KR101009605B1 - Manufacture device of salt water having high quality for retaining standard concentration - Google Patents

Abstract

PURPOSE: A manufacture device of salt water having high quality for retaining standard concentration is provided to regularly supply water to a stirred tank by accurately measuring the level of water through a sensor. CONSTITUTION: A manufacture device of salt water having high quality for retaining standard concentration is comprised of a flow rate sensor(10), a water level sensor(20), and a flux lowering device(40). The flow rate sensor(10) is installed in a pipe and measure the flux of water passing the pipe, and it automatically stops the supply of water to a stirred tank when the certain amount water is passed. The water level sensor is installed inside the stirred tank while penetrating through inside and outside the stirred tank.

Description

Manufacture device of salt water having high quality for retaining standard concentration

The present invention provides a very precise standard by accurately supplying a fixed quantity of water to the stirring tank while accurately measuring the actual amount of water supplied by the flow sensor installed in the water supply pipe which is not affected by the water fluctuation even when the water inside the stirring tank is shaken. The present invention relates to a technique for easily preparing high-quality saline maintaining a concentration.

In general, for effective snow removal, it is desirable to spray sand that prevents slippage and calcium chloride that acts as a snow removal, but in this case, calcium chloride is mixed in the sand, which does not perform its performance and requires more calcium chloride than necessary. In recent years, solid calcium chloride was dissolved in water to form a liquid brine, which was then sprayed directly on a snowy or frozen area.

That is, in order to make snow removal more efficient in winter, salt solution was prepared by dissolving calcium chloride in the solid state using the brine manufacturing device, and then the salt water was stored in a separate large-sized brine storage tank to immediately use the salt water during unexpected snowfall or snowfall in winter. By doing so, the snow removal work can be completed.

As a related art related to such a brine production apparatus, "Patent Registration No. 744950 No./Brine Production Equipment", which has been filed by the applicant of the present invention and granted a patent decision, has been proposed.

In the above-described pre-invention, the vortex generated in the vortex generator stirs the calcium chloride solution in the stirring tank evenly, so that the solvent is excellent and the position of the vortex generator is varied to further form a circulating water stream and the like. It was to provide the effect of further improving the dissolving power.

Here, all other conventional brine manufacturing apparatus including the above-described pre-invented water supply water until the water level (1000 L, 2000 L) is set step by step inside the stirring tank in common, and when the water supply is completed, After quantitatively adding an appropriate amount of calcium chloride to the water level, salt water is prepared by mixing water and calcium chloride evenly using an agitator.

However, in the prior art, the water level sensor installed inside the stirring tank was unable to measure the correct water level according to the actual water supply because the water in the agitating tank was swelling and the water was not calm. .

In other words, the water supply should be maintained until the water level is accurately reached, but the water level sensor stops the water supply after detecting that the water level is not reached even though the water level is not reached.

Therefore, calcium chloride is always supplied in a fixed amount, but the amount of water supplied is variable, so the concentration of the brine finally produced is not constant. This situation is not possible, and furthermore, there is a problem that the efficiency of snow removal using such brine is significantly reduced.

The present invention is to actively solve the problems inherent in the brine production apparatus according to the prior art, by using a flow sensor installed in the water supply pipe so as not to be affected at all in the water ripple generated inside the stirring tank during water supply Accurately measure the water supply while accurately supplying a certain amount of water, and a breakband installed to surround the water level sensor in the agitation tank prevents water ripple from being transferred to the water level sensor so that the water level can always be measured accurately. This is a subject of the invention.

The present invention seeks a technique for integrally installing a flow sensor for precisely measuring the water supply amount in the water supply pipe connected to the inside of the stirring tank as a means for solving the above problems.

In addition, the present invention is provided with a pair of water level sensor to penetrate the inner and outer sides of the stirring tank to be adjacent to the inner surface, and to attach the breakband integrally to the inner surface of the stirring tank while the water level sensor is wrapped, At the lower side, a technique for forming a lower passage passage to communicate with water in the stirring tank is devised.

According to the present invention, the flow sensor is installed in the water supply pipe which is not affected by the water ripple in the stirring tank, so that the water flows through the water supply pipe in advance and precisely measures the flow rate without any error while supplying a precise standard concentration to the stirring tank for precise standard concentration. It provides an effect that can be easily prepared high quality saline to maintain.

In addition, the blast zone installed to surround the water level sensor in the stirring tank prevents water ripples generated in the stirring tank, so that the water surface remains calm around the water level sensor, so that the accurate level detection value can be measured, which is always compared with calcium chloride. It is possible to produce high quality saline that provides a precise amount of water while maintaining a more precise standard concentration.

