KR20190126486A - Drawing unit and coating test apparatus having thereof - Google Patents

Abstract

According to an embodiment of the present invention, a drawing unit includes: a base part in which a specimen with a coating layer formed on the surface is placed; a folding part hinged with the base part to be overlapped with the specimen, and including a linear hole; and a liner part placed on the folding part overlapped with the specimen, and including a cutting pin cutting the coating layer by going through the linear hole. The folding part includes: a first folding plate hinged with the base part to be overlapped with the specimen, and including a plurality of first linear holes formed in one direction; and a second folding plate hinged with the base part to be overlapped with the specimen, and including a plurality of second linear holes intersecting with the first linear holes of the first folding plate. Moreover, according to another embodiment of the present invention, a coating adhesion testing device includes: the drawing unit; and a separation measurement unit placed near the drawing unit, and attaching adhesive tape to the coating layer with a cutting line formed by the drawing unit and then separating the tape. Therefore, the present invention is capable of increasing working efficiency by reducing time and processes for a coating adhesion test.

Description

Drawing unit and coating adhesion experiment apparatus including the same

The present invention relates to a drawing unit and a paint adhesion experiment apparatus including the same.

Various experiments are carried out through the electrodeposition coating of the material surface, and one of the test methods is the measurement of coating adhesion.

This coating adhesion measurement experiment is to draw a plurality of straight lines in the horizontal and vertical directions on the material surface coating layer, and the rectangular portions formed by the intersections of the lines are formed separately, and the coating layers are separated by attaching and detaching this portion using tape. This test measures the elimination of.

The device for drawing a line on the material surface coating layer has a disadvantage that the plate assembled with the pin is repeatedly moved back and forth through the servo motor, but many processes and time are repeatedly performed for a plurality of drawing operations with one pin.

Also, since the line is drawn in the horizontal direction and the vertical direction, the centering work is very difficult at the intersection of the lines.

In particular, the horizontal cross and vertical cross-drawing is a process of drawing a plurality of horizontal lines and vertical lines with pins on the surface of the material, so when the fixing of the material is not perfect, it is formed by a plurality of horizontal lines and vertical lines. There is a limit that the centering operation becomes more difficult when forming a coating layer of a lattice form.

Therefore, it is necessary to study a drawing unit and a paint adhesion test apparatus including the same to solve the above problems.

Korean Application No. 10-2013-0169250

The present invention can draw a plurality of incision line on the coating layer formed on the surface of the specimen, the drawing unit that can stably maintain a constant position of the intersection formed by drawing the incision line in different directions and coating adhesion experiment comprising the same It is an object to provide a device.

The drawing unit according to an embodiment of the present invention is a base portion on which a specimen having a coating layer formed on the surface is seated, is hinged to the base portion and overlapped on the specimen, and a folding portion and a straight hole are formed on the specimen. A liner part seated on an open folding part and provided with a cutting pin penetrating the straight hole to cut the coating layer, wherein the folding part is hinged to the base part and overlapped on the test piece, in one direction A plurality of first straight holes formed in the first folding plate and the base portion are hinged and overlapped on the specimen, and a plurality of second straight holes in a direction crossing the first straight holes formed in the first folding plate. It may include a formed second folding plate.

Here, the second folding plate of the drawing unit according to an embodiment of the present invention, characterized in that the first folding plate is hinged to the other end of the base portion facing one end of the base portion hinged. have.

In addition, the first folding plate or the second folding plate of the drawing unit according to an embodiment of the present invention may be provided with a permanent magnet attached to the base portion formed of a ferromagnetic material.

And, the base portion of the drawing unit according to an embodiment of the present invention, at least deeper than the thickness of the specimen is formed a seating groove for seating the specimen, characterized in that the seating groove is provided with a plurality of side by side Can be.

Here, the liner portion of the drawing unit according to an embodiment of the present invention, a plurality of the support blocks are arranged at a position corresponding to the one end of the cutting pin is inserted, a plurality of the mounting groove, a plurality of The support block may include a connection box accommodated therein and a pressing spring disposed between the inner wall surface of the connection box and the support block to provide an elastic force for pressing the support block to the outside.

