KR20190109994A - Solution storage tank with concentration measuremnt function and the driving method thereof - Google Patents

Abstract

The present invention relates to a solution storage tank with a concentration measurement function and an operation method thereof. A specific gravity measurement unit, a water level measurement unit, and a solution concentration calculation unit which are disposed in the solution storage tank are used to accurately measure and provide concentration of a deicing material aqueous solution and, in particular, a calcium chloride aqueous solution.

Description

Solution storage tank with concentration measure function and the driving method

The present invention relates to a solution storage tank (tank) having a concentration measuring function capable of accurately measuring the concentration of a high concentration solution to be injected and a driving method thereof.

Roads are a national infrastructure that play an important role in improving the national economy and people's quality of life by ensuring the movement of people and cargo. Accordingly, governments in each country are making various efforts to efficiently maintain and maintain roads for the smooth and safe passage of people and cargoes. In particular, since snowfall or freezing in winter causes many road obstacles, governments have taken many countermeasures against such snowfall and freezing. As one of such countermeasures, road snow removal work using snow removal agent is widely used.

A snow removing agent generally includes a snow melting agent and a friction agent. The friction agent mainly uses sand as a material used to increase the friction of the road surface, and a snow melting agent is a material that melts snow by chemical reaction. It is used a lot.

In the past, as a method of spraying a snow melting agent in the past was applied to the road as a solid state, in recent years, in consideration of the speed and efficiency of snow removal work, the snow melting agent is prepared in an aqueous solution or sprayed or melted in a solid state Wetting formulas that are sprayed with snow are widely used. In particular, it is known that the spraying in the aqueous solution state can reduce the amount of scattering on the road compared to the solid spraying method, and at the same time, it can spread the spray on the road surface evenly. It is also known that spraying snow melt in aqueous solution prior to snowfall can prevent road surface freezing in advance.

Therefore, not only a device for preparing a snow melting agent such as calcium chloride (CaCl 2, calcium chloride) in an aqueous solution state is needed, but a device for producing a concentration suitable for snow removing operations is required. The concentration measuring device has a problem that it is not possible to present the correct concentration value for various reasons. And, there was also a problem that can not ensure the quality of the snow removal solution produced thereby.

The present invention has been made to solve the above problems, the solution storage tank having a concentration measuring function having a function of accurately measuring and presenting the concentration of the solution to be produced, stored and supplied, and a driving method thereof To provide.

The present invention also provides a solution storage tank having a concentration measuring function having a self-cleaning function as well as easy maintenance or management of an operator and a driving method thereof.

In order to achieve the above object, the present invention provides a solution storage tank (tank) having a concentration measurement function comprising a; specific gravity measurement unit for measuring the relative specific gravity of the solution to be stored therein.

The specific gravity measuring unit may include a case module extending in the height direction of the solution storage tank; It provides a solution storage tank having a concentration measurement function, characterized in that it comprises a; (floating) module (floating module) provided inside the case module.

In addition, the specific gravity measuring unit provides a solution storage tank having a concentration measurement function, characterized in that it further comprises; a first distance measuring sensor (sensor) provided on the top of the case module.

The floating module may further include a flat section formed on an upper side of the floating module; It provides a solution storage tank having a concentration measurement function, characterized in that it comprises a; weight section that serves to grasp the center of gravity of the floating module.

In addition, the floating module provides a solution storage tank having a concentration measurement function, characterized in that it further comprises; a joint section connecting the flat section and the weight section.

In addition, the joint section provides a solution storage tank having a concentration measurement function, characterized in that the grid line serves to provide a reference for the degree of the floating module is submerged in the solution.

In addition, the horizontal cross-sectional area of the flat section provides a solution storage tank with a concentration measurement function, characterized in that larger than the horizontal cross-sectional area of the weight section.

In addition, the first distance measuring sensor is provided with a concentration measuring function, characterized in that for measuring the distance between the floating module and the first distance measuring sensor using any one or more of the laser (laser), sound waves, light. Provide one solution storage tank.

In addition, the case module provides a solution storage tank having a concentration measurement function, characterized in that a plurality of openings are formed.

In addition, the solution storage tank having a concentration measurement function further comprises; a water level measurement unit installed inside the solution storage tank to measure the level of the solution stored in the solution storage tank.

The solution concentration calculator may further include a solution concentration calculator comprising a distance value between the first distance sensor and the floating module measured by the first distance sensor of the specific gravity measurement unit and a water level value measured by the water level measurement unit. It provides a solution storage tank having a concentration measurement function, characterized in that for calculating the concentration of the solution received.

The solution concentration calculator may calculate the concentration of the solution according to the distance between the floating module and the first distance measuring sensor measured by the first distance measuring sensor of the specific gravity measurement unit for each level measured by the water level measuring unit. The solution storage tank provided with the density | concentration measuring function characterized by referring to the concentration meta table which is table-organized and arrange | positioned is provided.

In addition, the water level measuring unit provides a solution storage tank having a concentration measurement function, characterized in that configured to include at least one level measuring module is installed at a predetermined height interval in the solution storage tank.

