CN115477998A

CN115477998A - Liquid feeding control system

Info

Publication number: CN115477998A
Application number: CN202210932303.1A
Authority: CN
Inventors: 廖荣; 罗钟; 刘友涛
Original assignee: Sichuan Mud Leg Agricultural Technology Co ltd
Current assignee: Sichuan Mud Leg Agricultural Technology Co ltd
Priority date: 2022-08-04
Filing date: 2022-08-04
Publication date: 2022-12-16

Abstract

The invention discloses a liquid feeding control system, which comprises a plurality of fermentation tanks, wherein a constant temperature circulating pump is fixedly communicated between every two adjacent fermentation tanks through a pipeline, two feeding pipelines are arranged on one side of one fermentation tank, one end of one feeding pipeline is fixedly communicated with a stirring tank, one end of the other feeding pipeline is fixedly communicated with a water return tank, the water return tank and the stirring tank are fixedly communicated with a feeding pump through pipelines, a settling tank is fixedly communicated between the water return tank and the feeding pump, and a cleaning pump connected with the settling tank is arranged on one side of the feeding pump.

Description

Liquid feeding control system

Technical Field

The invention relates to the field of liquid feeding, in particular to a liquid feeding control system.

Background

From the feeding media, the pig raising and feeding mode is divided into dry feed feeding and liquid feed feeding, the dry feed feeding is the mode of feeding by adopting solid feed as the name suggests, and the dry feed feeding has the advantages of easy transportation and storage of the feed, low labor intensity and the like; the method has the advantages that the method can be applied to the liquid feed feeding, has the characteristics of no dust, the characteristics of wide feed sources such as fermented feed, wheat middling and the like, the health degree of the swinery is improved, the feed is obviously saved, the feeding cost is reduced, the overall benefit of the swinery is improved, the liquid feed feeding meets the newly-built feeding habit of the swinery, and the liquid feed feeding is also an important reason that a liquid feeding system or a liquid stockline is adopted in many current farms.

One field from the traditional pig industry to the intelligent pig raising is changing greatly and is coming strong, and most farms combine an Internet of things system with liquid feeding, so that the high-efficiency and precise management of raising is improved to the maximum extent.

However, the conventional liquid feeding control system is not convenient enough, so that the phenomenon of unreasonable feeding of liquid feed is easy to occur, and meanwhile, in hot summer, part of residual liquid feed is adhered in a pipeline, and the adhered liquid feed is fermented to generate peculiar smell, so that immeasurable environmental damage is caused to the culture environment.

Disclosure of Invention

The invention aims to provide a liquid feeding control system, which aims to solve the problems that the conventional liquid feeding control system in the background art is inconvenient in equipment and is easy to unreasonably feed liquid feed, and in hot summer, part of residual liquid feed is adhered to a pipeline, and the adhered liquid feed is fermented to generate peculiar smell so as to cause immeasurable environmental damage to a culture environment.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a liquid feeding control system, includes a plurality of fermentation cylinder, and per two are adjacent all there is the constant temperature circulating pump through the fixed intercommunication of pipeline between the fermentation cylinder, one of them one side of fermentation cylinder is equipped with two feed conduits, one of them the fixed intercommunication of one end of feed conduit has the agitator tank, another the fixed intercommunication of one end of feed conduit has the return water jar, through the fixed intercommunication delivery pump of pipeline between return water jar and the agitator tank, fixed intercommunication has the precipitation tank between return water jar and the delivery pump, one side of delivery pump is equipped with the scavenging pump that links to each other with the precipitation tank, the fixed intercommunication in one side of scavenging pump has the clean water pipe, the surface mounting of scavenging pump has the bacterial adder, and the staff can pour into the bacterial into in to the agitator tank through the bacterial adder according to the raising needs.

As a preferred technical scheme, a stirring tank stirring motor is fixedly mounted at the top end of a stirring tank, a stirring tank weigher and a stirring tank temperature sensor are mounted inside the stirring tank, the stirring tank stirring motor is started after being electrified, a stirring paddle connected with the stirring tank stirring motor is driven by the stirring tank stirring motor to stir liquid feed in the stirring tank, the stirring tank weigher is started after being electrified, the stirring tank weigher is used for weighing the amount of the liquid feed in the stirring tank in real time, the stirring tank temperature sensor is started after being electrified, and the stirring tank temperature sensor is used for monitoring the temperature of the liquid feed in the stirring tank in real time.

