KR101892172B1 - Solution storage tank with concentration measuremnt function and the driving method thereof - Google Patents

Abstract

The present invention relates to a liquid storage tank having a concentration measurement function, and a method for operating the same. The present invention indicates stored snow removal agent solution, and more specifically, the concentration of the calcium chloride aqueous solution through precise measurement by using a specific gravity measurement unit and a water level measurement unit provided in the solution storage tank and a solution concentration calculation unit.

Description

[0001] The present invention relates to a solution storage tank having a concentration measurement function and a method of driving the solution storage tank,

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

Roads are national infrastructure facilities that play an important role in improving the quality of life of the national economy and the people by ensuring the movement of people and cargo. Therefore, governments in each country are making various efforts not only to construct new roads for the smooth and safe passage of people and cargoes, but also to maintain them efficiently. Especially, snowfall or icing occurring in winter cause many road obstacles. Therefore, governments are taking many measures against snowfall and freezing. As one of these countermeasures, road plowing work using snow remover is widely used.

A snow remover is a material that is used to increase the friction force of a road surface. Sand removers are materials that dissolve snow by a chemical reaction. The snow removers are mainly composed of chloride- It is widely used.

As a method of spraying the fusing agent, a method of spraying the fusing agent in the form of an aqueous solution has been widely used in the past. However, in consideration of the rapidity and efficiency of the snow removal work, Wet foods are often used to spray with the formula. Particularly, it is known that the spraying in the aqueous solution state can reduce the scattering amount on the road as compared with the solid spraying method, and can also spray the spray on the road surface relatively uniformly. It is also known that spraying of an aqueous solution of a fluxing agent prior to snowfall can prevent road surface freezing in advance.

Therefore, there is a need for a device capable of producing a fusing agent such as calcium chloride (CaCl 2) in an aqueous solution state, as well as a device capable of being manufactured at a concentration suitable for a snow removal operation. The concentration measuring device has a problem in that it can not provide an accurate concentration value due to various reasons. In addition, there is a problem that the quality of the resulting snow remover solution can not be secured.

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems described above, and it is an object of the present invention to provide a solution storage tank having a concentration measurement function having a function of accurately measuring and presenting the concentration of solution to be produced, .

In addition, it is intended to provide a solution storage tank having a concentration measuring function which is easy to maintain and manage an operator and has a self-cleaning function, and a driving method thereof.

In order to achieve the above object, the present invention provides a solution storage tank having a density measuring function, wherein a specific gravity measuring unit for measuring a relative specific gravity of a solution to be stored is contained therein.

The specific gravity measuring unit may include a case module extending in a height direction of the solution storage tank; And a floating module provided inside the case module. The solution storage tank has a concentration measuring function.

The specific gravity measuring unit may further include a first distance measuring sensor provided at an upper end of the case module. The solution storing tank may have a density measuring function.

The floating module may include a flat section formed on the floating module; And a weight section for performing a function of catching the center of gravity of the floating module. The present invention also provides a solution storage tank having a concentration measurement function.

The floating module may further include a joint section connecting the flat section and the weight section. The solution storage tank may have a concentration measuring function.

The solution storage tank is provided with a concentration measuring function, wherein the connection section is provided with a scale line that serves as a reference for providing a degree of immersion of the floating module in the solution.

In addition, the horizontal sectional area of the flat section is larger than the horizontal sectional area of the weight section.

The first distance measuring sensor may measure a distance between the floating module and the first distance measuring sensor using a laser, an acoustic wave, or light. A solution storage tank is provided.

In addition, the present invention provides a solution storage tank having a density measuring function, wherein a plurality of openings are formed in the case module.

The solution storage tank may further include a water level measuring unit installed inside the solution storage tank for measuring the level of the solution stored in the solution storage tank.

The solution concentration calculation unit may further include a solution concentration calculation unit that calculates a solution concentration based on the distance value between the first distance measurement sensor and the floating module measured by the first distance measurement sensor of the specific gravity measurement unit and the water level value measured by the water level measurement unit And the concentration of the solution is calculated. The solution storage tank is provided with a concentration measuring function.

The calculation of the concentration of the solution concentration calculating unit solution may be performed in such a manner that the concentration according to the distance between the floating module measured by the first distance measuring sensor of the specific gravity measuring unit and the first distance measuring sensor And a concentration meta table which is arranged in a table and arranged in a table. The solution storage tank is provided with a concentration measuring function.

Also, the level measuring unit may include at least one level measuring module installed at a predetermined height interval in the solution storing tank.

Also, the water level measuring module senses the change in conductivity to detect the presence or absence of the solution, and provides a solution storage tank having the concentration measuring function.

Also, the level measuring module operates in a float level switch mode that detects the presence or absence of a solution according to the movement of a float, and provides a solution storage tank having a concentration measuring function .

Also, the level measuring module may include a pipe installed in a height direction in the solution storage tank; A buoy having magnetic properties and moving along the pipe; And a leed switch which is opened or short-circuited according to the movement of the float. The solution storage tank is provided with a concentration measuring function.

The second distance measuring sensor is disposed at the same height as the first distance measuring sensor provided at the upper end of the case module of the specific gravity measuring unit, A solution storage tank having a concentration measuring function is provided.

