JPS5811834A - Measuring device for solution concentration - Google Patents

Abstract

PURPOSE:To measure the concentration of a solution efficiency by lifting a test piece out of a solution at a specific speed after jabbing, measuring the mass of the test piece having a stuck solute, inputting said specific speed and said mass to a processor, and referring to the contents of a relation table. CONSTITUTION:When a test piece 17 is jabbed into a tank 10 filled with a solution to apply a solute to the test piece 17, the concentration of the solution is measured. For this purpose, a processor 4 equipped with a mass meter 2, a display part 5, and a storage device 3 is provided. Then, a relation table regarding prescribed concentrations of said solution, liftig speeds after the prescribed test piece 17 is jabbed, and the sticking amount of said solute is set up in the storage device 3. The test piece 17 is jabbed in the solution and lifted at a specific speed to measure the mass of the test piece having the stuck solute through the mass meter 2. The specific speed and mass are inputted to the processor 4 to refer to the contents of said relation table, and the concentration of of the solution is displayed on the display part 5.

Description

Detailed Description of the Invention The present invention relates to a solution concentration measuring device.The present invention relates to a solution concentration measuring device in which a fluorocarbon oil lubricant such as Krytox is melted in P1%.3.A magnetic disk coated with a magnetic thin film has a magnetic To ensure the protection and durability of the thin film layer, a fluorocarbon oil lubricant such as Krytox is applied to the magnetic thin film. This application was performed by jazzing the magnetic disk into a solution of the lubricant at a specific concentration. However, the solution concentration changes successively due to the difference in the evaporation rate between the solvent and lubricant and the decrease in the amount of the solution, so in order to keep the amount of lubricant P1# attached to the magnetic disk constant, it is necessary to control the concentration of the solution or It was necessary to manage the pulling speed.

Conventionally, concentration was controlled by evaporating the solvent from a solution collected in a certain amount at regular intervals and measuring the mass of the remaining lubricant using an analytical balance or gas chromad analysis. However, it had the disadvantage that it took two hours and time. In addition, (a) Method of measuring the collected mass of the solution 1blPH
(e) Method of measuring viscosity; (d)
There is a method that uses reflection and absorption of light, but (a) is impossible because the specific gravity of the solvent and lubricant is less than the former, (b) is impossible because the solution is neutral, and (C) and (dl) are not possible. There are technical difficulties in putting it into practical use.

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus for efficiently measuring the concentration of a solution in less than 2 hours and with the above-mentioned problems in mind.

To achieve the above object, the solution concentration measuring device of the present invention is a device for measuring the concentration of a solution in a device that applies a solute to a medium by jabbing the medium into a bath filled with a solution. A mass meter, a display unit, and a processing device equipped with a storage device are installed, and the predetermined concentration of the solution, the pulling speed after jabbing a predetermined test piece, and the A three-way relationship table with the amount of solute attached is prepared and stored in the storage device, and the test piece is jabbed into the solution and then pulled up at a specific speed to remove the test piece with the solute attached. The method is characterized in that the mass of the solution is measured by the mass meter, the specific speed and the mass are input into the processing device, the relational table is indexed, and the concentration of the solution is displayed on the display section. , with illustrations as explained by Wangso Ikemon et al.

FIG. 1 is an embodiment of the present invention, and is a diagram showing the relationship between the amount of lubricant deposited and the solution concentration, with the pulling speed as a parameter.

In the figure, the horizontal axis is the concentration (q%).

The adhesion amount (Mmg) is plotted on the vertical axis, and the concentration of the two types of solutions (qlI
92).

The pulling speed was set at a constant value t1, and the two test pieces were tested at a solution concentration (q
Measure the amount of lubricant adhered to each sample during immersion in II92) ('+ plot points on the straight line). Similarly, pulling speed 12
．． For 18, the same procedure can be used to plot each t line and the 13 straight line.

The three sets of plot values obtained in the above procedure are stored in the storage device (second
(explained in the figure).

FIG. 2 is a functional block diagram of a concentration measuring device to which the relationship shown in FIG. 1 is applied. In the figure, 1 is a jug device, 2 is a mass meter, a processing device including a 4-digit storage device 3, and 5 is a display section. The storage device f3 stores the plot values shown in FIG. 1 in groups.