As a preferred technical scheme of the invention, one side of the stirring tank is provided with a material A feeding auger, a material B feeding auger and a material C feeding auger, and different types of liquid feeds are respectively conveyed into the stirring tank through the corresponding material feeding augers.

As a preferred technical scheme, a backwater tank stirring motor is fixedly installed at the top end of the backwater tank, a backwater tank weighing device is installed inside the backwater tank, the backwater tank stirring motor is started after being powered on, the backwater tank stirring motor drives a stirring paddle connected with the backwater tank stirring motor to stir liquid in the backwater tank, the backwater tank weighing device is started after being powered on, and the backwater tank weighing device monitors the weight in the backwater tank in real time.

As a preferred technical scheme of the invention, fermentation tank stirring motors are fixedly installed at the top ends of a plurality of fermentation tanks, a fermentation tank pressure sensor, a fermentation tank temperature sensor, a fermentation tank PH value sensor and a fermentation tank liquid level valve are installed inside the fermentation tanks, the fermentation tank stirring motors are started after being electrified, the fermentation tank stirring motors drive stirring paddles connected with the fermentation tank stirring motors to stir liquid feed in the fermentation tanks, the fermentation tank pressure sensors are started after being electrified, the fermentation tank pressure sensors monitor the pressure in the fermentation tanks in real time, the fermentation tank temperature sensors monitor the temperature in the fermentation tanks in real time, the fermentation tank PH value sensors are started after being electrified, the fermentation tank PH value sensors monitor the PH values in the fermentation tanks in real time, and the fermentation tank liquid level valve monitors the liquid feed liquid level in the fermentation tanks in real time.

In a preferred embodiment of the present invention, a main valve is fixedly installed on a surface of the clean water pipe, the main valve is opened, and hot water or cold water for cleaning flows in the clean water pipe.

As a preferred technical scheme of the present invention, a first water adding valve, a first cleaning valve and a first feed back valve are installed on the surface of the feed supply pipeline connected to the water return tank, a second water adding valve, a second cleaning valve and a second feed back valve are installed on the surface of the feed supply pipeline connected to the stirring tank, and the clean water and the liquid feed are respectively delivered to the water return tank and the stirring tank through corresponding pipelines.

As a preferable technical scheme of the invention, a fourth cleaning valve, a fifth cleaning valve, a sixth cleaning valve and a seventh cleaning valve are arranged on the surfaces of the pipelines on the plurality of fermentation tanks, water for cleaning passes through the corresponding pipelines, the cleaning valves on the corresponding pipelines are opened, and the cleaning water is conveyed into the fermentation tanks.

As a preferable technical scheme of the invention, a constant temperature circulating valve and a fermentation feed back valve are arranged on the surface of the pipeline on the constant temperature circulating pump, and the flowing liquid in the constant temperature circulating pump is conveyed to the corresponding fermentation tank through the pipeline on the constant temperature circulating valve.

As a preferable technical scheme of the invention, unit valves and blanking valves are arranged on the surfaces of a plurality of the feeding pipelines, and the unit valves divide the plurality of the feeding pipelines into a plurality of units, so that a worker can conveniently open the blanking valves on the corresponding units.

Compared with the prior art, the invention has the beneficial effects that:

1. a cleaning pump, a clean water pipe and a plurality of cleaning valves are arranged in the feeding control system, according to the actual breeding environment, cold water or hot water is injected into the clean water pipe by workers, clean water flows into a water return tank, a stirring tank, a fermentation tank and a feeding pipeline through pipelines, and liquid feed adhered to the inner wall of the pipeline is cleaned, so that peculiar smell generated by fermentation of the liquid feed is avoided, and the breeding environment is ensured;

2. through setting up pressure sensor, temperature sensor, pH value sensor, liquid level valve and weighing device, respond to in return water jar, agitator tank and the fermentation cylinder liquid feed or wash moisture respectively in real time, avoid appearing liquid feed and throw and feed unreasonable phenomenon and take place, perhaps wash the phenomenon that moisture is insufficient and take place.

Drawings

FIG. 1 is a process diagram of the liquid material of the present invention.