Also, the second distance measuring sensor may be a laser, an acoustic wave, or a light.

The apparatus may further include a first partition wall module disposed around the specific gravity measuring unit so as to surround the specific gravity measuring unit.

The solution storage tank may further include at least one second partition wall module installed in the solution storage tank.

In addition, the lower end of the second partition wall module is spaced a predetermined distance from the bottom surface of the solution storage tank.

Also, the height of the second partition wall module may be higher nearer to the solution inlet of the solution storage tank, thereby providing a solution storage tank having a concentration measurement function.

Also, the second partition wall modules are zigzaged with each other in the solution reservoir tank.

The present invention further provides a solution storage tank having a concentration measuring function, characterized by further comprising a filter module installed at a solution inlet of the solution storage tank.

The solution storage tank is provided with a concentration measuring function, wherein the filtration module is installed to be removable and / or movable in the solution storage tank.

According to another aspect of the present invention, there is provided a method of measuring a liquid level in a solution storage tank, Measuring a distance value between the floating module and the first distance measuring sensor through a specific gravity measuring unit; And the concentration of the solution in the solution storage tank is calculated using the water level value and the distance value. The present invention also provides a method of driving a solution storage tank having a concentration measurement function.

Also, the step of calculating the concentration of the solution in the solution storage tank using the water level value and the distance value may be performed by referring to the concentration meta table in which the concentrations according to the distance values are tabulated and arranged according to the water level values The present invention also provides a method of driving a solution storage tank having a concentration measuring function.

The specific gravity measuring unit may further include a case module extending in the height direction of the solution storage tank and having a plurality of openings, wherein the floating module is provided inside the case module, Wherein the case module is provided at an upper end of the case module.

In addition, the floating module may include a flat section formed on the upper side of the floating module; A weight section that plays a role of holding the center of gravity of the floating module; And a joint section connecting the flat section and the weight section. The method for driving a solution storage tank according to the present invention includes the steps of:

In addition, the joint section is marked with a scale line serving as a reference for the extent to which the floating module is immersed in the solution, and the scale line indicates the surface of the solution when the concentration of the stored solution is 30% The solution storage tank having a concentration measurement function.

Also, the horizontal cross-sectional area of the flat section is larger than the horizontal cross-sectional area of the weight section. The present invention also provides a method of driving a solution storage tank having a concentration measurement function.

The first distance measuring sensor may be a driving method of a solution storage tank having a concentration measuring function for measuring a distance between the floating module and the first distance measuring sensor by using at least one of laser, .

In addition, the lower end of the case module is spaced a predetermined distance from the bottom of the solution storage tank.

Also, the level measuring unit may include at least one level measuring module installed at a predetermined height interval in the solution storing tank. The present invention also provides a method of driving a solution storage tank having a concentration measuring function.

Further, the present invention provides a method for driving a solution storage tank having a concentration measuring function, wherein the level measuring module senses the presence or absence of a solution through a change in conductivity.

Also, the level measuring module operates as a float level switch method for detecting the presence or absence of a solution according to the movement of the float.

Further, the level measuring module may include a pipe installed in a height direction in the solution storage tank; A buoy having magnetic properties and moving along the pipe; And a reed switch which is opened or short-circuited according to the movement of the float.

The second distance measuring sensor is disposed at the same height as the second distance measuring sensor provided at the upper end of the case module of the specific gravity measuring unit, The measurement sensor may be a laser, an acoustic wave, or a light.

The specific gravity measuring unit may include a first partition wall module surrounding the specific gravity measuring unit and at least one second partition wall module installed in the solution storage tank. And a method of driving the solution storage tank.

The lower part 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 toward the solution inlet of the solution storage tank, And the modules are staggered with respect to each other in the solution storage tank. The present invention also provides a method of driving a solution storage tank having a concentration measurement function.

The solution storage tank may further include a solution supply module installed in the solution inlet, and the solution supply module may be installed in the solution storage tank so as to be removable and / or movable. Provides a method of driving the tank.

The specific gravity measuring unit may include a case module extending in a height direction of the solution storage tank, and a specific gravity measuring unit for measuring a relative gravity of the solution to be stored. And a floating module provided inside the case module, wherein the floating module includes: a flat section formed on an upper side of the floating module; A weight section that plays a role of holding 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 provided with a scale line serving as a reference for providing a degree of immersion of the floating module in the solution, Line corresponds to 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 is spaced a predetermined distance from the bottom of the solution storage tank.

The solution storage tank has a solution inlet port formed at an upper side of the solution storage tank and a solution outlet port of the solution storage tank is formed at a lower side of the solution storage tank. Lt; / RTI >

According to another aspect of the present invention, there is provided a method of measuring a liquid level in a solution storage tank, Measuring a distance value between the floating module and the first distance measuring sensor through a specific gravity measuring unit; Wherein the concentration of the solution in the solution storage tank is calculated using the water level value and the distance value, wherein a solution inlet of the solution storage tank is formed on the upper side of the solution storage tank, And the solution outlet is formed on the lower side of the solution storage tank.

The solution storage tank having the concentration measuring function according to the present invention and the driving method thereof have the following effects.

