use and has experienced.

Description

Novel liquid automatic feeding system

Technical Field

The utility model relates to the field of machinary, specifically, relate to feeding system.

Background

With the development of society, piggeries begin to adopt automatic feeding systems for feeding, such as a dry material line feeding system for feeding dry materials and a water material line feeding system for feeding water materials, however, the existing feeding systems cannot meet the requirements of users, the dry material line feeding system has the problems of more powder, more dust, difficult dosing and the like, and the water material line feeding system also has the problems of complex feeding, long feeding time, crowding in feeding and the like; for a water and feed line feeding system, the problems that a feed transmission pipeline is easy to be blocked due to feed particles with uneven sizes, the feed transmission pipeline is not easy to clean and the like exist, and the using effect of the feeding system is influenced; on the other hand, the bad feeding system of the pigsty can also pollute the environment, for example, the pigsty is polluted by odor, flies, and feces.

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

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel liquid automatic feeding system to solve above-mentioned at least one technical problem.

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

a novel liquid automatic feeding system comprises an automatic feeding system body and is characterized in that the automatic feeding system body comprises a material tower for storing foodstuff particles, a first water tower for storing clear water and a storage tank for storing EM bacterial liquid, wherein the material tower, the first water tower and the storage tank are all connected with a water-material premixing bin for mixing water and materials, and the water-material premixing bin is connected with a pulping machine;

the pulping machine is connected with a storage transition pool for storing pulp, the storage transition pool is connected with a fermentation tank, the fermentation tank is connected with a collecting pipe, one side of the fermentation tank is provided with a liquid level pipe for displaying the liquid level of the fermentation tank, the upper part of the liquid level pipe is connected with the upper part of the fermentation tank, the lower part of the liquid level pipe is connected with the lower part of the fermentation tank, and the liquid level pipe is connected with an air compressor;

the collecting pipe is connected with a booster pump, and the booster pump is connected with a blanking device arranged in a pigsty;

the feeder is connected with a return pipeline, and the return pipeline is connected with the fermentation tank.

And a spiral conveyor is arranged at the discharge port of the material tower and is connected with the water and material premixing bin.

The storage tank is connected with the water material premixing bin through a pipeline, and a metering pump is arranged on the pipeline for connecting the storage tank and the water material premixing bin.

The first water tower is connected with the water and material premixing bin through a first pipeline, and a first pump body is arranged on the first pipeline.

The automatic feeding system body comprises a feeding pipe for feeding green slurry, the feeding pipe is connected with the first pipeline, and the joint of the feeding pipe and the first pipeline is arranged on the rear side of the first pump body.

The fermentation tank is connected with the collecting pipe through a pipeline, and a discharging electric valve for controlling discharging is arranged on the pipeline for connecting the fermentation tank and the collecting pipe.

The number of the fermentation tanks is four, the four fermentation tanks comprise a first fermentation tank, a second fermentation tank, a third fermentation tank and a fourth fermentation tank, a first liquid level pipe is arranged on one side of the first fermentation tank, a second liquid level pipe is arranged on one side of the second fermentation tank, a third liquid level pipe is arranged on one side of the third fermentation tank, a fourth liquid level pipe is arranged on one side of the fourth fermentation tank, and the first liquid level pipe, the second liquid level pipe, the third liquid level pipe and the fourth liquid level pipe are all connected with the air compressor;

the storage transition pool is connected with the first fermentation tank through a pipeline, a first feeding electric valve is arranged on the pipeline for connecting the storage transition pool and the first fermentation tank, the first fermentation tank is connected with the collection pipe through a pipeline connecting pipeline, and a first discharging electric valve is arranged on the pipeline for connecting the first fermentation tank and the collection pipe;

the storage transition pool is connected with the second fermentation tank through a pipeline, a second feeding electric valve is arranged on the pipeline for connecting the storage transition pool and the second fermentation tank, the second fermentation tank is connected with the collection pipe through a pipeline, and a second discharging electric valve is arranged on the pipeline for connecting the second fermentation tank and the collection pipe;

