KR101841398B1 - Test sample fixing block for plasma coating layer bond strength test - Google Patents

Abstract

The present invention relates to a sample fixing block for testing adhesion strength of a plasma coating layer, wherein the sample fixing block is capable of properly maintaining two samples having plasma coating layers in a state where two samples are not moved until the two samples are completely attached. The sample fixing block comprises: a rectangular plate-type arrangement plate having a plurality of reverse trapezoidal arrangement grooves formed to be spaced apart from each other at regular intervals on the upper surface thereof, having a plurality of first spiral holes formed on both sides to correspond to each other, and having a sample disposed on the upper surface thereof; a pair of vertical members vertically arranged on both side surfaces of the arrangement plate, having a bent projection formed on the upper end thereof to be bent inward to protect the sample, having a second spiral hole formed on the outer surface thereof so as to communicate with the inner surface thereof in correspondence to the first spiral hole, and having a plurality of third spiral holes formed on the outer surface thereof so as to communicate with the inner surface thereof to the upper portion of the second spiral hole; an assembly bolt screw-coupled to the second spiral hole and the first spiral hole on the outer surfaces of the vertical members to detachably couple the vertical members to both sides of the arrangement plate; a fixing bolt screw-coupled to the third spiral holes to press and detachably fix both sides of the sample placed on the arrangement plate to the inner surfaces of the vertical members; and a plurality of shape maintaining members arranged to be spaced apart from each other between the upper surfaces of the vertical members, having a contact projection closely attached to the outer surfaces of the vertical members at both ends thereof, and maintaining the shapes of the vertical members while blocking the movement of the vertical members in the outer direction.

Description

TECHNICAL FIELD [0001] The present invention relates to a test piece fixing block for plasma coating layer adhesion strength test,

The present invention relates to a specimen clamping block, and more particularly, to a specimen clamping specimen for a plasma coating layer adhesion strength test in which two specimens with plasma coating layers are held in an unmovable state until the two specimens are completely bonded Block.

Generally, in the plasma bonding strength test, two specimens having a plasma coating layer formed thereon are adhered with an adhesive, and then both ends of the specimens are stretched to test the adhesive strength of the plasma coating layer.

When two specimens having the plasma coating layer are adhered with an adhesive, two specimens must be adhered to each other until the adhesive is completely dried. In the past, There is a problem that the test value of the adhesive strength test is inaccurately outputted as the test piece moves easily due to external force.

Open Patent No. 2015-0124545 "Specimen Fixation Device" (Nov.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

It is an object of the present invention to provide a sample block fixing block for a plasma coating layer adhesion strength test in which two specimens having plasma coating layers formed thereon can be appropriately held in an unmovable state until the adhesion of the two specimens is completely completed.

In order to achieve the above object, a "sample block fixing block for testing adhesion strength of a plasma coating layer" according to the present invention is characterized in that a reverse trapezoidal arrangement groove is formed on a top surface at a plurality of spaced apart intervals, A first plate having a first helical hole and a specimen disposed on an upper surface thereof; And a second spiral hole is formed so as to communicate with the first spiral hole from the outer surface to the inner side in correspondence with the first spiral hole A pair of vertical members having a plurality of third helical balls formed on an upper portion of the second helical hole so as to communicate from an outer surface to an inner surface; An assembly bolt screwed to the second helical hole and the first helical hole at the outer surface of the vertical member to decomposably couple the vertical member to both sides of the arrangement plate; A fixing bolt screwed to the third screw hole to pressably fix both sides of the specimen mounted on the arrangement plate to the inner side of the vertical member so as to be resolvable; A plurality of shape retaining members disposed at both ends of the vertical member so as to be spaced apart from each other between the upper surfaces of the vertical members and having a close contact with the outer surface of the vertical member at both ends thereof, Member; .

The fixing bolt of the test piece fixing block for plasma coating layer adhesion strength test according to the present invention includes a pair of helical tubes one end of which is screwed to the end of the fixing bolt to the inside of the vertical member, And a fixing plate attached to an end of the extension bolt and formed in the form of a vertical flat plate.

