KR200481209Y1 - Apparatus for measuring flowability of fluid - Google Patents

Abstract

The apparatus for measuring a coating material flow rate according to an embodiment of the present invention includes a storage unit for forming a space in which a coating material is stored, a first injection unit for forming a first coating film in a moving direction using the coating material, And a second injection unit for forming a second coating film in the moving direction, and a first supply unit for spatially connecting the storage unit and the first injection unit, and a second supply unit for spatially And an extension portion including a second supply portion for connecting the first supply portion and the second supply portion.

Description

[0001] Apparatus for Measuring Flowability [0002]

The present invention relates to a paint flow measurement apparatus.

The paint is painted on the object to form a film, which process is called painting. When painting, the speed of coating formation, the consistency of the coating, the drying method, etc. should be selected mainly for smoothness, uniformity and high efficiency.

Also, the surface flowability of the coating material is one of the most important technical characteristics in the coating material. The flowability of the paint is a phenomenon in which the coating film is excessively formed and the coating film is sagged downward from a part of the surface as the coating film flow is uneven.

In measuring the flowability of the coating material, it is possible to determine the thickness of the coating film to be formed at the time of coating by measuring the degree of occurrence of flow phenomenon depending on the thickness of the coating film by forming a coating film having a different thickness using the same coating material .

In the prior art (Korean Patent No. 10-0794573), as a method of measuring the flowability of a coating material, a storage tank for storing the coating material is opened to discharge the coating material to the lower portion. When the coating material is discharged from the lower portion of the storage container, And the time from the detection sensor located at the lower part to the point of time when the paint is sensed is measured to measure the viscosity of the paint.

However, the precedent document only indirectly measures the flowability of the paint by measuring the viscosity of the paint, and when the paint of the same viscosity is used to form the coat of different thickness, the flowability of the paint can not be measured according to the thickness of the coat There is a problem.

Further, the flowability according to the thickness of the coating material can be measured using a coating film flow meter for measuring the flowability of the coating material. The coating film flow meter can scrape the paint while the paint is poured on the test paper to form a coating film of different thickness on the test paper.

However, if a coating film is formed while the coating material is poured on the test paper, the coating material may be filled between the coating films, and the accuracy of measurement of the flowability of the coating film may deteriorate.

Korean Patent No. 10-0794573

The present application aims to provide a coating fluidity measuring apparatus capable of measuring the flowability of a coating material more accurately by forming a coating film of different thickness using a coating material and uniformly forming a thickness of the coating film.

The task of the present application is not limited to the above-mentioned problems, and another task which is not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method of forming a coating film on a substrate, the method comprising: a storage unit forming a space in which a coating material is stored; a first injection unit forming a first coating film in a moving direction using the coating material; And a second supply unit for spatially connecting the storage unit and the first injection unit and a second supply unit for spatially connecting the storage unit and the second injection unit, A coating material flow measurement device including an extension portion including a projection portion can be provided.

According to an aspect of the present invention, there is provided a device for measuring a paint flow rate, comprising: a first opening formed at one side of the first injection portion; a first coating formed by the coating material flowing through the first opening; A second opening is formed on one side of the second opening, and the second coating film can be formed by the coating material flowing through the second opening.

The thickness of the first coating film may be the same as the height of the first opening, and the thickness of the second coating film may be equal to the height of the second opening.

The cross-sectional area of the first supply part parallel to the coating material on which the first coating film and the second coating film are formed may be larger than the cross-sectional area of the second supply part.

A first control valve provided in the first supply unit to adjust the amount of the paint supplied to the first injection unit and a second control valve provided in the second supply unit to adjust the amount of the paint supplied to the second injection unit And a second control valve for controlling the second control valve.

The cover may be inserted into the storing part to form the space in which the painting material is stored together with the inner surface of the storing part, The amount of the paint supplied to the extension portion can be adjusted by moving along the inner surface of the storage portion.

A pressure sensor for measuring a moving speed of the coating unit, a hydraulic cylinder having a piston coupled with the cover, a hydraulic pump for supplying the fluid to the hydraulic cylinder so that the piston can move, And a control unit for controlling the hydraulic pump according to the speed.

The coating film flow measuring apparatus according to an embodiment of the present invention forms a first coating film and a second coating film having different thicknesses by using a first injection part and a second injection part formed at different heights, 2 Since the coating material remains between the coating films, the flowability of the coating material can be accurately measured according to the thickness.

