KR102086208B1 - Apparatus for analysing component of metal - Google Patents

Abstract

An apparatus for analyzing the contents of metals is disclosed.
Device for analyzing the components of metal according to an embodiment of the present invention device apparatus; A component analyzer provided in the apparatus main body to analyze a component of a metal sample; And a pair of holding fingers through which a sample container containing a metal sample is placed, and the pair of holding fingers move in at least one direction of front, rear, left and right, and top and bottom so that the sample container is transferred to the component analyzer. unit; It may include.

Description

Metal component analysis device {APPARATUS FOR ANALYSING COMPONENT OF METAL}

The present invention relates to a metal component analysis device for analyzing the components contained in the metal.

In order to analyze the carbon and sulfur content in the steel, the sample and the coagulant are put into the sample container and heated. As a result, gas is generated while the sample is melted, and the generated gas is analyzed through a gas analyzer to analyze carbon or sulfur content in the steel.

Conventionally, the sample container was transferred to a device for melting and analyzing the sample using a rotary table and a relatively long clamper.

However, in the transfer of the sample container according to the conventional configuration, the sample container is not transferred to the correct position, so it takes a lot of time to calibrate the sample, which delays the analysis and causes the work to be overworked, which lowers the work efficiency and may cause the analysis device to break. It was.

Japanese Patent Publication No. 5684674 (announced on March 18, 2015)

The present invention is made by recognizing at least one of the above-mentioned demands or problems.

One aspect of the present invention includes a pair of mounting fingers in which a sample container containing a metal sample is mounted, and the pair of mounting fingers moves in at least one of the front, rear, left and right directions, and the sample container moves to the component analysis unit. This is to ensure that the sample container is transferred to the correct position.

An apparatus for analyzing components of metals related to an embodiment for realizing at least one of the above problems may include the following features.

Apparatus for analyzing metal-containing components according to one embodiment of the present invention includes an apparatus body; A component analyzer provided in the apparatus main body to analyze a component of a metal sample; And a pair of holding fingers through which a sample container containing a metal sample is placed, and the pair of holding fingers move in at least one direction of front, rear, left and right, and top and bottom to transfer the sample container to the component analyzer. unit; It may include.

In this case, the container transfer unit can be moved in the left and right directions to the component analysis unit after ascending in a state in which the pair of mounting finger is advanced to mount the sample container seated in the seating hole formed in the device body.

In addition, the container transfer unit is a pair of the finger to move to the component analysis unit while the sample container is mounted is lowered to place the sample container on the container support included in the component analysis unit and the mounting of the sample container Can be turned off.

In addition, the container transfer unit may be reversed after the pair of holding fingers release the mounting of the sample container and moved back and forth to the opposite side of the component analysis unit to return to the original position.

In addition, the sample container containing the metal sample on which the component analysis completed on the container support is moved by moving the sample container containing the metal sample to be analyzed to the container support from left to right while being mounted on the pair of mounting fingers. Can be moved to the container waste portion provided in the device body.

In addition, the container transfer unit may include a finger driving unit for turning the pair of mounting fingers to the mounting position for mounting the sample container or to the release position releasing the mounting.

In addition, the finger driving unit may include a finger support plate provided to pivot the pair of mounting fingers.

The finger driving part is provided on the finger support plate to be movable between the pair of mounting fingers, the release driving member to pivot the pair of mounting fingers to the release position, and the finger support plate to be connected to the release driving member. It may further include a finger driving cylinder for moving the release driving member and an elastic member provided on the finger support plate to elastically support the pair of mounting finger to the mounting position.

In addition, the container transfer unit may further include a left and right moving unit to move the finger support plate to the left and right.

The left and right moving parts may include a left and right moving cylinder connected to the finger support plate, and a left and right moving support member provided to move the left and right moving cylinders.

In addition, the left and right movement supporting member may further comprise a shanghai east to move up and down.

The shanghai portion may include a shanghai cylinder connected to the left and right movement supporting members so that the left and right movement supporting members move up and down, and a shanghai moving support plate provided with the shanghai moving cylinder.

The apparatus may further include a front and rear moving unit for moving the shanghai support plate back and forth.

In addition, the front and rear movement unit may include a front and rear movement cylinder connected to the shandong movement support plate so that the shandong movement support plate is moved back and forth.

