KR20200042797A - Automatic sprayer for water treatment agent - Google Patents

Abstract

The present invention relates to an automatic spraying device for a water treatment agent and, more particularly, to an automatic spraying device for a water treatment agent in which a fixed quantity of water treatment agent powder is supplied to a mixing container through a quantitative supplier and water flows into the mixing container while rotating such that the water treatment agent powder can be homogeneously mixed with the water without a separate power device. The device is configured to include: a storage container positioned in an upper portion in a main body and storing water treatment agent powder; a quantitative supplier installed in a lower portion of the storage container, having a quantitative accommodation portion accommodating a fixed quantity of the water treatment agent powder, and allowing the water treatment agent powder supplied from the storage container to be supplied downward; a mixing container positioned in a lower portion in the main body and allowing the water treatment agent powder supplied from the quantitative supplier to be mixed; a water supplier activating a water treatment agent by supplying water into the mixing container; and an ejector connected to the outside from the bottom surface of the mixing container and allowing the activated water treatment agent to be ejected.

Description

Automatic sprayer for water treatment agent

The present invention relates to an automatic spraying device for water treatment agents, and more specifically, the quantity of water treatment agent powder is supplied to a mixing container through a quantitative feeder, and water is mixed while rotating so that the water treatment agent powder can be homogeneously mixed with water without a separate power device. It relates to an automatic spraying device for the water treatment agent flowing into the container.

In the case of lakes, ponds, and ecological lakes, the water should always be kept clean and clean.However, if the pollution of water quality is serious due to the occurrence of suspended matter in the lake for a reasonable period of time, it will not only destroy the ecosystem of the lake. The surrounding environment can also deteriorate, and periodic water purification treatment is required.

Conventionally, as a method of managing the water quality of a lake, the floating water floating on the surface of the lake was only removed or the water was periodically replaced, and stagnant water decayed after a long time or various types of substances settled on the bottom surface. It was not able to prevent the pollution state.

To this end, Korean Patent No. 840548 discloses a facility for purifying the water quality of a lake or pond, which has a driving device at the peak of the bottom of the lake, especially in the range where slopes are formed, and at the bottom of the slope and valley. It provides a configuration that allows the purification of the water in the lake by continuously circulating the water in the lake by providing a means such as a windmill and a means for supplying dissolved oxygen.

The water purification device or system, facilities, etc. in the lake by such a configuration have a considerable installation cost and maintenance, such as the installation of a number of facilities on the bottom of the lake and the bottom, slopes, peaks, etc. In addition to the cost, if the pollution condition is severe and self-cleaning is not possible, it takes a lot of time to improve water purification by supplying only dissolved oxygen.

As another method for improving water quality, a spraying device using a water treatment agent is used. The conventional spraying device has a problem in that it is difficult to consider the installation space because the capacity of the tank becomes very large as the activated water treatment agent mixed with water is used, and there is a problem in that the effective period for storing the activated water treatment agent is short.

Recently, in order to minimize the capacity of the spraying device, a device for mixing and spraying the powdered water treatment agent with water has been developed, but it is difficult to manage the supply amount and supply cycle of the water treatment agent according to the pollution state or size of the lake.

To solve this problem, it is necessary to develop a device capable of quantitatively supplying a water treatment agent and storing for a long time.

Republic of Korea Registered Patent Publication No. 10-0937004

Accordingly, an object of the present invention is to supply the water treatment agent powder to the mixing container through a quantitative supply device provided to accommodate the quantity of the water treatment agent powder, and the water is rotated from the mixing container to flow in and mix the water treatment agent powder and water homogeneously without a separate power device. Letting It is to provide an automatic spraying device for a water treatment agent.

The above object is located in the upper portion of the main body, a storage container in which water treatment agent powder is stored; and a quantitative receiving part installed in the lower portion of the storage container and receiving a quantity of water treatment agent powder is formed so that the water treatment agent powder supplied from the storage container is directed downward. A quantitative container to be supplied to the mixing container; and a mixing container located at a lower portion in the main body to mix the water treatment agent powder supplied from the quantitative supplyer; and a water supply to supply water into the mixing container to activate the water treatment agent; And a discharger connected to the outside from the bottom surface of the mixing vessel to discharge the activated water treatment agent.

In addition, the storage container is provided with a vertical pipe at the bottom, the metering supply unit is connected to the vertical pipe, the housing having an opening formed in the upper direction and the lower direction; and to the quantitative receiving unit located in the upper direction of the housing A rotor that receives the water treatment agent powder and rotates 180 degrees within the housing to be supplied downward; And a supply pipe through which the water treatment agent powder is transferred to the mixing container located in the downward direction of the housing.