First, there is an effect of accurately measuring the concentration of a solution to be produced, stored and supplied, in particular, an aqueous solution of snow removers. That is, the concentration of the high-concentration aqueous solution of the snow remover can be accurately measured and presented, and the effect of supplying the snow-removing solution of good quality to the user can be achieved.

Second, the concentration of the stored solution can be automatically measured, and the value can be computed and processed, thereby contributing to the achievement of automation of the apparatus for producing an aqueous solution of snow remover.

Thirdly, it is possible to produce an aqueous solution of snow remover in a good state without foreign matters through a removable sieve module installed near the solution inlet.

Fourth, an automatic cleaning function and a foam removing function are performed to provide a solution storage tank having a good maintenance.

1 is a view showing a device for measuring the concentration of a solution using a conventional electric conductivity.
2 is a view showing a conventional boomer's hydrometer capable of measuring the specific gravity of the solution.
FIG. 3 is a view showing a solution concentration measuring apparatus conventionally designed by the applicant of the present invention. FIG.
FIG. 4 is a view showing an overall view of a solution storage tank having a concentration measuring function according to the present invention.
And FIG. 5 is an enlarged view showing the AA 'portion of FIG. 4.
FIG. 6 is an enlarged view showing a specific gravity measuring unit provided in a solution storage tank having a concentration measuring function according to the present invention.
7 is a view showing the entirety of the floating module provided inside the specific gravity measuring unit provided in the present invention.
FIG. 8 is a view showing the entirety of the floating module provided inside the specific gravity measuring unit provided in the present invention.
9 is a view showing a front view of the AA 'portion of FIG. 4; FIG.
10 is an enlarged view showing in detail a portion where a floating module is placed in a specific gravity measuring unit provided in a solution storage tank having a concentration measuring function according to the present invention.
FIG. 11 is a view showing the position of the floating module relative to the surface of the solution when the concentration of the solution agrees with the initial reference concentration.
FIG. 12 is a view showing the position of the floating module with respect to the surface of the solution when the concentration of the solution is lower than the initially set reference concentration.
FIG. 13 is a view showing the position of the floating module with respect 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 showing again the front view of the AA 'portion of FIG. 4.
FIG. 15 is a view showing a state of a level measuring module adopting a float level switch method.
FIG. 16 is a view briefly showing the operation principle of the float level switch system.
FIG. 17 is a view showing a state of the level measuring unit employing the reed switch method in another manner.
FIG. 18 is a view showing a state of a level measuring unit which selects a laser or the like in a different manner.
FIG. 19 is a view showing a second partition wall module provided in a solution storage tank having a concentration measuring function according to the present invention.
FIG. 20 is a front view of a second partition wall module provided in a solution storage tank having a concentration measuring function according to the present invention.
FIG. 21 is a view showing a modification of the second partition wall module provided in the solution storage tank having the concentration measuring function according to the present invention.
FIG. 22 is a front view showing a modification of the second partition wall module provided in the solution storage tank having the concentration measuring function according to the present invention.
FIG. 23 is a view showing a solution storage tank having a concentration measuring function provided with a channel for self-cleaning and foaming removal function.
24 is a view showing an overall view of a snow remediation solution producing apparatus equipped with a solution storage tank having a concentration measuring function according to the present invention.
FIG. 25 is a flowchart showing a driving method of a solution storage tank having a concentration measuring function according to the present invention in a flowchart.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and are herein described in detail. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Furthermore, in the description of the present invention, the terms "first "," second ", and the like are used only for the purpose of distinguishing one element from another element, and are not used to limit any meaning. Also, the singular " include " includes plural referents unless the context clearly dictates otherwise, and the terms "comprise ", or" It is to be understood that they are intended to specify the presence of a combination of these and do not preclude the presence or addition of one or more other features, numbers, steps, operations, components, components, or combinations thereof.

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

As one of conventional methods for measuring the concentration of a solution, especially a salt contained in brine, there is a method of measuring the concentration of the solution using the electric conductivity of the solution. And shows the appearance of the salinity meter 10.

When the user places the two electrodes provided in the electric salinity measuring instrument 10 into an aqueous solution of brine or the like to be measured, the user measures the resistance value flowing between the two electrodes, . That is, when the salt is high, the concentration of the aqueous solution is measured by using the principle that the amount of ions contained in the aqueous solution is increased so that the electric resistance is lowered and the electric conductivity is increased.

However, the method of measuring the concentration in such a manner has a small error in the case of a low concentration aqueous solution, but the snow remediation solution used for the snow removal usually uses a snow remover having a high concentration of 25 to 35 percent (%, percent) The amount of ions is excessive and the concentration thereof can not be accurately measured. That is, the method of measuring the concentration of the aqueous solution using the electric conductivity could not be a suitable method for measuring the concentration of the snowing solution at a high concentration.

2 is a view showing a conventional boomer's hydrometer capable of measuring the specific gravity of the solution.

The baume hydrometer (20), a kind of paternity, measures the specific gravity by inserting mercury or lead in a glass or metal tube, floating vertically in the liquid, reading the degree of the rising, and measuring the specific gravity. Liquid, and so on.