In addition, the connection box of the drawing unit according to an embodiment of the present invention is provided with a guide tab extending inwardly from one open surface, it may be characterized in that the flange portion of the support block protruding outwardly is caught. .

Alternatively, the liner portion of the drawing unit according to an embodiment of the present invention is coupled to the support block and the support block on which one end of the cutting pin is inserted, and the depth at which the other end of the cutting pin is inserted into the coating layer. To adjust, it may include a weight member for applying its own weight to the support block seated on the upper surface of the folding portion.

Alternatively, the liner portion of the drawing unit according to an embodiment of the present invention is coupled to the support block and the support block at which one end of the cutting pin is inserted and formed, and forms the magnetic attraction force with the folding portion or the specimen formed of a ferromagnetic material. It may include an electromagnet member for adjusting the depth that the other end of the cutting pin is inserted into the coating layer.

Paint adhesion test apparatus according to another embodiment of the present invention is disposed adjacent to the drawing unit and the drawing unit, and includes a dropping measuring unit for detaching the adhesive tape to the coating layer formed in the cut line formed by the drawing unit in close contact. can do.

The drawing unit of the present invention and the paint adhesion test apparatus including the same can draw a plurality of incisions on the coating layer formed on the surface of the specimen, and stably maintain the position of the intersection formed by drawing incisions in different directions. There is an advantage to this.

This shortens the time and process during the coating adhesion test and reduces the cost, thereby improving the work efficiency.

In addition, in one aspect, the drawing unit of the present invention and the paint adhesion test apparatus including the same can adjust the depth or pressing force to be inserted into the paint layer to draw a cut line in the paint layer, there is an advantage to enable a fine paint adhesion test. .

However, various and advantageous advantages and effects of the present invention are not limited to the above description, and will be more readily understood in the course of describing specific embodiments of the present invention.

1 is a perspective view showing a drawing unit of the present invention.
FIG. 2 is a perspective view illustrating a state in which a second folding plate is overlapped with a base part in FIG. 1.
3 is a plan view showing a drawing unit of the present invention.
4 is a plan view illustrating a state in which the first folding plate is overlapped with the base part in FIG. 3.
FIG. 5 is a plan view illustrating a state in which a second folding plate is overlapped with a base part in FIG. 3.
6 is a perspective view showing an embodiment in which the liner unit includes a connection box in the drawing unit of the present invention.
7 is a perspective view showing an embodiment in which the liner portion includes a weight member in the drawing unit of the present invention.
8 is a perspective view showing an embodiment in which the liner portion includes an electromagnet member in the drawing unit of the present invention.
9 is a side view showing the paint adhesion test apparatus of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. Shape and size of the elements in the drawings may be exaggerated for more clear description.

Also, in the present specification, the singular forms "a", "an" and "the" are intended to include the plural expressions unless the context clearly dictates otherwise. Like reference numerals refer to the same or corresponding elements throughout the specification. I shall do it.

The present invention relates to a drawing unit (1) and the paint adhesion test apparatus including the same, it is possible to draw a plurality of incisions on the coating layer formed on the surface of the specimen (S), is formed by drawing incision in different directions The position of the intersection point can be stably maintained, and thus, it is possible to shorten the time and process during the paint adhesion test and to reduce the cost, thereby improving the work efficiency.

Specifically, referring to the drawings, FIG. 1 is a perspective view showing a drawing unit 1 of the present invention, and FIG. 2 shows a state in which the second folding plate 22 is superimposed on the base portion 10 in FIG. 1. Perspective view.

3 is a plan view showing a drawing unit 1 of the present invention, FIG. 4 is a plan view showing a state where the first folding plate 21 is superimposed on the base portion 10 in FIG. 3, and FIG. 5. 3 is a plan view illustrating a state in which the second folding plate 22 is superposed on the base portion 10.

