KR102007344B1 - Reactor with heating function - Google Patents

Abstract

A sample reactor according to the present invention comprises: a main body having an inner space with an open front side and a holding hole formed on a rear wall surface; a door mounted on the main body to cover the open front side of the main body, and having an insertion hole formed at a position corresponding to the holding hole; a sample pipe having a main body having an inner space filled with a sample, an input unit horizontally extended from a front side of the main body to communicate with the inner space of the main body, and having an end penetrating the insertion hole, and a holding shaft horizontally extended from a rear side of the main body, and having an end penetrating the holding hole; a heating unit mounted on the inside of the main body, and heating the main body of the sample pipe; a mask for covering an open end of the input unit, and having a coupling hole communicating with the inner space of the input unit; and a gas supply pipe mounted on the coupling hole to supply gas into the sample pipe. The sample reactor according to the present invention has an advantage of making sample and gas react by applying heat thereto, reducing the size and costs of a product by having a simple internal configuration, and continuously and uniformly mixing the sample and gas.

Description

Sample reactor with heating function {Reactor with heating function}

The present invention relates to a sample reactor for reacting a sample and a gas, and more particularly, to a sample reactor having a heating function to evenly heat a sample and a gas.

In general, a sample reactor for reacting a sample in a powder form with a gas requires a vacuum chamber of a predetermined size or more, and such a vacuum chamber has a problem that the manufacturing cost of the sample reactor is very high due to its large size and complicated structure. .

In particular, when the function of applying heat to the sample and the gas to increase the reactivity of the sample and the gas, there is a problem that the internal configuration of the sample reactor is very complicated. In particular, in order for the sample and the gas to react evenly, the sample must be continuously moved in the gas atmosphere. In order to move the sample in powder form, many equipments and devices are required, and the configuration of the sample reactor becomes more complicated. There is a problem that the manufacturing cost is higher.

KR 10-1617759 B1

The present invention has been proposed to solve the above problems, the internal structure is simple, but can react while applying heat to the sample and gas, the sample can be continuously moved so that the sample and gas can be more evenly mixed The purpose is to provide a sample reactor.

Sample reactor according to the present invention for achieving the above object, the main body has a front space is open, the rear wall is formed in the mounting hole; A door mounted to the main body to cover the open front of the main body and having an insertion hole formed at a position corresponding to the mounting hole; A body having an internal space filled with a sample, an inlet portion extending in a horizontal direction from the front of the body so as to communicate with the internal space of the body, and having an end passing through the insertion hole, and extending in a horizontal direction from the rear of the body A sample tube having a mounting shaft having an end penetrating the mounting hole; A heating unit mounted inside the main body to heat the body of the sample tube; A mask covering an open end of the input part and having a fastening hole communicating with an internal space of the input part; And a gas supply pipe mounted to the fastening hole and supplying gas into the sample tube.

A pair of support rollers provided on an outer surface of the door to support an input unit extending outwardly of the door; A driving roller and an idle roller provided on the rear outer surface of the main body so as to support the mounting shaft extending out of the main body; It further comprises a drive motor for rotating the drive roller.

The drive shaft of the drive motor is equipped with a motor pulley, and further comprises a power transmission belt for connecting the motor pulley and the drive roller.

It further comprises a tension unit for elastically pressing the mounting shaft toward the drive roller side.

The tension unit may include a main bracket coupled to an upper side of the mounting shaft of the rear outer surface of the main body, a slide bar coupled to the main bracket such that a longitudinal direction thereof is directed upward and downward, and mounted to the slide bar to move upward and downward. It comprises a slide block, a rolling roller coupled to the slide block in a rotatable structure, the outer circumferential surface is in contact with the outer surface of the mounting shaft, and an elastic spring for applying an elastic force to the slide block in the direction toward the mounting shaft. do.

A rotary joint divided into a rotating part screwed to the fastening hole and a fixing part to which the gas supply pipe is connected; One end is fixedly coupled to the fixed portion of the rotary joint and the other end is a fixed bracket fixedly coupled to the door; further includes.

A diaphragm is formed between the body portion and the mounting shaft, and an inner side surface of the body portion is formed with a protruding plate extending toward the rotation axis.

It further includes a heat insulating block coupled to cover the inner surface of the main body and the inner surface of the door.