the material storage transition pool is connected with the third fermentation tank through a pipeline, a third feeding electric valve is arranged on the pipeline for connecting the material storage transition pool and the third fermentation tank, the third fermentation tank is connected with the collection pipe through a pipeline, and a third discharging electric valve is arranged on the pipeline for connecting the first fermentation tank and the collection pipe;

the storage transition pool is connected with the fourth fermentation tank through a pipeline, a fourth feeding electric valve is arranged on the pipeline connecting the storage transition pool with the fourth fermentation tank, the fourth fermentation tank is connected with the collection pipe through a pipeline connecting pipe, and a fourth discharging electric valve is arranged on the pipeline connecting the fourth fermentation tank with the collection pipe.

The fermentation cylinder passes through the pipe connection the backflow pipeline is used for connecting the fermentation cylinder with be equipped with the backward flow electric valve who is used for controlling the backward flow on the pipeline of backflow pipeline.

The automatic feeding system body comprises a flushing device, the flushing device comprises a second water tower for storing clear water, the second water tower is connected with a cleaning pipeline, and a cleaning total electric valve for controlling cleaning is arranged on the cleaning pipeline;

the tank body cleaning pipeline is connected with the fermentation tank and is provided with a tank body washing electric valve for controlling the washing of the tank body;

the collecting pipe is connected with a drain pipe, and a second valve for controlling the fermentation tank to drain is arranged on the drain pipe;

the cleaning pipeline is connected with a pipeline cleaning pipeline, the pipeline cleaning pipeline is connected with the collecting pipe, and a pipeline cleaning electric valve for controlling the pipeline cleaning is arranged on the pipeline cleaning pipeline.

The automatic feeding system body comprises a fan, and an air outlet of the fan is connected with the cleaning pipeline.

Through the design, the utility model provides a novel liquid automatic feeding system, which is simple in feeding and high in feeding efficiency; and the situation that the pipeline is blocked is reduced through the cooperation work of equipment such as fiberizer, fermentation cylinder, air compressor, and the like, and the fermentation cylinder can be flushed with the air and form the effect of pneumatic stirring in the use to the reproduction degree of regulation and control aerobic bacteria anaerobe etc. avoids too acidizing, has guaranteed feeding system's result of use, has improved user's use and has experienced.

Drawings

Fig. 1 is a schematic view of the connection of the partial structures of the present invention.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1, a novel liquid automatic feeding system comprises an automatic feeding system body, wherein the automatic feeding system body comprises a material tower 1 for storing foodstuff particles, a first water tower 2 for storing clear water and a storage tank 3 for storing EM bacterial liquid, the material tower, the first water tower and the storage tank are all connected with a water-material premixing bin 4 for mixing water materials, and the water-material premixing bin is connected with a pulping machine 5; the pulping machine is connected with a storage transition pool 6 for storing pulp, the storage transition pool is connected with a fermentation tank 7, the fermentation tank is connected with a collection pipe 8, one side of the fermentation tank is provided with a liquid level pipe 9 for displaying the liquid level of the fermentation tank, the upper part of the liquid level pipe is connected with the upper part of the fermentation tank, the lower part of the liquid level pipe is connected with the lower part of the fermentation tank, and the liquid level pipe is connected with an air compressor 10; the collecting pipe is connected with a booster pump 11, and the booster pump is connected with a feeder 12 arranged in the pigsty; the feeder is connected with a return pipeline 13 which is connected with the fermentation tank. Through the design, the utility model provides a novel liquid automatic feeding system, which is simple in feeding and high in feeding efficiency; and the cooperation work through equipment such as fiberizer, fermentation cylinder, air compressor has reduced the situation emergence of pipeline jam, and the fermentation cylinder can fill into the air and form the effect of pneumatic stirring in the use to the reproduction degree of regulation and control aerobic bacteria anaerobe etc. avoids too acidizing, has guaranteed feeding system's result of use, has improved user's use and has experienced.