In addition, the water level measurement module provides a solution storage tank having a concentration measurement function, it characterized by detecting the presence of a solution by detecting a change in conductivity.

In addition, the water level measurement module provides a solution storage tank having a concentration measurement function, characterized in that for operating in a float level switch (switch) method for detecting the presence of a solution in accordance with the movement (float) of the float (float) .

The water level measurement module may include a pipe installed in a height direction in the solution storage tank; A buoy moving along the pipe and having a magnet; It provides a solution storage tank having a concentration measurement function, characterized in that it comprises a; (lead) switch is opened or shorted in accordance with the movement of the float.

The water level measuring unit may include a second distance measuring sensor, and the second distance measuring sensor may be provided at the same height as the first distance measuring sensor provided at an upper end of the case module of the specific gravity measuring unit. Provide a solution storage tank with a concentration measurement function.

In addition, the second distance measuring sensor provides a solution storage tank having a concentration measuring function, characterized in that any one or more of the laser, sound waves, light.

In addition, the solution storage tank having a concentration measurement function further comprises; a first partition module is installed surrounding the specific gravity measurement unit surrounding the specific gravity measurement unit.

In addition, the solution storage tank provides a solution storage tank having a concentration measurement function further comprises; at least one second partition wall module installed in the solution storage tank.

In addition, the lower end of the second partition wall module provides a solution storage tank having a concentration measurement function, characterized in that spaced apart a predetermined distance to the bottom surface of the solution storage tank.

In addition, the height of the second partition wall module provides a solution storage tank having a concentration measurement function, characterized in that the closer to the solution inlet of the solution storage tank.

In addition, the second partition module provides a solution storage tank having a concentration measurement function, characterized in that arranged in the zigzag (zigzag) with each other in the solution storage tank.

In addition, it provides a solution storage tank having a concentration measurement function, characterized in that it further comprises; a sieve module installed at the solution inlet of the solution storage tank.

In addition, the strainer module provides a solution storage tank having a concentration measurement function, characterized in that provided in the solution storage tank detachable and / or moveable.

In addition, the present invention comprises the steps of measuring the water level value in the solution storage tank through the water level measuring unit; Measuring a distance value between the floating module and the first distance measuring sensor through the specific gravity measuring unit; Comprising a step of calculating the concentration of the solution in the solution storage tank using the water level value and the distance value; provides a method of driving a solution storage tank having a concentration measurement function comprising a.

In addition, the step of calculating the concentration of the solution in the solution storage tank using the water level value and the distance value is performed by referring to the concentration meta table that the concentration according to the distance value for each of the water level values are tabulated and arranged. Provided is a method of driving a solution storage tank having a concentration measurement function.

The specific gravity measuring unit may further include a case module extending in a height direction of the solution storage tank and having a plurality of openings. The floating module may be provided inside the case module, and the first distance measuring sensor may be used. The method provides a method of driving a solution storage tank having a concentration measurement function, characterized in that provided on the top of the case module.

The floating module may further include a flat section formed on an upper side of the floating module; A weight section which serves to grasp the center of gravity of the floating module; It provides a method for driving a solution storage tank having a concentration measurement function, characterized in that it comprises a; a joint section connecting the flat section and the weight section.

In addition, the seam section is marked with a grid line that serves to provide a reference to the degree of the floating module is submerged in the solution, the grid line and the surface of the solution when the concentration of the solution to be stored is 30 percent It provides a method of driving a solution storage tank having a concentration measurement function characterized in that the coincidence.

In addition, the horizontal cross-sectional area of the flat section provides a method of driving a solution storage tank having a concentration measurement function, characterized in that larger than the horizontal cross-sectional area of the weight section.

In addition, the first distance measuring sensor is a method of driving a solution storage tank having a concentration measuring function for measuring the distance between the floating module and the first distance measuring sensor using any one or more methods of laser, sound waves, light. To provide.

In addition, the lower end of the case module provides a method of driving a solution storage tank having a concentration measurement function, characterized in that spaced apart from a predetermined distance from the bottom of the solution storage tank.

In addition, the water level measuring unit provides a method of driving a solution storage tank having a concentration measuring function, characterized in that it comprises at least one level measuring module is installed at a predetermined height interval in the solution storage tank.

In addition, the water level measurement module provides a method of driving a solution storage tank having a concentration measurement function, characterized in that the presence or absence of a solution through a change in conductivity.

In addition, the water level measurement module provides a method of driving a solution storage tank having a concentration measurement function, characterized in that for operating in a float level switch method for detecting the presence of a solution in accordance with the movement of the float.

In addition, the water level measurement module is a pipe installed in the height direction in the solution storage tank; A buoy moving along the pipe and having a magnet; Reed switch is opened or shorted in accordance with the movement of the float; provides a method of driving a solution storage tank having a concentration measurement function comprising a.

In addition, the water level measuring unit is configured to include a second distance measuring sensor, the second distance measuring sensor is provided at the same height as the second distance measuring sensor provided on the upper end of the case module of the specific gravity measuring unit, the second distance The measurement sensor provides a method of driving a solution storage tank having a concentration measurement function, characterized in that any one or more of a laser, sound waves, light.

