KR102347348B1 - Biofilm removal system in water supply pipe - Google Patents

Abstract

The present invention relates to a biofilm removal system in a water supply pipe for livestock, which comprises: a water supply tank; a water supply pipe connecting the water supply tank and a water supplier to provide drinking water for livestock; and a microorganism supply pipe supplying a chemical or microorganisms from a microorganism supplier to the water supplier, wherein a plasma generator and a microbubble generator are connected to the water supply pipe to enable a biofilm in the water supply pipe to be removed, thereby providing clean water to the livestock. According to the present invention, the plasma generator, the microbubble generator, and a micro nano generator are installed on the water supply pipe for livestock, which is connected to the microorganism supplier to prevent a biofilm from being generated in the water supply pipe and provide clean water, thereby contributing to enhancement of health and nutrient intake of the livestock and providing remarkable effects of improving economical efficiency of the livestock farms.

Description

Biofilm removal system in water supply pipe

The present invention relates to a biofilm removal system in a water supply pipe, and more particularly, a plasma generator, a microbubble generator, and a micro-nano generator are installed in a water supply pipe for livestock connected to a microorganism feeder to prevent biofilm from being generated in the water supply pipe. It relates to a biofilm removal system in a water supply pipe that provides clean water, helps to promote health and nutrition of livestock, and improves economic efficiency for livestock farmers.

In general, technologies for preventing diseases and keeping livestock healthy by mixing and feeding livestock with microorganisms in a state such as drinking water have been developed. 10) A microbial culture medium feeding device that automatically transports the microbial culture solution supplied to the tube and discharges the residual material remaining inside the pipe with high-pressure air. A controller 228 for controlling the operation of the feeding device and ;

an incubator 202 for generating the microbial culture solution;

a transfer pipe 204 having one end connected to the incubator 202 and a transfer pump 206 installed in the middle;

a cooler 208 to which the other end of the transfer pipe 204 is connected, an outlet 210 and an inlet 224 are formed on one side, and for storing the microbial culture solution in an internal storage space;

As a pipe connecting the outlet 210 and the inlet 224, the supply pipe 218 installed to pass through the inside of the pig house 10;

a supply pump 212 installed outside the outlet 210 in the supply pipe 218;

a first valve 216 installed in a pipe branching from the supply pipe 218;

a second valve 222 installed adjacent to the inlet 224;

a drip button 220 installed at a portion located inside the pig house 10 in the supply pipe 218 and opened only when a pressure of a certain level or more is reached to discharge the microbial culture solution;

A compressor 226 installed behind the first valve 216 to blow air into the supply pipe 218 through the branched pipe; a microbial culture medium feeding device having a residual material discharging means, including; is disclosed.

In addition, Korean Patent Publication No. 10-2137057 discloses a wastewater treatment method using a wastewater treatment device equipped with a microorganism supply module.

However, the prior art failed to properly remove the microorganisms remaining inside the water supply pipe after supplying the microorganisms, so a biofilm was generated to block the water supply pipe or bacteria were introduced to the livestock through drinking water to cause disease in the livestock. .

Therefore, the present invention has been devised to solve the above problems, and a plasma generator, a microbubble generator, and a micro-nano generator are installed in the water supply pipe for livestock connected to the microbial feeder, preventing the biofilm from being generated in the water supply pipe, It is intended to provide a biofilm removal system in the water supply pipe that provides water to help improve the health and nutrition of livestock, and improve economic efficiency for livestock farmers.

The present invention relates to a biofilm removal system in a water supply pipe, and a water supply tank; It is composed of a supply pipe, and a plasma generator and a microbubble generator are connected to the water supply pipe to remove the biofilm in the water supply pipe and provide clean water to livestock.

Therefore, according to the present invention, a plasma generator, a microbubble generator, and a micro-nano generator are installed in the water supply pipe for livestock connected to the microorganism feeder to prevent the biofilm from being generated in the water supply pipe, and clean water is supplied to promote the health and nutrition of livestock There is a remarkable effect of improving the economic feasibility of livestock farmers.

1 is a schematic diagram of a biofilm removal system in a water supply pipe of the present invention

The present invention relates to a biofilm removal system in a water supply pipe, and a water supply tank; Consists of a supply pipe, the water supply pipe

It is characterized in that a plasma generator and a microbubble generator are connected and installed to provide clean water to livestock by removing the biofilm in the water supply pipe.

