KR20000050869A - Two-body type agitator connected by a connecting ring for high-temperature-melted solution - Google Patents

Abstract

PURPOSE: A separative high temperature molten salt stirring bar double connected by a connecting ring is provided to stably connect a stirring bar of separative high temperature molten salt by a connecting ring and endure a high temperature reaction. CONSTITUTION: A separative high temperature molten salt stirring bar double connected bya connecting ring has following structure. An upper stirring bar(220) is formed on itself. A male screw is formed on a lower surface of the upper stirring bar(220). A first screw thread(225) is formed on the outer periphery of the lower portion of the upper stirring bar(220). A lower stirring bar(260) made of carbon has a female screw(265) formed on upper surface thereof. A screw thread(261) for a second connecting is formed on upper outer periphery surface of the lower stirring bar(260). A thread groove(245) for engaging with the first/second screw threads is formed on the inner periphery surface of a connecting ring(240). A platinum coating is covered on the outer periphery surface of the lower stirring bar(260) and the connecting ring(240). Therefore, the connecting ring double connects the upper stirring bar(220) and the lower stirring bar(260).

Description

TWO-BODY TYPE AGITATOR CONNECTED BY A CONNECTING RING FOR HIGH-TEMPERATURE-MELTED SOLUTION}

The present invention relates to a separate type hot melt stirring rod, in which the lower stirring rod and the upper stirring rod are screw-coupled and the coupling portion is double-bonded by a coupling ring for stirring the glass melt having a melting temperature of 1500 degrees or more. It relates to a separate hot melt stirring rod.

Glass can be composed of almost infinite kinds by combining various kinds of elements, and can be formed in various shapes, and there is no fear of rust or deterioration. Moreover, not only can a stable quality be obtained for a long time, but also rich in silicon dioxide which is a raw material, there is an advantage as a raw material. Glass, which is in an amorphous state, is generally used for the development of a new composition that can satisfy the required physical properties because of the advantage that the composition can be freely continuously changed to some extent. Functional glass new materials focusing on various functional characteristics of glass have been researched and developed. These are called new glass as inorganic amorphous new materials, and these new glasses are promising as functional materials in various fields such as conductive glass, photosensitive glass, fluoride glass, glass semiconductor, laser glass, bio glass and super heat-resistant glass. It is published.

Some of the functional glasses have a melting temperature of 1500 ° C. or higher, and a platinum crucible is used to prepare such a melt. This is because the platinum crucible is a material with little contamination to obtain a high purity sample. A platinum stirring rod is used to make the sample melted in the platinum crucible have a homogeneous composition. Platinum is a low-pollution material but expensive. Therefore, the said platinum stirring rod uses the thing made by coating 0.3-0.5 mm of platinum on the rod made of stainless alloy, for example, sus (SUS).

Conventional hot melt stirring rod is composed of an upper stirring rod 110, a lower stirring rod 120, and the coating (130). The upper stirring rod 110 is formed of a stainless steel sus (SUS). The lower stirring rod 120 is formed of carbon. The upper stirring rod 110 and the lower stirring rod 120 are integrally coupled by welding. When the upper stirring rod 110 and the lower stirring rod 120 are combined, a platinum film 130 is coated on the outer circumferential surface of the lower stirring rod 120.

A longitudinal section of a conventional hot melt stirring rod manufactured as above is shown in FIG. 1. The lower stirring rod 120 formed of carbon serves as a supporting rod for strengthening the resistance of the agitation weakened as the softening degree of platinum at a high temperature increases. Since carbon has high thermal conductivity, heat can be easily transferred to the upper stir bar 110 even though continuous stirring is performed in the hot melt.

However, the lower stirring rod of the conventional high temperature melt stirring rod is formed of weak carbon, so that the bonding force between the upper stirring rod and the lower stirring rod is weak as the temperature of the melt increases and the number of rotations of the stirring rod increases. There are drawbacks to this. As described above, when the coupling force of the coupling portion between the upper stirring rod and the lower stirring rod is weak, it is difficult to expect a stable stirring action.

In addition, when the stirring rod is used in a hot molten sample, the lower stirring rod is heated. The heat of the heated lower stir bar is transmitted through the contact surface of the upper stir bar and the lower stir bar, there is a disadvantage that the thermal conductivity is not uniform depending on the welding state of the contact surface.

Therefore, the present invention has been invented to solve the above problems, the first object of the present invention is to provide a separate hot melt stirring rod which is double-bonded by a coupling ring to ensure stable coupling of the separate hot melt stirring rod. will be.