In addition, the storage container is provided with a bent pipe horizontally bent at the bottom, and the metering feeder is connected to the bent pipe and has openings formed in the lateral and downward directions; and located in the lateral direction of the housing A rotor that receives the water treatment agent powder to the quantitative receiving part and rotates 90 degrees in the housing to be supplied downward; And a supply pipe through which the water treatment agent powder is transferred to the mixing container located in the downward direction of the housing.

In addition, the water supply unit is provided so that water flows in the tangential direction of the mixing vessel is characterized in that the water is homogeneously mixed with the water treatment agent powder while rotating.

In addition, the discharger, a first discharge pipe having a vertical pipe shape located on the bottom surface of the mixing container; and a second discharge pipe horizontally connected to the first discharge pipe and penetrating the body to the outside; And a third discharge pipe connected downwardly from the second discharge pipe and provided at a lower position than the first discharge pipe.

In addition, the storage container is characterized in that the inner space is formed to be inclined to the center and a vibrator is attached to the outside so that the water treatment agent powder is viscously separated by vibration and supplied to the metering container and the mixing container.

In addition, the mixing container is characterized in that the inner space is formed to be inclined to the center and a float switch is installed therein to control the operation of the water supply so that the water supplied by the water supply does not exceed the limit line.

In addition, an anti-return type air vent valve is installed on the upper side so that internal air is not discharged and only air is introduced from the outside to the inside to utilize the internal pressure and siphon phenomenon of the mixing container formed when water is supplied to the mixing container. It is characterized in that all the activated water treatment agent is discharged through the discharge pipe at the maximum flow rate according to the Bernoulli equation.

According to the above-described configuration of the present invention, there is an advantage that it is mixed with water at a ratio of the quantity supplied to the mixing container contained in the amount of the water treatment agent powder required for the quantity supply.

In addition, the vibrator operates during the operation of the quantitative feeder, so that the quantity of the viscous water treatment agent powder is supplied from the storage container to the quantitative feeder, and there is an advantage of smooth supply from the quantitative feeder to the mixing container.

In addition, the water supply is installed in a tangential direction so that the water is rotated in the mixing container and effectively mixed with the water treatment agent powder, thereby having the advantage of homogenization.

In addition, the discharger is installed from the bottom of the mixing vessel to the outside, and there is an advantage in that all the water is discharged without a stagnant section due to the pressure inside the mixing vessel and the siphon phenomenon.

In addition, there is an advantage of stopping the supply of water by operating the float switch so that water does not exceed the upper limit line due to excessive operation of the water supply.

1 is a block diagram of an automatic spraying device for a water treatment agent according to the present invention.
Figure 2 is an embodiment of a quantitative supply of the water treatment agent automatic spraying device according to the present invention.
3 is another embodiment of a quantitative feeder for an automatic spraying device for water treatment agents according to the present invention.
Figure 4 shows the rotation direction of the metering supply of Figure 2;
FIG. 5 shows the rotational direction of the quantitative feeder of FIG. 3.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

In addition, in describing the present invention, terms indicating directions are those described to enable those skilled in the art to clearly understand the present invention, and since they indicate relative directions, the scope of rights will not be limited thereby.

1 is a block diagram of an automatic dispensing device for a water treatment agent according to the present invention, FIG. 2 is an embodiment of a quantitative dispensing device for an automatic spraying device for a water treatment agent according to the present invention, and FIG. In another embodiment, FIG. 4 shows the rotation direction of the quantitative feeder of FIG. 2, and FIG. 5 shows the rotation direction of the quantitative feeder of FIG. 3.

Referring to Figure 1, the automatic treatment device for water treatment according to the present invention is composed of a storage container 100, a metering supply 200, a mixing container 300, a water supply 400, and a discharger 500, each of the following It will be described in detail.

The automatic spraying device for water treatment agent is composed of a hopper-shaped body 10, and a storage container 100 and a mixing container 300 are formed at upper and lower parts of the body.

The storage container 100 is located in the upper portion of the main body 10 and an inner space is formed to be inclined to the center to store the water treatment agent powder.

The mixing container 300 is located at the bottom in the main body 10 and an inner space is formed to be inclined to the center, so that water treatment agent powder and water are mixed.

The quantitative feeder 200 is installed under the storage container 100 and is formed with a quantitative receiving part 221 that accommodates a quantity of water treatment agent powder so that the water treatment agent powder supplied from the storage container 100 is supplied downward. do.