In order to guarantee the operation effect of the automatic feeding system, hot water is stored in the first water tower, and the using effect of EM bacterial liquid is guaranteed. The refiner grinds the materials into slurry, so that foodstuff is homogenized conveniently, the blockage problem is reduced, the water-material ratio can be reduced, and the water-material is prevented from being too thin. The storage transition pool can be used for dosing health care, and meanwhile, the specific gravity of the slurry in the storage transition pool can be monitored, reasonable water-material ratio is ensured through batching adjustment, and the running condition of the automatic feeding system is known in time. The liquid level pipe is made of transparent materials, so that a user can observe the liquid level in the fermentation tank conveniently. When the fermentation tank is used, air is filled into the fermentation tank through the air compressor to realize oxygenation, so that the propagation degree of bacteria such as aerobic bacteria, anaerobic bacteria and the like is regulated and controlled, and over acidification is avoided. The feeder can adopt an automatic feeder with a liquid level controller.

And a spiral conveyor 14 is arranged at the discharge port of the material tower and is connected with the water and material premixing bin. The dry materials are conveniently sent into the water-material premixing bin through the screw conveyer. The storage tank is connected with the water material premixing bin through a pipeline, and a metering pump 15 is arranged on the pipeline for connecting the storage tank and the water material premixing bin. The metering pump can be started in the water-material premixing bin synchronously with water inlet feeding and can be continuously operated. The first water tower is connected with the water-material premixing bin through a first pipeline, and a first pump body 16 is arranged on the first pipeline. And sending water in the first water tower into a water and material premixing bin through a first pump body. For the control of the operator, a first valve 17 and a first flow meter 18 are arranged on the pipeline for connecting the first water tower and the water material premixing bin.

The automatic feeding system body comprises a feeding pipe 19 for feeding green slurry, the feeding pipe is connected with a first pipeline, and the joint of the feeding pipe and the first pipeline is arranged at the rear side of the first pump body. The green slurry or the fine green feed is sent into a first pipeline through a feeding pipe, and is sent into a water-material premixing bin together with water sent out by a first water tower.

The storage transition pool is connected with the fermentation tank through a pipeline, a second pump body 20 is arranged on the pipeline for connecting the storage transition pool and the fermentation tank, and slurry in the storage transition pool is sent into the fermentation tank through the second pump body. And a second flowmeter 21 and an electric feeding valve 22 for controlling feeding are arranged on the pipeline for connecting the material transition pool and the fermentation tank. The fermentation tank is connected with the collecting pipe through a pipeline, and a discharging electric valve 23 for controlling discharging is arranged on the pipeline for connecting the fermentation tank with the collecting pipe. After the feed is fermented for a certain time, the electric discharging valve is opened when the liquid in the fermentation tank is at a high liquid level, and the electric discharging valve is closed when the liquid in the fermentation tank is at a low liquid level.

