KR20190052214A - AUTOMATIC CONTROL SYSTEM OF pH USING HOPPER - Google Patents

Abstract

The present invention relates to an automatic pH controlling system using a hopper of a farm, which comprises a pH measuring sensor, a controller, a pH control powder hopper, a pH control powder supplying line, a vibrator, a vibrator volume controlling device, an underwater pump, a water supplying line, and a system server. A measured value measured in the pH measuring sensor is transmitted to the controller. When a pH value is within a specific range by determining the measured value transmitted to the controller depending on a data value stored in the system server, the present invention maintains the pH value of the farm in a constant range by automatically inputting a constant amount of pH control powder. The present invention inputs a constant amount of slaked lime in the pH control powder hopper by connecting the vibrator to the pH control powder hopper and vibrating the vibrator to a specific amount in order to automatically input the constant amount of pH control powder. The controller transmits a signal for a specific range to the vibrator volume controlling device. The present invention is provided to spray water to the pH control powder supplying line through the water supplying line by installing the underwater pump in a water tank and lifting the water in order to well mix the pH control powder and the water when the pH control powder is inputted to the water tank, thereby mixing the pH control powder and the water well.

Description

Technical Field [0001] The present invention relates to a pH automatic control system using a hopper,

TECHNICAL FIELD The present invention relates to a pH automatic control system using a hopper capable of adjusting pH, which is essential for water quality management in a farm.

The present invention relates to a water tank; A pH measuring sensor for measuring the pH of the water tank; A controller for adjusting the pH of the water tank using the measured value of the pH; A pH adjusting powder hopper for supplying a pH adjusting powder to the water tank under the control of the controller; A pH adjusting powder feed line for flowing a pH adjusting powder connected to the pH adjusting powder hopper; A vibrator for vibrating the powder input hopper for adjusting the pH to allow the powder to be introduced into the tank; And aquatic organisms Characterized in that the pH server is adapted to receive pH data from the server and to control the pH controlled powder hopper to correspond to the pH data database, Control system.

Further, in the present invention, a vibrator is installed in the pH-controlled powder hopper so that the powder in the hopper is allowed to flow into the pH control supply line by vibrating the hopper so that the slaked lime powder controlling the pH enters the tank, A water volume pump is installed in the water tank to sufficiently mix water with the water when the slaked lime powder controlling pH is introduced into the water tank, To a pH automatic control system using a hopper, characterized in that water is injected into the hopper so that water and powder are mixed well.

Most of the inland water farms are working hard to manage the water quality of the farms. This is to provide an appropriate environment for cultured fish or aquaculture to increase survival rate and growth potential. In order to provide adequate survival environment for cultured fish, it is necessary to maintain an appropriate pH range.

 The pH is a measure of the acidity or alkalinity of water and is an index of hydrogen ion concentration. Pure water has a pH of 7, which is neutral. The larger the pH value, the more acidic the smaller the alkaline. When the pH is out of a certain range, aquaculture will be killed rapidly or be severely impacted.

 When the water is changed to acid, it means that the hydrogen ion is increased. If the pH is lowered and pH homeostasis is broken, the cell will die. As a result, aging is promoted and various diseases are caused.

 Aquaculture is also a living organism, so it must be kept homeostatic. Depending on the species of aquaculture, it may also be sensitive to pH.

 The method of maintaining the pH of the aquaculture tank in a conventional aquaculture system is a method in which a person directly dilutes calcium carbonate or lime in water and injects the water into the aquaculture tank, And the method is adopted. However, this manual method does not know when a certain tank is out of the proper concentration of pH, and it takes a lot of time to check if the operator is absent or in case of pH problem at night, .

 In addition, since the worker arbitrarily injects the alkaline water or the powder into the water tank, it is difficult to maintain a constant pH concentration every time, and depending on the species, a slight change in the pH may be greatly affected. In addition, when the number of water tanks is large or the quality of water changes drastically, the operator must go through all the water tanks and manually supply the water containing the lime or carbonic acid again. The work is very extensive and requires a lot of labor.

 On the other hand, the prior patent documents related to the present invention will be described as follows.

 Korean Patent Publication No. 2010-0067643 discloses an apparatus for generating a pH-adjusted electrolytic water treatment agent for Kim Yang-sik, which comprises an acidic water tank and an alkaline water tank separately, receives a pH value through a pH sensor, By correcting the pH value constantly, it is suggested that fishermen can easily calculate the dilution factor with seawater when using the electrolytic water treatment agent and use the proper capacity.

 Although the above prior art can be roughly described in a rough sense, there are many limitations in practical application such as the necessity of separately providing an acidic water tank and an alkaline water tank.

Korean Patent Publication No. 2010-0067643 (published on June 21, 2010)

      An object of the present invention is to provide a pH automatic control system which can be effectively and efficiently controlled in aquaculture water quality management.