In addition, the component analysis unit may analyze the gas generated by melting the metal sample contained in the sample container placed on the container support to analyze the components of the metal sample.

The component analysis unit includes a heating unit for heating the metal sample contained in the sample container to melt, a pedestal moving cylinder connected to the container support to move the container support to the heating unit, and a gas generated by melting the metal sample. A gas collecting tube for collecting and a gas analyzer connected to the gas collecting tube for analyzing the gas.

In addition, the container waste portion may include a waste container for moving the sample container moved from the container support and a waste container provided below the end of the waste container guide.

As described above, according to an embodiment of the present invention, the sample container containing a metal sample includes a pair of mounting finger and a pair of mounting finger is moved to at least one direction of the front and rear, left and right and up and down the sample container By transporting the sample to the component analyzer, it is possible to ensure that the sample container is transferred to the correct position.

1 is a view showing an embodiment of an apparatus for analyzing a component of metal according to the invention.
Figure 2 is a view showing a container transfer unit of an embodiment of a metal-containing component analysis apparatus according to the present invention.
FIG. 3 is a view of FIG. 2 seen from the left rear.
4 is a view of FIG. 2 seen from the right rear;
5 is a view showing a component analysis unit of an embodiment of the metal component analysis apparatus according to the present invention.

In order to help the understanding of the features of the present invention as described above, one embodiment of a metal-containing component analysis device related to an embodiment of the present invention will be described in more detail.

The embodiments described below will be described based on the embodiments best suited for understanding the technical features of the present invention, and the technical features of the present invention are not limited by the described embodiments. It is to illustrate that the present invention can be implemented as in the embodiments. Accordingly, the present invention may be modified in various ways within the technical scope of the present invention through the embodiments described below, and the modified embodiments fall within the technical scope of the present invention. And, in order to help the understanding of the embodiments described below, in the reference numerals described in the accompanying drawings, among the components that will have the same function in each embodiment, the related components are denoted by the same or extension number.

Hereinafter, an embodiment of an apparatus for analyzing a component of metal according to the present invention will be described with reference to FIGS. 1 to 5.

1 is a view showing an embodiment of an apparatus for analyzing a component of metal according to the present invention.

In addition, Figure 2 is a view showing a container transfer unit of an embodiment of the metal-containing component analysis apparatus according to the invention, Figure 3 is a view of Figure 2 seen from the left rear, Figure 4 is a view of Figure 2 seen from the right rear Drawing.

5 is a view showing a component analysis unit of an embodiment of the device for analyzing the composition of metals according to the present invention.

An embodiment of the metal component analysis device 100 according to the present invention may include a device body 200, component analysis unit 300, and the container transfer unit 400.

The device body 200 may be provided with a component analysis unit 300. For example, the device body 200 is provided with a container support 310 to be described later included in the component analysis unit 300 to be moved up and down, the container support with a sample container (CR) mounted on the container support 310 A component analysis box 350 into which the 310 is moved and inserted may be provided.

The device body 200 may be provided with a container transfer unit 400. The container transfer unit 400 may be provided at a portion of the apparatus main body 200 on the left side of the container support 310 of the component analysis unit 300 as shown in FIG.

In addition, the device body 200 may be provided with a container waste 500. The container waste part 500 may be provided at a portion of the apparatus main body 200 on the right side of the container support 310 of the component analyzer 300 as shown in FIG. 1.

In addition, the apparatus main body 200 may also be provided with a display (DP), various gauges (GU), tubes (TB), and the like, showing the content of the analyzed metal.

The configuration of the apparatus body 200 is not particularly limited, and any configuration may be used as long as the component analysis unit 300, the container transfer unit 400, the container waste part 500, and the like may be provided.

Component analysis unit 300 may be provided in the device body 200 to analyze the components of the metal sample.

The component analysis unit 300 may include a container stand 310. As shown in FIG. 1, the container holder 310 may have a sample container CR transferred by the container transfer unit 400. In addition, the component analysis unit 300 may analyze the gas generated by melting the metal sample contained in the sample container CR placed on the container support 310 to analyze the components of the metal sample.

To this end, the component analysis unit 300, as shown in Figure 5, the heating unit 320, The pedestal moving cylinder 330, the gas collecting tube 340, and may include a gas analyzer (not shown). The heating unit 320 and the gas collection tube 340 of the above-described component analysis unit 300 is provided in the apparatus main body 200, the metal screen 351 is provided and the component analysis space 352 is formed therein. It may be provided in the above-described component analysis box 350.

