KR20140003006A - Apparatus for cleaning sample - Google Patents

Abstract

The present invention is a sample cleaning device which comprises a cleaning part for storing a cleaning liquid in which a sample accepting unit for accepting a plurality of samples having removable thermal is immersed; a screen seating part which is connected to the cleaning part, which is arranged on the upper side of the cleaning part, and on which the sample accepting unit is seated; and an air injection part which is installed on the screen seating part which injects high temperature air to the sample accepting unit by selectively controlling the injection direction of air.

Description

APPARATUS FOR CLEANING SAMPLE

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sample cleaning apparatus, and more particularly, to a sample cleaning apparatus capable of cleaning a sample for oxygen analysis in a large amount.

Generally, non-metallic inclusions such as SiO2, Al2O3, TiO2 and the like exist in a state not solved in iron.

Such non-metallic inclusions are strictly regulated through process control in the production of steel because they cause the ductility of the iron to deteriorate and cause cracks.

Accordingly, the oxygen in the steel is analyzed by using a commercially available analytical instrument using an inert gas fusion method.

Here, the gas such as oxygen has a large amount of error in the measurement result due to the moisture contained in the air or the influence of the oxygen bound to the organic matter generated during the sample processing. Therefore, the state of the sample and the cleanliness very important.

As a related art related to the present invention, if there is Korean Patent Laid-Open No. 10-2011-0068013 (published on June 22, 2011), the above-mentioned prior art discloses a technique of degreasing contaminants such as oil, Lt; / RTI >

An object of the present invention is to provide a specimen cleaning device capable of selectively accommodating and accommodating the number of oxygen analysis specimens, as well as cleaning and storing the specimen.

It is another object of the present invention to provide a sample cleaning apparatus capable of efficiently drying a cleaning liquid remaining on the entire surface of a sample after impregnating a cleaning liquid with a large quantity of oxygen analysis sample.

In a preferred aspect of the present invention, the present invention provides a washing machine comprising: a washing unit in which a plurality of samples form detachable heat to store a washing liquid impregnated with a sample containing unit; A screen seating part connected to the cleaner part and disposed above the cleaner part and on which the sample accommodation unit is seated; And an air spraying unit installed on the screen seating unit for selectively controlling the spraying direction of the high temperature air to spray the air into the sample receiving unit.

The sample receiving unit includes a plurality of rows of unit receiving modules detachable from each other.

Wherein each of the unit accommodating modules includes a module body having an upper opening and a unit accommodating space in which a plurality of samples are accommodated along the heat, And is provided with a magnetic force body which is attached to another module body by a magnetic force.

It is preferable that the wire protrude inward of the module body and form a plurality of protrusions for supporting the outer circumference of the sample.

The air injection unit includes a support stand installed upright on the screen seating stand, a preheater installed at the upper end of the support stand to preheat the air to a predetermined high temperature, and an air blower connected to the preheater, And an injection nozzle having a plurality of injection ports for spraying the air to be preheated downward into the sample receiving unit mounted on the screen seat.

An auxiliary air injection portion is further provided at an end of the injection nozzle.

The auxiliary air injection unit includes a rotation motor provided at an end of the injection nozzle and having a rotation axis that is rotated by receiving an electrical signal from the outside, and an auxiliary air injection unit connected to the rotation axis, And an auxiliary spray nozzle disposed to surround the sample holding unit and having a plurality of auxiliary spray holes for spraying the air preheated around the outer circumference of the sample storage unit.

The air injecting unit includes a preheater for preheating air to a predetermined high temperature and a plurality of ejection openings connected to the preheater and positioned above or below the screen seating so as to eject the air to be preheated toward the screen seating base And a rotator provided at an end of the screen seating table and adapted to receive an electrical signal from the outside and rotate the injection nozzle so as to reciprocate between the upper and lower portions of the screen seating table.

It is preferable that the cleaning unit ultrasonically cleans the samples accommodated in the sample accommodating unit impregnated in the cleaning liquid.

The sample scrubber may further include a constant-temperature vacuum oven connected to the side of the cleaner so as to be detachable and storing the sample accommodating unit under a predetermined vacuum and temperature conditions.

The present invention has the effect of selectively cleaning and storing the number of samples for oxygen analysis as well as washing and storing.

Further, the present invention has the effect of effectively drying the cleaning liquid remaining on the entire surface of the sample after impregnating the cleaning liquid with a large quantity of oxygen analysis sample.