In addition, by uniformly supplying the coating material to the first injection portion and the second injection portion, the thicknesses of the first coating film and the second coating film are uniformly formed, thereby improving the accuracy of the flowability measurement of the coating material.

The effects of the embodiments of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is a side perspective view of a paint flow measurement apparatus according to an embodiment of the present invention.
2 is a front sectional view of a coating fluidity measuring apparatus according to an embodiment of the present invention.
3 is a view showing a modification of the supply part of the apparatus for measuring paint flowability according to an embodiment of the present invention.
4 is a side perspective view of a paint flow measurement apparatus according to another embodiment of the present invention.
5 is a view for explaining a movement of a cover of a coating fluid flowmeter according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the appended drawings illustrate the present invention in order to more readily disclose the contents of the present invention and that the scope of the present invention is not limited to the range of the accompanying drawings, You will know.

In describing the embodiments of the present invention, it is to be noted that components having the same function are denoted by the same names and numerals, but are substantially not identical to components of the conventional device.

Also, the terms used in the present application are used only to describe certain embodiments and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

1 and 2 are views showing an apparatus for measuring a coating material flowability according to an embodiment of the present invention. As shown in FIGS. 1 and 2, the apparatus for measuring paint flow according to an embodiment of the present invention includes a storage unit 100, a coating unit 200, and an extension unit 300.

As the paint flow measuring apparatus according to one embodiment of the present invention moves, the paint 400 may be painted on the paint 510 to form a coating film having a different thickness.

The coating material used in one embodiment of the present invention may be, for example, a test paper used for measuring the flowability of the coating material 400. However, the coating material 510 is not limited to a test paper, and may be an object to be coated with a paint such as an iron plate.

The storage unit 100 may form a space in which the paint 400 is stored.

The paint 400 stored in the storage unit 100 may be supplied to the coating unit 200 via the extension unit 300 and may be coated on the test strip 510 through the coating unit 200.

The coating unit 200 may include a first injection unit 210 and a second injection unit 220. The first injection unit 210 may be moved in a moving direction of the coating unit 200 The second injection unit 220 has a height Z lower than that of the first injection unit 210 and the movement direction X of the coating unit 200 The second coating film 420 can be formed.

That is, the coating unit 200 can form the first coating film 410 and the second coating film 420 having different thicknesses Y on the test strip 510 using the coating material 400.

The extension part 300 may include a first supply part 310 and a second supply part 320. The first supply unit 310 spatially connects the storage unit 100 and the first injection unit 210 and the second supply unit 320 spatially connects the storage unit 100 and the second injection unit 220. [ .

The paint 400 stored in the storage unit 100 is supplied to the first injection unit 210 through the first supply unit 310 and is supplied to the second injection unit 220 through the second supply unit 320 Can be supplied.

As described above, according to one embodiment of the present invention, the coating material flow rate measuring apparatus is provided with the first injection unit 210 and the second injection unit 220 having different heights Z, The coating film 410 and the second coating film 420 can be used to measure the flowability of the coating material 400 according to the thickness Y of the coating film.

In the paint flow measuring apparatus according to one embodiment of the present invention, as the paint station 200 moves, the paint 400 is moved to the paint station (not shown) The first coating film 410 and the second coating film 420 may be formed on the test strip 510. [

For this, a first opening 210a is formed in one side A of the first injection part 210 and a first coating film 410 is formed by a paint 400 flowing through the first opening 210a .

1, the paint 400 stored in the storage unit 100 is supplied to the first injection unit 210 through the first supply unit 310 as the paint flow measurement apparatus of the present invention moves The paint 400 supplied to the first injection unit 210 may be discharged to the test strip 510 through the first opening 210a formed at one side of the first injection unit 210. [

Accordingly, the first coating film 410 may be formed on the test strip 510 in the moving direction X of the apparatus for measuring the coating fluidity of the present invention.

A second opening 220a is formed on one side A of the second injection part 220 and a second opening part 220b is formed by the paint 400 flowing through the second opening part 220a, The second coating film 420 may be formed.

The paint 400 flows out to the test strip 510 through the second opening 220a and is discharged to the test strip 510 through the second coating film 420 in the moving direction X of the paint flow measuring apparatus of the present invention like the first coating film 410, Can be formed.