The fermentation tanks are four, the four fermentation tanks comprise a first fermentation tank, a second fermentation tank, a third fermentation tank and a fourth fermentation tank, a first liquid level pipe is arranged on one side of the first fermentation tank, a second liquid level pipe is arranged on one side of the second fermentation tank, a third liquid level pipe is arranged on one side of the third fermentation tank, a fourth liquid level pipe is arranged on one side of the fourth fermentation tank, and the first liquid level pipe, the second liquid level pipe, the third liquid level pipe and the fourth liquid level pipe are all connected with an air compressor; the material storage transition pool is connected with a first fermentation tank through a pipeline, a first feeding electric valve is arranged on the pipeline for connecting the material storage transition pool and the first fermentation tank, the first fermentation tank is connected with a gathering pipe through a pipeline, and a first discharging electric valve is arranged on the pipeline for connecting the first fermentation tank and the gathering pipe; the storage transition pool is connected with the second fermentation tank through a pipeline, a second feeding electric valve is arranged on the pipeline for connecting the storage transition pool and the second fermentation tank, the second fermentation tank is connected with the collection pipe through a pipeline, and a second discharging electric valve is arranged on the pipeline for connecting the second fermentation tank and the collection pipe; the material storage transition pool is connected with a third fermentation tank through a pipeline, a third feeding electric valve is arranged on the pipeline for connecting the material storage transition pool and the third fermentation tank, the third fermentation tank is connected with a collection pipe through a pipeline, and a third discharging electric valve is arranged on the pipeline for connecting the first fermentation tank and the collection pipe; the storage transition pool is connected with the fourth fermentation tank through a pipeline, a fourth feeding electric valve is arranged on the pipeline for connecting the storage transition pool and the fourth fermentation tank, the fourth fermentation tank is connected with the collection pipe through a pipeline, and a fourth discharging electric valve is arranged on the pipeline for connecting the fourth fermentation tank and the collection pipe. The first feeding electric valve is opened when liquid in the first fermentation tank is at a low liquid level, the first feeding electric valve is closed when the liquid in the first fermentation tank is at a high liquid level, the first discharging electric valve is opened when the liquid in the fourth fermentation tank is at a low liquid level, and the first discharging electric valve is closed when the liquid in the first fermentation tank is at a low liquid level; the second feeding electric valve is opened when the liquid in the second fermentation tank is at a low liquid level, the second feeding electric valve is closed when the liquid in the second fermentation tank is at a high liquid level, the second discharging electric valve is opened when the liquid in the first fermentation tank is at a low liquid level, and the first discharging electric valve is closed when the liquid in the second fermentation tank is at a low liquid level; the third feeding electric valve is opened when the liquid in the third fermentation tank is at a low liquid level, the third feeding electric valve is closed when the liquid in the third fermentation tank is at a high liquid level, the third discharging electric valve is opened when the liquid in the second fermentation tank is at a low liquid level, and the third discharging electric valve is closed when the liquid in the third fermentation tank is at a low liquid level; the fourth feeding electric valve is opened when liquid in the fourth fermentation tank is at a low liquid level, the fourth feeding electric valve is closed when the liquid in the fourth fermentation tank is at a high liquid level, the fourth discharging electric valve is opened when the liquid in the third fermentation tank is at a low liquid level, and the fourth discharging electric valve is closed when the liquid in the fourth fermentation tank is at a low liquid level.

The booster pump is connected with the blanking device through a pipeline, and a pressure gauge 24, a third flowmeter 25 and a PH meter 26 are arranged on the pipeline for connecting the booster pump and the blanking device.

The fermentation tank is connected with a return pipeline through a pipeline, and a return electric valve 27 for controlling return is arranged on the pipeline for connecting the fermentation tank with the return pipeline. The excess feed or the cleaning water is conveniently sent back to the batching tank, and the backflow electric valve can synchronously run with the discharging electric valve of the fermentation tank. A fourth flow meter 28 is provided on the return line. The feeding pipe and the return pipe are respectively provided with a flowmeter, so that the daily feeding amount and the feed intake change can be conveniently known through statistics.

The liquid level pipe is connected with the air compressor through a pipeline, and an oxygen supplementing electric valve 29 for controlling air charging is arranged on the pipeline for connecting the liquid level pipe and the air compressor. The fermentation tank is convenient for an operator to control air to be filled into the fermentation tank through the liquid level pipe for oxygen supplementation fermentation, and is also convenient for forming the effect of pneumatic stirring in the fermentation tank through controlling air to be filled.