In addition, the shape retaining member of the " specimen holding block for plasma coating layer adhesion strength test "according to the present invention is cut in two to form an empty space in the center thereof, A right helical hole formed on the inner peripheral surface of the other one of the cut pieces of the shape retaining member corresponding to the left helical hole so as to form a right thread on the inner peripheral surface; And a rotary knob attached between the inner end of the left manual thread and the inner end of the right screw into a hollow space formed by cutting the shape retaining member, .

As described above, the two specimens can be appropriately held in an unmovable state until the two specimens having the plasma coating layer are completely bonded, thereby improving the convenience of the bonding operation, Can be accurately derived.

1 is a schematic exploded perspective view of a specimen-holding block according to the present invention,
2 is a schematic assembled perspective view of a sample clamping block according to the present invention,
3 is a schematic side view of a specimen-holding block according to the present invention,
4 is a schematic side cross-sectional view of a specimen-holding block according to the present invention,
5 is a schematic front cross-sectional view of a specimen-holding block according to the present invention,
FIG. 6 is a schematic front sectional view showing the state of use of the sample block fixing block according to the present invention,
7 is a schematic front cross-sectional view of a specimen holding block according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 to 6 are schematic views of a specimen-holding block according to the present invention. As shown in the drawing, the test piece fixing block for plasma coating layer adhesion strength test according to the present invention comprises a rectangular plate-like arrangement plate 10, a pair of vertical members 20 coupled to both sides of the arrangement plate 10, A plurality of assembly bolts 30 screwed on both sides of the arrangement plate 10 at the outer surface of the vertical member 20 and a plurality of mounting bolts 30 at the outer surface of the vertical member 20, And a shape holding member 50 sandwiched between the upper surface of the vertical member 20 and the upper surface of the vertical member 20.

The disposition plate 10 is formed by arranging a plurality of disposition grooves 11 in an inverted trapezoidal shape on a top surface of the disposition plate 10 so as to be spaced apart from each other at a predetermined interval and forming a plurality of first helical holes 12 on both sides of the disposition grooves 11, S are disposed on the lower surface of the specimen S to support and support the lower surface of the specimen S.

The plurality of test specimens S may be inserted and fixed such that a plurality of test specimens S are adhered at one time, .

The first spiral hole 12 is screwed to the assembly bolt 30 so that the vertical member 20 can be assembled to both sides of the arrangement plate 10.

The vertical members 20 are provided in a pair and are vertically disposed on both sides of the arrangement plate 10 and are bent inward at an upper end to form a bending jaw 21 symmetrically protecting the specimen S, A second helical hole 22 is formed to communicate with the first helical hole 12 from the outer side to the inner side and a plurality of third helical holes 22 are formed in the upper portion of the second helical hole 22, Holes 23 are formed.

The vertical member 20 serves to provide a place where the assembly bolt 30 and the fixing bolt 40 are screwed together while covering both sides of the arrangement plate 10. [ The bending jaw 21 covers and protects the upper end of the specimen S disposed on the upper surface of the arrangement plate 10. [

The second spiral hole 22 may be formed by screwing the assembly bolt 30 into the first spiral hole 12 through the vertical member 20 at the outer side of the vertical member 20 . The second spiral hole 22 serves to provide a place where the fixing bolt 40 is screwed inward from the outer surface of the vertical member 20. [

The assembly bolt 30 is threadedly coupled to the second spiral hole 22 and the first spiral hole 12 on the outer surface of the vertical member 20, And serves to decomposably join the member 20.

The fixing bolt 40 is screwed to the third screw hole 23 so as to press both side surfaces of the specimen S loaded on the arrangement plate 10 to the inner side surface of the vertical member 20, So that it can be fixed.

By pressing both sides of the pair of specimens S by the fixing bolts 40 in this manner, both sides of the specimen S are pressed around the bonding portion B so that the adhesion of the specimen S is more stable .

The shape retaining members 50 are disposed at a plurality of positions spaced apart from each other between the upper surfaces of the vertical members 20 and are formed at both ends of the shape retaining members 50 with close- The contact member 51 is sandwiched between the upper surfaces of the vertical member 20 to block the movement of the vertical member 20 in the outward direction and maintain its shape.

