KR-20260065669-A - Circulation system of improved livestock enviromnent responsed of environmental pollution

Abstract

The present invention relates to a circulation system for improving the livestock environment in response to environmental pollution, and its configuration comprises: a livestock housing device equipped with necessary facilities to receive compound feed from a feed supply device via a conveyor device for raising livestock in a pig or cattle barn, or to receive hexagonal water containing harmful bacteria that have been broken down to nano-size and killed by magnetic waves via a water softener, and to discharge generated livestock manure to a manure storage device; a water softener in which a nano-softener is installed on one side of the water transmission part of an existing water supply line to break down water molecules to nano-size and kill harmful bacteria via magnetic waves, thereby supplying hexagonal water to the water tank of the livestock housing device; a feed supply device in which powdered or solid granular compound feed containing oyster shells, herbal medicines, fermented seaweed products, and organic minerals is transmitted to the livestock housing device through a pipeline via a conveyor device using a plurality of feed dispensers; a conveyor device that pushes and transports feed by rotating a return disc formed at regular intervals of a disc wire to transport compound feed stored in the feed tank of the feed supply device to the livestock housing of the livestock housing device via a pipeline; and the above The manure treatment device receives livestock manure generated through a livestock housing device, separates solids and liquids, cultivates the solids using microorganisms to utilize them as organic compost materials, filters the liquid components to adsorb, decompose, and remove residual organic matter, harmful bacteria, nitrogen, phosphorus, heavy metals, and pigment components remaining in the treated water, sterilizes and disinfects the filtered treated water, and introduces it into the livestock housing device for use as water; and the device is characterized by being configured with a detection device installed in a feed trough within the livestock housing to detect the amount of feed input into the feed trough, detects the amount of remaining feed or input feed within the feed trough to check whether the set threshold amount of each feed trough is met or whether the feed threshold of the feed trough is exceeded, transmits status information of the feed amount in each feed trough to the livestock housing device, and controls the supply of compound feed by the transfer device.

Inventors

• 이황석
• 임봉환

Assignees

• 라이프이엔지 주식회사

Dates

Publication Date

20260511

Application Date

20241101

Claims (3)

1. A livestock barn device (10) equipped with necessary facilities to receive compound feed from a feed supply device (30) through a conveying device (40) for raising livestock in a pig barn or cattle barn, or to receive hexagonal water containing harmful bacteria that have been broken down to nano-size and killed by magnetic waves through a water softening device (20), and to allow the generated livestock manure to be discharged to a manure storage device (50). A water softening device (20) that installs a nano water softener on one side of the water supply section of the existing water supply line to decompose water molecules to nano size and kills harmful bacteria through magnetic waves, thereby supplying hexagonal water to the water tank of the livestock facility (10). A feed supply device (30) that allows a plurality of feed feeders to be transmitted to a livestock housing device (10) through a pipeline via a conveying device (40) for a powder or solid granular compound feed containing oyster shells, medicinal herbs, fermented seaweed products, and organic minerals, A conveying device (40) that pushes and conveys feed by rotating a conveying disc (45) formed at regular intervals of a disc wire (44) so as to convey the compound feed stored in the feed tank of the feed supply device (30) to the livestock barn of the livestock barn device (10) through a pipeline, A manure treatment device (50) that receives livestock manure generated through the above-mentioned livestock housing device (10), separates solids and liquids, cultures the solids using microorganisms to utilize them as organic compost materials, filters the liquid components to adsorb, decompose, and remove residual organic matter, harmful bacteria, nitrogen, phosphorus, heavy metals, and pigment components remaining in the treated water, and sterilizes and disinfects the filtered treated water to be introduced into the livestock housing device (10) for use as water, and A livestock environment improvement circulation system responding to environmental pollution, characterized by comprising a detection device (60) installed in a feed container within a livestock barn to detect the amount of feed input into the feed container, detects the amount of remaining feed or input feed within the feed container to check whether the set threshold amount of each feed container is exceeded or whether the threshold amount of feed in the feed container is exceeded, and transmits status information of the amount of feed in each feed container to the livestock barn device (10) so that the supply of compound feed is controlled by the transfer device (40).
2. In Article 1, The above manure storage device (50) receives livestock manure and separates solids and liquids through a solid-liquid separator and discharges the solids through a dehydration process to produce high-quality organic compost material through waste sludge and utilize it as a resource. The liquid portion is supplied with air to an aeration device equipped with an advanced treatment media filter layer composed of NPR biowood chips, NPR blocks, and natural minerals to perform advanced treatment. The discharged treated water is then sprayed onto the upper surface of the filter layer through a spraying device to adsorb, decompose, and remove residual organic matter, harmful bacteria, nitrogen, phosphorus, heavy metals, and pigment components remaining in the treated water. The filtered treated water is then sterilized and disinfected and supplied to a livestock barn device (10) through a transfer pump. This characterizes a livestock environment improvement circulation system that responds to environmental pollution.
3. In Article 1, The above manure storage device (50) A manure storage tank (51) that receives and stores livestock manure generated by livestock in a livestock housing device (10), stores livestock manure discharged through a manure outlet provided on one side of the livestock housing in the livestock housing device (10), and stores the livestock manure by stirring the livestock manure through a stirring device and immersing the aggregated carrier of manure collected through a separation membrane connected to the manure tank, thereby storing the settled water. A solid-liquid separator (53) that separates solids and liquids by immersing and discharging treated water through the above manure storage tank (51), discharges the solids to allow organic compost to flow into a fermented compost separator (55), and discharges the liquid components to a filtration device to produce liquid fertilizer or to allow them to flow into an odor treatment device to produce liquid fertilizer and perform filtration treatment. A fermented compost separator (55) that processes livestock manure using microorganisms in an anaerobic state, equipped with an anaerobic digester to produce waste sludge from the solid separated through the above solid-liquid separator (53), and A livestock environment improvement circulation system for responding to environmental pollution, characterized by comprising a liquid fertilizer treatment unit (57) in which treated water separated and filtered through the above-mentioned solid-liquid separator (53) is stirred through a stirring device to ferment manure introduced through an organic matter fermentation tank, fermented manure introduced through a water outlet into a liquid fertilizer tank to be converted into liquid fertilizer, aerobic treatment with a microbial filter, and only liquid fertilizer is transferred to a filtration treatment tank (59) through a connecting pipe.