Figure 3 shows the processing function boolean of the processing device in Figure 2, 1
- is a locking diagram; In the figure, parameters 1. (for example, t+), specify the set of plot points on the tl line, and calculate the mass (amount of lubricant attached).
When reading , determine the plot point on the ti line.

If the read mass does not match the plotted value, the concentration (q,) is determined by an interpolated value using around 9 plotted points.

FIG. 4 is a perspective elevational view of the device with the jab in FIG. 1, in which 1o is a bathtub, 11 is a solution, 12
is the specimen support part, and 13 is the feed screw.

14 is a motor, 15 is a belt, 16 is a robot handle, 17 is a test piece, and 18 is a hanger for the test piece 17.

When the test piece 17 is attached to the hanger 18 and the motor 14 is rotated, the feed screw 13 is rotated by the belt 15. The hanger 18 moves up and down as the feed screw 13 rotates, and the test piece 17 is immersed in the solution 11.

At a constant pulling speed, the test piece 17 is rotated again by the motor 14.
When the robot handle 16 pulls up the specimen 17
is removed from the hanger 18 and transported to the mass meter 2, and after all the solvent (not shown) has evaporated, the mass meter 2 is removed.
Set to .

Mass meter 2 is 5 of test piece 17! ti is measured, and the mass of the attached lubricant (not shown) is output to the processing device 4. The processing device 4 calculates the concentration based on the procedure shown in FIG. 3 and outputs it to the first display section 5, and the second display section 5 displays the current concentration of the solution.

According to this embodiment, by predetermining the pulling speed of the test piece, it is possible to efficiently determine the solution concentration without requiring much effort and time.

Another embodiment of the present invention utilizes the relationship between the amount of lubricant deposited and the pulling speed of the test piece, with the S degree of the solution as a parameter.

Figure 5 is a diagram showing the relationship between the pulling speed of the test piece and the amount of lubricant deposited at a constant solution concentration.The difference from the first diagram is that the concentration is used as a parameter, and the pulling speed (1
) and attach fl (Mmf) to M@ on the scale. This M-1 straight line is stored in the storage device 3 (FIG. 2) and is used as an index target in the processing device 4 (FIG. 2).

FIG. 6 is a processing procedure diagram when indexing the straight line M and - in FIG. 5. The difference from FIG. 3 is that the final output is the pulling speed, so the display section 5 displays the pulling speed. According to this other embodiment.

At a constant solution concentration, there is a change in the amount of adhesion, which has the effect of quickly determining the rate at which the solution is pulled up on the test piece.

According to the present invention, there is an effect that changes in the concentration of the solution and changes in the pulling speed can be immediately determined.

According to the present invention, the amount of lubricant applied to the magnetic disk can be kept constant at all times by adjusting the solvent or the rotational speed of the motor in response to concentration changes.

[Brief explanation of drawings]

Figure 1 is a diagram of the relationship between concentration and deposition amount, Figure 2 is a functional block diagram, Figure 3 is a processing block diagram, Figure 4 is a perspective elevational view of the device with jab, and Figure 5 is a drawing speed and deposition amount. The relationship diagram, FIG. 6, is a processing block diagram. In the figure, 1 is a device with a jab, 2 is a mass meter, 3 is a storage device, 4 is a processing device, 5-digit display, 11 is a bolt, 16 is a robot handle, and 17 is a test piece. 18 is a hanging tool.

Claims (1)

[Claims] (1) In an apparatus for measuring the concentration of a solution in an apparatus for applying a solute to a medium to be coated by jazzing the medium to be coated in a bath filled with the solution, a mass meter is used. A display unit and a processing device including a storage device are provided. A three-way relationship table of a predetermined concentration of the solution, a pulling speed after jazzing a predetermined test piece, and an amount of the solute attached to the test piece is prepared and stored in the storage device. The test piece was placed in the solution and then pulled up at a specific speed, and the mass of the test piece to which the solute was attached was measured using the mass meter. A solution concentration measuring device characterized by inputting the specific speed and the mass into the processing device, indexing the related tape, and displaying the concentration of the solution on the display section.