In addition, a density measurement function is provided around the specific gravity measurement unit, and includes a first partition module that surrounds the specific gravity measurement unit and is installed, and at least one second partition module is installed in the solution storage tank. It provides a method for driving a solution storage tank provided.

In addition, a lower end of the second partition wall module is spaced a predetermined distance from the bottom surface of the solution storage tank, the height of the second partition wall module is higher the closer to the solution inlet of the solution storage tank, the second partition wall The module provides a method of driving a solution storage tank having a concentration measuring function, characterized in that arranged in each other in the solution storage tank.

In addition, the solution inlet of the solution storage tank is provided with a strainer module is installed, the strainer module is a solution storage having a concentration measurement function, characterized in that the detachable and / or moveable to the solution storage tank is provided It provides a method of driving a tank.

In addition, the present invention includes a specific gravity measuring unit for measuring the relative specific gravity of the solution to be stored therein, the specific gravity measuring unit (case) module (module) extending in the height direction of the solution storage tank; A floating module provided inside the case module, wherein the floating module comprises: a flat section formed on an upper side of the floating module; A weight section which serves to grasp the center of gravity of the floating module; And a joint section connecting the flat section and the weight section, wherein the joint section is marked with a grid line which serves to provide a criterion of the degree that the floating module is submerged in a solution. The line provides a solution storage tank with a concentration measuring function, which is coincident with the surface of the solution when the concentration of the solution stored in the solution storage tank is 30 percent.

In addition, the lower end of the case module provides a solution storage tank having a concentration measurement function, characterized in that spaced apart from a predetermined distance from the bottom of the solution storage tank.

The solution inlet of the solution storage tank is formed above the solution storage tank, and the solution outlet of the solution storage tank is formed below the solution storage tank. To provide.

In addition, the present invention comprises the steps of measuring the water level value in the solution storage tank through the water level measuring unit; Measuring a distance value between the floating module and the first distance measuring sensor through the specific gravity measuring unit; Calculating a concentration of a solution in the solution storage tank by using the water level value and the distance value; wherein the solution inlet of the solution storage tank is formed above the solution storage tank, The solution outlet provides a method of driving a solution storage tank having a concentration measuring function, characterized in that formed in the lower side of the solution storage tank.

According to the solution storage tank having a concentration measuring function according to the present invention and a driving method thereof has the following effects.

First, there is an effect that can accurately measure the concentration of the solution to be produced, stored and supplied, especially the snow removal solution. That is, it is possible to accurately measure and present the concentration of the high concentration snow removal solution, it is possible to achieve the effect of supplying a good quality snow removal solution to the user.

Second, since the measurement of the concentration of the stored solution can be performed automatically and its value can be provided and processed computationally, there is an effect that can contribute to the achievement of automation of the snow removal solution aqueous solution manufacturing apparatus.

Third, there is an effect that can produce an aqueous solution of the snow removal agent in a good state that does not contain foreign matter through the removable sieve module installed near the solution inlet.

Fourth, there is an effect that can provide a solution storage tank with good maintenance by performing the automatic cleaning function and defoaming function.

1 is a view showing the appearance of a device for measuring the concentration of a solution using a conventional electrical conductivity.
Figure 2 is a view showing the appearance of a conventional Bome hydrometer capable of measuring the specific gravity of the solution.
Figure 3 is a view showing the appearance of a solution concentration measuring device conventionally designed by the applicant of the present invention.
Figure 4 is a view showing the overall appearance of the solution storage tank with the present inventors concentration measurement function.
FIG. 5 is a view showing the enlarged view of FIG. 4 from AA ′.
Figure 6 is an enlarged view showing the appearance of the specific gravity measuring unit provided in the solution storage tank with the present inventors concentration measurement function.
7 is a view showing the overall appearance of the floating module provided in the specific gravity measurement unit provided in the present invention.
8 is a view showing the overall appearance of the floating module provided in the specific gravity measurement unit provided in the present invention.
FIG. 9 is a view showing the front view of the Figure 4 in the AA 'portion.
FIG. 10 is an enlarged view showing a portion in which the floating module is located in the specific gravity measurement unit provided in the solution storage tank having the present inventors concentration measurement function.
FIG. 11 shows the position of the floating module relative to the surface of the solution when the concentration of the solution coincides with the initially set reference concentration.
12 shows the position of the floating module relative to the surface of the solution when the concentration of the solution is lower than the initially set reference concentration.
FIG. 13 shows the position of the floating module relative to the surface of the solution when the concentration of the solution is higher than the initially set reference concentration.
FIG. 14 is a view once again showing the front view of FIG. 4 from AA ′.
FIG. 15 is a view showing the water level measurement module adopting the float level switch method.
16 is a view briefly showing the operating principle of the float level switch method.
17 is a view showing the water level measuring unit adopting a reed switch method in another way.
FIG. 18 is a view illustrating a water level measuring unit which selects a laser or the like as another method.
19 is a view showing a state of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.
20 is a view showing a front view of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.
21 is a view showing a modified example of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.
22 is a front view showing a modified example of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.
FIG. 23 is a view showing a solution storage tank having a concentration measurement function with a pipe for performing self-cleaning and defoaming function.
24 is a view showing the overall appearance of the snow removal solution manufacturing apparatus equipped with a solution storage tank with the present inventors concentration measurement function.
FIG. 25 is a flowchart showing the driving method of the solution storage tank having the present inventors concentration measurement function.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In addition, in the description of the present invention, the terms "first", "second", and the like are used only for the purpose of distinguishing one component from other components, and are not used to limit any meaning. And the singular forms “a”, “an” and “the” include plural expressions unless the context clearly dictates otherwise, and the terms “comprise” or “having” may include features, numbers, steps, operations, components, parts, or parts described in the specification. It is to be understood that combinations of these are intended to exist, and do not preclude the existence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof in advance.