1 is a perspective view showing a sample receiving unit of a sample washing apparatus of the present invention.
FIG. 2 is a partially enlarged perspective view showing the display sign A of FIG. 1; FIG.
3 is a cross-sectional view showing that further protrusions protruding inwardly from the wires at the inner wall and the bottom position of the module body according to the present invention are formed.
4 is a view showing an example of a sample washing apparatus of the present invention.
5 is a view showing another example of the sample washing apparatus of the present invention.
6 is a view showing still another example of the sample washing apparatus of the present invention.

Hereinafter, a sample cleaning apparatus of the present invention will be described with reference to the accompanying drawings.

Fig. 1 shows a sample receiving unit of the sample washing apparatus of the present invention, and Fig. 2 shows the indication code A of Fig.

Referring to FIG. 1, the sample receiving unit 100 of the present invention can accommodate a plurality of samples 10.

The sample accommodating unit 100 includes a plurality of unit accommodating modules 110 attached thereto.

Each of the unit accommodation modules 110 can accommodate a plurality of samples 10 along the column direction.

The unit receiving module 110 includes a module body 111 which is open at the top and can provide a space in which each sample is independently inserted and seated, and a magnetic body 112 installed at one side of the module body 111 ).

The module body 111 may be formed of a wire. The perimeter of the module body 111, the partitions, and the bottom surface are configured to form a constant mesh. That is, the module body 111 is preferably a screen net made of wires.

In the module body 111, accommodating spaces 111a in which the samples 10 are accommodated independently are formed.

The magnetic force body 112 may be installed at four corners of one side of the module body 111.

The magnetic force body 112 is attached to one module body 111 and another module body by magnetic force.

Accordingly, the plurality of unit accommodation modules 110 according to the present invention may be attached to each other through the magnetic force body 112 as described above. Conversely, in the case of the unnecessary unit accommodation module 110, it can be easily removed.

The sample storage unit 100 according to the present invention can accommodate a plurality of samples required for cleaning.

3 also shows that the protrusion 111b protruding inward from the wire at the inner wall and bottom position of the module body 110 according to the present invention is further formed.

3, the protrusions 111b are formed on the inner wall and the bottom of the receiving spaces 111a of the module body 111 in which the sample 10 is stored, . ≪ / RTI >

Therefore, the sample 10 is supported by the protrusions 111b while being accommodated in the receiving space 111a of the module body 111, thereby minimizing the contact area with the wires.

Thus, when the unit accommodating module 110 is impregnated with the cleaning liquid a to clean it, the contact area between the cleaning liquid a remaining on the outer surface of the sample 10 and the outside air is increased, It is possible to prevent the phenomenon of hardening on the outer surface of the sample in advance.

4 shows an example of the sample cleaning apparatus of the present invention.

Referring to FIG. 4, the sample cleaning apparatus of the present invention includes a cleaner 200, a screen seating unit 300, and an air jetting unit 400.

The cleaning part 200 is preferably a bath in which a predetermined amount of cleaning liquid a is stored. The cleaning liquid (a) is preferably acetone or ethanol.

In addition, the cleaner 200 is electrically connected to the ultrasonic generator 210. Therefore, the ultrasonic generator 210 can provide a certain vibration to the cleaning liquid.

That is, the cleaner 200 may perform ultrasonic cleaning using the ultrasonic generator 210.

The screen seating part 300 is disposed on the upper part of the cleaning part 200 while being connected to the upper end of the cleaning part 200. The screen seating part 300 is fixed to the upper part of the washing part 200 by a fixing table 310.

The screen seating part 300 is preferably formed as a screen net. Thus, the liquid can pass downward.

The air injecting unit 400 is installed on the screen seating unit 300 and selectively controls the jetting direction of the high temperature air so that the air is injected into the sample receiving unit 100 that is seated on the screen seating unit 300 It can be sprayed.

More specifically, the air injection unit 400 includes a support 410 installed upright on the screen seating unit 300, and an air injection unit 400 installed at an upper end of the support 410 to preheat the air to a predetermined high temperature And a preheater 420 connected to the preheater 420 and disposed at an upper portion of the screen seating table 300 to guide the preheated air to the sample receiving unit 100, And an injection nozzle 430 having a plurality of injection openings 431 for downward injection.

Next, the operation of the sample cleaning apparatus constructed as described above will be described.

