KR20200131084A - sulfur mixing water-supply system - Google Patents

Abstract

The present invention relates to an automatic sulfur mixed water supply device comprising: a first storage tank in which water is stored; a first sulfur tank which stores sulfur, is formed to communicate with the first storage tank, and introduces sulfur; a stirring unit which is formed inside the first storage tank, and mixes and dissolves water and sulfur by rotation; a first sulfur discharge valve for controlling the amount of sulfur discharged from the sulfur tank; a first discharge valve formed in the first discharge pipe of the first storage tank and adjusting a discharge amount of discharged mixed water; and a control unit which adjusts the opening rate of the first sulfur discharge valve or the discharge valve. According to the present invention, not only ducks having strong resistance against sulfur but also livestock such as pigs and chickens can easily consume sulfur. Formulated sulfur is provided after being mixed with water, and thus easy consumption is possible and damage to living bodies can be minimized. Accordingly, nutrients of sulfur as a food ingredient can be remarkably improved.

Description

Sulfur mixing water-supply system

The present invention relates to a sulfur mixing automatic water supply device, and more particularly, to a sulfur mixing automatic water supply device that automatically supplies water to poultry after the legal sulfur is automatically mixed with water in a water supply reservoir. will be.

In general, sulfur (硫黄, sulfur, sulfur) is an oxygen group element belonging to Group 6B of the periodic table, and exists as natural sulfur on Earth, but also exists in a wide variety as a compound.

Sulfur is the fourth most vital element in the human body after hydrogen, oxygen, and nitrogen, and accounts for about 0.25% of our body. It is contained in skin tissues, collagen in connective tissues, nails, hair, etc. It is an essential component of the human body that is necessary for its composition and is an essential element in the body that regulates blood sugar, removes toxins from the body such as heavy metals, relieves diuresis and constipation, and at the same time activates glutathione, which eliminates reactive oxygen species, to prevent cell damage and inflammation. Since it is an important element that plays a role in strengthening the treatment and immune system, it is essential to consume more than 150mg per day.

In livestock breeding, the supply of sulfur in an appropriate amount makes it possible to produce delicious livestock products by enriching cystine, cysteine, and methionine, which are sulfur-containing amino acids that protect livestock from various diseases and determine the taste of livestock products produced.

Humans consume sulfur through foods such as fruits and vegetables and meat. Fruits and vegetables that contain relatively high amounts of sulfur include cucumbers, garlic, radishes, heat radishes, parsley, spinach, lettuce, and Chinese cabbage. N (nitrogen), P ( Phosphorus), K (potassium), excessive fertilization, and deterioration of soil chemistry due to pesticides make it difficult to absorb sulfur in crops, and the content of sulfur is gradually decreasing.

Technology for processing mineral sulfur into a state that can be eaten by chickens Mineral sulfur is toxic and must be processed into a state that can be eaten by chickens after removing the toxicity (legislation).

There is a need for breeding techniques to safely consume sulfur while lowering the mortality rate of chickens.

Unlike sulfur ducks and sulfur pigs, which have already been spread by applying sulfur, chickens have particularly weak tolerance to toxicity and heat, resulting in a high mortality rate, and the breeding of chickens using sulfur was very economical.

Therefore, there is a demand for an intake method in which the legal sulfur can be ingested in an appropriate manner for ducks, pigs, as well as chickens, but does not cause harm.

Korean Patent Application No. 10-2016-0057855

The present invention was conceived to solve the problems of the prior art, so that it is easy to ingest livestock such as pigs and chickens as well as ducks with strong resistance to sulfur, and to consume legal sulfur within a range that does not harm life. The purpose of this is to provide a sulfur mixing automatic water supply device that can provide water by mixing legal sulfur.

An object of the present invention as described above, the first storage tank for storing water; A first sulfur tank for storing sulfur and being formed to pass through the first storage tank, and for introducing sulfur; A stirring part formed inside the first storage tank and mixing and dissolving water and sulfur by rotation; A first sulfur discharge valve for controlling the amount of sulfur discharged from the sulfur tank; A first discharge valve formed in the first discharge pipe of the first storage tank and controlling the discharge amount of the discharged mixed water; and a control unit for adjusting the opening rate of the first sulfur discharge valve or the discharge valve; It can be achieved by a sulfur mixing automatic water supply device.