In the figure: 1. a material feeding auger; 2. b, feeding a material auger; 3. c, feeding a packing auger; 4. a strain adder; 5. cleaning the pump; 6. a feed pump; 7. a clean water pipe; 8. a main valve; 9. a water return tank; 10. a backwater tank stirring motor; 11. a backwater tank weigher; 12. a settling tank; 13. a stirring motor of the stirring tank; 14. a stirring tank; 15. a stirred tank weigher; 16. a temperature sensor of the stirring tank; 17. a fermentation tank; 18. a fermentation tank stirring motor; 19. a fermenter pressure sensor; 20. a fermentation tank temperature sensor; 21. a pH value sensor of the fermentation tank; 22. a fermentation tank liquid level valve; 23. a constant temperature circulating pump; 24. a supply conduit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the invention provides a liquid feeding control system, which comprises a plurality of fermentation tanks 17, wherein a constant temperature circulating pump 23 is fixedly communicated between every two adjacent fermentation tanks 17 through a pipeline, two feeding pipelines 24 are arranged on one side of one of the fermentation tanks 17, an agitator tank 14 is fixedly communicated with one end of one of the feeding pipelines 24, a return water tank 9 is fixedly communicated with one end of the other feeding pipeline 24, a feeding pump 6 is fixedly communicated between the return water tank 9 and the agitator tank 14 through a pipeline, a settling tank 12 is fixedly communicated between the return water tank 9 and the feeding pump 6, a cleaning pump 5 connected with the settling tank 12 is arranged on one side of the feeding pump 6, a clean water pipe 7 is fixedly communicated with one side of the cleaning pump 5, a strain adder 4 is arranged on the surface of the cleaning pump 5, and a strain can be injected into the agitator tank 14 through the strain adder 4 according to feeding requirements.

The top fixed mounting of agitator tank 14 has agitator tank agitator motor 13, the internally mounted of agitator tank 14 has agitator tank weighing device 15 and agitator tank temperature sensor 16, agitator tank agitator motor 13 starts after the circular telegram, agitator tank agitator motor 13 drives the stirring rake of being connected with it and stirs the liquid fodder in the agitator tank 14, agitator tank weighing device 15 starts after the circular telegram, agitator tank weighing device 15 carries out real-time weighing to the liquid fodder volume in the agitator tank 14, start after 16 circular telegrams of agitator tank temperature sensor, agitator tank temperature sensor 16 carries out real-time supervision to the liquid fodder temperature in the agitator tank 14.

A material feeding auger 1, a material feeding auger 2 and a material feeding auger 3 are arranged on one side of the stirring tank 14, and different types of liquid feed are respectively conveyed into the stirring tank 14 through the corresponding material feeding augers.

The top fixed mounting of return water jar 9 has return water jar agitator motor 10, and the internally mounted of return water jar 9 has return water jar weighing device 11, and return water jar agitator motor 10 starts after the circular telegram, and return water jar agitator motor 10 drives the stirring rake of being connected with it and stirs the liquid in return water jar 9, starts after return water jar weighing device 11 circular telegram, and return water jar weighing device 11 carries out real-time supervision to the weight in the return water jar 9.

The equal fixed mounting in top of a plurality of fermentation cylinder 17 has fermentation cylinder agitator motor 18, fermentation cylinder pressure sensor 19 is all installed to the inside of a plurality of fermentation cylinder 17, fermentation cylinder temperature sensor 20, fermentation cylinder pH value sensor 21 and fermentation cylinder liquid level valve 22, start after 18 circular telegrams of fermentation cylinder agitator motor, fermentation cylinder agitator motor 18 drives the stirring rake of being connected with it and stirs the liquid fodder in the fermentation cylinder 17, start after 19 circular telegrams of fermentation cylinder pressure sensor, fermentation cylinder pressure sensor 19 carries out real-time supervision to the pressure in the fermentation cylinder 17, start after 20 circular telegrams of fermentation cylinder temperature sensor, fermentation cylinder temperature sensor 20 carries out real-time supervision to the temperature in the fermentation cylinder 17, start after 21 circular telegrams of fermentation cylinder pH value sensor, pH value sensor 21 carries out real-time supervision to the pH value in the fermentation cylinder 17, fermentation cylinder liquid level valve 22 monitors the liquid fodder liquid level in the fermentation cylinder 17 in real time.