As shown in FIGS. 1 to 3, a plurality of unit accommodation modules 110 are prepared, and the sample 10 is accommodated in each accommodation space 111a of each unit accommodation module 110.

Then, the unit accommodation modules 110 are attached to each other using the magnetic force body 112. Although not shown in the drawing, the unit receiving module 110 may be formed in a multi-layer structure using another magnetic force body. The other magnetic force body may be installed at the upper end of the unit accommodating module 110.

The sample holding unit 100 configured as described above is impregnated with the cleaning liquid a of the cleaning unit 200 several times. Although not shown in the drawings, the impregnation may use a lifting device for lifting the sample accommodating unit up and down.

Therefore, the plurality of samples 10 accommodated in the sample storage unit 100 can be cleaned by the cleaning liquid. That is, foreign matter such as moisture or organic matter in the air formed on the outer surface of the sample 10 can be removed.

Then, after being impregnated with the cleaning liquid (a), the sample accommodating unit 100 can be seated on the screen seating part 300 through the elevating device.

Here, the cleaning liquid remaining in the sample 10 and the sample accommodating unit 100 itself may fall into the inner space of the cleaner 200.

Then, the air injector 400 injects high-temperature air into the sample storage unit 100.

First, the preheater 420 receives ambient air and heats it to a predetermined temperature. The preheater 420 supplies the preheated air to the injection nozzle 430 at a high temperature.

Therefore, the high-temperature air is injected into the sample storage unit 100 which is seated on the screen mount 300 through the injection ports 431 formed in the injection nozzle 430.

Accordingly, the plurality of samples 10 and the sample accommodating unit 100 housed in the sample accommodating unit 100 can be dried by the hot air.

Embodiments in accordance with the present invention may also cause the sample holding unit and the cleaning liquid remaining in the sample to flow downward to forcibly drop by forming a jet flow of hot air downward from the top of the screen seating.

Fig. 5 shows another example of the sample cleaning apparatus of the present invention.

Referring to FIG. 5, the sample cleaning apparatus according to the present invention includes a cleaner 200, a screen seating unit 300, and an air spraying unit 401. Herein, the cleaning part 200 and the screen seating part 300 are substantially the same as the above-described embodiment.

The supporter 410, the preheater 420, and the jetting nozzle 430 of the air jetting unit 401 may be substantially the same as those described above.

However, an auxiliary air jetting unit is further provided at an end of the jetting nozzle 430.

The auxiliary air injection unit includes a rotation motor 440 installed at an end of the injection nozzle 430 and having a rotation axis rotated by receiving an electrical signal from the outside, And a plurality of auxiliary jet orifices 451 for jetting the air preheated around the outer periphery of the sample receiving unit 100 are formed in the sample receiving unit 100. The auxiliary jet orifice 451 is formed to surround the outer circumference of the sample receiving unit 100, (450).

The process of accommodating the plurality of samples 10 in the sample accommodation unit 100 is the same as the above-described example.

The air spraying section (401) injects high temperature air into the sample storage unit (100).

First, the preheater 420 receives ambient air and heats it to a predetermined temperature. The preheater 420 supplies the preheated air to the injection nozzle 430 at a high temperature.

Therefore, the high-temperature air is injected into the sample storage unit 100 which is seated on the screen mount 300 through the injection ports 431 formed in the injection nozzle 430.

Accordingly, the plurality of samples 10 and the sample accommodating unit 100 housed in the sample accommodating unit 100 can be dried by the hot air.

In addition, the rotation motor 440 receives an electric signal from the outside and rotates the rotation shaft.

Accordingly, the auxiliary spray nozzle 450 is rotated. Both ends of the auxiliary spraying nozzle 450 are rotated so as to surround the outer circumference of the sample accommodating unit 100 which is seated on the screen seating part 300.

At the same time, the hot air is injected around the outer periphery of the sample storage unit 100 through the auxiliary injection ports 451 of the auxiliary injection nozzle 450.

Embodiments in accordance with the present invention may also cause the sample holding unit and the cleaning liquid remaining in the sample to flow downward to forcibly drop by forming a jet flow of hot air downward from the top of the screen seating.

Further, the embodiment according to the present invention can spray the high-temperature air around the outer periphery of the sample accommodating unit, thereby drying the sample accommodating unit as a whole.

6 shows another example of the sample washing apparatus of the present invention.

