KR20040044578A - Hot sample auto cooling machine - Google Patents

Abstract

PURPOSE: A device for automatically cooling a red-heat sample is provided to maximize work conditions and work efficiency by automatically advancing and annealing the red-heat sample by a mechanical unit. CONSTITUTION: A device for automatically cooling a red-heat sample comprises a base frame(100) forming a groove(140) to the top center; sample transfer guides(110) disposed across the groove of the base frame; a transfer cylinder(200) fixed to a side of the base frame, to transfer the red-heat sample along the sample transfer guides; a sample cover(400) connected to an ascending and descending cylinder(410) fixed to the base frame, to selectively seal up the groove; a drier disposed toward the red-heat sample inside the sample cover; a sample-seating bed(300) forming coolant injection holes to the top; a coolant supply pipe(320) connected to the sample-seating bed, to supply a coolant through pressure control; and an air supply pipe connected to the drier, to supply air through pressure control.

Description

Red Sample Automatic Cooling System {HOT SAMPLE AUTO COOLING MACHINE}

The present invention relates to a device for automatically cooling a red sample, and more specifically, to improve the pretreatment efficiency of a sample by slow cooling by a sensor from the moment of mounting a red sample collected at a converter on a sample seat. It is directed to an automatic cooling device for a glowing sample.

Conventionally, when a red sample arrives at the analysis chamber, the red sample is held by a worker's hand using a forceps, and then slowly cooled by shaking it little by little in a prepared cooling water container.

In this method, the red sample was so hot that even if the user grabbed the sample with the tongs, the worker easily missed the sample and the sample was rapidly quenched. Odor and water vapor generated by slow cooling by using the contact with the face of the worker had a defect that impairs the working environment.

The present invention was created in view of the above-described problems of the prior art as described above, and maximizes the working working environment and the work efficiency by automatically cooling and slowly entering the red sample using a mechanical means without using manual labor. The aim is to provide an automatic cooling system for the glowing sample.

1 is an external perspective view of a cooling apparatus according to the present invention,

Figure 2 is a perspective view of the installation state of the transfer cylinder which is the main part of the present invention device,

3 is a perspective view of an installation state of a sample holder, which is an essential part of the present invention device;

5 is a front view of the apparatus of the present invention,

6 is a side view of the device of the present invention;

Explanation of symbols on the main parts of the drawings

100 .... Base Frame 110 .... Sample Transfer Guide

120 .... catcher 130 .... unit controls

200 .... transfer cylinder 230 .... sample transfer fixture

300 .. sample seat 310 .... cooling water jet

320 .... Cooling water supply pipe 330 .... Waste water discharge line

342 .... coolant control valve 344 .... coolant pressure gauge

352 Air control valve 354 Air pressure gauge

360 .... Air Supply Pipe 380 .... Dryer

400 .. Sample cover 410 .. Lifting cylinder

The above object of the present invention, the base frame having a predetermined height and the groove is formed in the center of the upper surface; A sample transfer guide disposed across the groove of the base frame; A transfer cylinder fixed to one side of the base frame to transfer the sample along the sample transfer guide; A sample cover connected to a lifting cylinder fixed to the base frame to selectively seal the groove; A dryer disposed in the sample cover to be sprayable toward the sample; A sample holder fixed to the center of the groove and having a cooling water injection port formed thereon; A cooling water supply pipe connected to the sample seat and piped to supply pressure by adjusting the cooling water; It is achieved by providing a red sample automatic cooling device, characterized in that it comprises an air supply pipe connected to the dryer and pressure-controlled air supply pipe.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1 is an external perspective view of a cooling apparatus according to the present invention, which is supported by four legs and has a base frame 100 having a rectangular groove 140 formed at the center of a plate, and on one side of the base frame 100. The moving cylinder 200 supported by the bracket 210 is fixed.

In addition, the U-shaped sample transfer guide 110 is fixed to both sides of the groove 140 while forming a straight line in the excretion direction of the movable cylinder 200 on the upper surface of the base frame 100.

A water collecting tank 120 is attached to a lower surface of the center groove 140 of the base frame 100, and a unit operator 130 is disposed on one side of the base frame 100 in a direction orthogonal to the transport cylinder 200. It is fixed.

In addition, a pair of first and second proximity sensors 310a and b are installed at both sides along the length of the sample transfer guide 110 to correspond to each other, and in particular, of the sample seat 300 on which the sample S is seated. Position detection sensor 320 is installed on both sides.

On the other hand, the upper surface of the base frame 100 is provided with a lifting sample cover 400, the sample cover 400 is made of a structure that can completely seal the groove 140 of the upper surface of the base frame 100 In particular, the upper surface is connected to the discharge line (410) is connected to the inhaler (not shown) is configured to capture the by-product gases such as odor and water vapor caused during cooling of the glowing sample (S).

Figure 2 is an enlarged view of the transfer cylinder according to the present invention, the transfer cylinder 200 is a two-stage operable structure, for example, divided into 1,2 stages in accordance with the operation signal to draw in and out of the cylinder rod 220 The length (stroke) is a cylinder that operates differently and is supported and fixed by the bracket 210.

The sample feed fixture 230 for smoothly transferring the sample S is fixed to the tip of the cylinder rod 220. The sample feed fixture 230 does not separate the sample S from the sample transfer guide 110. It is preferable that the concave and concave bent is formed in an arc shape so as to smoothly guide and transport in a straight line.

3 shows an installation state of the sample seat according to the present invention, the sample seat 300 is disposed at close intervals between the pair of sample transfer guides 110 at a fine interval, in particular the groove of the base frame 100 140 is disposed to be located in the center portion.