When using the boomme hydrometer 20, it is possible to measure the concentration of the aqueous solution of the snow remover at a relatively high concentration as compared with the electric salinity meter 10 described above. However, the boomme hydrometer 20 must be input every time of measurement, There was an inconvenience to read the value with. Further, in order to produce an aqueous solution of an aqueous snow remover, it is necessary to provide the measured concentration every time the control section requests it. In the case of the boehm hydrometer 20, the scale value must be manually read, there was.

FIG. 3 is a view showing a solution concentration measuring apparatus conventionally designed by the applicant of the present invention. FIG.

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

The solution flows in the lower part of the solution concentration measuring device 30 and the solution flows out in the middle part, and the degree of the float or float according to the concentration of the solution changes. The change is measured by a distance measuring sensor provided at the upper end and transmitted to the computing device, and the computing device calculates and provides the concentration value of the solution on the basis of these values.

The conventional solution concentration measuring apparatus 30 developed by the applicant of the present invention is capable of measuring the concentration of the solution at a high concentration relatively accurately and providing the concentration value of the solution in a computerized manner in accordance with the automated equipment, There was an advantage. However, when the pressure of the solution flowing from the lower side suddenly increases or decreases, the bureau also moves together, which causes a disadvantage that an error occurs in the measurement of the concentration of the solution. Due to the difference in the concentration of the introduced solution, a solution having a relatively high concentration remains in the solution concentration measuring device 30, and a solution having a relatively low concentration is discharged first. As the used time increases, It is not possible to accurately indicate the position of the target.

Accordingly, the applicant of the present invention has developed the present invention in which the improvement is reflected so that the error in the calculation of the concentration can be prevented by accurately indicating the concentration of the whole solution to be produced and the pressure of the introduced solution. Hereinafter, the present invention will be described in more detail with reference to the drawings.

FIG. 4 is a view showing an overall view of a solution storage tank having a concentration measuring function according to the present invention.

The solution storage tank 100 having a concentration measuring function according to the present invention includes a filtering module 151, a first partition wall module 131, a second partition wall module 132, and a specific gravity measuring unit 110, . First, a filter module 151, which is slidably mounted on a support frame 152, is configured to filter the foreign substances contained in the aqueous solution of the snow remover introduced through the solution inlet 141 The first partition wall module 131 and the second partition wall module 132 provided in the solution storage tank 100 having the concentration measuring function are connected to the solution introduced through the solution inlet 141 Thereby preventing the specific gravity measuring unit 110 from being influenced by peaks or the like generated by the gravity. The specific gravity measuring unit 110 is a part for calculating the concentration of the solution to be stored by providing a specific gravity of the solution measured through the floating module 113 provided inside the gravity measuring unit 110, Will be described in more detail with reference to the drawings.

FIG. 5 is an enlarged view of FIG. 4A taken along line A-A '. FIG.

The specific gravity measuring unit 110 of the solution storage tank 100 having the concentration measuring function of the present invention includes a case module 111 extending along the height direction of the solution storage tank and a floating module 110 provided inside the case module 111. [ And a first distance measuring sensor 112 provided at the upper end of the case module 111. [ In order to prevent the specific gravity measuring unit 110 from being influenced by the crushing or wave of the solution generated in the solution storage tank, the first partition wall module 131 is provided around the specific gravity measuring unit 110 And it is possible to prevent an error that may occur in the process of measuring the concentration of the solution through the first partition wall module 131. That is, the height of the floating module 113 provided in the specific gravity measuring unit 410 may be changed by wave or wave, etc. In the present invention, the specific gravity measuring unit 110 is connected to the solution inlet 141, The specific gravity measuring unit 110 may be installed in the solution storage tank at a distance from the specific gravity measuring unit 110 and the first partition wall 131 may be installed around the specific gravity measuring unit 110, It can be prevented from being affected.

FIG. 6 is an enlarged view showing a specific gravity measuring unit provided in a solution storage tank having a concentration measuring function according to the present invention.

The case module 111 of the specific gravity measuring unit 110 used in the present invention may have a plurality of openings 111-1 so that the solution of the solution storage tank can be freely flowed into the case module 111. [ The shape of the opening 111-1 can be freely selected according to the demand of the user as long as the movement of the solution is ensured and the floating module 113 does not escape to the outside.

7 and 8 are views showing the entirety of the floating module provided inside the specific gravity measuring unit provided in the present invention.

The floating module 113 provided inside the case module 111 of the specific gravity measuring unit 110 plays an important role in informing the relative specific gravity of the solution stored in the solution storage tank, a weight section 113-3 formed on the lower side and a joint section 113-2 connecting the flat section 113-1 and the weight section 113-3, Lt; / RTI > In the coupling section 113-2 there is shown a scale line 113-4 which serves to provide a measure of the extent to which the floating module 113 is immersed in solution, It may be formed at a position corresponding to the surface of the solution when the concentration of the solution stored in the storage tank, in particular, the aqueous solution of the snow remover (calcium chloride) is 30 percent. The horizontal sectional area C1 of the flat section 113-1 of the floating module 113 is larger than the horizontal sectional area C2 of the weight section 113-3 because the center of gravity of the floating module 113 is centered And the weight section 113-3 serves as an anchor so that the upper surface of the flat section 113-1 is constantly looking in the sky direction.