And a pressure pump formed in the first discharge pipe to increase a discharge pressure of the mixed water, and the pressure pump is operated by a control unit.

A high water level sensor is formed on the inner upper portion of the first storage tank, and a low water level sensor is formed on the inner lower portion.

In the above, a second storage tank in which water is stored and an outlet is formed, and the outlet and the first storage tank are connected by a bypass pipe; A second sulfur tank for storing sulfur and being formed to pass through the second storage tank and for introducing sulfur; A stirring part formed inside the second storage tank and mixing and dissolving water and sulfur by rotation; A second sulfur discharge valve for controlling the amount of sulfur discharged from the second sulfur tank; It characterized in that it further comprises a; second discharge valve formed in the second discharge pipe of the second storage tank to control the discharge amount of the discharged mixed water.

The first sulfur discharge valve, the second sulfur discharge valve, the first discharge valve, and the second discharge valve have a solenoid driven by electric power as a power source, and are solenoids whose on-off or opening rate is controlled by a control unit. To do.

The stirring unit includes a stirring motor installed on an upper portion of the first storage tank or the second storage tank, and a shaft connected to the shaft of the stirring motor and coupled in a longitudinal direction to the inside of the first storage tank or the second storage tank, and the It characterized in that it comprises a stirring blade formed at the end of the shaft.

The control unit adjusts the opening rate of the first sulfur valve or the second sulfur valve, but each of the first storage tank or the second storage tank has an opening rate so that 300 ml of sulfur is mixed from each sulfur tank to 1 liter of stored water. It is characterized by being adjusted.

According to the present invention, it is easy to eat to livestock such as pigs and chickens as well as ducks with strong sulfur resistance, and by mixing legal sulfur with water, it is easy to eat and can minimize damage to the living body, so that nutrients as food ingredients There is an effect that can be greatly improved.

1 is a perspective view showing a sulfur mixing automatic water supply device according to the present invention,
Figure 2 is a front view showing a sulfur mixing automatic water supply device according to the present invention,
Figure 3 is a side view showing a sulfur mixing automatic water supply device according to the present invention,
4 is a view conceptually showing a sulfur mixing automatic water supply device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail based on the accompanying drawings.

The terms to be described later are defined in consideration of functions in the present invention, and it is stated that they should be interpreted as a concept consistent with the technical idea of the present invention and a meaning commonly or commonly recognized in the art.

In addition, when it is determined that a detailed description of known functions or configurations related to the present invention may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Here, the accompanying drawings are partially exaggerated or simplified for convenience and clarity of explanation and understanding of the configuration and operation of the technology, and each component does not exactly match the actual size.

In the accompanying drawings, FIG. 1 is a perspective view showing a sulfur mixing automatic water supply apparatus according to the present invention, FIG. 2 is a front view showing a sulfur mixing automatic water supply apparatus according to the present invention, and FIG. 3 is a sulfur mixing automatic water supply apparatus according to the present invention. A side view showing, Figure 4 is a view conceptually showing a sulfur mixing automatic water supply device according to the present invention.

As shown in Figures 1 to 4, the sulfur mixing automatic water supply device (A) according to the present invention,

A first storage tank 100 in which water is stored;

A first sulfur tank 120 for storing sulfur and being formed to pass through the first storage tank 100, and for inputting sulfur;

A stirring unit 140 formed inside the first storage tank 100 and mixing and dissolving water and sulfur by rotation;

A first sulfur discharge valve 160 for controlling the amount of sulfur discharged from the first sulfur tank 120;

A first discharge valve 180 formed in the first discharge pipe 190 of the first storage tank 100 and controlling a discharge amount of the discharged mixed water; and

And a control unit (M) for adjusting the opening rate of the first sulfur discharge valve 160 or the first discharge valve 180.

The first storage tank 100 is formed of a cylindrical body having a space therein, a cover is formed to be openable and closed at an upper opening, a water supply pipe 150 is connected to the upper one side so that water is supplied from the outside, and a high water level inside The sensor S1 and the low water level sensor S2 are formed in the upper and lower portions, respectively, and a through hole through which the first discharge pipe 190 is connected is formed on the bottom surface.

The bottom surface is made of a conical shape protruding outward in order to allow all waste to be discharged.

The water supply pipe 150 is provided with a water supply valve 152 that is controlled to open and close.

A pressure pump (P) is installed in the first discharge pipe 190 to increase the discharge pressure of the mixed water by pressurizing the discharged mixed water to stably discharge.