At this time, the other side of the first injection part 210 and the second injection part 220 may be clogged. This is because the paint 400 flowing out from the other side of the first injection part 210 and the second injection part 220 flows into the test paper 510 and flows between the first paint film 410 and the second paint film 420, It is possible to prevent the first coating film 410 and the second coating film 420 from being joined together. The first coating film 410 and the second coating film 420 are separated from each other by the other side of the first injection part 210 and the second injection part 220 being clogged so that accuracy of the coating film flowability measurement can be improved.

The thickness of the first coating film 410 is equal to the height Z of the first opening 210a and the thickness of the second coating film 420 is equal to the height Z of the second opening 220a .

The thickness Y of the first coating film 410 is determined according to the height Z of the first opening 210a and the height Z of the second coating film 420 is determined according to the height Z of the second opening 220a. The thickness Y can be determined.

The height of the first injection part 210 may be equal to the height Z of the first opening part 210a, and the height of the second injection part 210 may be equal to the height Z of the first opening part 210a. The height Z of the second opening 220 may be equal to the height Z of the second opening 220a.

As described above, the coating fluidity measuring apparatus according to one embodiment of the present invention includes a first coating layer 410 and a second coating layer 410 having different thickness Y through the first injection portion 210 and the second injection portion 220, A coating film 420 may be formed.

The first coating layer 410 and the second coating layer 420 having different thicknesses Y can be formed on the first coating layer 310 and the second coating layer 420, The amount of the paint 400 supplied to the first injection unit 210 may be different from the amount of the paint 400 supplied to the second injection unit 220 through the second supply unit 320.

2, the apparatus for measuring a coating material flow according to an embodiment of the present invention includes a first supply part 310 parallel to a coating material on which a first coating film 410 and a second coating film 420 are formed, Sectional area A1 of the second supply part 320 may be larger than the sectional area A2 of the second supply part 320. [

Sectional area A1 of the first supply part 310 is formed to be larger than the sectional area A2 of the second supply part 320 so that the area where the first injection part 210 and the storage part 100 communicate with each other is larger than the cross- May be larger than the area in which the storage unit (220) and the storage unit (100) communicate with each other.

The amount of the paint 400 supplied to the first injection unit 210 through the first supply unit 310 is lower than the amount of the paint 400 supplied to the second injection unit 220 through the second supply unit 320 Can be more than the amount.

That is, the first coating film 410 having different thicknesses and the coating material 400 for forming the second coating film 420 may be supplied to the first injection unit 210 and the second injection unit 220, respectively.

As described above, the coating material flow measuring apparatus according to an embodiment of the present invention includes a first coating layer 410 and a second coating layer 420 having different thicknesses Y, ) Can be used for flow measurement.

3 is a view showing a modification of the supply part of the apparatus for measuring paint flowability according to an embodiment of the present invention.

As described above, in order to allow more paint to be supplied to the coating unit 200 through the first supply unit 310 'than the second supply unit 320' during the movement of the coating unit 200, A first control valve 520 is provided in the first supply part 310 'and a second control valve 530 is provided in the second supply part 320' in the variation of the paint flowmeter according to the embodiment of the present invention. .

3, the first control valve 520 may be provided in the first supply part 310 'to control the amount of the paint supplied to the first injection part 210, and the second control valve 530 may control the amount of the paint supplied to the first injection part 210, May be provided in the second supply unit 320 'to adjust the amount of the paint supplied to the second injection unit 220.

That is, the amount of the coating material supplied to the coating unit 200 through the first supply unit 310 'and the second supply unit 320' is adjusted by the first control valve 520 and the second control valve 530 .

In the variation of the paint flow measuring apparatus according to the embodiment of the present invention, the sectional area A1 of the first supply part 310 'parallel to the coating material 510 on which the first coating film 410 and the second coating film 420 are formed 'May be the same as the cross-sectional area A2' of the second supply part 320 '.

At this time, the first supply valve 310 'may be opened more than the second supply valve 320' by the first control valve 520 and the second control valve 530.

1 and 3, when the cross-sectional area A1 'of the first supply part 310' is equal to the cross-sectional area A2 'of the second supply part 320', the first supply part 310 ' May be more open than the second supply portion 320 '.