In addition, the position where the plasma generator and the microbubble generator are connected to the water supply pipe is characterized in that between the water supply pipe and the water supply pipe at the position where the water supply pipe and the microorganism supply pipe are connected.

In addition, the microorganism feeder includes a metering pump, and the microorganisms are mixed with water at a ratio of 1:1000 and supplied to the waterer in a solution state.

In addition, it is characterized in that the plasma generator, the microbubble generator, and the micro-nano bubble generator are sequentially installed in the water supply direction.

In addition, the control unit of the controller normally operates only the microbubble generator, but operates for about 10 minutes after the microorganism is introduced to suppress the biofilm generation.

In addition, it is characterized in that the micro-nano bubble generator is operated simultaneously in spring and summer.

In addition, by installing a bacteria detection sensor and a harmful substance detection sensor, if the measured value transmitted from the sensor is greater than the set value of the control unit of the controller, the plasma generator is simultaneously operated.

The present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a schematic diagram of a biofilm removal device in a water supply pipe of the present invention.

The present invention is composed of a water supply tank for storing water, and a water supply pipe connected between the water supply tank and the water drinker to provide water for livestock to eat. And it is composed of a microorganism supply pipe for supplying drugs or microorganisms from the microorganism supply to the water supply pipe, and a plasma generator and a microbubble generator are connected to the water supply pipe to remove the biofilm in the water supply pipe to provide clean water to livestock.

In particular, a position where the plasma generator and the microbubble generator are connected to the water supply pipe is installed between the water supply unit at a position where the water supply pipe and the microorganism supply pipe are connected. Therefore, biofilm production by microorganisms from the microorganism supply pipe is prevented. And the present invention branches from the middle of the tube from the plasma generator and the microbubble generator and installs it in the front of the microorganism feeder, that is, at the location where the starting point of the microorganism supply pipe is connected to prevent the generation of a biofilm in the entire microorganism supply pipe. can

The microbe feeder includes a metering pump as a conventional microbe feeder, and the microbes are mixed with water at a ratio of 1:1000 and supplied to the waterer in a solution state.

And the plasma generator, microbubble generator, and micro-nano bubble generator of the present invention are widely used and conventional, and as described in the background of Korean Patent Publication No. 10-2020-0102252, in general, microbubbles are general Micro-bubbles that are much smaller than air bubbles and have a diameter of 50 μm or less. These microbubbles have low buoyancy and float as if swimming in water, and because of their high resistance to buoyancy, they can swim for a long time in water. will improve Energy is generated by the internal pressure of microbubbles due to the magnetic pressure effect, which is a unique characteristic, and free radicals are generated to remove unnecessary microorganisms in the water to be treated and ammonia by excreta of aquatic organisms.

And in the prior art Laid-Open Patent Publication No. 10-2020-0102252, a supply block having a water supply passage having an inner diameter of an outlet smaller than an inner diameter of an inlet is formed therein; The inlet of the mixing flow path formed therein is coupled to the supply block so as to communicate with the outlet of the water supply flow path, and an air supply flow path for supplying air to the inlet side of the mixing flow path is provided, wherein the mixing flow path has an outlet than the inner diameter of the inlet side. a nozzle block having a large inner diameter; The inlet of the bubbled water pressure passage formed therein is coupled to the nozzle block so as to communicate with the outlet of the mixing passage, the bubbled water pressure passage has an outlet inner diameter smaller than the inlet inner diameter, and the inlet of the bubbled water pressure passage a generation block in which a cylindrical seating groove is formed on the side; a seating ring press-fitted into the seating groove; a pair of bubble generating units press-fitted into the seating groove so as to be in close contact with both sides of the seating ring; The bubble generating unit includes a ring-shaped body press-fitted into the seating groove in a fitting manner, and a plurality of radially arranged relative to the central axis of the body, the bubble water being coupled to the radial direction of the pressurized passage obliquely. A microbubble generator is disclosed, which is configured to include four bubble generating blades to generate a spiral vortex, and in Patent Publication No. 10-2094240, nano, microbubble water supply pumps are registered in Patent Publication No. No. 10-1894870 discloses a micro-nano bubble water production device operation and management system, and for a plasma generator, various negative ions generated by introducing air into a high-density plasma generator in Korean Patent Laid-Open Publication No. 10-2007-0079096 , high-density plasma reaction step of purifying wastewater by injecting plasma gas composed of electrons, cations, radicals, etc. into wastewater to oxidize and decompose various organic substances and heavy metal complex ions dissolved and dissolved in wastewater; In a high-density plasma wastewater treatment method having As an underwater plasma generating device having By supplying to the air, the wastewater of the reaction tank is prevented from flowing into the hollow part between the ground electrode and the discharge electrode, and the gas layer in the hollow part between the ground electrode and the discharge electrode is plasma-discharged so that the discharged plasma gas layer is the ground Since the underwater plasma generator is disclosed, which is characterized in that it is in contact with wastewater through a communication part formed on the electrode, a detailed description of the microbubble generator, the micronano generator, and the plasma generator will be omitted. The plasma generator, microbubble generator, and micro-nano bubble generator of the present invention are sequentially installed in the water supply direction.