A plurality of guide bars extending in the horizontal direction from the edge of the opening of the front of the main body, and a plurality of guide blocks coupled to the edge of the door fastened so that the end of the guide bar penetrates.

The sample reactor according to the present invention has the advantage of being able to react while applying heat to the sample and gas, the internal structure is simple, miniaturization and cost reduction of the product, and the sample and gas can be continuously and evenly mixed. .

1 is a perspective view of a sample reactor according to the present invention.
2 is a rear perspective view of the sample reactor according to the present invention.
3 is a cross-sectional perspective view of a sample reactor according to the present invention.
4 to 6 are a perspective view, a longitudinal cross-sectional perspective view, and a cross-sectional perspective view of a sample tube included in the present invention.
7 is a perspective view of a tension unit included in the present invention.
8 to 13 sequentially illustrate the installation process of the sample reactor according to the present invention.
14 is a side view illustrating a coupling structure of a fixing bracket mounted to a rotary joint.

Hereinafter, an embodiment of a sample reactor according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a sample reactor according to the present invention, FIG. 2 is a rear perspective view of the sample reactor according to the present invention, and FIG. 3 is a cross-sectional perspective view of the sample reactor according to the present invention.

The sample reactor according to the present invention is a device for experimenting the chemical reaction between the sample and the gas by making the inside of the sample tube 300 containing the sample in a predetermined gas atmosphere and applying heat to the sample and the gas, Due to the simple internal configuration, not only the device can be miniaturized but also the manufacturing cost of the device is very low.

That is, the sample reactor according to the present invention includes a main body 100 having an inner space with an open front and a mounting hole 110 formed at a rear wall thereof, and covering the open front of the main body 100. The door 200 is mounted to the 100 and the insertion hole 210 is formed in a position corresponding to the mounting hole 110, the sample tube 300 is inserted into the main body 100, and the main body ( 100 is mounted inside the heating unit 400 for heating the sample tube 300 and the fastening hole 510 which covers an open end of the sample tube 300 and communicates with the internal space of the sample tube 300. ) Is formed, and a gas supply pipe 530 mounted to the fastening hole 510 to supply gas into the sample pipe 300.

The sample tube 300 is made of a material having high heat resistance while the inside can be exposed to the outside, such as quartz, the body provided with an inner space to fill a predetermined amount of the sample, and the body of the body to communicate with the inner space of the body Input portion 320 extending in the horizontal direction from the front end through the insertion hole 210, and mounting shaft 330 extending in the horizontal direction from the rear of the body through the mounting hole 110 It is configured to include). The gas provided through the gas supply pipe 530 fills the interior of the body 310 through the inlet 320, and the body 310 filled with the sample and the gas is heated by the heating unit 400. The sample is subjected to heat while maintaining the state in contact with the gas to cause a chemical reaction.

At this time, the plate 312 between the body portion 310 and the mounting shaft 330 so that the gas introduced into the body 310 is not discharged to the rear through the mounting shaft 330 to the outside. Is formed. In addition, when the gas is supplied through the gas supply pipe 530, a separate discharge line (not shown) may be provided so that the air previously filled in the body portion 310 can be pushed out by the gas. Can be. As such, the process of making the space in the sample tube 300 into a specific gas atmosphere is commercially available in various fields such as semiconductor etching or various experimental equipment, and the inside of the body 310 is provided through the gas supply pipe 530. Detailed description of the process of filling with the supplied gas is omitted.

As described above, the sample reactor according to the present invention can react a sample in a gas atmosphere without a separate vacuum chamber, and thus, the overall structure of the apparatus can be simplified, and thus the apparatus can be miniaturized and manufacturing cost can be reduced.

On the other hand, the sample reactor according to the present invention has another feature in that the sample tube 300 is configured to be stably mounted without a separate fixing device. That is, the sample tube 300, the insertion portion 320 and the mounting shaft 330 extending forward and rearward from the body portion 310 so as to span the insertion hole 210 and the mounting hole 110, respectively The bar is always kept stable without tilting or sagging to one side.

In addition, the sample filled in the body portion 310 is stacked on the bottom surface of the body portion 310, if the body portion 310 is fixed only the portion of the sample contacting the gas, that is, the upper portion of the sample reaction The sample located below may fail to react normally.