The heating unit 320 may be heated to melt the metal sample contained in the sample container (CR). For example, the heating unit 320 may be configured to heat the metal sample contained in the sample container CR by the induction heating method. In this case, the sample container CR may contain a supporting agent together with a metal sample.

However, the configuration of the heating unit 320 is not particularly limited, and any configuration known in the art can be used as long as it can heat the metal sample contained in the sample container CR.

The pedestal moving cylinder 330 may be connected to the vessel holder 310 to move the vessel holder 310 to the heating unit 320.

The sample container CR, which is transferred to the vessel holder 310 under the component analysis box 350 by the container transfer unit 400 and placed on the vessel holder 310, is moved, for example, lifted by the pedestal moving cylinder 330. Can be. And, the container holder 310 and the sample container (CR) mounted on the container holder 310 is the component of the component analysis box 350 through the open portion of the lower portion of the component analysis box 350 as shown in FIG. It may move to the analysis space 352. As a result, the sample container CR may be positioned in the heating unit 320. In addition, the sample container (CR) containing the metal sample that has been melted by the heating unit 320 and the component analysis is completed is moved by, for example, lowered by the pedestal moving cylinder 330 while being placed on the container holder 310. 310 may be returned to the original position below the component analysis box 350.

The gas collecting tube 340 may collect the gas generated by melting the metal sample. To this end, the gas collection tube 340 is provided to communicate with the open upper portion of the sample container (CR) adjacent to the heating unit 320 in the component analysis space 352 through the upper portion of the component analysis box 350. Can be.

The gas analyzer may be connected to the gas collecting tube 340 to analyze the gas. The gas analyzer is not particularly limited, and any gas analyzer can be used as long as the gas analyzer can be analyzed.

The container transfer unit 400 may include a pair of mounting fingers 410 on which a sample container (CR) containing a metal sample is mounted. In addition, the container transfer unit 400 is a pair of mounting finger 410 is moved in at least one direction of the front and rear, left and right and up and down, so that the sample container (CR) is the component analysis unit 300, for example, component analysis box 350 ) Can be moved to the container support 310 below.

Accordingly, the sample container CR can be accurately transferred to the container support 310 of the component analysis unit 300. Therefore, the sample container is not transported to the correct position as in the prior art, so it does not take much time to calibrate it, so that the analysis is not delayed and the work is not overworked, thereby improving work efficiency and damaging the analysis device by the sample container (CR). It may not be.

The container transfer unit 400 is moved up in a state in which a pair of mounting finger 410 is advanced to pass the sample container (CR) seated in the seating hole 211 formed in the device body 200, component analysis unit 300 ) Side to the left and right to move. 1 and 2, the mounting hole 211 is provided on the left side of the container support 310 of the component analysis unit 300 and may be formed in the mounting table 210 included in the device body 200. have.

In addition, the container transfer unit 400 is a pair of holding finger 410 moved to the component analysis unit 300 while the sample container (CR) is lowered to lower the sample container (CR) component analysis unit 300 Put on the vessel holder 310 of the) and can release the mounting of the sample container (CR).

In this case, the sample container CR containing the metal sample to be analyzed was placed on the container support 310 by moving left and right in the container support 310 while being mounted on a pair of mounting fingers 410. The sample container (CR) containing the metal sample of which the component analysis is completed may be moved to the container waste part 500 provided in the apparatus main body 200.

In addition, the container transfer unit 400 is a pair of mounting fingers 410 to release the mounting of the sample container (CR) after the reverse and move to the left and right in the opposite direction to the component analysis unit 300 to return to the original position Can be.

To this end, the container transfer unit 400 may include a finger driving unit 420, the left and right moving unit 430, the Shanghai moving unit 440, and the front and rear moving unit 450.

The finger driving unit 420 may allow the pair of mounting fingers 410 to be pivoted to a mounting position for mounting the sample container CR or to a release position for releasing the mounting.

The finger driver 420 may include a finger support plate 421, a release driver 422, a finger driver cylinder 423, and an elastic member (not shown).