1 is a view showing the appearance of a device for measuring the concentration of a solution using a conventional electrical conductivity.

As one of the conventional methods for measuring the concentration of a solution, especially salt in salt water, there was a method of measuring the concentration of the solution by using the electrical conductivity flowing through the solution, Figure 1 is an electrical Show the appearance of the salinity measuring instrument (10).

The electric salinity measuring device 10 when the user puts two electrodes provided in the electric salinity measuring device 10 in an aqueous solution of salt water or the like to be measured, the concentration of the corresponding aqueous solution by measuring the resistance value flowing between the two electrodes Inform In other words, if the salt is high, since the amount of ions contained in the aqueous solution increases, the concentration of the aqueous solution is measured using the principle that the electrical resistance is lowered and the electrical conductivity is increased.

However, the method of measuring the concentration in this manner has a small error in the case of a low concentration of aqueous solution, but the snow removing solution used for the snow removing operation usually uses a high concentration of snow removal solution of 25 to 35 percent (%, percent) in the solution. There was a problem that the concentration is not measured accurately because of the excessive amount of ions. That is, the method of measuring the concentration of the aqueous solution using the electrical conductivity could not be a suitable method for measuring the concentration of the snow removal solution of high concentration.

Figure 2 is a view showing the appearance of a conventional Bome hydrometer capable of measuring the specific gravity of the solution.

Baume hydrometer (20) is a type of gauging system that measures mercury or solder in a glass or metal tube, floats them vertically in a liquid, and measures the specific gravity by reading the level of rising as a scale. It is divided into two types for liquid.

In the case of using the Boomer hydrometer 20, it is possible to measure the concentration of the relatively high concentration of the snow removal solution compared to the above-described electric salinity measuring instrument 10, but the Boomer hydrometer 20 should be put in every measurement and manual There was an inconvenience to read the value. In addition, in order to manufacture an automated snow removal solution, the measured concentration should be provided whenever required by the control unit, etc. In the case of the Boomer hydrometer 20, the scale value must be read manually, so it is difficult to achieve automation. there was.

Figure 3 is a view showing the appearance of a solution concentration measuring device conventionally designed by the applicant of the present invention.

Applicant of the present invention has devised a solution concentration measuring device 30 as shown in the figure to solve the problems identified in the above-described electric salinity measuring device 10 or Boomer hydrometer 20.

The solution flowed in the lower part of the solution concentration measuring apparatus 30 and the solution flowed out in the middle part, and the degree of the locking or rising of the burette provided therein varies according to the concentration of the solution. And, the change is measured by the distance measuring sensor provided on the upper end is delivered to the calculation device, the calculation device was characterized in that it provides a calculated concentration value of the solution based on these values.

The conventional solution concentration measuring apparatus 30 developed by the applicant of the present invention measures the concentration of a solution of high concentration relatively accurately, and is excellent in that it can be provided by computerizing the concentration value according to the automated equipment. There was an advantage. However, when the pressure of the solution flowing from the lower side suddenly increases or decreases, the bure also moves together, resulting in an error in measuring the concentration of the solution. In addition, a solution having a high concentration remains inside the solution concentration measuring apparatus 30 due to the concentration difference between the incoming solution, and a solution having a relatively low concentration is discharged first, and as the time used increases, the concentration value of the entire solution is increased. There was also a disadvantage that does not indicate exactly.

Accordingly, the applicant of the present invention has developed the present invention in which the improved matters are reflected so as to accurately time the concentration of the entire solution to be produced and to prevent an error from occurring when calculating the concentration due to the pressure of the solution to be introduced. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a view showing the overall appearance of the solution storage tank with the present inventors concentration measurement function.

Solution storage tank 100 with the present inventors concentration measurement function comprises a filter network module (module) 151, the first partition module 131, the second partition module 132, specific gravity measurement unit 110 Can be. First, the sieve module 151, which is slide-movable and detachably installed on the support frame 152, filters foreign substances contained in the snow removal solution solution introduced through the solution inlet 141. The first partition module 131 and the second partition wall module 132 provided in the solution storage tank 100 having a concentration measurement function are connected to the solution flowing through the solution inlet 141. It is a part that serves to prevent the specific gravity measurement unit 110 is affected by the crest generated by. In addition, the specific gravity measuring unit 110 provides a specific gravity of the solution measured through the floating module 113 provided therein to calculate the concentration of the stored solution. Each configuration and its role will be described in more detail with reference to the accompanying drawings.