The solution storage tank 100 having the concentration measuring function of the present invention is provided with the floating module 113 of this type inside the specific gravity measuring unit 410 so that the concentration of the solution flowing into the solution storage tank can be stably measured The effect can be achieved.

FIG. 9 is a view showing a front view of FIG. 4, taken along the line A-A '.

The water level measuring unit 120 may be provided on a side surface of the solution storing tank 100 having a concentration measuring function to measure the level of the stored solution (WL, Water Line) The measuring unit 120 may include at least one level measuring module 121 installed at a predetermined height interval. For reference, the water level measuring module 121 may measure the water level by sensing the presence or absence of the solution by sensing a change in the conductivity, but the present invention is not limited thereto. For example, a float level switch May be selected and used.

The solution storage tank 100 having the concentration measuring function according to the present invention receives the solution level in the solution storage tank and the distance from the first distance measurement sensor 112 to the floating module 113 through the above- And this process will be described in more detail with reference to the drawings.

10 is an enlarged view showing in detail a portion where a floating module is placed in a specific gravity measuring unit provided in a solution storage tank having a concentration measuring function according to the present invention.

As the solution is introduced into the solution storage tank, the solution level WL slowly increases and when the solution is heated to the height of any one of the one or more level measuring modules 121 constituting the level measuring unit 420, The measurement module 121 transmits a signal indicating that the solution has been sensed to a solution concentration calculation unit (not shown). The solution concentration calculation unit calculates a solution concentration based on the current water level value recognized by the water level measurement module 121, The concentration of the solution is calculated using the distance value measured by the first distance measurement sensor 112 of the first distance measuring sensor 410. For this process, the solution concentration calculation unit calculates a concentration meta in which concentration according to the distance between the first distance measurement sensor 112 and the floating module 113 is tabulated and sorted by 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 having the concentration measuring function of the present invention will be described in more detail with reference to FIG. 11 through FIG. 13.

FIG. 11 is a view showing the position of the floating module relative to the surface of the solution when the concentration of the solution agrees with the initial reference concentration.

The water level measuring modules 121 constituting the water level measuring unit 420 are installed at predetermined intervals in the solution storage tank at predetermined intervals. When the respective level measuring modules 121 sense the solution, The height value may be preset and stored in advance. Then, the floating module 113 is arranged so that the scale line 113 - 4 shown in the coupling section 113 - 2, when the concentration of the solution, in particular, the aqueous solution of calcium chloride dissolved in water as 30% May be made to match. As a result, if the scale line 113-4 of the floating module 113 coincides with the water surface, the current concentration value of the solution can be judged to be 30% by eye. However, in order to calculate the concentration value that can be computed, the present invention uses the first distance measuring sensor 112 to measure the distance between the first distance measuring sensor 112 and the flat section 113- 1) between the measured distance 'X' and the distance to the water surface 'Y' can be used to calculate the current concentration value of the solution. That is, the current concentration value of the solution can be calculated by using the table in which the concentration values are arranged according to the distance of 'X' for each water level according to 'Y' or 'height of solution storage tank - Y' 113-4) coincides with the surface of the solution, the solution concentration calculator can calculate and present the current concentration of the solution as 30%.

FIG. 12 is a view showing the position of the floating module with respect 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 is less than the initial reference concentration, the floating module 113 provided in the specific gravity measuring unit 110 is further immersed in the solution, And the graduation line 113-4 displayed in the section 113-2 is under the surface of the solution. The solution storage tank 100 having the concentration measuring function according to the present invention can measure the change of the floating module 113 by using the first distance measuring sensor 112 provided at the upper end of the specific gravity measuring unit 110, Can be confirmed by changing the value of X '. That is, when it is ascertained that the value of 'Y' or 'the height of the solution storage tank - Y' determined through the level measuring unit 120 is the same and the distance of 'X' is longer, The solution concentration calculation section 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 the initial reference concentration of 30 percent. This process may be performed by referring to the concentration meta table.

FIG. 13 is a view showing the position of the floating module with respect to the surface of the solution when the concentration of the solution is higher than the initially set reference concentration.

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 measuring unit 110 floats to the top, Can be confirmed by the fact that the scale line 113-4 displayed on the joint section 113-2 of the liquid crystal panel 113 is on the surface of the solution. The solution storage tank 100 having the concentration measuring function according to the present invention can measure the change of the floating module 113 by using the first distance measuring sensor 112 provided at the upper end of the specific gravity measuring unit 110, Can be confirmed by changing the value of X '. That is, when it is confirmed that the value of 'Y' or 'the height of the solution storage tank - Y' determined through the level measuring unit 120 is the same and the distance of 'X' is shorter, The solution concentration calculation section of the solution storage tank 100 provided with the solution storage tank 100 may calculate a value indicating that the concentration of the solution in the solution storage tank is higher than the initially set reference concentration of 30 percent, A concentration meta table in which the concentration according to the distance between the first distance measurement sensor 112 and the floating module 113 is tabulated and organized according to the level measured by the measurement unit 120 can be referred to. For this purpose, the flat section 113-1 of the floating module 113 reflects signals such as laser, sound, and light output from the first distance measurement sensor 112 without diffuse reflection, The measurement sensor 112 may be formed to have a flat surface so as to accurately measure the distance.