The amount of the paint 400 supplied to the first injection unit 210 is larger than the amount of the paint 400 supplied to the second injection unit 220 and the amounts of the first and second coatings 410 and 420 Can be kept uniform.

The first control valve 520 and the second control valve 530 can control the amount of the paint 400 supplied to the coating unit 200 through the first supply unit 310 'and the second supply unit 320' May include a rotating shaft 540 formed in the moving direction X of the coating unit 200 and a blocking unit 545 rotated around the rotating shaft 540. [

That is, the first control valve 520 and the second control valve 530 are supplied from the extension portion 300 to the coating portion 200 according to the angle at which the blocking portion 545 rotates about the rotation axis 540 The amount of the paint 400 can be adjusted.

For example, when the blocking portion 545 is rotated to a position parallel to the test strip 510, the first supply portion 310 'and the second supply portion 320' are closed and the blocking portion 545 is closed with the test strip 510 The first supply part 310 'and the second supply part 320' can be opened more as the first and second supply parts 320 and 320 'rotate in the vertical direction.

That is, as the blocking portion 545 rotates in the direction perpendicular to the test 510, the amount of the paint 400 supplied from the storage portion 100 to the first injection portion 210 and the second injection portion 220 .

The apparatus for measuring paint flow according to one embodiment of the present invention is configured such that an operator rotates the first control valve 520 and the second control valve 530 to a predetermined position to perform a first injection unit 210 and a second injection The amount of the paint 400 supplied to the part 220 can be adjusted.

As described above, the apparatus for measuring the flow rate of paint according to an embodiment of the present invention is provided with the first and second injection units 210 and 220 through the first and second supply units 310 and 310 'and the second supply units 320 and 320' The first coating film 410 and the second coating film 420 having different thicknesses may be formed by supplying the coating material to the coating film to measure the flowability of the coating material depending on the coating film thickness.

Figures 4 and 5 show a paint flow measurement device in another embodiment of the present invention. The coating part 200 and the extending part 300 of the coating material flowmeter according to another embodiment of the present invention shown in FIG. 4 are made of the coating material according to one embodiment of the present invention described with reference to FIGS. 1 to 3 And therefore the detailed description thereof will be omitted.

The coating fluid flowmeter according to another embodiment of the present invention may include a cover 110 covering an opening of the storage part 100 communicated with the extension part 300.

The cover 110 may be inserted into the storage unit 100 to form a space for storing the paint 400 together with the inner surface of the storage unit 100.

At this time, as the cover 110 moves along the inner surface of the storage part 100, the amount of the paint 400 supplied from the storage part 100 to the extended part 300 can be adjusted.

That is, in the paint flow measurement apparatus according to another embodiment of the present invention, the pressure of the space in which the paint 400 is stored can be varied according to the movement of the cover 110.

For example, when the cover 110 moves close to the extension 300, the space in which the paint 400 is stored is reduced, and thus the pressure for pushing the paint 400 to the extension 300 is increased, The amount of the paint 400 supplied to the inkjet head 200 can be increased.

Conversely, if the cover 110 moves away from the extension 300, the space in which the paint 400 is stored increases, and as the space increases, the pressure to push the paint 400 into the extension 300 decreases The amount of the paint 400 supplied to the painting unit 200 through the extension unit 300 can be reduced.

Meanwhile, the amount of the paint 400 consumed in the painting unit 200 may vary depending on the moving speed of the painting unit 200. For example, if the moving speed of the coating unit 200 increases, the amount of the coating material 400 consumed in the coating unit 200 increases. On the other hand, if the moving speed of the coating unit 200 decreases, The amount of the paint 400 consumed in the coating layer 400 can be reduced.

As the moving speed of the coating unit 200 increases, the cover 110 moves closer to the extended unit 300 to increase the amount of the coating 400 supplied to the coating unit 200, The cover 110 is moved away from the extension 300 to reduce the amount of the paint 400 supplied to the paint 200, (110).

The paint flow measuring apparatus according to another embodiment of the present invention includes a speed sensor 500, a hydraulic cylinder 560, a hydraulic pump 570, and the like in order to move the cover 110 according to the moving speed of the painting unit 200. [ And a control unit 550.

The speed sensor 500 can measure the moving speed of the coating unit 200.

The hydraulic cylinder 560 may be provided with a piston 565 coupled with the cover 110.