The finger support plate 421 may be provided such that the pair of mounting fingers 410 pivot. As illustrated in FIG. 2, the finger support plate 421 may be provided such that a plurality of pairs of mounting fingers 410 pivot side by side. However, the finger support plate 421 may be provided such that only a pair of mounting fingers 410 is pivoted, and the number of pairs of mounting fingers 410 is not particularly limited and may be any number.

The release driving member 422 may be provided on the finger support plate 421 to be movable between the pair of mounting fingers 410, such that the pair of mounting fingers 410 is pivoted to a dismantled position. In addition, the finger driving cylinder 423 may be provided on the finger support plate 421 to be connected to the release driving member 422 to move the release driving member 422. Accordingly, by the driving of the finger driving cylinder 423, the release driving member 422 is moved in one direction between the pair of mounting fingers 410 so that the pair of mounting fingers 410 can be pivoted to the disassembled position. have. And, by this, the mounting of the sample container (CR) by a pair of mounting finger 410 can be released.

The elastic member may be provided on the finger support plate 421 to elastically support the pair of mounting fingers 410 to the mounting position. When the release driving member 422 is moved in the other direction between the pair of mounting fingers 410 by driving the finger driving cylinder 423, the pair of mounting fingers 410 are placed by the elastic force of the elastic member. Can be turned into. As a result, the sample container CR may be mounted on the pair of mounting fingers 410.

The left and right moving parts 430 may allow the finger support plate 421 to move left and right. As a result, the pair of mounting fingers 410 may move in the left and right directions. To this end, the left and right moving parts 430 are left and right moving cylinders 431 connected to the finger support plate 421 and the left and right moving support members 432 to which the left and right moving cylinders 431 are movable as shown in FIG. 4. ) May be included. Then, the finger support plate 421 moves along the left and right movement support member 432 by the left and right movement cylinder 431, so that the pair of mounting fingers 410 provided in the finger support plate 421 move in the left and right direction. Can be.

Shanghai East 440 may allow the left and right movement supporting member 432 to move up and down. As a result, the pair of mounting fingers 410 may move in the vertical direction. To this end, the shanghai east part 440 is a shanghai comrade cylinder having a shanghai east cylinder 441 and a shanghai east cylinder 441 connected to the left and right moving support members 432 so that the left and right moving support members 432 move up and down. Fingerboard 442 may be included. Then, the left and right movement support member 432 moves up and down by driving the Shanghai movable cylinder 441, and the left and right movement cylinder 431 together with the left and right movement cylinder 431 provided to be movable in the left and right movement support member 432. ) Is provided with a finger support plate 421 may move up and down to move a pair of mounting finger 410 in the vertical direction.

The front and rear moving part 450 may allow the Shanghai moving support plate 442 to move back and forth. Thereby, the pair of mounting fingers 410 can move up and down. To this end, the front and rear movement unit 450 may include a front and rear movement cylinder 451 connected to the Shanghai movement support plate 442 and provided in the apparatus main body 200 so that the Shanghai movement support plate 442 is moved back and forth. In addition, the Shanghai copper support plate 442 is moved back and forth by the forward and backward movement cylinder 451 so that the Shanghai copper cylinder 441 is connected to the Shanghai copper cylinder 441 provided in the Shanghai copper support plate 442. The left and right moving cylinders 431 and the left and right moving cylinders 431 provided with the movable member 432 and the left and right moving support member 432 are moved forward and backward to move back and forth a pair of mounting fingers ( 410 may move forward and backward.

Meanwhile, the container waste part 500 may include a waste container 510 and a waste container 520.

The waste container guide 510 may be provided at a portion of the apparatus main body 200 on the right side of the container support 310 of the component analyzer 300 as shown in FIG. 1. In addition, the sample container CR moved from the container holder 310 as described above by the container transfer unit 400 may move along the waste container guide 510.

The waste container 520 may be provided below the end of the waste container 510. Accordingly, the sample container CR moved along the waste container guide 510 may be contained in the waste container box 520.

As described above, when using the metal-containing component analysis apparatus according to the present invention, the sample container containing a metal sample is mounted, and a pair of pinch fingers are mounted, the pair of pinch fingers at least one of the front and rear, left and right, and top and bottom By moving in the direction to ensure that the sample container is transferred to the component analyzer to ensure that the sample container is transferred to the correct position.