The sample reactor according to the present invention has another feature in that it is installed in a rotatable structure so as to solve such a problem, that is, all the samples in the body 310 can actively react. That is, the sample reactor according to the present invention includes a pair of support rollers provided on the outer surface of the door 200 and the main body 100 so as to support the input part 320 extending out of the door 200. The driving roller 620 and the idle roller 650 provided on the rear outer surface of the main body 100 to support the mounting shaft 330 extending to the outside of the drive motor for rotating the drive roller 620 600 may be provided.

The input part 320 is seated between a pair of support rollers, the mounting shaft 330 is seated between the driving roller 620 and the idle roller 650, the sample tube 300 is in a horizontal direction Can rotate around the central axis. In addition, the motor shaft pulley 610 is mounted to the drive shaft of the drive motor 600, the motor pulley 610 and the drive roller 620 is connected by a power transmission belt 630, the drive motor 600 Is driven to rotate the motor roller, the driving roller 620 is rotated in the same direction as the motor roller, the mounting shaft 330 in contact with the driving roller 620 in the opposite direction to the driving roller 620 Will rotate. When the mounting shaft 330 rotates, the entire sample tube 300 is rotated, and the sample stored in the body 310 is mixed while rotating along the body 310, and thus all samples are rotated. It will react with the gas.

At this time, the support roller, the driving roller 620 and the idle roller 650 is preferably made of metal or synthetic resin to maintain a high strength, the support roller, the driving roller 620 and the idle roller 650 is a metal If the sample tube 300 is made of synthetic resin, the sample tube 300 may be damaged or damaged when it is in contact with the sample tube 300 for a long time. Therefore, it is preferable that a member having elasticity, such as a rubber ring, is provided on the outer circumferential surfaces of the support roller, the driving roller 620 and the idle roller 650. In addition, when the rubber ring is provided on the outer circumferential surface of the support roller, the driving roller 620 and the idle roller 650, the friction force with the sample tube 300 is increased, so that the sample tube 300 can be rotated more stably. You will also get effects.

On the other hand, the main body 100 and the door 200 is generally made of metal so as not to be easily damaged by an external force, the metal has a high thermal conductivity characteristics, so that the heat provided by the heating unit 400 The problem of easily exiting to the outside, that is, the problem that the sample tube 300 heating efficiency is lowered may occur.

Therefore, the heat insulation block 410 may be installed on the inner surface of the main body 100 and the inner surface of the door 200 so that heat generated by the heating unit 400 does not escape to the outside of the main body 100. have. As such, when the insulating block 410 is installed on the inner surface of the main body 100 and the inner surface of the door 200, the heat generated from the heating part 400 does not escape to the outside of the main body 100, but the sample tube ( Mostly delivered to 300, the sample tube 300 has the advantage that the heating efficiency is significantly higher.

In this case, the insulating block 410 may be made of any material as long as it has a low thermal conductivity such as styrofoam and does not damage the sample tube 300.

4 to 6 are perspective views, longitudinal cross-sectional perspective views, and cross-sectional perspective views of the sample tube 300 included in the present invention.

Sample tube 300 included in the present invention is to rotate around the central axis in the longitudinal direction so that the sample in the body portion 310 is mixed, when the inner surface of the body portion 310 is made smoothly the sample body Sliding along the inner surface of the part 310 may not be mixed. That is, even if the sample tube 300 rotates, all the samples do not come into contact with the gas, and thus the reactivity of the sample may not be increased.

Therefore, the sample tube 300 may be provided with a plurality of protruding plate 314 on the inner surface of the body portion 310 so that the samples in the body portion 310 can be more stably mixed. The protrusion plate 314 extends from the inner side of the body portion 310 toward the rotation axis of the sample tube 300, and the sample filled in the body portion 310 is seated on the protrusion plate 314 to a predetermined height. Ascending and falling down from the protrusion plate 314 when the inclination angle of the protrusion plate 314 increases above the reference value. Therefore, the samples in the body portion 310 are mixed so as to be more reliably changed up and down, all the samples are in contact with the gas to react.

In this case, the size and number of the protrusion plate 314 may be variously applied according to various conditions such as the physical characteristics of the sample to be injected into the sample tube 300 or the rotational speed of the sample tube 300.

7 is a perspective view of the tension unit 640 included in the present invention.