FIG. 5 is a view showing the enlarged view of FIG. 4 from the portion A-A '.

The specific gravity measurement unit 110 of the solution storage tank 100 having a concentration measuring function of the inventors is a floating module provided in the case module 111 and the case module 111 extending in the height direction of the solution storage tank. 113, and a first distance measuring sensor 112 provided at an upper end of the case module 111. In addition, the first bulkhead module 131 is provided around the specific gravity measurement unit 110 to prevent the specific gravity measurement unit 110 from being affected by the crest or wave of the solution generated in the solution storage tank. The first barrier rib module 131 may prevent an error that may occur in the process of measuring the concentration of the solution. That is, the floating module 113 provided in the specific gravity measurement unit 410 may be changed in height in the solution due to the wave or wave height, the present invention, the specific gravity measurement unit 110 to the solution inlet 141 In addition to the inside of the solution storage tank of the most distance from the installation, the first bulkhead module 131 is installed around the specific gravity measurement unit 110 so that the specific gravity measurement unit 110 to the element other than the concentration of the solution Can be prevented from being affected.

Figure 6 is an enlarged view showing the appearance of the specific gravity measuring unit provided in the solution storage tank with the present inventors concentration measurement function.

A plurality of openings 111-1 may be formed in the case module 111 of the specific gravity measurement unit 110 used in the present invention so that the solution of the solution storage tank is freely introduced into the case module 111. The shape of the opening 111-1 may be freely selected according to a user's request as long as the movement of the solution is guaranteed and the floating module 113 does not exit to the outside.

7 and 8 are views showing the overall appearance of the floating module provided in the specific gravity measurement unit provided in the present invention.

The floating module 113 provided inside the case module 111 of the specific gravity measurement unit 110 plays an important role of informing the relative specific gravity of the solution stored in the solution storage tank. (section) 113-1 and a weight section 113-3 formed at the lower side, and a joint section 113-2 connecting the flat section 113-1 and the weight section 113-3, Can be configured. The seam section 113-2 is marked with grid lines 113-4, which serve to provide a reference to the extent to which the floating module 113 is submerged in solution, which grid lines 113-4 represent the solution. If the concentration of the solution stored in the storage tank, in particular the aqueous solution of the snow removal agent (calcium chloride) is 30 percent (percent) may be formed at a position coinciding with the surface of the solution. In addition, the horizontal cross-sectional area C1 of the flat section 113-1 of the floating module 113 is larger than the horizontal cross-sectional area C2 of the weight section 113-3, which is centered on the center of gravity of the floating module 113. At the same time, the weight section 113-3 serves as an anchor so that the upper surface of the flat section 113-1 constantly faces the sky.

The solution storage tank 100 having a concentration measuring function of the present inventors can stably measure the concentration of the solution flowing into the solution storage tank by providing the floating module 113 of this type inside the specific gravity measuring unit 410. Effect can be achieved.

FIG. 9 is a view showing the front view of FIG. 4 from the A-A 'portion.

The side of the solution storage tank 100 having a concentration measurement function may be provided with a water level measurement unit 120 that may serve to measure the water level (WL, Water Line) of the solution to be stored, such a water level The measuring unit 120 may include one or more water level measuring modules 121 installed at predetermined predetermined height intervals. For reference, the water level measurement module 121 may be a method of measuring the water level by detecting the presence or absence of a solution by detecting a change in conductivity, but is not limited thereto, such as a float level switch method and the like. Various ways of may be selected and used.

The solution storage tank 100 with the present inventors concentration measurement function is stored by receiving the water level of the solution in the solution storage tank and the distance from the first distance measuring sensor 112 to the floating module 113 through this configuration The concentration of can be calculated, and this process will be described in more detail with reference to the following drawings.

FIG. 10 is an enlarged view showing a portion in which the floating module is located in the specific gravity measurement unit provided in the solution storage tank having the present inventors concentration measurement function.

As the solution flows into the solution storage tank, the water level WL gradually rises, and when the solution rises to the height of any one or more of the one or more level measurement modules 121 constituting the level measurement unit 420, The measurement module 121 transmits a signal indicating that the solution has been detected to the solution concentration calculator (not shown), and the solution concentration calculator detects the current level value and the specific gravity measurement unit recognized through the water level measurement module 121. The process of calculating the concentration of the solution is performed by using the distance value measured by the first distance measuring sensor 112 of 410. For this process, the solution concentration calculator calculates the concentration according to the distance between the first distance measuring sensor 112 and the floating module 113 according to the level of the solution stored in the solution storage tank. You can refer to a table.

Hereinafter, the process of measuring the concentration of the solution stored in the solution storage tank 100 with the present inventors concentration measurement function will be described in more detail with reference to FIGS. 11 to 13.

FIG. 11 shows the position of the floating module relative to the surface of the solution when the concentration of the solution coincides with the initially set reference concentration.