The automatic feeding system body comprises a washing device, the washing device comprises a second water tower 30 for storing clear water, the second water tower is connected with a washing pipeline 31, and a washing total electric valve 34 for controlling washing is arranged on the washing pipeline; the cleaning pipeline is connected with a tank cleaning pipeline 32 which is connected with the fermentation tank, and a tank washing electric valve 35 for controlling the tank washing is arranged on the tank cleaning pipeline; the collecting pipe is connected with a sewage discharge pipe 36, and a second valve 37 for controlling the sewage discharge of the fermentation tank is arranged on the sewage discharge pipe; the cleaning pipeline is connected with a pipeline cleaning pipeline 33 which is connected with a collecting pipe, and a pipeline cleaning electric valve 38 for controlling the pipeline cleaning is arranged on the pipeline cleaning pipeline. When the first fermentation tank, the second fermentation tank, the third fermentation tank and the fourth fermentation tank are adopted, a first fermentation tank flushing electric valve 39 for controlling the flushing of the first fermentation tank, a second fermentation tank flushing electric valve 40 for controlling the flushing of the second fermentation tank, a third fermentation tank flushing electric valve 41 for controlling the flushing of the third fermentation tank and a fourth fermentation tank flushing electric valve 42 for controlling the flushing of the fourth fermentation tank are arranged on the tank body cleaning pipeline. The flushing device can flush the pipeline and the tank body timely and quickly after the feeding is finished. In order to ensure the use effect of the flushing device, a third pump body 43 is arranged on the cleaning pipeline. The second water tower is connected with a tap water inlet pipe. The first water tower is connected with the second water tower through a pipeline, so that cold water in the first water tower can be conveniently input into the second water tower for storing hot water, and a third valve is arranged on the pipeline for connecting the first water tower and the second water tower so as to adjust the temperature of water in the second water tower. The automatic feeding system body comprises a fan 44, and an air outlet of the fan is connected with a cleaning pipeline. The junction of the air outlet of the fan and the cleaning pipeline is arranged at the rear side of the cleaning main electric valve. After the pipeline is cleaned, the pipeline can be air-dried by blowing air through a high-pressure fan.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. 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 liquid automatic feeding system comprises an automatic feeding system body and is characterized in that the automatic feeding system body comprises a material tower for storing foodstuff particles, a first water tower for storing clear water and a storage tank for storing EM bacterial liquid, wherein the material tower, the first water tower and the storage tank are all connected with a water-material premixing bin for mixing water and materials, and the water-material premixing bin is connected with a pulping machine;

the collecting pipe is connected with a booster pump, and the booster pump is connected with a feeder arranged in a pigsty;

2. The novel liquid automatic feeding system as claimed in claim 1, wherein a screw conveyor is arranged at the discharge port of the material tower and connected with the water-material premixing bin.

3. The novel liquid automatic feeding system as claimed in claim 1, wherein the storage tank is connected with the water-material premixing bin through a pipeline, and a metering pump is arranged on the pipeline for connecting the storage tank with the water-material premixing bin.

4. The novel liquid automatic feeding system of claim 1, wherein the first water tower is connected to the water and material premixing bin through a first pipeline, and a first pump is disposed on the first pipeline.

5. A novel liquid automatic feeding system according to claim 4, characterized in that the automatic feeding system body comprises a feeding pipe for green slurry feeding, the feeding pipe is connected with the first pipeline, and the connection of the feeding pipe and the first pipeline is arranged at the rear side of the first pump body.

6. The novel automatic liquid feeding system of claim 1, wherein the fermentation tank is connected with the collection pipe through a pipeline, and a discharge electric valve for controlling discharge is arranged on the pipeline for connecting the fermentation tank with the collection pipe.

7. The novel liquid automatic feeding system of claim 1, wherein the number of the fermentation tanks is four, the four fermentation tanks include a first fermentation tank, a second fermentation tank, a third fermentation tank and a fourth fermentation tank, a first liquid level pipe is arranged on one side of the first fermentation tank, a second liquid level pipe is arranged on one side of the second fermentation tank, a third liquid level pipe is arranged on one side of the third fermentation tank, a fourth liquid level pipe is arranged on one side of the fourth fermentation tank, and the first liquid level pipe, the second liquid level pipe, the third liquid level pipe and the fourth liquid level pipe are all connected with the air compressor;

8. A novel liquid automatic feeding system as claimed in claim 6 or 7, characterized in that the fermentation tank is connected with the return pipe by a pipe, and a return electric valve for controlling return is provided on the pipe for connecting the fermentation tank with the return pipe.

9. A novel liquid automatic feeding system according to claim 6 or 7, characterized in that the automatic feeding system body comprises a flushing device, the flushing device comprises a second water tower for storing clear water, the second water tower is connected with a cleaning pipeline, and a cleaning general electric valve for controlling cleaning is arranged on the cleaning pipeline;

10. The novel liquid automatic feeding system of claim 9, wherein the automatic feeding system body comprises a fan, and an air outlet of the fan is connected with the cleaning pipeline.