The solution storage tank 100 having the concentration measuring function according to the present invention can automatically calculate and present the concentration of the solution using the measured values through the specific gravity measuring unit 110 and the water level measuring unit 120 Thereby contributing to the achievement of automation of the apparatus for producing aqueous solution of snow remover.

FIG. 14 is a view showing again the front view of FIG. 4, taken along the line A-A '.

The level measuring unit 420 provided in the solution storing tank 100 having the concentration measuring function of the present invention may include at least one level measuring module 121 installed at a predetermined height interval within the solution storing tank And the number of installed level measuring modules 121 can be freely selected according to the user's selection. The solution storage tank 100 having the concentration measuring function according to the present invention is provided with a first distance measuring sensor 112 of the specific gravity measuring unit 110 at a position where each level measuring module 121 senses the presence or absence of the solution It is possible to measure the distance between the floating module 113 and the first distance measuring sensor 112. In the case of the figure, the solution concentration can be measured three times as the solution is stored in the solution storage tank . Here, the water level measuring module 121 may operate in a manner of detecting the presence or absence of the solution through sensing the change in electrical conductivity, but the present invention is not limited thereto, and the water level of the solution stored in the solution storing tank may be measured in various ways If it is possible, it is enough.

FIG. 15 is a view showing a state of a level measuring module adopting a float level switch method.

As described above, the water level measuring module 121 constituting the water level measuring unit 420 may operate by the conductivity change detecting method, but may operate by the float level switch method as shown in FIG. The float level switch method is a method of measuring the water level in the solution storage tank by using the change caused by the movement of the float 121-1 having buoyancy as the level of the solution is increased or decreased. The details are as follows.

FIG. 16 is a view briefly showing the operation principle of the float level switch system.

The float 121-1 is connected to the float 121-1. The float 121-1 is connected to the float 121-1. The float 121-1 is connected to the float 121-1. The float 121-1 is connected to the float 121-1. , And a switch 121-4, and the operation process thereof is as follows.

The float 121-1 having the buoyancy 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. The rotation of the rod member 121-2 affects the second magnet 121-3 so that the second magnet 121-3 rotates together with the second magnet 121-3. Operates the switch 121-4. The operation of the switch 121-4 is sensed by the controller or the like, and the level of the solution stored in the solution storage tank can be confirmed through the controller 121 or the like.

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

FIG. 17 is a view showing a state of the level measuring unit employing the reed switch method in another manner.

The level measuring unit 420 of the solution storage tank 100 having the concentration measuring function according to the present invention can also employ a method using a reed switch. In the case of employing the reed switch method, 420 are provided in the solution storage tank and are connected to each other by a pipe 122 installed in the height direction, a buoy 123 which moves along the pipe 122 and is magnetized, A reed switch 125 that is open or shorted, and a resistor 124 that is connected to the reed switch 125. [

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

FIG. 18 is a view showing a state of a level measuring unit which selects a laser or the like in a different manner.

The solution storage tank 100 having the concentration measuring function according to the present invention is a water level measuring unit 120 for measuring the concentration of the solution in a more real time and a second distance And the second distance measuring sensor may be provided at the same height as the first distance measuring sensor 112. In this case, In addition, a floating member may be further provided below the second distance measuring sensor to serve as a reflecting member.

The second distance measuring sensor may measure the level of the solution by using one or more of laser, sound, and light, such as the first distance measuring sensor 112, and may be a solution storage tank 100 can provide the effect of calculating and providing the concentration of the solution in real time whenever the user desires by having such a second distance measuring sensor. That is, the solution storage tank 100 having the concentration measuring function including the water level measuring unit 120 using the float level switch method, etc., triggers a signal that detects the presence of the solution of the water level measuring module 121 trigger signal to measure the concentration of the solution. However, when the second distance measuring sensor is employed, the concentration of the solution can be measured and presented at any time desired by the user.

FIG. 19 is a view showing a second partition wall module provided in a solution storage tank having a concentration measuring function according to the present invention.

One or more second barrier rib modules 132 may be provided in the solution storage tank 100 having the concentration measuring function according to the present invention. The second barrier rib modules 132 may be provided through the solution inlet 141 The flow of the solution is made smooth so as to prevent the specific gravity measuring unit 110, which measures the relative specific gravity, from being affected by peaks or the like. For this, the second barrier rib modules 132 may be arranged in a staggered arrangement as shown in the figure, and the solution introduced through the second diaphragm module 132 arranged in a zigzag pattern may slowly flow, So that vortex or turbulence can be prevented from occurring in the solution storage tank.

FIG. 20 is a front view of a second partition wall module provided in a solution storage tank having a concentration measuring function according to the present invention.

The second partition wall module 132 provided in the solution storage tank 100 having the concentration measuring function may be formed such that the height of the partition wall module closer to the solution inlet port 141 is increased. That is, as can be seen from the figure, the height can be higher by 'Z2' of the bulkhead module closer to the solution inlet. This is to minimize the influence of the wave generated by the solution introduced through the solution inlet 141 on the specific gravity measuring unit 110, as described above. In addition, the second partition wall module 132 may be spaced apart from the bottom surface of the solution storage tank by a predetermined distance 'Z1' so that the solution storage tank can be easily cleaned have. That is, since the second partition wall module 132 is spaced apart from the bottom surface by a certain distance when the attraction force is applied and the solution storage tank is cleaned, the bottom of the solution storage tank can be easily cleaned. In addition, when the self-cleaning function is performed, a foreign substance or residual chloride may be easily removed.