1 is a partially cut-away longitudinal sectional view of the brine manufacturing apparatus to which the present invention is applied
Figure 2 is a partial cross-sectional view of the installation state of the present invention flow sensor
Figure 3 is an enlarged cross-sectional view of the installation state of the water level sensor and the blast zone of the present invention
Figure 4 is a sectional view of the rotational water flow state of the present invention stirring tank
5 to 6 is a cross-sectional view of the installed state of the water level sensor and the blast zone of the present invention
Figure 7 is a longitudinal cross-sectional view of the installation state of the flow rate reducing device of the present invention
Figure 8 is a side cross-sectional view of the operating state of the present invention the flow-rate reduction body

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

First of all, according to the accompanying drawings of the overall technical configuration according to a preferred embodiment of the present invention, in the brine production apparatus 1 is installed in the water supply pipe 3 for water supply is connected to the top of the stirring tank (2) ,

A flow sensor 10 connected to an outside of the water supply pipe 3 and connected to the outside; A water level sensor 20 installed to penetrate the inside and the outside of the stirring tank 2 to be adjacent to the inner surface of the stirring tank 2; Both ends of the water level sensor 20 in the state wrapped around the end portion integrally attached to the inner surface of the stirring tank (2), the lower end of the water passage (35) formed with a water passage (35) open; It can be seen that it is made of an organic coupling configuration of the flow rate reduction device 40 is installed on the pipeline of the upper water supply pipe (3) of the flow sensor 10 to reduce the flow rate.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

In order to produce high quality saline that meets the standard concentration required for normal snow removal operations, the most important thing is to supply the water accurately against the calcium chloride to be injected.

In consideration of this point, the present invention incorporates a technical configuration capable of more easily producing high-quality brine maintaining a standard concentration by accurately checking in advance the amount of water supplied to the stirring tank 2 in advance.

To this end, the flow rate sensor 10 is connected to the outside of the water supply pipe 3 as shown in FIG. 2 so that the flow rate sensor 10 precisely measures the flow rate of the water passing through the water supply pipe 3 and sets the amount of water. If this passes correctly, it is immediately stopped by the water supply.

Therefore, it is possible to produce a high-quality brine to maintain a standard concentration by supplying a fixed amount of water to the stirring tank (2) accurately compared to the quantitatively injected calcium chloride.

On the other hand, the water level sensor 20 is installed in the stirring tank 2 to penetrate the inside and the outside so as to be adjacent to the inner surface of the stirring tank 2, so that the level of water level supplied to the stirring tank 2 can be measured. .

At this time, the water level sensor 20 is installed in a plurality of different heights each up and down inside the stirring tank (2), the plurality of water level sensor 20 is set to a different level of water level (1000L, 2000L in the present invention), respectively As soon as the measurement is performed, the detection signal is transmitted to the controller to automatically stop the water supply, thereby effectively preventing the decrease of the brine concentration due to the excessive supply of water, and the worker can individually sense the level of the water level sensor 20. As the water level changes, it is possible to selectively control the yield of the brine.

However, in the process of supplying water to the stirring tank (2) through the water supply pipe (3) in the stirring tank (2) as the water fluctuates as the water level sensor 20 has not reached the set water level The snail detects the water and stops the water supply in advance, or even if the water level is exceeded, it is not detected correctly, and the excessive supply of water frequently occurs.

In view of the above, the present invention is integrally attached to the inner surface of the stirring tank 2 in a state in which the blast zone 30 surrounds the side surface of the water level sensor 20.

Such a breakband 30 is a body (31) (31a) of the a cross-sectional shape or circular cross-sectional shape so as to surround the water level sensor 20 in the state accommodated in the receiving space 33 as shown in Figs. The mounting plate 32 is formed integrally bent at both ends of the body (31) (31a) is attached to the inner surface of the stirring tank (2) integrally attached to the water level sensor in spite of the water in the stirring tank (2) 20), it is possible to block the transmission of thrust and to provide more accurate water level measurement.

In addition, the breakband 30 has a lower open channel 35 formed on the lower side so that the water level can be measured while blocking the fluctuation of the water, while the water flows smoothly into the accommodation space 33 of the breakband 30. Inner sleep remains calm.

In addition, the rotary water flow generated in the stirring tank 2 according to the operation of the agitator during the stirring operation of the brine strikes the swelling force of the brine as it impacts the water while hitting the protruding boom 30. It provides a side effect of further improving.

On the other hand, in the present invention, the water pressure flowing into the water supply pipe (3) is strong, so the flow rate is very fast, the flow sensor 10 is not accurately measured the flow rate in consideration of the error occurs 10 minutes to the water flow sensor 10 In this pre-entry stage, a new technology configuration, called a flow rate reduction device 40, which reduces the flow rate and enables more accurate measurement of the flow rate, is incorporated.