Here, the quantitative receiving unit 221 is formed so that the inner receiving space has the same volume as the amount of the water treatment agent powder so that it is filled when the water treatment agent powder is supplied.

As illustrated in FIG. 2, in one embodiment, the quantitative feeder 200 may be composed of a housing 210, a rotor 220, and a supply pipe 230. At this time, a vertical pipe is provided under the storage container 100. It is preferable that 110 is provided.

The housing 210 is connected to the vertical tube 110 to form openings 211 in upper and lower directions, and the openings 211 are provided in a shape corresponding to the inlets of the quantitative receiving unit 221. .

The rotor 220 is provided to be rotatable inside the housing 210, and the quantitative receiving unit 221 is 180 degrees toward the opening 211 formed in the upper and lower directions of the housing 210. Is rotated.

The supply pipe 230 allows the water treatment agent powder to be transferred to the mixing container 300 located in the downward direction of the housing 210.

In addition, the supply pipe 230 prevents water from entering the inside of the quantitative supply 200 by the internal air pressure of the supply pipe 230 even if water is excessively supplied and exceeds the upper limit line.

Here, referring to FIG. 4, the quantitative receiving portion 221 of the rotor 220 receives water treatment agent powder toward the opening 211 positioned in the upper direction and rotates 180 degrees within the housing 210. The water treatment agent powder is dropped toward the opening 211 located in the downward direction.

At this time, the vibrator 130 is mounted on the outside of the storage container 100 to smoothly supply the water treatment agent powder when it is filled or discharged in the quantitative receiving unit 221 to vibrate when the quantitative supply 200 is operated. The vibrator 130 vibrates so that the viscous water treatment agent powder can be well separated, and the quantity is filled and the quantity is discharged.

As shown in FIG. 3, in another embodiment, the quantitative feeder 200 may be composed of a housing 210, a rotor 220, and a supply pipe 230. At this time, the storage container 100 horizontally It is preferable that the bent tube 120 is provided.

The housing 210 is connected to the bent pipe 120 to form openings 211 in lateral and downward directions, and the openings 211 are provided in a shape corresponding to the inlets of the quantitative receiving unit 221. .

The rotor 220 is provided to be rotatable inside the housing 210, and the quantitative receiving unit 221 is 90 degrees toward the opening 211 formed in the lateral and downward directions of the housing 210. Is rotated.

The supply pipe 230 allows the water treatment agent powder to be transferred to the mixing container 300 located in the downward direction of the housing 210.

Here, referring to FIG. 5, the quantitative receiving part 221 of the rotor 220 receives water treatment agent powder toward the opening 211 positioned in the lateral direction and rotates 90 degrees within the housing 210. The water treatment agent powder is dropped toward the opening 211 located in the downward direction.

At this time, by attaching the vibrator 130 to the outside of the storage container 100 to facilitate the filling of the water treatment agent powder in the quantitative receiving portion 221 is provided in the lateral direction to vibrate during the operation of the quantitative supply 200. The quantitative receiving unit 221 is formed such that the inner receiving space has the same volume as the amount of the powder of the water treatment agent, and when the receiving space is filled, it is automatically recognized and discharges the water treating powder while rotating downward.

The water supply 400 is provided with a water supply pipe 410 in the tangential direction of the mixing vessel 300 and is connected to an externally installed water supply pump 420 to supply water. Here, water flows in a tangential direction and rotates while effectively mixing the water treatment agent powder supplied through the quantitative feeder 200 and the water treatment agent without a separate power device to activate the water treatment agent.

The discharger 500 is connected to the outside from the bottom surface of the mixing vessel 300 so that the activated water treatment agent is discharged, and the water treatment agent activated by the difference in the internal pressure of the mixing vessel 300 and the head height is quickly The whole amount is discharged.

The discharger 500 is a first discharge pipe 510 and a second discharge pipe 520 so that the internal pressure of the mixing vessel 300 is pressed against the liquid side of the high side by using the siphon principle so that the liquid is pushed up into the pipe. And a third discharge pipe 530.

More specifically, the first discharge pipe 510 having a vertical pipe shape located on the bottom surface of the mixing vessel 300 and the second discharge pipe horizontally connected to the first discharge pipe 510 penetrate the body 10 to the outside. It is connected downwardly from the 520 and the second discharge pipe 520 so that the third discharge pipe 530 is provided at a lower position than the first discharge pipe 510.

At this time, the activated water treatment agent of the mixing vessel 300 may be discharged in full by a difference in height between the first discharge pipe 510 and the third discharge pipe 530.