FIG. 21 is a view showing a modification of the second partition wall module provided in the solution storage tank having the concentration measuring function according to the present invention.

The second partition wall module 132 provided in the solution storage tank 100 having the concentration measuring function according to the present invention may be designed as shown in FIG. More specifically, one or more solution passage portions 132-1 may be formed in the modified example of the second partition wall module 132, and the second partition wall module 132 having the solution passage portion 132-1 may be formed. May be provided in a jig shape so that the solution passage portions 132-1 formed in each of them are alternately arranged. That is, the solution storage tank 100 may be provided such that the positions of the solution passage portion 132-1 formed in the second partition wall modules 132 are arranged to be staggered with respect to each other. Through this configuration, the solution introduced from the solution inlet 141 is slowly rotated to fill the solution storage tank 100, thereby preventing the specific gravity measuring unit 110 from being affected by crushing or the like.

FIG. 22 is a front view showing a modification of the second partition wall module provided in the solution storage tank having the concentration measuring function according to the present invention.

The modification of the second barrier module 132 may also be configured such that the height of the barrier module closer to the solution inlet 141 is increased. As a result, it can be seen that the partition wall module near the solution inlet 141 is higher in height than the partition wall module by 'Z2'. This is to minimize the influence of the water or the like caused by the solution introduced through the solution inlet 141 on the specific gravity measuring unit 110. Also, in order to smoothly clean the interior of the solution storage tank 100, a modification of the second partition wall module 132 may 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 measuring function provided with a channel for self-cleaning and foaming removal function.

The solution storage tank 100 having the concentration measuring function according to the present invention may further include a channel 160 for performing a self-cleaning function and a foam removing function at the upper part of the solution storage tank, 160 may spray water or the like into the solution storage tank to remove bubbles generated during the internal cleaning of the solution storage tank and / or the aqueous solution of the snow remover. This makes it possible to achieve an effect of facilitating the maintenance of the solution storage tank.

24 is a view showing an overall view of a snow remediation solution producing apparatus equipped with a solution storage tank having a concentration measuring function according to the present invention.

As described above, the snow remover dissolving apparatus includes the solution storage tank 100 having the concentration measuring function of the present invention, so that the concentration of the solution produced can be more accurately provided or presented, Can be achieved. Therefore, it is possible to provide the aqueous solution of the snow remover with a good quality in the snow removal work environment, thereby improving the efficiency of the snow removal work.

FIG. 25 is a flowchart showing a driving method of a solution storage tank having a concentration measuring function according to the present invention in a flowchart.

First, a solution storage tank 100 having a concentration measurement function according to the present invention can perform a process of measuring a water level value in a solution storage tank through a water level measurement 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 at step S23-2. Then, a process of calculating the concentration of the solution stored in the solution storage tank by the solution concentration calculation unit is performed using the water level measured by the water level measuring unit 120 and the distance value measured by the specific gravity measuring unit 110 (S23-3). As described above, this process can be performed by referring to the concentration meta table in which the concentration according to the distance value for each water level value is already tabulated and arranged.

Although the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. And changes may be made without departing from the spirit and scope of the invention.

10: Electricity salinity meter
20: Boreometer weight
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 line
120:
121: Level measuring module
121-1: Float
121-2:
121-3: Second magnet
121-4: Switch
122: pipe
123: Boo
124: Resistance
125: Reed switch
131: first partition wall module
132: second bulkhead module
132-1:
141: solution inlet
151: Filter module
152: Support frame
160: Pipe for self-cleaning and foaming removal function

Claims (41)