It is a second object of the present invention to provide a separate hot melt stirring rod double bonded by a coupling ring having improved durability to withstand high temperature reaction.

Separation type hot melt stirring rod double-bonded by a coupling ring according to the first embodiment of the present invention for achieving the above object has a cylindrical shape is formed with a male screw protruding perpendicular to the longitudinal one side and the male screw is formed An upper stirring rod having an upper coupling portion formed on a portion of the outer circumferential surface of the cylinder, and formed in a cylinder shape so as to be coupled to the upper stirring rod, and a female screw is formed on one surface in contact with the upper stirring rod so as to be coupled to the male screw. A lower coating rod having a lower coupling portion formed on a portion of the outer circumference of the cylinder, a coupling ring coupled to an upper coupling portion of the upper stirring rod and a lower coupling portion of the lower stirring rod, and a platinum coating applied to the outer circumferential surface of the coupled lower stirring rod and coupling ring It consists of.

The upper coupling portion and the lower coupling portion are formed with a first coupling screw thread and a second coupling screw thread that are engaged with the screw grooves formed on the inner circumferential surface of the coupling ring, respectively.

The coupling ring is formed of carbon.

The upper stir bar is formed of a stainless alloy. The lower stir bar is formed of carbon.

Separation type hot melt stirring rod double-bonded by a coupling ring according to a second embodiment of the present invention for achieving the above object is formed in a cylindrical shape and a screw groove formed on the inner peripheral surface; It has a cylindrical shape, a cylindrical depression formed in the inner circumferential surface recessed from one side in the longitudinal direction is formed, one side outer circumferential surface of the cylinder in which the depression is formed for the first double coupling coupled to the screw grooves of the ring An upper stir bar formed with threads; It has a cylindrical shape, has a projection formed from a position corresponding to the depression of the longitudinal one side and a threaded projection formed on the outer circumferential surface thereof coupled with the screw groove of the depression, the one side peripheral surface formed with the projection screw groove of the ring A lower stir bar having second double bond threads formed therein; And a platinum film coated on the ring and the lower stir bar while the upper stir bar and the lower stir bar are coupled to the inside and coupled to the outside by the ring.

1 is a longitudinal sectional view of a conventional hot melt stirring rod,

2 is an exploded perspective view of a separate type hot melt stirring rod double bonded by a coupling ring according to a first embodiment of the present invention;

3 is a longitudinal cross-sectional view of a separate type hot melt stirring rod double coupled by a coupling ring according to the first embodiment of the present invention;

Figure 4 is an exploded perspective view of a separate hot melt stirring rod according to a second embodiment of the present invention, and

5 is a longitudinal cross-sectional view of a separate hot melt stirring rod according to a second embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

220: upper stirring rod 223: coupling portion

225: first coupling thread 227: male thread

240: coupling ring 245: screw groove

260: lower stir bar 261: second coupling thread

265 female thread 280 platinum film

310: upper stirring rod 315: depression

318: third thread for coupling 320: lower stirring rod

328: fourth coupling thread 325: projection

Hereinafter, a separate hot melt stirring rod double coupled by a coupling ring according to the first embodiment of the present invention will be described with reference to FIGS. 2 and 3.

The split type hot melt stirring rod double coupled by the coupling ring according to the first embodiment of the present invention includes an upper stirring rod 220, a coupling ring 240, and a lower stirring rod 260. The upper stirring rod 220 and the lower stirring rod 260 is formed in a cylinder shape. An upper coupling part 223 is formed at one outer circumferential surface in the longitudinal direction of the upper stirring rod 220. A first coupling thread 225 is formed on an outer circumferential surface of the upper coupling part 223. The upper stirring rod 220 has a male screw 227 protruding vertically from one surface of the cylinder in which the upper coupling portion 223 is formed. The upper stirring rod 220 is formed of a stainless steel sus (SUS).

The inner radius of the coupling ring 240 is formed to match the radius of the upper coupling portion 223. A screw groove 245 is formed on an inner circumferential surface of the coupling ring 240. The coupling ring 240 is formed of carbon.

A lower coupling part 263 is formed on one longitudinal outer peripheral surface of the lower stirring bar 260 to be coupled to the upper coupling part 223 of the upper stirring bar 220. The radius of the lower coupling portion 263 is formed to match the radius of the upper coupling portion 223. A second coupling thread 261 is formed on an outer circumferential surface of the lower coupling part 263. The lower stirring rod 260 has a recess formed vertically recessed from one surface of the cylinder in which the lower coupling portion 263 is formed. An internal thread 265 is formed on the inner circumferential surface of the recess to be coupled to the male screw 227 of the upper stirring rod 220. The lower stir bar 260 is formed of carbon.