The apparatus for analyzing components of metals as described above is not limited to the configuration of the above-described embodiments, but the embodiments are configured by selectively combining all or some of the embodiments so that various modifications can be made. May be

100: component analysis of metals 200: device body
210: seating table 211: seating hole
300: component analysis unit 310: container support
320: heating unit 330: pedestal moving cylinder
340: gas collecting tube 350: component analysis box
351: metal screen 352: component analysis space
400: container transfer unit 410: mounting finger
420: finger driver 421: finger support plate
422: releasing drive member 423: finger driving cylinder
430: left and right moving unit 431: left and right moving cylinder
432: left and right moving support member 440: East Shanghai
441: Shanghai East cylinder 442: Shanghai East support plate
450: before and after moving unit 451: before and after moving cylinder
500: container waste 510: waste container guide
520: waste container CR: sample container
DP: display GU: gauge
TB: Tube

Claims (17)

Device body;
A component analyzer provided in the apparatus main body to analyze a component of a metal sample; And
And a pair of holding fingers on which a sample container containing a metal sample is mounted, wherein the pair of holding fingers move in at least one direction of front, rear, left and right, and top and bottom so that the sample container is transferred to the component analyzer. ; Including;
The container transfer unit includes a finger driving unit for pivoting the pair of mounting fingers to the mounting position for mounting the sample container or to the release position releasing the mounting,
The finger driving unit includes a finger support plate provided to pivot the pair of mounting fingers,
Wherein the finger support plate is a metal-containing component analysis device which is provided so that a plurality of the pair of mounting fingers side by side. The container transfer unit of claim 1, wherein the container transfer unit is advanced in a state in which the pair of mounting fingers moves forward to ascend in a state of mounting a sample container seated in a seating hole formed in the apparatus body, and then moves to the component analyzing unit sidewardly. Metal-containing component analysis device. According to claim 2, wherein the container transfer unit is moved to the component analysis unit while passing through the sample container is a pair of holding finger is lowered to place the sample container on the container base included in the component analysis unit and the sample container Device for analyzing the composition of the metal to release the mounting. The method of claim 3, wherein the container transfer unit is a component analysis of the metal so that the pair of holding finger is released after the mounting of the sample container to move backward and move to the left and right to the opposite side of the component analysis unit to return to the original position Device. The metal sample of claim 3, wherein the sample container containing the metal sample to be analyzed is moved to the container support in a left-right direction while being mounted on the pair of mounting fingers. A device containing an analysis of a metal component is moved to a container waste portion provided in the sample body containing the device. delete delete According to claim 1, wherein the finger driving portion is provided on the finger support plate to be movable between the pair of mounting finger to release the driving member, the pair of mounting finger to pivot to the release position, connected to the release driving member And a finger driving cylinder provided on the finger support plate to move the release driving member, and an elastic member provided on the finger support plate to elastically support the pair of mounting fingers to a mounting position. . The device of claim 1, wherein the container transfer unit further comprises a left and right moving unit configured to move the finger support plate from side to side. 10. The apparatus of claim 9, wherein the left and right moving parts comprise a left and right moving cylinder connected to the finger support plate, and a left and right moving support member provided to move the left and right moving cylinders. 11. The metal component analysis apparatus according to claim 10, further comprising a shanghai part for moving the left and right moving support members up and down. 12. The metal-containing component according to claim 11, wherein the shanghai moving part comprises a shanghai cylinder connected to the left and right movement supporting member so that the left and right movement supporting member moves up and down, and a shanghai supporting plate provided with the shanghai moving cylinder. Analysis device. The metal-containing component analysis device of claim 12, further comprising a front and rear moving unit configured to move the shanghai support plate back and forth. The apparatus of claim 13, wherein the front and rear moving part comprises a front and rear moving cylinder which is connected to the shanghai moving support plate to move the shanghai moving support plate forward and backward and is provided in the device body. The apparatus of claim 3, wherein the component analyzing unit analyzes a gas generated by melting a metal sample contained in the sample container mounted on the container support, and analyzes a component of the metal sample. The method of claim 15, wherein the component analysis unit is a heating unit for heating the metal sample contained in the sample container, a pedestal moving cylinder connected to the container support to move the container support to the heating unit, the metal sample is melted And a gas collecting tube for collecting the generated gas and a gas analyzer connected to the gas collecting tube to analyze the gas. The device of claim 5, wherein the container waste part comprises a waste container guide through which a sample container moved from the container support moves, and a waste container provided under an end of the waste container guide.

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