The on-off operation of the pressurizing pump P may be controlled by the control unit M.

Preferably, the first sulfur discharge valve 160, the first discharge valve 180, and the water supply valve 152 use a solenoid driven by electric power as a power source, and the on-off or opening rate is reduced by the control unit (M). Can be adjusted.

The stirring unit 140 is connected to the axis of the stirring motor 142 installed on the upper portion of the first storage tank 100 and the stirring motor 142, and is coupled to the inside of the first storage tank 100 in the longitudinal direction. It is configured to include a shaft 144 and a stirring blade 146 formed at the end of the shaft 144.

Therefore, when the stirring motor 142 is turned on, the shaft 144 and the stirring blade 146 are rotated and operated to mix water and sulfur.

The legal sulfur applied to the present invention removes sulfur poison at a level that can be eaten by livestock such as chickens, ducks, and pigs.

According to an example, mineral sulfur is added to water, soybeans and radishes are put together, boiled, cooled and washed with clean water.

After fermentation and aging for 10 to 30 days, washing with clean water, drying, and crushing finely to a level of 3,000 to 5,000 mesh.

The legal sulfur that has been completed through this process is used.

Meanwhile, in the above configuration, the second storage tank 200 is connected to the first storage tank 100 and bypasses the second storage tank 200 so that water supply can be preliminarily operated in case the first storage tank 100 is exhausted. It can be connected and configured in a way.

According to another embodiment,

A second storage tank 200 in which water is stored and an outlet 222 is formed, and the outlet 222 and the first storage tank 100 are connected by a bypass; A second sulfur tank 220 for storing sulfur and being formed to pass through the second storage tank 200 and for introducing sulfur; A stirring unit 240 formed inside the second storage tank 200 and mixing and dissolving water and sulfur by rotation; A second sulfur discharge valve 260 for controlling the amount of sulfur discharged from the second sulfur tank 220; It may further include a second discharge valve 280 formed in the second discharge pipe 290 of the second storage tank 200 to control a discharge amount of the discharged mixed water.

The second storage tank 200, the second sulfur tank 220, and the stirring unit 140 are substantially the same as the first storage tank 100, the first sulfur tank 120, and the stirring unit 140 described above. The redundant description of this will be omitted.

As described above, the second sulfur discharge valve 260 and the second discharge valve 280 use a solenoid driven by electric power as a power source, and the on-off or opening rate may be adjusted by the control unit M. .

The stirring unit 240 is connected to the axis of the stirring motor 242 and the stirring motor 242 installed on the upper portion of the second storage tank 200, and is coupled in the longitudinal direction to the inside of the second storage tank 200. It is configured to include a shaft 244 and a stirring blade 246 formed at the end of the shaft 244.

Therefore, when the stirring motor 242 is turned on, the shaft 244 and the stirring blade 246 are rotated and operated to mix water and sulfur.

According to an example, the capacity of the first sulfur tank 120 is set to 2.1 liters for 300 liters of water stored in the first storage tank 100.

The capacity of the second sulfur tank 220 is set to 2.1 liters for 300 liters of water stored in the second storage tank 200.

The control unit (M) adjusts the opening rate of the first sulfur valve 260 or the second sulfur valve 260, but each of the first storage tank 100 or the second storage tank 200 is The mixing ratio of is set to 7:3.

That is, it is driven to adjust the opening rate so that 300 ml of sulfur is mixed from each sulfur tank with respect to 1 liter of water.

Hereinafter, the operation of the embodiment of the present invention will be described.

Each of the first storage tank 100 or the second storage tank 200 is composed of a tank having a storage capacity of 300 L.

One of the first and second storage tanks 100 and 220 is always used for water supply and the other is operated in a standby state.

When the water level of the first storage tank 100 in use is detected by the low water level sensor, the first discharge valve 180 is switched to lock and the water supply valve 152 of the first storage tank 100 is opened to continuously supply water. Enforced.

In the first storage tank 100, the water supply valve 152 is opened and water flows into the interior of the first storage tank 100, and when the water level reaches the high water level sensor S1 and is detected, the water supply valve 152 is closed. The inflow of water is concentrated.

Meanwhile, the second sulfur discharge valve 260 operates a specified number of times according to the mixed concentration of sulfur, and the sulfur liquid stored in the first sulfur tank 120 is injected into the first storage tank 100 to provide a certain concentration of sulfur. The mixed water is prepared and the first storage tank 100 is in a standby state.