It describes the bonding method of the separate type hot melt stirring rod 200 is double-bonded by the coupling ring according to the first embodiment of the present invention having the configuration as described above. The upper stirring rod 220 is accommodated in the coupling ring 240 by a predetermined length. At this time, the first coupling screw thread 225 formed on one side of the outer circumferential surface of the upper stirring rod 220 and a part of the screw groove 245 formed on the inner circumferential surface of the coupling ring 240 are screwed. When the screw coupling is completed as described above, the upper stirring rod 220 and the coupling ring 240 is integrally coupled.

In the state in which the upper stirring rod 220 and the coupling ring 240 are screwed, the inner peripheral surface of the second coupling screw 261 formed on one side of the outer circumferential surface of the lower stirring rod 260 Screw to the screw groove 245 formed in the. At the same time the lower stirring rod 260 and the coupling ring 240 are screwed together, the male screw 227 and the lower stirring rod protruding from one longitudinal side surface of the upper stirring rod 220 ( The female screw 265 formed on the inner circumferential surface of the recess recessed from one longitudinal side surface of 260 starts to screw. When the screw coupling of the lower stirring rod 260 and the coupling ring 240 is completed, the male screw 227 of the upper stirring rod 220 and the female screw 265 of the lower stirring rod 260 is also screwed together Is done. Through the above process, the upper stirring rod 220, the coupling ring 240, and the lower stirring rod 260 are integrally combined. The platinum type 280 is coated on the outer circumferential surface of the lower stirring rod 260 and the coupling ring 240 by dipping the integrated stirring bar 200 into the platinum solution.

Next, a separate hot melt stirring rod double coupled by a coupling ring according to a second embodiment of the present invention will be described with reference to FIGS. 4 and 5.

The split type hot melt stirring rod double coupled by the coupling ring according to the second embodiment of the present invention includes an upper stirring rod 310, a lower stirring rod 320, a coating 330, and a ring 340. The upper stir bar 310 and the lower stir bar 320 are each formed in a cylindrical shape. The upper stirring rod 310 is formed with a cylindrical depression 315 recessed from one side in the longitudinal direction. A screw groove is formed on the inner circumferential surface of the recess 315. The protrusion 325 is formed at a position corresponding to the depression 315 on one side of the lower stirring rod 320 corresponding to one side of the upper stirring rod 310 on which the depression 315 is formed. have. A thread is formed on the outer circumferential surface of the protrusion 325 to be coupled to the screw groove of the depression 315.

Screw grooves 345 are formed on the inner circumferential surface of the ring 340. On one outer circumferential surface of the upper stir bar 310 formed with the recessed portion 315, first double coupling threads 313 are formed to be coupled to some of the screw grooves 345 of the ring 340. Have One side of the outer circumferential surface of the lower stirring rod 320 having the protrusion 325 has second double coupling threads 323 formed to be coupled to some of the screw grooves 345 of the ring 340. .

The upper stirring bar 310 is formed of SUS is a stainless alloy with excellent durability. The lower stir bar 320 and the ring 340 is formed of carbon. Since the upper stirring bar 310 is formed of SUS having excellent durability, even if the radius of the recess 315 is increased, sufficient durability can be ensured. As the radius of the recess 315 increases, the radius of the protrusion 325 may also increase. Since the radius of the recess 315 and the protrusion 325 used for the inner coupling of the upper stirring rod 310 and the lower stirring rod 320 is large, the upper stirring rod 310 and the lower stirring rod 320 The contact area of is increased.

The inner coupling between the upper stirring rod 310 and the lower stirring rod 320 and the outer coupling of the upper stirring rod 310 and the lower stirring rod 320 by the ring 340 are performed in the first embodiment. It is performed in a similar manner to the example. Platinum coating 330 on the outer peripheral surface of the lower stirring rod 320 and the ring 340 in a state in which the upper stirring rod 310, the lower stirring rod 320, and the ring 340 are coupled to each other Clothe.

5 is a longitudinal cross-sectional view of a separate type hot melt stirring rod double coupled by a coupling ring according to a second embodiment of the present invention manufactured as described above. The protruding portion 325 formed on the lower stir bar 320 has a contact area by internal coupling so as to quickly transfer heat to the upper stir bar 310 while stirring the stirring rod in the sample melted at a high temperature. Is wide. The lower stirring rod 320 is formed of carbon, so the heat transfer rate is high.