The hydraulic pump 570 can supply fluid to the hydraulic cylinder 560 so that the piston 565 can move.

The control unit 550 can control the hydraulic pump 570 according to the moving speed of the coating unit 200 measured from the speed sensor 500.

4 and 5, the hydraulic cylinder 560 may be connected to the hydraulic pump 570 through a tube or pipe, etc., and the hydraulic cylinder 560 may face the hydraulic pump 570, And may be installed on the inner surface of the storage unit 100.

The piston 565 of the hydraulic cylinder 560 is coupled to the cover 110 and the movement of the piston 565 allows the cover 110 to move along the inner surface of the storage portion 100. [

The control unit 550 controls the hydraulic pump 570 according to the moving speed of the coating unit 200 so that the amount of the fluid supplied to the hydraulic cylinder 560 can be adjusted according to the operation of the hydraulic pump 570. Therefore, the pressure inside the hydraulic cylinder 560 is variable, and the length of the piston 565 extending from the hydraulic cylinder 560 can be varied.

The pressure inside the hydraulic cylinder 560 is increased by the control unit 550 and the hydraulic pump 570 and the piston 565 is moved from the hydraulic cylinder 560 And the cover 110 is moved closer to the extension 300 by the piston 565. [ Accordingly, the amount of the paint 400 flowing into the painting unit 200 can be increased.

The pressure inside the hydraulic cylinder 560 is reduced by the control unit 550 and the hydraulic pump 570 and the piston 565 is moved downward by the pressure of the hydraulic cylinder 560 And the cover 110 may be moved away from the extension 300 by the piston 565. [ Accordingly, the amount of the paint 400 flowing into the painting unit 200 can be reduced.

As described above, according to another embodiment of the present invention, the amount of the coating material 400 supplied from the storage part 100 to the coating part 200 according to the moving speed of the coating material flow measuring device of the present invention The accuracy of the paint flowability measurement can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. . Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

100: storage unit 110: cover
200: paint part 210: first injection part
220: second injection portion 210a: first opening
220a: second opening portion 300: extension portion
310, 310 ': first supply part 320, 320': second supply part
400: Paint 410: First coating
420: second coating film 500: speed sensor
510: test strip 520: first control valve
530: Second control valve 540:
545: interrupter 550:
560: Hydraulic cylinder 565: Piston
570: Hydraulic pump X: Moving direction
Y: thickness Z: height
A1, A1 ': sectional area A2 of the first supply part, A2': sectional area of the second supply part
A: One side

Claims (7)

A storage part forming a space in which the paint is stored;
A coating unit including a first injection unit configured to form a first coating film in a moving direction using the paint, and a second injection unit configured to have a height lower than that of the first injection unit and forming a second coating film in the movement direction; And
And an extension part including a first supply part for spatially connecting the storage part and the first injection part and a second supply part for spatially connecting the storage part and the second injection part. The method according to claim 1,
A first opening is formed at one side of the first injection part, the first coating is formed by the paint flowing through the first opening,
Wherein a second opening is formed at one side of the second injection part and the second coating film is formed by the coating material flowing through the second opening part. 3. The method of claim 2,
Wherein the thickness of the first coating layer is the same as the height of the first opening,
Wherein the thickness of the second coating layer is the same as the height of the second opening. The method according to claim 1,
Wherein the cross sectional area of the first supply portion parallel to the coating on which the first coating film and the second coating film are formed is formed to be larger than the cross sectional area of the second supply portion. The method according to claim 1,
A first control valve provided in the first supply unit to adjust an amount of the paint supplied to the first injection unit; And
And a second control valve provided in the second supply unit to adjust an amount of the paint supplied to the second injection unit. The method according to claim 1,
And a cover which covers the opening of the storage portion communicated with the extending portion,
The cover is inserted into the storage part to form the space in which the painting material is stored together with the inner surface of the storage part,
Wherein the cover moves along the inner surface of the storage portion to adjust the amount of the paint supplied to the extension portion. The method according to claim 6,
A speed sensor for measuring a moving speed of the coating unit;
A hydraulic cylinder having a piston engaged with the cover;
A hydraulic pump for supplying a fluid to the hydraulic cylinder so that the piston can move; And
And a control unit for controlling the hydraulic pump according to the moving speed of the coating unit measured from the speed sensor.

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