The sample seat 300 is preferably formed in a closed yoke shape with an empty inside, and a plurality of cooling water injection holes 310 are formed on an upper surface thereof, and a cooling water supply pipe 320 is connected to a lower end thereof.

The cooling water supply pipe 320 is disposed through the water collecting tank 120, the water collecting tank 120 is fixed to the lower surface of the base frame 100 and to cover the lower end of the sample holder 300 while fully sealing It is provided in the form.

Therefore, the cooling water sprayed through the cooling water injection port 310 is collected into the collection tank 120 after cooling the sample S, and the waste cooling water in the collected collection tank 120 is the wastewater discharge line 330 of FIG. 1 to be described later. It will be discharged through.

4 and 5 show the front and side of the present invention, the coolant line 340 is connected to the lower end of the coolant supply pipe 320 between the coolant control valve 342 and the coolant pressure gauge 344 Is installed.

In addition, the air supply pipe 360 is disposed through the base frame 100 in a similar form to the cooling water supply pipe 320, and an elastic air supply hose 370 is connected to an upper end of the air supply pipe 360. Air line 350 is connected to the air supply pipe 360 and the air line 350 between the air control valve 352 and the air pressure gauge 356 are sequentially installed.

In addition, the above-described transfer cylinder 200, the coolant control valve 342, the air control valve 352, and the like are controlled by the unit operator 130 according to signal values of the respective gauges.

And, the lifting cylinder 410 is fixed to the lower surface of the base frame 100, the upper end of the cylinder rod 420 connected to the lifting cylinder 410 is one side of the lower side of the sample cover 400 described above It is configured to raise and lower it selectively by a controlled height.

In addition, the sample cover 380 is provided with a dryer 380 capable of high-pressure injection toward the sample (S), the air supply hose 370 is connected to the dryer 380 is configured to supply air.

The operating relationship of the present invention made of such a configuration is as follows.

First, when the glowing sample (S) arrives from the site to the analysis chamber, the sample (S) by the operator is in a standby state that can be mounted on the sample seat 300.

The presence of the sample S is detected by the first proximity sensor 310a, and when the sample S is detected, the unit operator 130 advances the transfer cylinder 200 one step.

The sample S is pushed by the sample transfer tool 230 by the one-step forward operation of the transfer cylinder 200 to be moved along the feed transfer guide 110.

When the sample S is detected by the position detecting sensor 320 during the movement, the transfer cylinder 200 stops its forward operation and returns to the home 140 position. At this time, the sample S is the sample seat 300 ) Will be in place.

Then, the sample cover 400 is lowered by the operation of the lifting cylinder 410 to seal the sample (S).

When the sealing is completed, the cooling water control valve 342 is opened and the cooling water is supplied at the pressure set in the cooling water pressure gauge 344 and gradually cools the sample S in the red state through the cooling water injection port 310.

At this time, care should be taken not to quench by adjusting the cooling water pressure for slow cooling of the sample (S), which is to ensure that the second sample pretreatment (chip preparation by the drill machine) can be performed smoothly. It is desirable to set it to about 10 seconds.

After the slow cooling is completed, the cooling water control valve 342 is closed by the operation of the unit operator 130, and the air control valve 352 is opened to dry the sample S through the dryer 380.

When the drying operation is completed, the sample cover 400 is raised, and the transfer cylinder 200 is re-operated (two-stage operation) to discharge the cooled sample S from the sample holder 300.

When the sample S discharged along the sample transfer guide 110 is detected by the second proximity sensor 310b, the transfer cylinder 200 returns to the groove 140 position to prepare for the next operation. .

In addition, the waste cooling water used for cooling the sample (S) is collected in the sump tank 120, and is collected and treated as a separate treatment plant along the wastewater discharge line 330 connected to the lower end side of the sump tank 120.

In addition, during the cooling of the sample S, the dust collecting facility is operated so that the odor generated by the cooling operation, water vapor, etc. are collected and discharged along the discharge line 410.

As described in detail above, the present invention can secure the smoothness of the red sample automatically to ensure the smoothness of the sample preparatory work and to remove the odor and other contaminated parts to improve the working environment and improve the work efficiency.

Claims (4)

A base frame 100 having a predetermined height and having a groove 140 formed at the center of the upper surface thereof; A sample transfer guide (110) disposed across the groove (140) of the base frame (100); A transfer cylinder 200 fixed to one side of the base frame 100 to transfer the sample S along the sample transfer guide 110; A sample cover 400 connected to a lifting cylinder 410 fixed to the base frame 100 and disposed to selectively seal the groove 140; A dryer 380 disposed in the sample cover 400 to be sprayed toward the sample S; A sample holder 300 fixed to the center of the groove 140 and having a cooling water injection port 310 formed thereon; A cooling water supply pipe 320 connected to the sample seat 300 and piped to supply pressure by adjusting the cooling water; The automatic heating device of the red color sample, characterized in that it comprises an air supply pipe (360) connected to the dryer (380) and piped to supply pressure by adjusting the air. The method of claim 1, The automatic sample cooling device of the red, characterized in that the lower surface of the base frame 100 while holding the sample seating unit 300 is sealed around the surrounding, the collection tank 120 having a wastewater discharge line 330 is installed. . The method of claim 1, Both sides of the sample transfer guide 110 are disposed in pairs along the length direction thereof, and the first and second proximity sensors 310a and b and the position detection sensor 320 for controlling the forward and backward movement of the transfer cylinder 200. Red) Automatic sample cooling device characterized in that the laying. The method of claim 1, Cooling sample automatic cooling device, characterized in that the discharge line 410 connected to the dust collector is installed in the upper surface of the sample cover 400.