The effect of the separate type hot melt stirring rod double bonded by the coupling ring according to the present invention is as follows.

First, in the first embodiment of the present invention, the first coupling thread 225 formed in the upper stirring rod 220 is screwed with the screw groove 245 formed on the inner circumferential surface of the coupling ring 240, The second coupling thread 261 of the lower stir bar 260 is screwed with the screw groove 245 formed on the inner circumferential surface of the coupling ring 240, and the male screw 227 of the upper stir bar 220. ) And the female screw 265 of the lower stirring rod 260 is screwed. Therefore, since the upper stirring rod 220 and the lower stirring rod 260 are double-coupled by the coupling ring 240, a stable operation may be guaranteed even if the number of times of stirring is increased.

Second, since the lower stirring rod according to the present invention is formed of carbon having a high melting point, it does not react with platinum even if it is stirred in a hot melt sample. Therefore, a sample having high purity can be obtained.

Third, since the lower stirring rod of the separate type hot melt stirring rod is formed of carbon, the thermal conductivity is high. Therefore, it is easy to adjust the composition determination temperature of the molten sample.

Fourthly, according to the second embodiment of the present invention, a recess in which a screw groove is formed is formed in an upper stirring rod formed of SUS, which is a strong stainless alloy material, and the lower stirring rod formed of carbon having a weaker strength than the upper stirring rod. A stirring rod is formed by screwing the protrusion and the recess to form a protrusion. Therefore, compared with the case where the recess is formed in the lower stir bar formed of carbon, even if cracks occur in the lower stir bar, the upper stir bar surrounds the outer circumferential surface of the crack generating part, so that there is an advantage of maintaining a stable bond.

Fifth, according to the second embodiment of the present invention, since the recess formed with the screw groove is formed in the upper stirring rod formed of strong SUS, the radius of the recess is increased so that the surface area of the upper stirring rod and the lower stirring rod is in contact with each other. Can be increased. As a result, the thermal conductivity can be increased.

As mentioned above, although this invention was demonstrated concretely by the above-mentioned Example, this invention is not limited to this, The deformation | transformation and improvement are possible within the range of common knowledge of a person skilled in the art.

Claims (6)

An upper stirring rod having a cylindrical shape and protruding perpendicularly to one longitudinal surface thereof and having an upper coupling portion formed on a portion of the outer circumferential surface of the male screw formed thereon, the upper stirring rod being formed in a cylindrical shape to be coupled to the upper stirring rod and coupled to the male screw. A lower stirring rod having a female thread formed on one surface of the cylinder that is in contact with the upper stirring rod and having a lower coupling portion formed on a portion of the outer circumferential surface of the female thread, the upper coupling portion of the upper stirring rod, and the lower coupling portion of the lower stirring rod. Separation type hot melt stirring rod double coupled by a coupling ring, characterized in that composed of a coupling ring to be bonded, and a platinum coating coated on the outer peripheral surface of the coupling and the lower stirring rod combined. 2. The coupling ring according to claim 1, wherein the upper coupling portion and the lower coupling portion are formed with a first coupling screw thread and a second coupling screw thread coupled to a screw groove formed on an inner circumferential surface of the coupling ring, respectively. Separated hot melt stirring rods that are double bonded. According to claim 2, wherein the coupling ring is a separate type hot melt stirring rod double bond by the coupling ring, characterized in that formed of carbon. 2. The detachable hot melt stirring rod according to claim 1, wherein the upper stirring rod is formed of a stainless alloy. 2. The separate type hot melt stirring rod according to claim 1, wherein the lower stirring rod is formed of carbon. A ring formed in a cylindrical shape and formed with screw grooves on an inner circumferential surface thereof; It has a cylindrical shape, a cylindrical depression formed in the inner circumferential surface recessed from one side in the longitudinal direction is formed, one side outer circumferential surface of the cylinder in which the depression is formed for the first double coupling coupled to the screw grooves of the ring An upper stir bar formed with threads; It has a cylindrical shape, has a projection formed from a position corresponding to the depression of the longitudinal one side and a threaded projection formed on the outer circumferential surface thereof coupled with the screw groove of the depression, the one side peripheral surface formed with the projection screw groove of the ring A lower stir bar having second double bond threads formed therein; Separated air-temperature melt stirring is double-bonded by a coupling ring, characterized in that the upper stirring rod and the lower stirring rod is coupled to the inner side and the outer coating by the ring is composed of a platinum coating on the ring and the lower stirring rod. Rods.