The water level measurement modules 121 constituting the water level measurement unit 420 are installed at a predetermined height interval in the solution storage tank, and each of the water level measurement modules 121 detects the solution. The height value may be preset and stored in advance. In addition, the floating module 113 is a solution, in particular, when the concentration of the aqueous solution of calcium chloride dissolved in water as a snow removing agent is 30 percent, the grid line 113-4 shown in the joint section 113-2 is in contact with the surface of the solution. It may be designed to match. As a result, when the grid line 113-4 of the floating module 113 coincides with the surface of the water as shown in the drawing, it may be determined that the current concentration value of the solution is 30 percent. However, in order to calculate the concentration value that can be processed computer-aided, the present invention uses the first distance measuring sensor 112 to measure the flat section 113- of the first distance measuring sensor 112 and the floating module 113. 1) The current concentration value of the solution can be calculated by using the measured distance between 'X' and 'Y', the distance to the surface of the water. That is, the current concentration value of the solution can be calculated using a table in which concentration values are arranged according to the distance of 'X' for each level according to 'Y' or 'height of the solution storage tank-Y'. Since 113-4) is consistent with the surface of the solution, the solution concentration calculator can calculate and present that the current concentration of the solution is 30 percent.

12 shows the position of the floating module relative to the surface of the solution when the concentration of the solution is lower than the initially set reference concentration.

When the current concentration of the solution stored in the solution storage tank does not reach the initially set reference concentration, the floating module 113 provided in the specific gravity measurement unit 110 is further submerged in the solution, which is the joint of the floating module 113 It can be seen through the grid line 113-4, shown in section 113-2, below the surface of the solution. And, the solution storage tank 100 having a concentration measuring function of the inventors 'measured by the first distance measuring sensor 112 provided with the change of the floating module 113, the upper end of the specific gravity measuring unit 110' This can be confirmed by changing the value of X '. That is, when the value of the 'Y' or 'height of the solution storage tank-Y' is the same, but is confirmed that the distance of the 'X' is longer, the concentration measurement function of the present inventors The solution concentration calculator of the solution storage tank 100 may calculate a value indicating that the concentration of the solution in the solution storage tank is lower than 30 percent, which is the initially set reference concentration. In addition, this process may be performed by referring to the concentration meta table.

FIG. 13 shows the position of the floating module relative to the surface of the solution when the concentration of the solution is higher than the initially set reference concentration.

In contrast to FIG. 12, when the current concentration of the solution stored in the solution storage tank exceeds the initially set reference concentration, the floating module 113 provided in the specific gravity measurement unit 110 rises further, which is also the floating module. It can be seen through the graduation line 113-4, shown in the joint section 113-2 of 113, above the surface of the solution. And, the solution storage tank 100 having a concentration measuring function of the inventors 'measured by the first distance measuring sensor 112 provided with the change of the floating module 113, the upper end of the specific gravity measuring unit 110' This can be confirmed by changing the value of X '. That is, when the value of the 'Y' or 'height of the solution storage tank-Y' is the same, but the distance of 'X' is confirmed through the water level measuring unit 120, the present inventors concentration measurement function The solution concentration calculation unit of the solution storage tank 100 having a may calculate a value indicating that the concentration of the solution in the solution storage tank is higher than the initial set reference concentration of 30 percent, this process is a level measurement unit The concentration according to the distance between the first distance measuring sensor 112 and the floating module 113 for each level measured by the 120 may be made by referring to the concentration meta table that is arranged in a table. For reference, for this purpose, the flat section 113-1 of the floating module 113 reflects a signal such as laser, sound waves, light, etc. output from the first distance measuring sensor 112 without diffuse reflection and thus has a first distance. In order to enable the measurement sensor 112 to accurately measure the distance, the measurement sensor 112 may be formed to have a flat surface.

Solution storage tank 100 with a concentration measurement function according to the present invention can be automatically calculated by the concentration of the solution using the values measured through the specific gravity measuring unit 110 and the water level measuring unit 120 to present , There is an effect that can contribute to the achievement of automation of the snow removal solution aqueous solution manufacturing apparatus.

FIG. 14 is a view showing the front view of FIG. 4 from the A-A 'part once again.

The water level measuring unit 420 provided in the solution storage tank 100 having the concentration measurement function of the inventors may be configured to include one or more level measurement module 121 installed at a predetermined height interval in the solution storage tank. The number of installed water level measuring module 121 may be freely selected according to a user's selection. And, the solution storage tank 100 with the present inventors concentration measurement function is to measure the first distance sensor 112 of the specific gravity measurement unit 110 at the position where each level measurement module 121 detects the presence of a solution. In operation, the distance between the floating module 113 and the first distance measuring sensor 112 may be measured. In the case of the drawing, three solution concentration measurement processes may be performed as the solution is stored in the solution storage tank. . Here, the water level measurement module 121 may operate in a manner of detecting the presence or absence of a solution through the detection of a change in electrical conductivity, but is not limited thereto and may measure the level of the solution stored in the solution storage tank in various ways. It is enough if you can.

FIG. 15 is a view showing the water level measurement module adopting the float level switch method.

As described above, the water level measurement module 121 constituting the water level measurement unit 420 may operate in a conductivity change detection method, or may operate in a float level switch method as shown in FIG. 15. Float level switch method is to measure the water level in the solution storage tank using the change caused by the float (121-1) having buoyancy move as the level of the solution rises or falls. The following is a closer look.