The present invention relates to a water tank;

A pH measuring sensor for measuring the pH of the water tank;

A controller for adjusting the pH of the water tank using the measured value of the pH measuring sensor;

A pH adjusting powder hopper for supplying a pH adjusting powder to the water tank under the control of the controller;

A pH adjusting powder feed line connected to the pH adjusting powder hopper; A vibrator for vibrating the powder input hopper for adjusting the pH to allow the powder to be introduced into the tank; And a system server for exchanging communications with a pH range database according to aquaculture organisms,

Wherein the controller is capable of receiving pH data from the server and controlling the pH control powder hopper to feed a proper amount of pH control powder into the pH control powder hopper.

In addition, the present invention is characterized in that the pH-

a vibrator is installed to vibrate the hopper so that the pH of the slaked lime powder is adjusted so that the pH of the slaked liquor flows into the tank, the pH of the vibrator is adjusted so that the powder flows into the pH adjusting powder feed line, In order to sufficiently mix the calcium hydroxide powder to adjust the pH of the water to be mixed with the water, a water pump is put in the water tank and the water is sprayed to the inlet where the calcium hydroxide powder is introduced, And a pH control system using the hopper.

The pH automatic control system according to the present invention can automatically control pH, which is an essential item of water quality management in the farm.

Also, by receiving the information in real time from the pH measurement sensor and transmitting it to the user terminal, it is possible to take quick action when a problem occurs in the farm.

In addition, administrators who lack the knowledge of aquaculture can easily manage the pH of aquaculture by providing data on various aquatic products from the system server.

1 is a view for explaining an apparatus for controlling pH in the present invention.
FIG. 2 is a diagram showing a schematic configuration of a user control system according to an embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor can properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

The present invention relates to a pH automatic control system in a farm water quality management item, and in a pH maintenance system in which a pH control powder hopper 10 to which pH control powder is supplied is provided, a pH control powder feed line 11 and a hopper support 14 is provided in the pH-adjusting powder hopper 10 and water is circulated.

The vibrator volume controller 12 determines the values measured by the vibrator 12, the vibrator volume controller 13, and the pH measurement sensor 21, which are provided in the pH control powder hopper 10 and are electrically controlled and operated. And a controller 20 for transmitting a driving signal to the controller 20.

In addition, the slaked lime powder for controlling the pH includes a submerged pump 15 placed in the water tank and a water supply line 16 for flowing the drawn water to sufficiently mix with the water when entering the tank.

Therefore, through the above-described structure, the present invention is intended to solve the problem that the pH is measured and the alkaline water is supplemented only in a predetermined time so that aquatic organisms are killed or impacted due to the deviation from the pH range.

The pH automatic control system according to the embodiment of the present invention includes a water tank 30 and a pH control powder hopper 10, a controller 20, a vibrator 12, a vibrator volume controller 13 and a hopper support 14. The pH measuring sensor 21 and the pH adjusting powder supply line 11 are connected to each other and the water pump 15 and the water supply line 16 are provided.

The pH-controlling powder may vary depending on the environment of the farm and the type of cultivation. In the embodiment of the present invention, the lime, carbonic acid, etc. used in most domestic ponds are used.

In the existing farm, the person manually unpacked the lime powder into the water and supplied the water to the tank, or directly injected the lime powder into the aquarium. Water lime was not mixed thoroughly, but it required a lot of labor to sink and mix it, and the concentration was different each time, which made it difficult to manage water quality.

In the embodiment of the present invention, the calcium hydroxide powder of the pH-controlled powder hopper 10 is introduced into the water tank along the pH control powder feed line 11, at which time the water in the water tank is drawn up using an underwater pump 15, (16) at the end so that the water and the lime powder are mixed well and the lime powder is uniformly loosened in the water tank so as to maintain the constant concentration.

The controller 20 collects information on the water tank 30 and controls the vibrator 12 so as to automatically control the pH.

 The controller 20 collects the pH value measured by the pH measuring sensor 21 and controls the vibrator 12 so that the amount of the pH adjusting powder that has been predetermined according to the pH value of the water bath 30 is inputted. So that the slaked powder in the pH-controlled powder hopper 10 is supplied to the water tank 30 through the pH adjusting powder feed line 11.

For example, when the measured pH value is greater than or equal to 7.0 and less than 7.5, the controller 20 sends the corresponding signal 1 to the vibrator volume controller 13 and outputs the signal 1 to the vibrator 12 by the vibrator volume controller 13, So that the lime powder is fed into the water tank 30 from the pH-adjusting powder hopper 10 by 200 grams per minute.

When the measured pH value is less than 7.0, the controller 20 sends the corresponding signal 2 to the vibrator volume controller 13 to vibrate the vibrator 12 by the amount of vibration previously set by the volume controller 13 The calcium hydroxide powder is introduced into the water tank 30 from the pH-adjusted powder hopper 10 by a flow rate of 300 grams per minute, so that more powder than the pH value of 7.0 or more and less than 7.5 is supplied.

