KR100441646B1 - The livestock farming drinking water system with using electrolytic water - Google Patents

Abstract

The present invention relates to a livestock drinking apparatus using electrolyzed water, and more particularly, by improving the internal structure of the electrolyzed water generating apparatus and converting the electrolyzed water into livestock drinking, contributing to the improvement of livestock quality, improvement of meat quality, and prevention of waterborne diseases. The present invention relates to a livestock drinking apparatus using electrolyzed water.

In the conventional livestock electrolytic water generating device (A), which generates alkaline electrolytic water 21 in an electrolytic cell by placing and electrolyzing an electrode in an electrolytic cell 20 containing direct water 10, the upper side of the electrolytic cell 20 One side of the flow rate sensor 30 to measure the installed flow rate is equipped with a nutrient reservoir 50 is pumped by the automatic pump 40 to store and supply nutrients or other additives, a pair of electrodes in the electrolytic cell 20 The flat type and the cathode is characterized by consisting of a structure in which one to two pairs of mesh type electrodes are arranged and connected.

Description

Livestock drinking system using electrolytic water {The livestock farming drinking water system with using electrolytic water}

The present invention relates to a livestock drinking apparatus using electrolyzed water, and more particularly, by improving the internal structure of the electrolyzed water generating apparatus and converting the electrolyzed water into livestock drinking, contributing to the improvement of livestock quality, improvement of meat quality, and prevention of waterborne diseases. The present invention relates to a livestock drinking apparatus using electrolyzed water.

In general, the livestock sterilization method in the livestock industry is veterinary sterilization of microorganisms or germs by injection to the animals or by administering drugs to food. However, various kinds of harmful bacteria caused by livestock are easy to multiply, especially in summer due to temperature and humidity. In order to deal with these harmful bacteria, the chemical sterilization method was used, and the method of sterilization using physical sterilization method was performed. However, various apparatuses have been invented to sterilize organic wastes from plants and animals such as decayed bacteria, rot bacteria, pathogens, etc., which are harmful to livestock. Or governmental measures, such as referral to other experts or regular disinfection.

In recent years, disinfection and sterilization have been somewhat resolved by applying the sterilization method using electrolytic water generating device to alleviate this hassle. However, livestock are still exposed to waterborne diseases and substantially improve the quality or quality of livestock, There is no way to suggest a fundamental solution such as preventing a problem.

The present invention has been made in view of the above problems, by installing a reservoir containing nutrients and additives on one side of the electrolyzed water generator and discharging it with electrolyzed water, which is used for livestock drinking to improve the superiority of livestock and organic waste around livestock It is an object of the present invention to provide a livestock drinking apparatus using electrolytic water to prevent environmental pollution, such as to prevent waterborne diseases by sterilizing.

Hereinafter will be described in detail based on the accompanying drawings.

1 is a flowchart illustrating main parts of the present invention.

<Description of Symbols for Major Parts of Drawings>

10: Direct Water 20: Electrolyzer 21: Alkaline Electrolyzed Water

30: flow sensor 40: automatic pump 50: nutrient reservoir

V1: first ball valve V2: second ball valve V3: third ball valve

V4: fourth ball valve V5; 5th Ball Valve V6: 6th Ball Valve

A: Electrolyzed Water Generator

In the conventional livestock electrolytic water generating device (A), which generates alkaline electrolytic water 21 in an electrolytic cell by placing and electrolyzing an electrode in an electrolytic cell 20 containing direct water 10, the upper side of the electrolytic cell 20 One side of the flow rate sensor 30 to measure the installed flow rate is equipped with a nutrient reservoir 50 is pumped by the automatic pump 40 to store and supply nutrients or other additives, a pair of electrodes in the electrolytic cell 20 The flat type and the cathode is characterized by consisting of a structure in which one to two pairs of mesh type electrodes are arranged and connected.

Such operation of the ball valve according to the present invention is as follows.

The first ball valve (V1) and the second ball valve (V2) is a ball valve for controlling the inflow of each line 1 and line 2, the third ball valve (V3) is mounted on one side of the bottom surface of the electrolytic cell (20) It is to discharge the electrolytic water remaining in the electrolytic cell 20 when the device is not operating. The fourth ball valve V4 locks the first ball valve V1 when the electrolytic cell 20 has an abnormality or in other situations, and the water introduced through the second ball valve V2 receives the sixth ball. It is a valve for preventing the back flow of water in the electrolytic cell 20 in order to immediately withdraw the water to the valve (V6). The fifth ball valve (V5) is mounted on one side of the pressurizer to check whether water is being supplied before starting the device or to check the quality of the electrolyzed water generated in the electrolyzer 20 without using the electrolyzed water. Used to check. The sixth ball valve V6 is for controlling the outflow of the electrolytic water passing through all the ball valves to the discharge pipe.