16 is a view briefly showing the operating principle of the float level switch method.

The water level measurement module 121 in which the float level switch method is selected is connected to the float 121-1 and the float 121-1, and includes a rod member 121-2 and a second magnet 121-3 having magnets therein. It may be configured to include a switch 121-4, the operation process is as follows.

The float 121-1 with buoyancy also moves along with the level of the solution stored in the solution storage tank, and the rod member 121-2 connected to the float 121-1 also rotates together. In addition, the rotation of the rod member 121-2 affects the second magnet 121-3 so that the second magnet 121-3 also rotates together, and in the process, the second magnet 121-3 is rotated. ) Will activate the switch (121-4). The operation of the switch 121-4 is sensed by the control unit and the like so that the level of the solution stored in the solution storage tank can be confirmed.

The water level measurement module 121 employing the floating level switch method may provide an advantage of checking the amount of the solution inside the solution storage tank in a simpler manner than the conductivity method. In addition, there is an effect that can provide a more robust durability to the solution storage tank 100 having a concentration measurement function.

17 is a view showing the water level measuring unit adopting a reed switch method in another way.

The water level measuring unit 420 of the solution storage tank 100 having a concentration measuring function of the present inventors may also be adopted by selecting a method using a reed switch, the water level measuring unit ( 420 is provided in the solution storage tank and moves along the pipe 122, which is installed in the height direction, along the pipe 122, and the buoy 123 and the buoy 123 having magnetic properties. It may be configured to include a reed switch 125 that is opened or shorted, and a resistor 124 connected to the reed switch 125.

When the method using the reed switch is selected, the buoy 123 moves together according to the level of the solution provided in the solution storage tank, and the reed switch 125 is opened and closed according to the magnetism provided by the buoy 123. As the resistance value changes, the level measurement unit 420 may calculate the level of the solution through the change in the resistance value. This method has the advantage that the level in the solution storage tank can be more continuously checked than the float level switch or conductivity method.

FIG. 18 is a view illustrating a water level measuring unit which selects a laser or the like as another method.

The solution storage tank 100 with the present inventors concentration measurement function is a second distance that operates on the same principle as the first distance measuring sensor 112 as the water level measurement unit 120 in order to measure the concentration of the solution in more real-time The measurement sensor may be selected and employed, and the second distance measurement sensor may be provided at the same height as the first distance measurement sensor 112. In addition, a floating member may serve as a reflective member under the second distance measuring sensor.

The second distance measuring sensor may measure the level of the solution using any one or more of laser, sound waves, and light, like the first distance measuring sensor 112, and the solution storage tank having a concentration measuring function according to the present invention ( By providing such a second distance measuring sensor 100, it is possible to achieve the effect of calculating and providing a concentration of the solution in real time at any time when the user desires. That is, the solution storage tank 100 having the concentration measurement function having the level measurement unit 120 using a float level switch method or the like triggers a signal for detecting the presence of the solution of the level measurement module 121 provided ( Although the concentration of the solution is measured as a trigger) signal, when the second distance measuring sensor is adopted, the concentration of the solution can be measured and presented at any time desired by the user.

19 is a view showing a state of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.

One or more second partition wall modules 132 may be provided in the solution storage tank 100 having the present inventors concentration measurement function, and the second partition wall modules 132 may be introduced through the solution inlet 141. The specific gravity measurement unit 110 for measuring the relative specific gravity by calming the flow of the solution serves to prevent being affected by digging. To this end, the second bulkhead module 132 may be disposed in a zigzag shape as shown in the drawings, and a solution storage tank may be formed while the solution flowing through the second zigzag second bulkhead module 132 slowly rotates. It is possible to prevent the generation of vortex or turbulence inside the solution storage tank by filling the.

20 is a view showing a front view of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.

The second partition wall module 132 provided in the solution storage tank 100 having the concentration measurement function may also be formed such that the height of the partition wall module closer to the solution inlet 141 increases. That is, as can be seen through the drawings, the height may be higher by 'Z2' of the partition module close to the solution inlet. This is to minimize the influence of the wave generated by the solution flowing through the solution inlet 141, etc. affects the specific gravity measurement unit 110, as described above. In addition, the second partition module 132 may be spaced apart from the bottom surface of the solution storage tank by a predetermined distance 'Z1', through which the cleaning process of the solution storage tank may be facilitated. have. That is, when the manpower is injected to clean the solution storage tank, since the second partition module 132 is spaced apart from the bottom by a predetermined interval there is an advantage that the bottom of the solution storage tank is easy to clean. In addition, when performing the self-cleaning function, it is also a feature that makes it easy to remove foreign matters or residual chlorides.

21 is a view showing a modified example of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.

The second partition wall module 132 provided in the solution storage tank 100 having the concentration measurement function of the present inventors may be modified as shown in FIG. 21. In detail, at least one solution passage part 132-1 may be formed in the modified example of the second partition module 132, and the second partition module 132 having the solution passage part 132-1 may be formed. The solution passage portions 132-1 formed in the silvers may be installed in a zigzag shape so as to be alternately disposed. That is, the solution storage tank 100 may be provided so that the positions of the solution passage parts 132-1 formed in the second partition module 132 are zigzag with each other. Through such a configuration, the solution introduced from the solution inlet 141 may slowly rotate to fill the solution storage tank 100, thereby preventing the specific gravity measurement unit 110 from being affected by digging or the like.

