KR101819372B1 - corrosion test apparatus - Google Patents

Abstract

The present invention provides a corrosion test apparatus which comprises: a chamber unit in which a plurality of specimens that are a target for a corrosion test are installed; a horizontal rotating dispersion unit provided in the chamber unit, and radially dispersing salt water while rotating by the sprayed salt water; and a vertical rotating dispersion unit secondarily dispersing the salt water that is primarily sprayed by the horizontal rotating dispersion unit while a plurality of dispersion blades installed by crossing the chamber unit rotate.

Description

A corrosion test apparatus

The present invention relates to a corrosion test apparatus capable of uniformly spraying brine with a specimen.

It should be noted that the contents described in this section merely provide background information on the present invention and do not constitute the prior art.

To evaluate the quality of the material surface and to check the suitability of the intended use, corrosion test equipment for salt spraying shall be carried out.

The corrosion test equipment seats the material processed to a certain size through the opening of the cover at a prescribed angle, and the brine manufactured under the condition of maintaining the constant temperature through the airtightness is sprayed by air for 24 hours, Proceed with the test.

In the conventional case, a salt aqueous solution (salt) prepared at the center of the corrosion testing apparatus and manufactured by vertical spraying method using the spray angle control and air injection through the plate installation of the cone model through the formation of a certain space at the upper part of the pipe, Spray on the surface of the material.

Through the air injection and the trapezoidal angle control device, the salt solution which is sprayed vertically in the tester undergoes the corrosion test through the contact of the surface of the flowing material through the interference of the cover. The setting angle of the angle control device and the inside of the sealed tester There is a problem that the uniform distribution can not proceed due to the complex air flow and the uneven fluidity problem.

This causes a reliability problem of the test due to the occurrence of a variation in the amount of spraying by each position in the tester, and there is a problem that a large number of the charged surface corrosion progress speed deviations are seriously incurred in order to ensure the reproducibility of the test.

Due to the insufficient reliability and reproducibility of the test, it is inevitable for the test to repeatedly proceed. As a result, the material processing, test preparation, and test progress are repeated, resulting in additional cost incurred. Due to frequent repeated retests, There is a problem in that many trial and error occur due to difficulty in calculating reliable data as well as an increase in the amount of data.

The present invention is realized by recognizing at least any one of the requirements or problems generated in the conventional corrosion test apparatus.

As one aspect of the present invention, there is provided a corrosion test apparatus which can reliably ensure the reliability of the corrosion test by keeping the rate of corrosion progression constant by uniformly spraying the brine with the specimen.

According to an aspect of the present invention, there is provided a plasma processing apparatus comprising: a chamber portion in which a plurality of specimens to be subjected to a corrosion test are installed; A horizontal rotation dispersing unit disposed inside the chamber and dispersing the salt water in a radial direction while being rotated by sprayed saline; And a vertical rotation dispersing unit that secondarily disperses the salt water primarily dispersed by the horizontal rotation dispersing unit while rotating a plurality of dispersing vanes installed across the chamber unit .

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Preferably, the horizontal rotation dispersing unit is provided under the vertical rotation dispersing unit so as to be adjustable in height, and the spray width of the salt water sprayed by the horizontal rotation dispersing unit can be adjusted.

Preferably, the horizontal rotation dispersing unit includes a rotary type cone including a cone-shaped cone having an upper light-blocking cone or a lower cone-shaped cone-shaped cone member; A mounting rod installed through the rotary type cone and installed in the vertical rotation dispersion unit; And a rotation inducing groove provided in the shape of the rotation-type cone to guide the rotation of the rotation-type cone by forming a curved passage.

Preferably, the mounting rod includes: a bar body extending downward from a support socket provided on a shaft of the vertical rotation dispersing portion, the bar body passing through the rotary type cone; A lower end support member provided on a thread formed on a lower side of the rod body and supporting a lower end of the rotary type cone so as to be adjustable in height; And an upper support member provided on the rod body and rotatably supporting the upper end of the rotary cone.