The sample reactor according to the present invention includes a tension unit 640 for elastically pressing the mounting shaft 330 toward the driving roller 620 so that the mounting shaft 330 can be stably rotated when the driving roller 620 is rotated. It may further include.

As shown in FIG. 7, the tension unit 640 includes a main bracket 641 coupled to an upper side of the mounting shaft 330 of the rear outer surface of the main body 100, and a length direction thereof is directed upward and downward. The slide bar 642 coupled to the main bracket 641, the slide block 643 mounted to the slide bar 642 to be movable in the vertical direction, and the structure rotatable to the slide block (643) Is coupled but the outer peripheral surface comprises a rolling roller 644 in contact with the outer surface of the mounting shaft 330, and an elastic spring 645 for applying an elastic force to the slide block (643) in the direction toward the mounting shaft 330 It is configured by.

When the tension unit 640 configured as described above is provided, the rolling roller 644 presses the mounting shaft 330 downward by the elastic force of the elastic spring 645, and the mounting shaft 330 is a driving roller ( It is pressed to the 620, the rotational force of the drive roller 620 can be more surely transmitted to the mounting shaft 330. That is, since the mounting shaft 330 is not rotated and only the driving roller 620 is prevented from disappearing, the rotational speed and the rotation speed of the sample pipe 300 can be more precisely controlled.

In the present embodiment, only the case in which the tension unit 640 is composed of the main bracket 641, the slide bar 642, the slide block 643, the rolling roller 644 and the elastic spring 645, the The tension unit 640 may be replaced with any structure as long as it can elastically press the mounting shaft 330 toward the driving roller 620.

8 to 13 sequentially illustrate the installation process of the sample reactor according to the present invention.

In the case of using the sample reactor according to the present invention, first, the sample tube 300 as shown in FIGS. 9 and 10 in the state in which the door 200 is separated as shown in FIG. Insert it inward. At this time, the end of the mounting shaft 330 of the sample tube 300 is inserted into the mounting hole 110 formed on the rear side wall of the main body 100.

When the insertion of the sample tube 300 is completed, as shown in FIGS. 11 and 12, the door 200 is mounted on the main body 100 to isolate the inside of the main body 100 from the outside. At this time, the end of the input unit 320 is to pass through the insertion hole 210 formed in the door 200, the sample tube 300 is stable so that the longitudinal direction is in the horizontal direction as shown in FIG. It will remain seated.

On the other hand, when the door 200 is coupled to the main body 100, the door 200 must be further moved rearward with the end of the input unit 320 inserted into the insertion hole 210. The door 200 ) In the process of horizontally moving the rear or fixing the door 200 to the main body 100 when the door 200 moves in the up and down and left and right directions may be a phenomenon that the input unit 320 is damaged. have.

Therefore, the sample reactor according to the present invention includes a plurality of guide bars extending in a horizontal direction from the edge of the opening of the front of the main body 100 in order to prevent damage to the sample tube 300 in the process of mounting the door 200 ( 120 and a plurality of guide blocks 220 coupled to the edge of the door 200 and fastened to penetrate the end of the guide bar 120 may be further provided.

Since the guide bar 120 is inserted into the guide block 220 in a fitting manner, even when an external force is applied to the door 200 in the vertical and horizontal directions while the door 200 is horizontally moved backward, the door ( 200 is not to move up and down and left and right, it is possible to prevent the breakage of the injection unit 320.

As described above, when the mounting of the door 200 is completed, as shown in FIG. 13, the mask 500 is mounted at the end of the inlet 320, and then the gas supply pipe 530 is provided via the rotary joint 520. ) To the mask 500 (see Fig. 3), it is possible to make the inside of the sample tube 300 into a gas atmosphere.

14 is a side view illustrating a coupling structure of the fixing bracket 540 mounted to the rotary joint 520.

In the sample reactor according to the present invention, the sample tube 300 is rotated so that all samples can effectively react. When the gas supply tube 530 rotates together with the sample tube 300, the sample tube is twisted as the number of rotations increases. Is generated, and if the kink is continued, the gas supply pipe 530 is broken.

At this time, the sample reactor according to the present invention, the gas supply pipe 530 is connected to the mask 500 as a connecting medium so that the gas supply pipe 530 does not rotate when the sample pipe 300 rotates. When the rotary joint 520 rotates along the sample tube 300 as a whole, it is impossible to prevent twisting of the gas supply tube 530.