Referring to the drawings, the drawing unit 1 according to an embodiment of the present invention is hinged to the base portion 10, the base portion 10 is seated on the specimen (S) having a coating layer formed on the surface is Nested on the test piece (S), and folded on the folding portion 20 and the folding portion 20 is formed on the test piece (S) is formed, the straight hole 23 is penetrated through the straight hole (23) And a liner portion 30 having a cutting pin 31 for cutting the paint layer, wherein the folding portion 20 is hinged to the base portion 10 to be stacked on the specimen S. , Hinged to the first folding plate 21 and the base portion 10 having a plurality of first straight holes 23a formed in one direction, and overlapping the specimen S, and the first folding plate 21. The second folding plate 22 may include a plurality of second straight holes 23b formed in a direction intersecting with the first straight holes 23a formed in the cross section.

In this way, in addition to guiding the folding portion 20 to form a straight hole 23 to draw an incision in the coating layer, the first straight line of the first folding plate 21 of the folding portion 20 By forming the hole 23a and the second straight hole 23b of the second folding plate 22 in a direction crossing each other, an intersection point of the incision line is formed when the incision line is formed by the liner part 30. .

This intersection point is induced to be formed at a predetermined position because the first folding plate 21 and the second folding plate 22 hinged to the base 10 are always superimposed on the base 10. The centering operation can be facilitated at the time of forming the lattice-shaped paint layer by the cut line. As a result, the coating layer may be cut into a certain lattice in the paint adhesion test, thereby improving the test reliability and increasing the test efficiency.

Here, the base portion 10 is the specimen (S) having a coating layer is seated, the folding portion 20 is superimposed to support the specimen (S) when forming the incision line by the liner portion 30 It will play a role.

That is, the liner portion 30 forms a cut line in the coating layer by a cutting pin 31 inserted into the straight hole 23 formed in the folding portion 20, wherein the base portion 10 is formed. The specimen (S) is seated on and supported, so that no defect occurs when the incision is formed.

Here, the base portion 10 is the seating groove 11 is the specimen (S) so that the folding portion 20 is uniformly in contact with the specimen (S) when the folding portion 20 is stacked. It is formed deeper than its thickness.

In addition, a plurality of seating grooves 11 may be formed in the base part 10 so that a plurality of specimens S may be seated thereon, and may be provided side by side.

That is, the base portion 10 of the drawing unit 1 according to an embodiment of the present invention is formed at least deeper than the thickness of the specimen (S), the seating groove (11) on which the specimen (S) is seated Is formed, it may be characterized in that the seating groove 11 is provided side by side in plurality.

The foldable portion 20 serves to guide the formation of an incision line in the coating layer, and for this purpose, the foldable portion 20 is superimposed onto the base portion 10 on which the specimen S is seated. It is provided with a fork, a straight hole 23 for guiding the formation of the incision line may be formed.

In addition, the straight hole 23 is provided with a corresponding number of the number of cutting pins 31 provided in the liner portion 30, and a plurality of the plurality of openings at intervals corresponding to the intervals of the plurality of cutting pins 31. Can be formed.

Specifically, the folding part 20 may include a first folding plate 21 and a second folding plate 22, and a first straight hole 23a is formed in the first folding plate 21. A second straight hole 23b is formed in the second folding plate 22, and the first straight hole 23a and the second straight hole 23b are directions in which cut lines are crossed in a direction crossing each other. Is formed. For example, when the first straight hole 23a is formed in the first folding plate 21 in the lateral direction, the second straight hole 23b may be formed in the second folding plate 22 in the longitudinal direction. .

In addition, the first folding plate 21 and the second folding plate 22 are hinged to the base part 10, so that the first folding plate 21 and the second folding plate 22 are overlapped on the upper surface of the base part 10.

For example, when the first folding plate 21 is hinged to one side of the base part 10, the second folding plate 22 faces the base in a direction facing one side of the base part 10. It is hinged to the other side of the portion 10.

That is, the second folding plate 22 of the drawing unit 1 according to an embodiment of the present invention faces one end of the base portion 10 to which the first folding plate 21 is hinged. It may be characterized in that the hinge is coupled to the other end of the base portion (10).

In addition, when the folding part 20 is disposed on the base part 10, the permanent magnet 24 may be provided to be stably fixed to the base part 10.

In addition, the first folding plate 21 or the second folding plate 22 of the drawing unit 1 according to an embodiment of the present invention is a permanent magnet (attached to the base portion 10 formed of a ferromagnetic material ( 24) may be provided.