Preferably, the rotation inducing groove is formed radially in a curved flow path whose width increases from the lower side to the upper side of the rotary type cone.

Preferably, the vertical rotation dispersing unit comprises: a first vertical dispersing unit disposed above the horizontal rotation dispersing unit across the chamber unit, for primarily dispersing the salt water primarily dispersed by the horizontal rotation dispersing unit; And a second vertical dispersing unit spaced apart from the chamber unit by at least one row in the lateral direction of the first vertical dispersing unit and secondarily dispersing the brine dispersed in the horizontal rotation dispersing unit have.

Preferably, the first vertical dispersion portion comprises: a first shaft installed across the chamber portion; A plurality of first dispersing vanes rotatably spaced from the first shaft; And a support socket mounted on the first shaft and supporting the horizontal rotation dispersing unit, wherein the second vertical dispersion unit includes: a second shaft installed across the chamber unit; And a plurality of second dispersing vanes rotatably spaced from the second shaft.

Preferably, the first vertical dispersing unit includes a 'C' shaped clamping clamp fixed to an upper end of a spray pipe for spraying saline water in a direction of a rotary cone of the horizontal rotation dispersing unit; And a support rod provided between the stationary clamp and the first shaft of the first vertical dispersion unit and supporting the first vertical dispersion unit.

According to an embodiment of the present invention as described above, the brine is sprayed uniformly onto the specimen to keep the rate of corrosion progression constant, thereby securing the reliability of the corrosion test and obtaining reliable data.

According to the embodiment of the present invention, the reliability and reproducibility of the test are sufficiently ensured, thereby preventing the occurrence of additional expense due to frequent repeated tests and preventing an increase in load of the test process.

1 is a perspective view of a corrosion test apparatus according to an embodiment of the present invention.
FIG. 2A is a partial cross-sectional view of the corrosion inducing apparatus of FIG. 1 in which the width of the rotation inducing groove widens toward the upper side.
FIG. 2B is a partial cross-sectional view showing a constant shape of the width of the rotation inducing groove in the corrosion test apparatus of FIG.
3 is a plan view of the corrosion test apparatus of FIG.
4 is a cross-sectional view taken along the line I-I 'of Fig.
5 is a perspective view showing a corrosion test apparatus according to another embodiment of the present invention.
Fig. 6 is a plan view of the corrosion test apparatus of Fig. 5;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

Hereinafter, a corrosion test apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

Referring to the drawings, an apparatus for testing corrosion according to an embodiment of the present invention may include a chamber unit 100 and a horizontal rotation dispersion unit 200.

1 to 4, the corrosion test apparatus includes a chamber section 100 in which a plurality of specimens S to be subjected to the corrosion test are installed, and a chamber section 100 provided in the chamber section 100, And a horizontal rotation dispersing unit 200 for dispersing the salt water in a radial direction while being rotated by the brine.

As shown in FIGS. 3 and 4, the chamber part 100 is formed with an inner space in which a plurality of specimens S are installed, and is sealed with the outer space.

Although not shown, the chamber part 100 may be formed with a door part in which an upper part is opened so that the upper part of the chamber part 100 can be opened.

A cradle 110 on which a plurality of specimens S are installed may be formed on the lower side of the inner space of the chamber part 100. At this time, the holder 110 may be provided with a plurality of rows across the chamber part 100.

A collector 130 for collecting saline water sprayed to the specimen S from the spray pipe 400 may be installed inside the chamber part 100.

At this time, the collector 130 may be provided at a height corresponding to the height at which the test sample S is disposed, so that the measurement degree of the saline solution sprayed to the test sample S can be easily measured.

As shown in FIGS. 1 to 4, the horizontal rotation dispersion unit 200 is provided inside the chamber unit 100 and is a member for radially dispersing the salt water while being rotated by the sprayed salt water.