6, the air injector 402 according to the present invention includes a preheater 480 for preheating air to a predetermined high temperature, and a preheater 480 connected to the preheater 480, An injection nozzle 490 having a plurality of ejection openings 491 for ejecting the air to be preheated toward the screen seating base 300 and an ejection nozzle 490 disposed at an end of the screen seating base 300, And a rotator 460 that receives an electric signal from the outside and rotates the injection nozzle 490 so as to reciprocate between the upper and lower portions of the screen seating base 300.

Here, the rotator 460 may be connected to the preheater 480 through a connecting member 470 bent at a right angle.

The rotator 480 can rotate the injection nozzle 490 up and down with the screen seating part 300 as a rotation center.

At the same time, the preheater 480 supplies the hot air to the injection nozzle 490, and the hot air is injected through the injection nozzle 490.

Therefore, the hot air can be continuously supplied around the lower portion of the upper portion of the sample accommodating unit 100.

The embodiment according to the present invention can improve the efficiency of drying by continuously spraying hot air at the upper and lower portions of the samples accommodated in the sample receiving unit.

4 to 6 are detachably connected to the cleaner 200 and are connected to a constant temperature vacuum oven (for example, a vacuum oven) 500 are further installed.

Therefore, the sample holding unit 100, which has been dried by the air spraying units 400, 401, and 402, is stored in the thermo-vacuum oven 500, so that the surface of the sample 10 can be efficiently Can be prevented.

The vacuum apparatus of the state number '510' is a device capable of adjusting the degree of vacuum in the constant-temperature vacuum oven 500 to a certain level.

10: sample 100: sample receiving unit
110: unit receiving module 111: module body
112: magnetic force body 200:
300: a screen mounting part 400, 401, 402:
500: Constant vacuum oven

Claims (8)

A cleaning unit in which a plurality of samples form detachable heat to store a cleaning liquid impregnated with the sample containing unit;
A screen seating part connected to the cleaner part and disposed above the cleaner part and on which the sample accommodation unit is seated; And
And an air injection unit installed on the screen seating unit and selectively controlling a spraying direction of hot air to inject the air into the sample receiving unit.
The method of claim 1,
The sample receiving unit,
Including a plurality of unit receiving modules that form a plurality of removable from each other,
Each unit receiving module,
A module body formed of a wire so that the upper side is opened and forms a unit accommodation space accommodating a plurality of samples along a row, and four sides form a predetermined mesh;
Sample cleaning apparatus, characterized in that provided in a plurality of positions on one side of the module body, the magnetic body to be attached to the other module body by magnetic force.
3. The method of claim 2,
The wire
And a plurality of protrusions protruding inwardly of the module body to support the outer circumference of the sample.
The method of claim 1,
The air injection unit,
A support table installed upright on the screen seating table,
A preheater installed at an upper end of the support and preheating the air to a predetermined high temperature,
And a spray nozzle connected to the preheater and having a plurality of ejection openings disposed at an upper portion of the screen seating base for downwardly injecting preheated air into the sample receiving unit mounted on the screen seating table, Device.
5. The method of claim 4,
An auxiliary air injection portion is further provided at an end of the injection nozzle,
The auxiliary air injection unit
A rotation motor provided at an end of the injection nozzle and having a rotation axis that is rotated by receiving an electric signal from the outside,
And a plurality of auxiliary ejection openings connected to the rotation shaft and arranged to surround the outer circumference of the sample receiving unit that is seated on the screen seating base and that emits the air preheated around the outside of the sample receiving unit, And a nozzle for cleaning the sample.
The method of claim 1,
The air injection unit,
A preheater for preheating the air to a constant high temperature,
A spray nozzle connected to the preheater and having a plurality of ejection openings positioned above or below the screen rest so as to eject the air to be preheated toward the screen seating base;
And a rotator provided at an end of the screen seating table and adapted to receive an electrical signal from the outside and to rotate the injection nozzle so as to reciprocate between the upper and lower portions of the screen seating table.
The method of claim 1,
The cleaning unit may include:
Wherein the sample housed in the sample storage unit impregnated in the cleaning liquid is subjected to ultrasonic cleaning.
The method of claim 1,
The target cleaning device,
Further comprising a constant temperature vacuum oven connected to the side of the cleaner in a detachable manner and storing the sample accommodating unit under a constant vacuum and temperature condition.

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