Thereby, the folding portion in the operation of drawing an incision line to the liner portion 30 after the folding portion 20 is disposed on the specimen S seated in the seating groove 11 of the base portion 10. It is possible to prevent the problem that the position 20 is moved.

6 is a perspective view showing an embodiment in which the liner part 30 includes a connection box 33 in the drawing unit 1 of the present invention. Referring to the drawings, the drawing unit according to an embodiment of the present invention is shown. The liner part 30 of (1) includes a support block 32 in which one end of the cutting pin 31 is inserted and supported, and a plurality of the support blocks 32 at positions corresponding to the seating grooves 11. ) Is arranged between the connection box 33 and the inner wall surface of the connection box 33 and the support block 32 in which a plurality of the support blocks 32 are accommodated. It may include a pressing spring 34 to provide an elastic force for pressing the outside.

As such, the liner part 30 includes a plurality of support blocks 32 having the cutting pins 31 connected to each other by one connection box 33, thereby providing a cutting line on the plurality of specimens S. It can be burned, which shortens the experiment time.

In other words, a plurality of seating grooves 11 are formed in the base part 10, and a straight hole 23 is formed in a position corresponding to the seating groove 11 in the folding part 20. A plurality of support blocks 32 are disposed in the straight holes 23 formed at positions corresponding to the seating recesses 11, respectively. Accordingly, a plurality of specimens S respectively seated in the plurality of seating grooves 11 may be formed to form an incision line through a single line drawing operation.

For example, FIG. 6 illustrates that each specimen S is seated in three seating recesses 11, and a folding portion 20 is superimposed on the specimens S, and three support blocks 32 are disposed on the upper surface thereof. The connection box 33 may be configured to connect the three support blocks 32 so as to.

In addition, a pressure spring 34 is provided inside the connection box 33 to form a constant pressing force for cutting the cut line on the plurality of test pieces S, thereby cutting the cut line for the plurality of test pieces S. It is possible to derive the error from the error.

The connection box 33 has a plurality of support blocks 32, wherein the connection box 33 guides the position of the support block 32 to adjust the position of the support block 32. 33a can be formed.

That is, the connection box 33 of the drawing unit 1 according to an embodiment of the present invention is provided with a guide tab 33a extending inwardly from one open surface, and the support block 32 protruding outward. It may be characterized in that the flange portion (32a) of the hanging.

According to the guide tab 33a, the support block 32 is movable by sliding the flange portion 32a is seated on the guide tab 33a to adjust the position.

7 is a perspective view showing an embodiment in which the liner portion 30 includes the weight member 35 in the drawing unit 1 of the present invention. Referring to the drawings, the drawing unit according to the embodiment of the present invention is shown. The liner portion 30 of (1) is coupled to the support block 32 and the support block 32 on which one end of the cutting pin 31 is inserted and supported, and the other end of the cutting pin 31 is It may include a weight member 35 for applying its own weight to the support block 32 which is seated on the upper surface of the folding portion 20 to adjust the depth inserted into the coating layer.

The weight member 35 serves to press the cutting pin 31 in the direction of the coating layer of the specimen S by gravity, whereby the pressing pin 31 is inserted into the coating layer. Will be added.

At this time, the weight member 35 adjusts the number of insertions to the insertion rod formed on the upper surface of the pin plate for connecting the plurality of cutting pins 31, it is possible to adjust the pressing force pressed by gravity.

8 is a perspective view showing an embodiment in which the liner portion 30 includes an electromagnet member 36 in the drawing unit 1 of the present invention. Referring to the drawings, the drawing unit according to the embodiment of the present invention. The liner portion 30 of (1) is coupled to the support block 32 and the support block 32 on which one end of the cutting pin 31 is inserted and supported, and the folding portion 20 formed of a ferromagnetic material. Alternatively, the electromagnet member 36 may be formed to form a magnetic attraction force with the specimen S to adjust a depth at which the other end of the cutting pin 31 is inserted into the coating layer.

The electromagnet member 36 serves to press the cutting pin 31 in the direction of the coating layer of the specimen S by magnetic attraction, whereby the cutting pin 31 is inserted into the coating layer. The pressing force is added.