22 is a front view showing a modified example of the second partition module provided in the solution storage tank having the present inventors concentration measurement function.

A modification of the second partition module 132 may also be formed such that the height of the partition module closer to the solution inlet 141 increases. Checking this through the drawings, it can be seen that the bulkhead module close to the solution inlet 141 is higher in height by 'Z2' than the further bulkhead module. This is to minimize the influence of the wave generated by the solution flowing through the solution inlet 141 affects the specific gravity measuring unit 110. In addition, to smoothly clean the inside of the solution storage tank 100, a modification of the second partition module 132 may also be spaced apart from the bottom surface of the solution storage tank 100 by 'Z1'.

FIG. 23 is a view showing a solution storage tank having a concentration measurement function with a pipe for performing self-cleaning and defoaming function.

The solution storage tank 100 having the present inventors concentration measurement function may further include a conduit 160 for performing a self-cleaning and defoaming function on an upper portion of the solution storage tank, and a conduit for performing self-cleaning and defoaming function ( By spraying water or the like into the solution storage tank through the spraying nozzle provided at 160, bubbles generated in the process of cleaning the solution storage tank and / or preparing a snow removal solution may be removed. In this way, the effect of facilitating the maintenance of the solution storage tank can be achieved.

24 is a view showing the overall appearance of the snow removal solution manufacturing apparatus equipped with a solution storage tank with the present inventors concentration measurement function.

As described above, the snow removal agent dissolution manufacturing apparatus can be provided or presented more accurately the concentration of the solution produced by the present invention having a solution storage tank 100 with a concentration measurement function, through which the snow removal solution aqueous solution manufacturing apparatus Automation of can be achieved. Therefore, since it is possible to provide a good quality snow removal solution in the snow removal environment, there is an effect that the efficiency of the snow removal operation is improved.

FIG. 25 is a flowchart showing the driving method of the solution storage tank having the present inventors concentration measurement function.

First, the solution storage tank 100 having a concentration measuring function according to the present invention may perform a process of measuring the level value in the solution storage tank through the water level measuring unit 120 (S23-1), and then The process of measuring the distance value between the floating module 113 and the first distance measuring sensor 112 through the specific gravity measuring unit 110 may be performed (S23-2). Next, a process of calculating the concentration of the solution stored in the solution storage tank by using the level value measured by the water level measuring unit 120 and the distance value measured by the specific gravity measuring unit 110 may be performed. As described above, the process may be performed by referring to a concentration meta table in which concentrations according to distance values for each level are already tabulated and arranged.

As described above, although described with reference to preferred embodiments of the present invention, those skilled in the art will be variously modified without departing from the spirit and scope of the invention described in the claims below. And can be changed.

10: electric salinity meter
20: Bome hydrometer
30: solution concentration measuring device
100: solution storage tank with concentration measurement function
110: specific gravity measuring unit
111: case module
111-1: Opening
112: first distance measuring sensor
113: Floating Module
113-1: Flat Section
113-2: Joint Section
113-3: Addition Section
113-4: Grid lines
120: water level measurement unit
121: water level measurement module
121-1: Float
121-2: Bar member
121-3: the second magnet
121-4: Switch
122: pipe
123: buoy
124: resistance
125: reed switch
131: first partition wall module
132: second bulkhead module
132-1: solution passage section
141: solution inlet
151: sieve module
152: support frame
160: Pipe line for performing self cleaning and bubble removal

Claims (4)

Includes therein; specific gravity measurement unit for measuring the relative specific gravity of the solution to be stored,
The specific gravity measuring unit
A case module extending in the height direction of the solution storage tank;
And a floating module provided inside the case module.
The floating module
A flat section formed on an upper side of the floating module;
A weight section which serves to grasp the center of gravity of the floating module;
And a joint section connecting the flat section and the weight section;
The seam section is marked with grid lines that serve to provide a criterion for the degree of immersion of the floating module in solution,
And the grid line coincides with the surface of the solution when the concentration of the solution stored in the solution storage tank is 30 percent.
The method of claim 1,
The bottom of the case module
Solution storage tank with a concentration measurement function, characterized in that spaced apart from a predetermined distance from the bottom of the solution storage tank.
The method of claim 1,
The solution inlet of the solution storage tank is formed above the solution storage tank,
Solution storage tank with a concentration measuring function, characterized in that the solution outlet of the solution storage tank is formed below the solution storage tank.
Measuring a level value in the solution storage tank through the level measurement unit;
Measuring a distance value between the floating module and the first distance measuring sensor through the specific gravity measuring unit;
Calculating a concentration of a solution in the solution storage tank using the water level value and the distance value;
The solution inlet of the solution storage tank is formed above the solution storage tank,
The solution outlet of the solution storage tank is a drive method of a solution storage tank having a concentration measuring function, characterized in that formed in the lower side of the solution storage tank.

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