As shown in FIGS. 2A and 2B, a spray pipe 400 for spraying salt water in the direction of the rotary cone 210 of the horizontal rotary jetting unit may be formed below the horizontal rotary jetting unit.

The spray pipe 400 may include a salt water pipe 410 and an air pipe 430.

The brine pipe 410 is installed inside the spray pipe 400 and blows the brine in a horizontal direction.

The front end of the air pipe 430 and the front end of the salt water pipe 410 intersect so that the air supplied from the air pipe 430 is dispersed in the salt water supplied from the salt water pipe 410, Can be dispersed and sprayed.

The tip end of the air pipe 430 for spraying air is arranged in the vertical direction and the tip end of the brine pipe 410 for spraying the brine can be arranged in the horizontal direction.

The brine sprayed in the horizontal direction in the brine pipe 410 can be sprayed in the direction of the horizontal rotation jet part through the spray pipe 400 while dispersing the brine in the horizontal direction by the pressure of the air injected in the vertical direction in the air pipe 430.

As shown in FIGS. 2A and 2B, the horizontal rotation dispersing unit 200 is installed under the vertical rotation dispersing unit 300 so as to be adjustable in height, The spraying width of the brine can be adjusted.

As shown in FIG. 4, the spraying angle of the sprayed salt water can be adjusted by adjusting the height of the horizontal rotation dispersing unit 200.

The horizontal rotation dispersion unit 200 may include a mounting bar 230 coupled to the support socket 315 of the vertical rotation dispersion unit 300 and extending downward from the support socket 315.

The horizontal rotation dispersing unit 200 is installed on the upper side of the spray pipe 400 so as to form a certain spacing space from the upper end of the spray pipe 400. The horizontal rotation dispersing unit 200 is installed in the support socket 315 The spraying width of the brine can be adjusted while the height of the mounting bar 230 extending downward is adjusted.

When the rotating cone 210 of the horizontal rotation dispersing unit 200 is moved upward from the setting rod 230 and the spraying width of the brine becomes wide, The spray width of the brine can be narrowed.

That is, the spray width of the brine sprayed into the inner space of the chamber part 100 can be adjusted according to the purpose of the corrosion test by adjusting the height of the rotary cone 210.

1 and 2B, the horizontal rotation dispersion unit 200 may include a rotation type cone 210, a mounting rod 230, and a rotation guide groove 250.

The horizontal rotation dispersing unit 200 includes a rotation type cone 210 provided with a cone-shaped lower cone member or an upper cone-shaped cone member having a lower end cut therebetween, And a rotation inducing unit 230 provided in the rotation dispersing unit 300 and provided in a shape recessed into the rotation type cone 210 to form a curved flow path to induce rotation of the rotation type cone 210. [ Grooves 250 may be provided.

As shown in FIGS. 1 and 2B, the rotary type cone 210 may be formed as a cone-shaped member having a lower end cut in a vertical direction and has a hole passing through the rotary type cone 210, 230 may be installed to penetrate.

As shown in FIGS. 2A and 2B, the rotary type cone 210 is formed with a plurality of rotation induction grooves 250 spaced apart from each other, and the rotation induction groove 250 may be formed in a spiral shape or a curved shape.

2A and 2B, the mounting bar 230 may include a rod body 231, a lower end support member 233, and an upper end support member 235.

The mounting bar 230 extends downward from a support socket 315 provided on the shaft of the vertical rotation dispersing unit 300 and includes a rod body 231 passing through the rotary cone 210, A lower support member 233 provided at a lower side of the rod body 231 and supporting a lower end of the rotatable cone 210 so as to be adjustable in height and a lower support member 233 provided above the rod body 231, And an upper support member 235 for rotatably supporting an upper end of the typical cone 210. [

A bearing is provided between the lower support member 233 and the rotary cone 210 and between the upper support member 235 and the rotary cone 210 so that the rotary cone 210 is easily rotated .

As shown in FIG. 2B, the rotation inducing groove 250 may be formed in a radial shape with a curved flow path whose width increases from the lower side to the upper side of the rotary cone 210.