In particular, the control unit of the controller of the biofilm removal system in the water supply pipe for livestock normally operates only the microbubble generator, but operates it for about 10 minutes after the microorganisms are injected to suppress the biofilm formation. In spring and summer when the water temperature rises, the micro-nano bubble generator is operated at the same time. Specifically, when the outside temperature exceeds 30℃, the control unit operates the microbubble generator and the micro-nano bubble generator at the same time. In general, the method of visually judging the bubbles of the micro-bubble generator and the micro-nano-bubble generator is the bubbles in the water generated from the micro-bubble generator. is visible, and the bubbles in the water generated from the micro-nano bubble generator are invisible, but become visible when the bubbles grow larger when subjected to an impact.

In particular, according to the present invention, a bacteria detection sensor and a harmful substance detection sensor are installed, and when the measured value transmitted from the sensor is greater than the set value of the control unit of the controller, the plasma generator can be operated simultaneously. On the other hand, as another embodiment, the water supply pipe for livestock connected to the microorganism feeder is further installed with a purifier, and the biofilm of the water supply pipe is reliably removed by the pipe cleaning washing and sterilizing solution supplied from the clarifier. Water is used as the solvent of the purifier, and information about drugs, for example, data such as acidity and alkalinity, is stored in the storage unit of the biofilm removal system. By using alkalinity, the water properties of the water supply pipe are adjusted according to the drug information, such as selectively removing the biofilm weak to acid or alkalinity in the water supply pipe. And in the present invention, where there is no KEPCO electricity or electric power generation device, such as a farm, a solar power generation device is further installed, and power can be supplied to the biofilm removal system in the water supply pipe.

In the present invention, a plasma generator, a microbubble generator, and a micro-nano generator are installed in the water supply pipe for livestock connected to the microorganism feeder to prevent the biofilm from being formed in the water supply pipe, and to supply clean water to improve the health and nutrition of livestock. It is helpful, and there is a remarkable effect that the livestock farmer is provided with economic feasibility.

10: water tank 20: water supply
30: water supply pipe 40: microorganism feeder
50: microorganism supply pipe 60: plasma generator
70: micro bubble generator
80: Micro-nano bubble generator 90: Cheonggwangi

Claims (3)

A water supply tank (10), a water supply pipe (30) connected between the water supply tank (10) and the water supply device (20) to provide water for livestock to eat, and a microorganism supply device (40) to the water supply device (20). It is composed of a microorganism supply pipe 50 for supplying microorganisms, and a plasma generator 60 and a microbubble generator 70 are connected to the water supply pipe 30 to remove the biofilm in the water supply pipe to provide clean water to livestock. , The position where the plasma generator and the microbubble generator are connected to the water supply pipe is between the water supply pipe and the position where the water supply pipe and the microorganism supply pipe are connected, and the micro-nano bubble generator 80 is further installed in the water supply pipe in the biofilm removal system in the water supply pipe. in
The control unit of the controller of the biofilm removal system in the water supply pipe normally operates only the microbubble generator 70, but when the outside temperature exceeds 30° C., the control unit operates the microbubble generator 70 and the micro-nano bubble generator 80 at the same time. A purifier 90 is further installed in the water supply pipe 30 for livestock connected to the microorganism feeder 40, and the bio of the water supply pipe 30 by the pipe cleaning washing and sterilizing solution supplied from the purifying pipe 90. The film is removed more reliably, and water is used as the solvent of the purifier 90, and acid and alkali data for drugs are stored in the storage unit of the controller of the biofilm removal system in the water supply pipe 30. Biofilm removal system in water supply pipe, characterized in that it adjusts the properties of the water of the purifier 90 according to the drug information delete delete

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