A main valve 8 is fixedly arranged on the surface of the clean water pipe 7, the main valve 8 is opened, and hot water or cold water for cleaning flows in the clean water pipe 7.

The surface mounting who connects feed pipe 24 on the jar 9 that returns has first water feeding valve, first cleaning valve and first feed back valve, and the surface mounting who connects feed pipe 24 on the agitator tank 14 has second water feeding valve, second cleaning valve and second feed back valve, and clear water and liquid fodder are carried respectively to return jar 9 and agitator tank 14 in through the pipeline that corresponds.

The surface mounting of pipeline has fourth cleaning valve, fifth cleaning valve, sixth cleaning valve and seventh cleaning valve on a plurality of fermentation cylinder 17 for abluent moisture is opened through the pipeline that corresponds, the cleaning valve on the pipeline that corresponds, washs in moisture carries to fermentation cylinder 17.

The surface of the pipeline on the constant temperature circulating pump 23 is provided with a constant temperature circulating valve and a fermentation return valve, and the flowing liquid in the constant temperature circulating pump 23 is conveyed into the corresponding fermentation tank 17 through the pipeline on the constant temperature circulating valve.

The surface mounting of two feed conduits 24 has unit valve and unloading valve, and the unit valve is a plurality of feed conduits 24 for a plurality of units, and the unloading valve on the corresponding unit of staff's convenience of opening.

When the invention is used: when a worker needs to clean the liquid feeding control system in hot summer, a cleaning process is started, the stirring tank 14 is cleaned firstly, cleaning is carried out for the first time, the worker adds clean water through the clean water pipe 7, the water inlet main valve is opened, the second clean water valve is opened, the third clean water valve is opened, the cleaning pump 5 is powered on and started, the return water tank weigher 11 monitors the water weight in the return water tank 9 in real time, at the moment, the clean water pipe 7 stops adding water, the water inlet main valve is closed, the second clean water valve is closed, the third clean water valve is closed, the cleaning pump 5 is powered off and closed, the worker judges whether to add the drugs according to actual needs, starts to add the drugs, the inlet main valve is opened, the strain adder 4 is powered on and started, the strain adder 4 carries out strain addition, simultaneously weighs added strains, the stirring tank stirring motor 13 is powered on and started, the stirring tank stirring motor 13 drives the stirring paddle connected with the stirring tank stirring motor to stir the liquid in the stirring tank 14, at the moment, timing is carried out, after the time is timed, the stirring tank stirring motor 13 is closed, the cleaning tank 14 is cleaned, when the fermentation tank 17 is cleaned, water is added into the fermentation tank 17, the main water inlet valve is closed, the first discharging valve is opened, the first water inlet valve is opened, the fourth cleaning valve is opened, the cleaning pump 5 is electrified and opened, the fermentation tank liquid level valve 22 monitors the liquid level in the fermentation tank 17 in real time, the fermentation tank 17 stops adding water, the main water inlet valve is closed, the first discharging valve is closed, the first water inlet valve is closed, the fourth cleaning valve is closed, the fifth cleaning valve is closed, the cleaning pump 5 is powered off and closed, the fermentation tank stirring motor 18 is electrified and started, the fermentation tank stirring motor 18 drives the stirring paddle connected with the stirring tank stirring motor to stir the liquid in the fermentation tank 17, after the return of the fermentation tank 17 is finished, the return tank 9 is cleaned in the same way, and when the feed pipe 24 is cleaned, the corresponding unit valve is opened, one of the baiting valves on the feeding pipeline 24 is opened, the other baiting valve is closed, the cleaning is carried out by analogy, when feeding, different types of liquid feeds are respectively conveyed into the stirring tank 14 through the corresponding feeding augers, the stirring tank stirring motor 13 is started after being electrified, the stirring tank stirring motor 13 drives the stirring paddle connected with the stirring tank stirring motor to stir the liquid feed in the stirring tank 14, the stirring tank weighing device 15 is started after being electrified, the stirring tank weighing device 15 is used for weighing the amount of the liquid feed in the stirring tank 14 in real time, the stirring tank temperature sensor 16 is started after being electrified, the stirring tank temperature sensor 16 is used for monitoring the temperature of the liquid feed in the stirring tank 14 in real time, the fermentation tank stirring motor 18 is started after being electrified, the fermentation tank stirring motor 18 drives the stirring paddle connected with the fermentation tank stirring motor to stir the liquid feed in the fermentation tank 17, the fermentation tank pressure sensor 19 is started after being electrified, the fermentation tank pressure sensor 19 is used for monitoring the pressure in the fermentation tank 17 in real time, the fermentation tank temperature sensor 20 is started after being electrified, the fermentation tank temperature sensor 20 is used for monitoring the temperature in the fermentation tank 17 in real time, the fermentation tank 17 after the PH value sensor 21 is started after being electrified, the fermentation tank is used for monitoring the PH value in real time, the liquid level of the fermentation tank 17 in real time, the fermentation tank is successfully monitored, and the fermentation feed in the fermentation tank 17, the stirring motor 10 of the return water tank is started after being electrified, the stirring motor 10 of the return water tank drives a stirring paddle connected with the stirring motor to stir liquid in the return water tank 9, the weighing device 11 of the return water tank is started after being electrified, and the weighing device 11 of the return water tank monitors the weight in the return water tank 9 in real time.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a liquid feeding control system, includes a plurality of fermentation cylinder (17), its characterized in that: every two are adjacent all there is constant temperature circulating pump (23), one of them through the fixed intercommunication of pipeline between fermentation cylinder (17) one side of fermentation cylinder (17) is equipped with two feed pipeline (24), one of them the fixed intercommunication of one end of feed pipeline (24) has agitator tank (14), another the fixed intercommunication of one end of feed pipeline (24) has return water jar (9), through the fixed intercommunication delivery pump (6) of pipeline between return water jar (9) and agitator tank (14), fixed intercommunication has settling tank (12) between return water jar (9) and delivery pump (6), one side of delivery pump (6) is equipped with scavenging pump (5) that link to each other with settling tank (12), the fixed intercommunication in one side of scavenging pump (5) has clean water pipe (7), the surface mounting of scavenging pump (5) has bacterial adder (4).