Looking at the operation process according to the present invention, using tap water or ground water as the direct water (10) and the flow rate is about 20 ~ 80ℓ / min and is directly connected to the pipe used in the past. The feed water 10 is separated into lines 1 and 2 before flowing into the electrolytic cell 20, and the line 2 is directly connected to the discharge pipe when the electrolytic cell has an abnormality and is discharged. The second ball valve V2 is closed and the direct flow 10 introduced through the first ball valve V1 is controlled by a pressure gauge and has a measuring range of 0 to 30 kg / cm 3, and is driven by the automatic pump 40. When the pressure of the incoming water reaches a certain pressure (1 ~ 3㎏ / ㎠), the voltage is applied to the electrode installed inside the electrolytic cell by the electric control device. The electrolytic water remaining in the electrolytic cell is discharged through the third ball valve V3. After the alkaline electrolyzed water 21 has passed through the fourth ball valve V4 for preventing backflow of water, the electrolyzed water is introduced into the fifth ball valve V5 to check the water quality and at the same time the pressure is checked in the pressure device. The flow rate is measured by the flow rate sensor 30, and the redox potential of the electrolyzed water is measured by the ORP sensor and then discharged. The value measured by the apparatus is transmitted to the control device and displayed on the display panel. At this time, the additive stored in the nutrient reservoir 50 mounted on one side of the flow sensor 30 is discharged and is discharged with the electrolyzed water.

The electrical control of the device is powered by AC 220V and converted to DC by the power unit, controlled by the electrical controller and displayed on the display panel. The voltage supplied from the power unit is transmitted to the electrode in the electrolytic cell 20, the voltmeter installed in the middle portion has a measuring range of 0 ~ 50V, the ampere meter has a measuring range of 0 ~ 50A. In addition, the voltmeter and the ammeter are introduced into the electrolytic cell 20, the direct water 10 is introduced and 20-30V is applied to the electrode, the voltage is measured on the voltmeter and electrolysis of the water in the electrolytic cell 20 to produce a small electrolytic water cluster In this process, the current generated between the electrode and the electrode is measured in ammeter with 10 ~ 35A.

The electrode in the electrolytic cell 20 is composed of a flat plate and a mesh of a plated platinum material. Two pairs of electrodes are arranged in one set, and one pair of electrodes is separated into a plate electrode and a mesh electrode. The number of electrodes is composed of two flat plates and two to four meshes. The plate is connected to the positive electrode and the negative electrode. In addition, the polarity of the power is changed by 7 minutes of forward operation and 3 minutes of reverse operation for the even decomposition of water.

The alkaline electrolytic water 21 generated by this operation can remove organic substances and odors in the influent and sterilize germs, which can be used as safe drinking water for livestock, and very safe and softens the water to promote digestion. In addition, the cluster is small, increases the absorption rate in the body and can be easily mixed and provided with nutrients and additives.

As described above, the present invention is activated by the electrolysis of the cation in the raw water to change the weak alkalinity to soften the water to drink the livestock to promote digestion by increasing the absorption rate and nutrients and additives in the electrolyzed water to increase the nutrition of the livestock It improves the quality and quality of livestock, and it is effective to prevent waterborne diseases by introducing alkaline electrolyzed water with sterilization and sterilization as well as hygiene management around the barn.

Claims (1)

In the conventional livestock electrolytic water generating device (A), which generates alkaline electrolytic water 21 in an electrolytic cell by placing and electrolyzing an electrode in an electrolytic cell 20 containing direct water 10, the upper side of the electrolytic cell 20 One side of the flow rate sensor 30 to measure the installed flow rate is equipped with a nutrient reservoir 50 is pumped by the automatic pump 40 to store and supply nutrients or other additives, a pair of electrodes in the electrolytic cell 20 Livestock drinking apparatus using electrolytic water, characterized in that the flat type and the cathode is composed of a structure in which 1 to 2 pairs of mesh-type electrodes are arranged and connected.