At this time, the rotation inducing groove 250 may be formed in a shape inwardly tapered from the tapered surface of the rotary cone 210.

The rotation induction groove 250 is continuously formed from the lower side to the upper side and is inclined along the tapered surface so that the brine sprayed from the spray pipe 400 moves along the rotation induction groove 250, 210 can be rotated.

1 to 4, the corrosion test apparatus is installed across the chamber part 100 and includes a vertical rotation dispersing unit 200 for vertically dispersing the salt water primarily dispersed by the horizontal rotation dispersing unit 200, And may further include a rotation dispersion unit 300.

The vertical rotation dispersing unit 300 can disperse the salt water primarily dispersed by the horizontal rotation dispersing unit 200 while the plurality of dispersing vanes installed across the chamber unit 100 are rotated .

The present invention can be applied to the horizontal rotation dispersing unit 200 and the vertical rotation dispersing unit 300 so that the horizontal rotation dispersing unit 200 and the vertical rotation dispersing unit 300 can be horizontally rotated using the rotation inducing groove 250 formed on the rotation- And rotatably and horizontally disperses the salt water sprayed through the vertical rotation intersection of the rotating blades formed at a predetermined interval on the upper part of the dispersing unit 200 into the surface of the specimen S disposed in the inner space of the chamber part 100 So that the reliability of the corrosion test can be secured and reliable data can be calculated.

As shown in FIGS. 5 and 6, the vertical rotation dispersion unit 300 may include a first vertical dispersion unit 310 and a second vertical dispersion unit 330.

The vertical rotation dispersing unit 300 is installed across the chamber unit 100 and above the horizontal rotation dispersing unit 200 so that salt water primarily dispersed by the horizontal rotation dispersing unit 200 A first vertically dispersing unit 310 for dispersing the second vertical dispersion unit 310 and a second vertical dispersion unit 310 for horizontally dispersing the first vertical dispersion unit 310 in the left- And a second vertical dispersion unit 330 for secondarily dispersing the saline water dispersed in the unit 200.

As shown in FIGS. 5 and 6, the first vertical dispersion unit 310 may include a first shaft 311, a first dispersion vane 313, and a support socket 315.

The first vertical dispersion unit 310 includes a first shaft 311 installed across the chamber 100 and a plurality of first dispersion wings 311 rotatably spaced from the first shaft 311 And a support socket 315 provided on the first shaft 311 and supporting the horizontal rotation dispersing unit 200. [

As shown in FIGS. 5 and 6, the second vertical dispersion unit 330 may include a second shaft 331 and a second dispersion vane 333.

The second vertical disperser 330 includes a second shaft 331 installed across the chamber 100 and a plurality of second dispersing vanes rotatably spaced from the second shaft 331 333).

At both ends of the first shaft 311 and the second shaft, an original board for preventing the first dispersing vane 313 and the second dispersing vane 333 from separating from each other may be installed.

The rotating blade of the portion having a high spray pressure of the brine sprayed from the spray pipe rotates at a high speed and the portion where the spray pressure drops is controlled at a relatively low speed to control the flowability of the sprayed brine, Of the brine can be uniformly distributed.

That is, the rotating blade of the portion having a high spray pressure of the brine sprayed from the spray pipe is rotated at a high speed to disperse the brine at a higher speed to lower the spray pressure of the portion having a high spray pressure of brine, So that the spray amount of the brine in the space inside the chamber 100 can be uniformly distributed.

A bearing is provided between the first dispersing vane 313 and the first shaft 311 and between the second dispersing vane 333 and the second shaft 331 so that the rotating cone 210 is easily rotated Lt; / RTI >

The first vertical dispersion unit 310 includes a U-shaped mounting clamp 317 fixed to an upper end of a spray pipe 400 spraying saline in the direction of the rotary cone 210, And a support rod 319 provided between the first vertical dispersion unit 310 and the first shaft 311 of the first vertical dispersion unit 310 and supporting the first vertical dispersion unit 310.