For this purpose, the flow rate reduction device 40 is an opening part 41-at one side on the front side of the flow sensor 10, that is, the upper side of the flow sensor 10 in the drawing, on the pipeline of the water supply pipe 3 as shown in FIGS. 7 to 8. 1) is formed, and the rotary housing 41 is provided with a connecting end portion 41-2 on which the water supply pipe 3 is connected and assembled on both upper and lower sides.

The opening portion 41-1 of the rotating body housing 41 serves as a passage for installing the flow rate reducing rotor 45 therein, and the flow rate reducing rotor 45 is installed therein. Thereafter, while the housing cover 42 is installed in the opening portion 41-1, the housing cover 42 is assembled to penetrate through the fastening member 42-1, thereby maintaining an integrated airtightness, and the inner surface of the housing cover 42 and the other rotating body. Both sides of the rotating shaft 45-1 formed on the inner surface of the housing 41 and the flow rate reducing rotor 45 are respectively rotatably fitted.

At this time, the flow rate reducing rotor 45 flows through the water supply pipe 3 by forming a plurality of blades 45-3 having a water passage 45-2 formed on the outer circumferential surface of the rotation shaft 45-1 integrally projecting radially. The strong water pressure hits the blade 45-3 and the flow rate is lowered. The water passage 45-2 provides a flow path that can flow smoothly without completely disconnecting the flow of water.

Therefore, as the flow rate of the water flowing through the water supply pipe 3 reaches the flow rate sensor 10 before the flow rate decreases, the flow rate sensor 10 can accurately measure the flow rate without error, thereby having a high quality standard concentration. It provides a special effect to make salt water simpler and more effective.

In addition, a ring groove is provided on the flange portion 42-2 of the housing cover 42 and the contact portion of the rotating body housing 41 which is in contact with the flange portion 42-2, and an O-ring 42 is provided in the ring groove. By inserting -3), water leakage to the outside can be effectively prevented.

1: brine manufacturing apparatus 2: stirring tank
3: water supply pipe 10: flow sensor
20: water level sensor 30: blast zone
31, 31a: body 32: mounting plate
33: receiving space 35: water channel
40: flow rate reduction device 41: rotor housing
41-1: Opening part 42: Housing cover
45: rotating body for speed reduction 45-1: rotating shaft
45-2: Aqueduct 45-3: Blade

Claims (5)

In the brine manufacturing apparatus (1) is provided with a water supply pipe (3) connected to the top of the stirring tank (2),
Flow rate sensor which is installed to the outside of the water supply pipe 3 is connected to the outside to measure the flow rate passing through the water supply pipe 3 and automatically stops the water supply to the stirring tank 2 when the set amount of water passes correctly. 10;
A water level sensor 20 installed to penetrate the inside and the outside of the stirring tank 2 to be adjacent to the inner surface of the stirring tank 2;
Both ends of the water level sensor 20 in the state wrapped around the end portion integrally attached to the inner surface of the stirring tank (2), the lower end of the water passage (35) formed with a water passage (35) open;
The rotor housing 41 is installed on the pipeline of the upper water supply pipe 3 of the flow sensor 10, and the housing cover 42 is blocked by one opening portion 41-1 of the rotor housing 41. Both sides of the rotating shaft 45-1 formed on the inner surface of the housing cover 42 and the other rotating body housing 41 are rotatably fitted to each other, respectively, The rotary shaft 45-1 has a flow rate reducing device 40 having a configuration in which a plurality of blades 45-3 having a channel 45-2 formed therein are radially integrated and formed to maintain a standard concentration. High quality brine manufacturing equipment.
The method of claim 1,
The rotor housing 41 has a connecting end portion 41-2 on which the water supply pipe 3 is connected and assembled at both upper and lower sides thereof, and the inner surface of the flange portion 42-2 of the housing cover 42 and the rotor housing ( 41) high-quality brine production apparatus to maintain the standard concentration, characterized in that the O-ring (42-3) is inserted into each of the close contact portion.
The method of claim 1,
The blast zone 30 is composed of a-shaped cross-section or circular cross-sectional body (31) (31a) to surround the water level sensor 20 in the state accommodated in the receiving space (33) therein, the body (31) Both ends of the (31a) is a high-quality salt water production apparatus for maintaining a standard concentration, characterized in that the mounting plate 32 is attached to the inner surface of the stirring tank (2) integrally formed.
The method of claim 1,
Breakwater 30 is a standard concentration, characterized in that the rotational water flow generated in the stirring tank (2) during the stirring operation of the brine impacts the water while impacting the water wave 30 to improve the stirring power of the brine Maintaining high quality brine maker.
The method of claim 1,
The water level sensor 20 is installed in a plurality of different heights up and down, the plurality of water level sensor 20 is a high-quality brine to maintain the standard concentration, characterized in that the water supply is automatically stopped by measuring the level of water level is set differently, respectively Manufacturing equipment.

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