At this time, the electromagnet member 36 includes a rod-shaped core and a coil wound around the core provided in the support block 32, and adjusts the magnitude of the current applied to the coil, thereby cutting the cutting pin 31. ), The pressing force for pressing the coating layer is adjusted.

9 is a side view showing the paint adhesion test apparatus of the present invention, referring to the drawing, the paint adhesion test apparatus according to another embodiment of the present invention is adjacent to the drawing unit (1) and the drawing unit (1) It may be disposed so as to, and may include a drop measuring unit (2) for leaving the adhesive tape (2a) in close contact with the paint layer formed by the incision line by the drawing unit (1).

As described above, the coating adhesion test apparatus of the present invention forms a cut line uniformly by the drawing unit 1 to cut the coating layer of the specimen S in a uniform lattice shape, and the dropout measuring unit 2 cuts. It is possible to measure whether the finished coating layer is dropped.

At this time, the drawing unit 1 can draw a plurality of cut lines on the coating layer formed on the surface of the specimen (S), because it is possible to stably maintain the position of the intersection formed by drawing the cut lines in different directions , The paint adhesion test apparatus of the present invention can improve the work efficiency by reducing the time and process during the paint adhesion test and reducing the cost.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and various modifications and variations can be made without departing from the technical spirit of the present invention described in the claims. It will be obvious to one with ordinary knowledge.

1: Drawing unit 2: Dropout measuring unit
10: base portion 11: seating groove
20: folding portion 21: the first folding plate
22: second folding plate 23: straight hole
24: permanent magnet 30: liner
31: Incision Pin 32: Support Block
33: connection box 34: pressure spring
35: weight member 36: electromagnet member

Claims (9)

A base part on which a specimen having a coating layer formed on a surface thereof is seated;
A folding part hinged to the base part and overlapped on the specimen, and having a straight hole; And
A liner portion seated on the folded portion folded onto the specimen and having a cutting pin penetrating the straight hole to cut the coating layer;
Including;
The folding part,
A first folding plate which is hinged to the base and overlaps the specimen and has a plurality of first straight holes formed in one direction; And
A second folding plate hinged to the base and overlapping the specimen, the second folding plate having a plurality of second straight holes formed in a direction crossing the first straight hole formed in the first folding plate;
Drawing unit comprising a. The method of claim 1,
The second folding plate is a drawing unit, characterized in that the first folding plate is hinged to the other end of the base portion facing the one end of the base portion hinged. The method of claim 1,
Drawing unit, characterized in that the first folding plate or the second folding plate is provided with a permanent magnet attached to the base portion formed of a ferromagnetic material. The method of claim 1,
The base unit is formed at least deeper than the thickness of the specimen is formed with a seating groove for seating the specimen, the drawing unit, characterized in that the plurality of seating grooves are provided side by side. The method of claim 4, wherein
The liner unit,
A support block on which one end of the cutting pin is inserted and supported;
A connection box having a plurality of the support blocks accommodated therein such that the plurality of the support blocks are disposed at positions corresponding to the plurality of seating grooves; And
A pressure spring disposed between an inner wall surface of the connection box and the support block to provide an elastic force for pressing the support block to the outside;
Drawing unit comprising a. The method of claim 5,
The connection box is provided with a guide tab extending inwardly from one open surface, the drawing unit, characterized in that the flange portion of the support block protruding outwardly is caught. The method of claim 1,
The liner unit,
A support block on which one end of the cutting pin is inserted and supported; And
A weight member coupled to the support block and configured to apply a weight to the support block seated on an upper surface of the folding portion to adjust a depth at which the other end of the cutting pin is inserted into the coating layer;
Drawing unit comprising a. The method of claim 1,
The liner unit,
A support block on which one end of the cutting pin is inserted and supported; And
An electromagnet member coupled to the support block and forming a magnetic attraction force with the folding portion or the specimen formed of a ferromagnetic material to adjust a depth at which the other end of the cutting pin is inserted into the coating layer;
Drawing unit comprising a. The drawing unit of any one of claims 1 to 8; And
A dropping measurement unit disposed adjacent to the drawing unit and detaching the adhesive tape from the drawing layer in close contact with the coating layer formed by the drawing unit;
Paint adhesion experiment apparatus comprising a.

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