And the mixing vessel 300 is installed on the upper side of the mixing vessel is provided with a non-return type air vent valve 320 so that the internal air is not discharged and only air flows in from outside to the inside. The total amount of water treatment agent activated using the internal pressure and siphon phenomenon of is rapidly discharged through the discharge pipe.

In addition, when the float switch 310 is mounted inside the mixing container 300 and water is excessively supplied due to a malfunction of the water supply pump 420, the float switch 310 is operated to operate the water. The operation of the supply pump 420 can be stopped.

As described above, the basic technical idea of the present invention is to supply the water treatment agent powder to the mixing container through a quantitative feeder equipped to accommodate the quantity of the water treatment agent powder. It can be seen that it is to provide an automatic dispersing device for a water treatment agent that allows homogeneous mixing.

Of course, various modifications are possible by a person having ordinary skill in the art within the basic technical idea scope of the present invention, and therefore, the scope of the present invention should be interpreted within the scope of claims written to include various modification examples. will be.

10: main body 100: storage container
110: vertical tube 120: bending tube
130: vibrator 200: quantitative supply
210: housing 211: opening
220: rotor 221: quantitative accommodation unit
230: supply pipe 300: mixing container
310: float switch 320: non-return type air vent valve
400: water supply 410: water supply pipe
420: water supply pump 500: discharger
510: first discharge pipe 520: second discharge pipe
530: third discharge pipe

Claims (8)

A storage container which is located in the upper part of the main body and stores water treatment powder;
A quantitative supply unit installed at a lower portion of the storage container to form a quantitative receiving unit for receiving a quantity of water treatment agent powder so that the water treatment agent powder supplied from the storage container is supplied downward;
A mixing vessel located at the bottom of the main body to mix the water treatment agent powder supplied from the quantitative feeder;
A water supply unit that supplies water into the mixing container to activate a water treatment agent; And
Automatic dispensing device for a water treatment agent, characterized in that consisting of; a discharger that is connected to the outside from the bottom of the mixing vessel to allow the activated water treatment agent to be discharged. According to claim 1,
The storage container,
A vertical pipe is provided at the bottom,
The quantitative feeder,
A housing connected to the vertical tube and having openings formed in upper and lower directions;
A rotor that receives the water treatment agent powder to the quantitative receiving part located in the upper direction of the housing and rotates 180 degrees within the housing to be supplied downward; And
Automatic supplying device for water treatment agents, characterized in that consisting of; supply pipe for the water treatment agent powder to be transferred to the mixing vessel located in the lower direction of the housing. According to claim 1,
The storage container,
A bent tube horizontally bent is provided at the bottom,
The quantitative feeder,
A housing connected to the bent tube and having openings formed in lateral and downward directions;
A rotor for supplying water treatment agent powder to the quantitative receiving part located in the lateral direction of the housing and supplying water treatment powder 90 degrees in the housing to be supplied downward; And
Automated spraying device for water treatment agents, characterized in that consisting of; a supply pipe for transferring the water treatment agent powder to the mixing vessel located in the lower direction of the housing. According to claim 1,
The water supply,
Automatic spraying device for water treatment agents, characterized in that water is introduced in a tangential direction of the mixing vessel so that water is homogeneously mixed with water treatment agent powder without a separate power device while rotating. According to claim 1,
The ejector,
A first discharge pipe having a vertical pipe shape located on a bottom surface of the mixing vessel;
A second discharge pipe horizontally connected to the first discharge pipe and penetrating the main body outward; And
Automatic dispensing device for a water treatment agent comprising: a third discharge pipe connected downwardly from the second discharge pipe and provided at a lower position than the first discharge pipe. According to claim 1,
The storage container,
An inner space is formed so as to be inclined to the center, and a vibrator is attached to the outside, so that the water treatment agent powder is viscously separated by vibration to be supplied from the storage container to the quantitative feeder, and is supplied from the quantitative feeder to the mixing vessel automatically. Spraying device. According to claim 1,
The mixing vessel,
An automatic dispensing device for a water treatment agent characterized in that an internal space is formed to be inclined to the center, and a float switch is installed therein to control the operation of the water supply so that water supplied by the water supply does not exceed a limit line. According to claim 1,
The mixing vessel,
An anti-return type air vent valve is installed on the upper side so that the internal air is not discharged and only air is introduced from the outside to the inside. Automatic spraying device for water treatment agents, characterized in that the entire amount of water treatment agent is discharged through the discharge pipe at the maximum flow rate according to the Bernoulli equation.

Images