7 is a schematic front cross-sectional view of a specimen-holding block according to another embodiment of the present invention. As shown in the figure, the fixing bolt 40 of the specimen fixing block for plasma coating layer adhesion strength test according to another embodiment of the present invention has one end at the end of the fixing bolt 40 inside the vertical member 20 An elongated bolt 42 screwed to the other end of the helical tube 41 and a vertical flat plate 41 attached to an end of the elongated bolt 42 As shown in FIG.

The spiral tube 41 and the extension bolt 42 extend inward from the end of the fixing bolt 40 so that the specimen can be properly fixed when the specimen is small. So that the specimen can be fixed and pressurized more smoothly.

The shape retaining member 50 of the specimen-holding block has a left helical hole 52 in which a left thread is formed on the inner circumferential surface outwardly from the inner side of one of the two pieces cut and cut so as to form an empty space in the center thereof, A right spiral hole 53 corresponding to the left spiral hole 52 and formed with a right thread on the inner circumferential surface on the inner side of the other one of the cut pieces of the shape holding member 50, A right screw 55 screwed to the right helical hole 53 and a right helical screw 55 screwed to the left helical screw 54 into an empty space formed by cutting the shape retaining member 50, And a rotary knob 56 attached between the inner end of the right screw 55 and the inner end of the right screw 55.

The shape retaining member 50 is separated from the shape retaining member 50 so that the left and right screws 54 and 55 are rotated in accordance with the forward rotation or the reverse rotation of the rotary knob 56, Can simultaneously move to the inside or simultaneously move to the outside so that the interval can be adjusted.

As described above, the vertical member 20 can be fixed more accurately and precisely by adjusting the gap of the shape retaining member 50 through the close-up jaws 51.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Batch plate
11: Batch groove 12: First spiral groove
20: vertical member
21: bending jaw 22: second helical ball
23: Third spiral ball
30: Assembly bolt
40: Fixing bolt
41: helical tube 42: extension bolt
43: Fixing plate
50: Shape retaining member
51: close jaw 52: left spiral ball
53: Right-handed ball 54: Left-handed
55: Right hand screw 56: Rotary knob
S: The Psalms
B:

Claims (3)

A plurality of first spiral holes 12 are formed on opposite sides of the arrangement grooves 11 in a reverse trapezoidal manner at regular intervals on the upper surface and a rectangular plate shape (10);
The bending step 21 is formed symmetrically on both sides of the arrangement plate 10 to protect the specimen. The bending step 21 is symmetrically formed at the upper end of the bending plate 10 to protect the specimen. And a plurality of third spiral holes (23) are formed in the upper portion of the second spiral hole (22) so as to communicate from the outer surface to the inner side of the second spiral hole (22) (20);
The vertical member 20 is screwed to the second spiral hole 22 and the first spiral hole 12 on the outer surface of the vertical member 20 so that the vertical member 20 can be disassembled An assembling bolt 30;
A fixing bolt (40) screwed to the third screw hole (23) to pressurize and fixably fix both side surfaces of the specimen mounted on the arrangement plate (10) to the inner side surface of the vertical member (20);
The vertical members 20 are spaced apart from each other between upper surfaces of the vertical members 20 and are provided at both ends with a close contact 51 which is in close contact with the outer surface of the vertical member 20, A plurality of shape retaining members 50 for retaining the shape while blocking the shape retaining member 50; Including,
The fixing bolt (40)
A pair of spiral pipes 41 one end of which is screwed to the end of the fixing bolt 40 to the inside of the vertical member 20,
An extension bolt 42 screwed to the other end of the helical tube 41,
Further comprising a fixing plate (43) attached to an end of the extension bolt (42) and formed in the form of a vertical flat plate,
The shape retaining member (50)
A left helical hole 52 in which a left thread is formed on the inner peripheral surface on the outer side from the inner side of one of the two cut and cut to form an empty space in the center,
A right spiral hole 53 corresponding to the left spiral hole 52 in which a right screw thread is formed on the inner peripheral surface on the outer side from the inner side of the other one of the cut pieces of the shape holding member 50,
A left hand thread 54 screwed to the left helical hole 52,
A right screw 55 screwed to the right spiral hole 53,
And a rotary knob 56 attached between an inner end of the left manual thread 54 and an inner end of the right screw 55 into an empty space formed by cutting the shape retaining member 50. [ Plasma coating layer specimen holding block for bonding strength test. delete delete

Images