The fixing of the mounting clamp 317 and the spray pipe 400 and the fixing of the shaft and the supporting rod 319 can be fixed by various methods such as welding or bolting.

The components such as the chamber part 100, the horizontal rotation dispersion part 200 and the vertical rotation dispersion part 300 may be formed of a material having corrosion resistance against salt such as stainless steel or acrylic, .

Although the embodiments of the present invention have been described in detail, it is to be understood that the scope of the present invention is not limited to the above embodiments and various changes and modifications may be made without departing from the scope of the present invention. It will be obvious to those of ordinary skill in the art.

100: chamber part 110: cradle
130: collector 200: horizontal rotation dispersion unit
210: rotatable cone 230: mounting rod
231: Rod body 233: Lower end support member
235: upper support member 250: rotation guide groove
300: vertical rotation dispersion unit 310: first vertical dispersion unit
311: first shaft 313: first dispersion wing
315: support socket 317: mounting clamp
319: support bar 330: second vertical dispersion part
331: second shaft 333: second dispersion wing
400: spray pipe 410: brine pipe
430: air pipe S: specimen

Claims (9)

delete A chamber portion in which a plurality of specimens to be subjected to the corrosion test are installed;
A horizontal rotation dispersing unit disposed inside the chamber and dispersing the salt water in a radial direction while being rotated by sprayed saline; And
And a vertical rotation dispersing unit that secondarily disperses the salt water primarily dispersed by the horizontal rotation dispersing unit while a plurality of dispersing vanes installed across the chamber unit are rotated.
3. The method of claim 2,
Wherein the horizontal rotation dispersing portion is provided under the vertical rotation dispersing portion so as to be adjustable in height and controls the spray width of the brine sprayed by the horizontal rotation dispersing portion.
The image forming apparatus according to claim 2,
A cone-shaped cone having an upper light-tight cone-shaped cone member or a lower cone-shaped cone-shaped cone member;
A mounting rod installed through the rotary type cone and installed in the vertical rotation dispersion unit; And
And a rotation inducing groove provided in the shape of being inserted into the rotary type cone and forming a curved passage to induce rotation of the rotary type cone.
[5] The apparatus of claim 4,
A rod body extending downward from a support socket provided on a shaft of the vertical rotation dispersing unit and passing through the rotary type cone;
A lower end support member provided on a thread formed on a lower side of the rod body and supporting a lower end of the rotary type cone so as to be adjustable in height; And
And an upper support member provided on the upper side of the rod body and rotatably supporting the upper end of the rotary type cone.
5. The method of claim 4,
Wherein the rotation inducing groove is formed in a radial shape with a curved flow path whose width increases from the lower side to the upper side of the rotary type cone.
[3] The apparatus of claim 2,
A first vertical dispersing unit disposed above the horizontal rotation dispersing unit across the chamber unit and secondarily dispersing the salt water primarily dispersed by the horizontal rotation dispersing unit; And
And a second vertical dispersing unit spaced apart from the chamber unit by at least one row in the lateral direction of the first vertical dispersing unit and secondarily dispersing the brine dispersed in the horizontal rotation dispersing unit. .
The apparatus of claim 7, wherein the first vertical dispersion unit comprises:
A first shaft installed across the chamber portion;
A plurality of first dispersing vanes rotatably spaced from the first shaft; And
And a support socket installed on the first shaft for supporting the horizontal rotation dispersing unit,
Wherein the second vertical dispersion unit comprises:
A second shaft installed across the chamber portion; And
And a plurality of second dispersing vanes rotatably spaced from the second shaft.
The apparatus of claim 7, wherein the first vertical dispersion unit comprises:
A 'C' shaped clamping clamp fixed to an upper end of a spray pipe for spraying saline water in the direction of the rotary cone of the horizontal rotary dispersion unit; And
And a support rod provided between the stationary clamp and the first shaft of the first vertical dispersion unit and supporting the first vertical dispersion unit.

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