2. The liquid feed control system of claim 1, wherein: the stirring tank is characterized in that a stirring tank stirring motor (13) is fixedly mounted at the top end of the stirring tank (14), and a stirring tank weighing device (15) and a stirring tank temperature sensor (16) are mounted inside the stirring tank (14).

3. The liquid feed control system of claim 1, wherein: a material feeding auger (1), a material feeding auger (2) and a material feeding auger (3) are arranged on one side of the stirring tank (14).

4. The liquid feed control system of claim 1, wherein: the top end of the backwater tank (9) is fixedly provided with a backwater tank stirring motor (10), and the inside of the backwater tank (9) is provided with a backwater tank weighing device (11).

5. The liquid feed control system of claim 1, wherein: the fermentation tank comprises a plurality of fermentation tanks (17), wherein fermentation tank stirring motors (18) are fixedly mounted at the top ends of the fermentation tanks (17), and a plurality of fermentation tank pressure sensors (19), fermentation tank temperature sensors (20), fermentation tank pH value sensors (21) and fermentation tank liquid level valves (22) are mounted inside the fermentation tanks (17).

6. The liquid feed control system of claim 1, wherein: and a main valve (8) is fixedly arranged on the surface of the clean water pipe (7).

7. The liquid feed control system of claim 1, wherein: the surface mounting who connects feed pipe (24) on jar (9) that returns has first water feeding valve, first cleaning valve and first feed back valve, the surface mounting who connects feed pipe (24) on agitator tank (14) has second water feeding valve, second cleaning valve and second feed back valve.

8. The liquid feed control system of claim 1, wherein: and a fourth cleaning valve, a fifth cleaning valve, a sixth cleaning valve and a seventh cleaning valve are arranged on the surfaces of the pipelines on the plurality of fermentation tanks (17).

9. The liquid feed control system of claim 1, wherein: the surface of the pipeline on the constant temperature circulating pump (23) is provided with a constant temperature circulating valve and a fermentation feed back valve.

10. The liquid feed control system of claim 1, wherein: the surface of a plurality of the supply pipelines (24) is provided with a unit valve and a blanking valve.