The pH automatic control system will now be described with reference to FIGS.

The controller 20 collects the pH state information of the farm through the pH measuring sensor 21. The information collected by the controller 20 is transmitted to the system server 100. The system server 100 transmits information to the PC 200 and the mobile phone 300 so that the user can monitor in real time.

The controller 20 sends a drive signal to the vibrator volume controller 12.

More specifically, in order to determine whether the vibrator volume controller 12 is driven, a measured value of the pH of the water bath 30 is required. To this end, a pH measuring sensor 21 is provided in the water tank 30, To measure the change in the pH of the inside of the water tank (30).

Accordingly, when the pH value of the water tank 30 is measured and the pH value is within a specific range, the vibrator controller 13 sends a specific driving signal corresponding to the range to the vibrator volume controller 13, .

The system server 100 includes various optimal data according to the type of the fish species so that the control can be performed through the vibrator volume controller 13, and the pH can be controlled according to the fish species.

It is also possible for the user to control data values separately.

The operation of the vibrator 12 will be described in more detail. The water tank manager of the farm can select and set data corresponding to aquaculture creature using the terminal PC 200 and the mobile phone 300 of the administrator. Even if the tank manager does not have a separate knowledge of the aquaculture, it is possible to retrieve and use the data in the system server 100.

For example, freshwater shrimp are pH-sensitive fishery products. The pH range for stable culture should be maintained at 6.5 ~ 7.5, and pH 7.0 is the standard value for control. Therefore, the control range according to the pH value is divided into the lower range of 6.5 ~ 7.0 and the upper range of 7.0 ~ 7.5. If the pH value falls in the lower range, more calcium hydroxide powder is added and when the pH value falls in the upper range, Of calcium hydroxide powder. The system server 100 has such a database. The water tank manager selects or directly inputs the pH value in the system server 100.

When the pH value of the freshwater shrimp is set in the range of 7.0 or more to 7.5 or less based on the pH value of 7.0 in the water tank 20, the controller 20 transmits the corresponding signal 1 to the vibrator volume controller 13, So that the vibrator 12 vibrates by a predetermined amount of vibration by the volume controller 13 so that the calcium hydroxide powder is fed into the water tank 30 from the pH control powder hopper 10 by 200 grams per minute.

When the pH measurement value is 7.0 or less, the controller 20 sends the signal 2, which is the corresponding signal, to the vibrator volume controller 13, and outputs the signal 2 to the vibrator 13 by the amount of vibration preset by the volume controller 13. [ (12) is vibrated so that the calcium hydroxide powder is fed into the water tank (30) from the pH control powder hopper (10) by 300 grams per minute, so that more powder is input than when the pH measurement value is 7.0 or more and 7.5 or less.

If the pH value in the water tank 20 goes down to less than 6.5 or exceeds 7.5, it is communicated to the manager via a notification such as a warning sound and vibration.

With the above notification, the manager can quickly cope with an abnormality in the maintenance of the pH of the farm, thereby preventing the growth of the aquaculture and the death of the farmer. In case of an accident, even if an accident occurs, it is possible to reduce the damage on the property by promptly coping with it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, But may be embodied in other forms.

10: pH controlled powder hopper
11: pH adjusting powder supply line 12: vibrator
13: vibrator volume controller 14: hopper support
15: underwater motor 16: water supply line
20: Controller
21: pH measuring sensor
30: aquarium
100: System server
200: PC
300: Mobile phone

Claims (4)

A water tank 30;
A pH measuring sensor (21) for measuring the pH of the water tank (30);
A controller 20 for adjusting the pH of the water tank 30 using the measured value of the pH measuring sensor 21;
A pH adjusting powder hopper 10 for supplying a pH adjusting powder to the water tank 30 under the control of the controller 20;
A pH control powder feed line 11 connected to the pH control powder hopper 10;
A vibrator 12 for vibrating the pH-adjusting powder hopper 10;
A vibrator volume controller 13 for adjusting the vibration volume of the vibrator 12;
And a system server (100) for exchanging communications with a pH range database according to aquaculture organisms,
Characterized in that the controller (20) is capable of receiving a pH measurement value from the pH measuring sensor (21) and controlling the vibrator (12) which vibrates the pH adjusting powder hopper (10) PH automatic control system using.
The method according to claim 1,
Wherein the vibrator (12) further comprises the vibrator volume controller (13) for driving the vibrator (12).
The method according to claim 1 or 2,
In the water tub (30)
Characterized in that an underwater pump (15) is installed so that the slaked lime powder is mixed with water, and a water supply line (16) is provided for spraying water to the pH adjusting powder supply line (11) .
The method according to claim 1,
The controller (20)
And the measured value is transmitted to the system server (100) so that the user can perform real-time monitoring.

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