Description

Circulation system of improved livestock environment responding to environmental pollution The present invention relates to a circulation system for improving the livestock environment in response to environmental pollution. Specifically, the system supplies hexagonal water containing compound feed and harmful bacteria decomposed to nano-size and killed by magnetic waves through a nano-water softener for the rearing of livestock, processes and stores generated livestock manure to regenerate it into waste sludge, and receives the treated manure liquid fertilizer to clean necessary facilities within the livestock barn. Furthermore, the present invention relates to a livestock environment improvement circulation system that responds to environmental pollution by separating solids and liquids from organic waste, such as livestock manure discharged from livestock farms, culturing the solids using microorganisms to utilize them as organic compost materials, filtering the liquid components to adsorb, decompose, and remove residual organic matter, harmful bacteria, nitrogen, phosphorus, heavy metals, pigment components, etc. remaining in the treated water, and sterilizing and disinfecting the filtered treated water so that it can be introduced into livestock facilities and used as water. In general, while human living standards have improved due to population growth, accelerated economic development, and rising national income, this has led to a surge in demand for resources, thereby accelerating environmental pollution. In particular, as the demand for food and livestock products increases due to population growth and changes in lifestyles, high-concentration organic waste, such as food waste and livestock manure, is emerging as the primary cause of environmental and water pollution. The generation of organic waste as described above is causing direct harm to human life, such as the occurrence of toxic odors, abnormal outbreaks of pests, and contamination of water sources due to leachate and pollution. In particular, manure is converted into fertilizer for crops; however, there are significant difficulties in its practical application due to foul odors, soil contamination, or the generation of leachate when regenerating such manure into fertilizer. More specifically, environmental pollution caused by various factors is emerging as a serious social issue, as it is generated through the excessive use of chemical fertilizers and pesticides, the discharge of household waste and synthetic detergents, the diffusion and settling of air and water pollutants into the soil, and the discharge of livestock waste and manure, which seep into groundwater, evaporate, and re-enter the soil through precipitation. In response to such environmental problems, the world has entered into international agreements for the effective control of marine pollution under the London Convention, and since 2012, has been concluding and implementing international treaties under the London Protocol to ban the discharge of livestock manure into the ocean. Furthermore, regarding the environment, companies worldwide must take responsibility for carbon neutrality and preserving the global environment in preparation for the era of climate crisis; regarding the social aspect, they must strive to guarantee human rights, protect data, and build cooperative relationships with local communities; and regarding governance, they must consider the need to establish governance structures that enable companies to realize environmental and social values. In particular, regarding the global agricultural and livestock industries, which are the biggest causes of methane and nitrous oxide emissions, the scope of greenhouse gas reduction obligations has been expanded to the entire supply chain, making the submission of ESG management reports mandatory in March 2021. At the national level, as a global response to environmental issues, a resolution was adopted through the COP26 Special Summit in November 2021 to reduce global methane emissions by 30% by 2030. In Korea, the increase in meat consumption by the public leads to an increase in the number of livestock raised, which in turn leads to an increase in the amount of livestock manure generated. Since livestock manure contains a large amount of organic matter and has an impact on the environment that is 90 to 140 times greater than that of domestic sewage or commercial wastewater, it is increasingly recognized as an industry that causes social problems and places a burden on the environment and society. Additionally, environmental pollution caused by livestock manure is intensifying, leading to increased conflict and complaints in areas surrounding livestock farms. To address this, we are considering the purification and resource recovery of livestock manure and wastewater, and there is a need to resolve odors, alleviate conflicts among residents, and improve environmental conditions. Therefore, the applicant intends to