When time elapses and the water level of the second storage tank 200 decreases and is detected by the low water level sensor S2, the second discharge valve 280 is closed and the water supply valve 152 is opened and the first storage tank 100 is opened. It is in use, and the second storage tank 200 is converted to a standby state.

Accordingly, the first storage tank 100 and the second storage tank 200 are alternately switched to the in-use and standby state, and continuous water supply is performed so that the water supply interruption is prevented and the sulfur mixed water can be continuously supplied.

Meanwhile, the stirring motors 142 installed in each of the first and second storage tanks 100 and 200 and the first and second sulfur tanks 120 and 220 regardless of the state in use or in the atmosphere are 10 minutes per hour. Works to prevent the precipitation of sulfur.

The pressure pump P operates to maintain a constant pressure inside the first and second discharge pipes 190 and 290.

In order to prevent freezing in winter, a heating wire is installed in the storage tank.

The display of the control unit M displays the power on/off status, the number of the storage tank being used, and the concentration of the sulfur mixture.

Preferably, the sulfur mixture concentration is set to Step 1: 3ml / 300L (water), Step 2: 6ml / 300L, Step 3: 9ml / 300L, Step 4: 12ml / 300L.

The present invention is not limited by the above-described embodiments and the accompanying drawings, and various modifications and applications not illustrated within the scope of the present invention are possible, as well as substitution of components and other equivalent embodiments. Since it can be changed, the contents related to modifications and applications of the features of the present invention should be interpreted as being included within the scope of the present invention.

100: first storage tank 120: first sulfur tank
140: stirring unit 160: first sulfur discharge valve
180: first discharge valve M: control unit
S1: High water level sensor S2: Low water level sensor
190: discharge pipe P: pressure pump
200: second storage tank 220: second sulfur tank
240: stirring unit 260: second sulfur discharge valve
280: second discharge valve

Claims (7)

A first storage tank for storing water;
A first sulfur tank for storing sulfur and being formed to pass through the first storage tank and for introducing sulfur;
A stirring part formed inside the first storage tank and mixing and dissolving water and sulfur by rotation;
A first sulfur discharge valve for controlling an amount of sulfur discharged from the sulfur tank;
And a first discharge valve formed in the first discharge pipe of the first storage tank and controlling a discharge amount of the discharged mixed water,
A control unit for adjusting an opening rate of the first sulfur discharge valve or the discharge valve;
Sulfur mixing automatic water supply device comprising a. The method of claim 1,
And a pressure pump formed in the first discharge pipe to increase a discharge pressure of the mixed water, wherein the pressure pump is operated by a control unit. The method of claim 2,
A sulfur mixing automatic water supply device, characterized in that a high water level sensor is formed on an inner upper portion of the first storage tank, and a low water level sensor is formed on an inner lower portion. The method of claim 1,
A second storage tank in which water is stored and an outlet is formed, and the outlet and the first storage tank are connected by a bypass pipe;
A second sulfur tank for storing sulfur and being formed to pass through the second storage tank and for introducing sulfur;
A stirring part formed inside the second storage tank and mixing and dissolving water and sulfur by rotation;
A second sulfur discharge valve for controlling an amount of sulfur discharged from the second sulfur tank;
A second discharge valve formed in the second discharge pipe of the second storage tank and controlling a discharge amount of the discharged mixed water;
Sulfur mixing automatic water supply device comprising a. The method of claim 4,
The first sulfur discharge valve, the second sulfur discharge valve, the first discharge valve, and the second discharge valve have a solenoid driven by electric force as a power source,
Sulfur mixing automatic water supply device, characterized in that the on-off or opening rate is controlled by the control unit is a solenoid. The method of claim 4,
The stirring part
A stirring motor installed on each of the first storage tank or the second storage tank, and a shaft connected to the shaft of the stirring motor and coupled in a longitudinal direction to the inside of the first storage tank or the second storage tank, and the shaft. Sulfur mixing automatic water supply device, characterized in that it comprises a stirring blade formed at the end. The method of claim 4,
The control unit adjusts the opening rate of the first sulfur valve or the second sulfur valve,
Each of the first storage tank or the second storage tank is characterized in that the opening rate is adjusted so that 300 ml of sulfur is mixed from each sulfur tank with respect to 1 L of stored water.

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