A specific gravity measuring unit for measuring a relative specific gravity of the solution to be stored;
A level measuring unit for measuring a level of the solution to be stored;
And a solution concentration calculating section,
The specific gravity measuring unit
A case module extending in a height direction of the solution storage tank;
A floating module provided inside the case module;
And a first distance measuring sensor provided at an upper end of the case module,
The solution concentration calculation unit
A distance value between the first distance measurement sensor and the floating module measured by the first distance measurement sensor of the specific gravity measurement unit and a water level value measured by the water level measurement unit,
Calculating the solution concentration The calculation of the concentration of the solution
And a density meter which is arranged in a table based on a distance between the floating module and the first distance measuring sensor measured by the first distance measuring sensor of the specific gravity measuring unit by the water level measured by the water level measuring unit meta < / RTI > table in the solution storage tank.
The method according to claim 1,
The floating module
A flat section formed above the floating module;
And a weight section for performing a function of catching the center of gravity of the floating module.
3. The method of claim 2,
The floating module
And a joint section for connecting the flat section and the weight section to each other.
The method of claim 3,
Wherein the connection section is provided with a scale line indicating a function of providing a criterion of the extent to which the floating module is immersed in the solution.
3. The method of claim 2,
And the horizontal cross-sectional area of the flat section is larger than the horizontal cross-sectional area of the weight section.
The method according to claim 1,
The first distance measuring sensor
Wherein the distance between the floating module and the first distance measuring sensor is measured using at least one of a laser, an acoustic wave, and a light.
The method according to claim 1,
The case module
And a plurality of openings are formed in the liquid storage tank.
The method according to claim 1,
The level measuring unit
And at least one water level measuring module installed at a predetermined height interval in the solution storage tank.
9. The method of claim 8,
Wherein the level measuring module detects the presence or absence of a solution by detecting a change in conductivity.
9. The method of claim 8,
Wherein the level measuring module operates in a float level switch mode for detecting the presence or absence of a solution according to a movement of a float.
9. The method of claim 8,
The level measuring module
A pipe installed in a height direction of the solution storage tank;
A buoy having magnetic properties and moving along the pipe;
And a leed switch which is opened or short-circuited according to the movement of the buoy.
The method according to claim 1,
The level measuring unit
And a second distance measuring sensor,
Wherein the second distance measuring sensor is provided at the same height as the first distance measuring sensor provided at the upper end of the case module of the specific gravity measuring unit.
13. The method of claim 12,
The second distance measuring sensor
Characterized in that at least one of a laser, an acoustic wave, and a light is used in this solution storage tank.
The method according to claim 1,
And a first diaphragm module surrounding the specific gravity measuring unit to surround the specific gravity measuring unit.
The method according to claim 1,
And one or more second partition wall modules installed in the solution storage tank.
16. The method of claim 15,
And the lower end of the second partition wall module is spaced a predetermined distance from the bottom surface of the solution storage tank.
16. The method of claim 15,
And the height of the second partition wall module is higher as the solution inlet port of the solution storage tank is closer to the solution inlet.
16. The method of claim 15,
The second diaphragm module
Wherein the solution storage tank is disposed in a zigzag manner within the solution storage tank.
The method according to claim 1,
And a filter module installed at a solution inlet of the solution storage tank.
20. The method of claim 19,
The filter module
Wherein the solution storage tank is provided so as to be removable and movable in the solution storage tank.
Measuring a water level value in the solution storage tank through a water level measuring unit;
Measuring a distance value between the floating module and the first distance measuring sensor through a specific gravity measuring unit;
Wherein the concentration of the solution in the solution storage tank is calculated using the water level value and the distance value,
Wherein the concentration of the solution in the solution storage tank is calculated using the water level value and the distance value
Wherein the density measurement table includes a concentration meta table in which concentrations according to the distance values are tabulated and sorted according to the water level values.
22. The method of claim 21,
The specific gravity measuring unit
And a case module extending in a height direction of the solution storage tank and having a plurality of openings,
The floating module is provided inside the case module,
Wherein the first distance measuring sensor is provided at an upper end of the case module.
22. The method of claim 21,
The floating module
A flat section formed on an upper side of the floating module;
A weight section that plays a role of holding the center of gravity of the floating module;
And a joint section for connecting the flat section and the weight section.
24. The method of claim 23,
In the joint section, a scale line serving as a reference for providing a degree of immersion of the floating module in the solution is displayed,
Wherein the scale line coincides with the surface of the solution when the concentration of the stored solution is 30 percent.
24. The method of claim 23,
Wherein the horizontal section of the flat section is larger than the horizontal section of the weight section.
22. The method of claim 21,
The first distance measuring sensor
And a concentration measuring function for measuring a distance between the floating module and the first distance measuring sensor by using at least one of a laser, an acoustic wave, and a light.
23. The method of claim 22,
The lower end of the case module
Wherein the solution storage tank is spaced a predetermined distance from the bottom of the solution storage tank.
22. The method of claim 21,
The level measuring unit
And at least one water level measuring module installed at a predetermined height interval in the solution storage tank.
29. The method of claim 28,
Wherein the level measuring module senses the presence or absence of a solution through a change in conductivity.
29. The method of claim 28,
Wherein the level measuring module operates in a float level switch mode for detecting the presence or absence of a solution according to the movement of the float.
29. The method of claim 28,
The level measuring module
A pipe installed in a height direction in the solution storage tank;
A buoy having magnetic properties and moving along the pipe;
And a reed switch which is opened or short-circuited according to the movement of the buoy.
22. The method of claim 21,
The level measuring unit
And a second distance measuring sensor,
The second distance measuring sensor is provided at the same height as the second distance measuring sensor provided at the upper end of the case module of the specific gravity measuring unit,
The second distance measuring sensor
A method for driving a solution storage tank having a concentration measuring function, wherein at least one of a laser, an acoustic wave, and a light is used.
22. The method of claim 21,
A first diaphragm module surrounding the specific gravity measuring unit is installed at the periphery of the specific gravity measuring unit,
Wherein the solution storage tank has at least one second partition wall module installed therein.
34. The method of claim 33,
The lower end of the second partition wall module is spaced from the bottom surface of the solution storage tank by a predetermined distance,
The height of the second partition wall module is higher toward the solution inlet of the solution storage tank,
And the second partition wall modules are staggered with respect to each other in the solution storage tank.
22. The method of claim 21,
A solution supply module installed in the solution inlet of the solution storage tank,
Wherein the sieve module is provided to be removable and movable in the solution storage tank.
delete delete delete delete delete delete

Images