In this case, the rotary joint 520 is divided into a rotating part 522 screwed to the fastening hole 510 and a fixing part 524 to which the gas supply pipe 530 is connected. Thus, the sample reactor according to the present invention A fixing bracket 540 having one end fixedly coupled to the fixing part 524 of the rotary joint 520 and the other end fixedly coupled to the door 200 may be further provided.

When the fixing bracket 540 is additionally provided as described above, the fixing part 524 of the rotary joint 520 does not rotate when the sample tube 300 and the mask 500 coupled thereto are not rotated. There is an advantage that the gas supply pipe 530 connected to the fixing part 524 is not twisted. In this case, the fixing bracket 540 may be formed in any shape and any structure as long as it can fix the fixing part 524 of the rotary joint 520.

As mentioned above, although this invention was demonstrated in detail using the preferable Example, the scope of the present invention is not limited to a specific Example and should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: main body 110: mounting hole
120: guide bar 200: door
210: insertion hole 220: guide block
300: sample tube 310: body portion
312: plate 314: protrusion plate
320: input unit 330: mounting shaft
400: heating part 410: insulating block
500: mask 510: fastening hole
520: rotary joint 522: rotating part
524: fixing part 530: gas supply pipe
540: fixing bracket 600: drive motor
610: motor pulley 620: driving roller
630: power transmission belt 640: tension portion
641: main bracket 642: slide bar
643: slide block 644: rolling roller
645: elastic spring 650: idle roller

Claims (9)

A main body having an inner space in which the front is opened and a mounting hole formed in the rear wall;
A door mounted to the main body to cover the open front of the main body and having an insertion hole formed at a position corresponding to the mounting hole;
A body having an internal space filled with a sample, an inlet portion extending in a horizontal direction from the front of the body so as to communicate with the internal space of the body, and having an end passing through the insertion hole, and extending in a horizontal direction from the rear of the body A sample tube having a mounting shaft having an end penetrating the mounting hole;
A heating unit mounted inside the main body to heat the body of the sample tube;
A mask covering an open end of the input part and having a fastening hole communicating with an internal space of the input part;
A gas supply pipe mounted to the fastening hole and supplying gas into the sample pipe;
Sample reactor comprising a. The method according to claim 1,
A pair of support rollers provided on an outer surface of the door to support an input unit extending outwardly of the door;
A driving roller and an idle roller provided on the rear outer surface of the main body so as to support the mounting shaft extending out of the main body;
A drive motor for rotating the drive roller;
Sample reactor, characterized in that it further comprises. The method according to claim 2,
The motor shaft is mounted to the drive shaft of the drive motor,
Sample reactor further comprises a power transmission belt connecting the motor pulley and the drive roller. The method according to claim 3,
Sample reactor further comprises a tension unit for elastically pressing the mounting shaft toward the drive roller side. The method according to claim 4,
The tension unit,
A main bracket coupled to an upper side of the mounting shaft of the rear outer surface of the main body, a slide bar coupled to the main bracket such that a longitudinal direction thereof is directed upward and downward, a slide block mounted to the slide bar to move upward and downward; And a rolling roller coupled to the slide block in a rotatable structure, the outer circumferential surface of which is in contact with an outer surface of the mounting shaft, and an elastic spring for applying elastic force to the slide block in a direction toward the mounting shaft. Sample reactor. The method according to claim 2,
A rotary joint divided into a rotating part screwed to the fastening hole and a fixing part to which the gas supply pipe is connected;
A fixing bracket having one end fixedly coupled to the fixed portion of the rotary joint and the other end fixedly coupled to the door;
Sample reactor, characterized in that it further comprises. The method according to claim 2,
A diaphragm is formed between the body and the mounting shaft,
Sample reactor, characterized in that the inner surface of the body is formed with a protruding plate extending toward the rotation axis. The method according to claim 1,
Sample reactor further comprises a heat insulating block coupled to cover the inner surface of the body and the inner surface of the door. The method according to claim 1,
A sample reactor further comprises a plurality of guide bars extending in a horizontal direction from the edge of the opening of the front of the main body, and a plurality of guide blocks coupled to the edge of the door and fastened so that the ends of the guide bars penetrate. .

Images