KR101406522B1 - Apparatus for sampling specimen - Google Patents

Abstract

The specimen sampling apparatus according to an embodiment of the present invention includes a device body portion provided on a movement path of a material and a movable specimen provided in association with the device body portion and adapted to extract a specimen from the material while interlocking with movement of the material. And an extracting unit.
In addition, the specimen extracting unit of the specimen sampling apparatus according to an embodiment of the present invention may include a moving unit linked to the apparatus body unit and interlocked with the movement of the material, a closing unit connected to the moving unit, And punching means associated with the moving means and provided to extract the specimen from the workpiece.

Description

Apparatus for sampling specimen

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a specimen sampling apparatus, and more particularly, to a specimen sampling apparatus that punches a specimen of a workpiece along a workpiece without stopping the continuous process.

Through a series of steelmaking and ironing processes to separate pig iron from iron ore, steelmaking processes are used to obtain iron that can be applied to our daily lives. Such iron is used in a wide range of fields such as ships, construction, vehicles, industrial machinery, electric appliances, office equipment, and home appliances, so it must be produced with characteristics suited to each field.

On the other hand, the types and amounts of nonmetallic elements such as carbon, sulfur, nitrogen, and oxygen, which are metal elements contained in metals such as steel materials, largely determine the properties of metal materials, Is very important for the characterization and quality control of steel materials.

Therefore, steel mills analyze the components of molten steel, molten steel, and slag in the blast furnace process, and use them as basic data for the next process. In order to improve the quality of the next process, specimens are sampled and analyzed .

It is also necessary to collect specimens in the hot dip galvanizing process, in which rolled coils are continuously supplied and heat treated at a constant temperature, and then plated through an iron plate in a galvanizing bath to be melted. That is, in order to analyze the amount plated on the surface of the coated steel sheet, it is necessary to collect and analyze the specimen of the coated steel sheet.

In order to collect such specimens of plated steel sheets, conventionally, there was a risk of a safety accident because a continuous line was stopped and a worker took the specimen using a manual punching machine.

In addition, since the plating layer adhering to the surface of the moving material in the plating bath flows and hardens due to stopping the continuous operation of the process in the plating bath, the material is wasted due to the inability to use the material of the portion, Defects and scrap are generated.

On the other hand, since the high-strength steel sheet is difficult to be manually punched, it is necessary to take the test piece by using a cutting machine, and thus, it takes a long time to work.

Therefore, it is necessary to study a sample-sampling apparatus for solving the above-mentioned problems.

SUMMARY OF THE INVENTION An object of the present invention is to provide a specimen sampling apparatus that automatically collects specimens without stopping the continuous process to improve process productivity and prevent the occurrence of safety accidents.

The specimen sampling apparatus according to an embodiment of the present invention includes a device body portion provided on a movement path of a material and a movable specimen provided in association with the device body portion and adapted to extract a specimen from the material while interlocking with movement of the material. And an extracting unit.

In addition, the specimen extracting unit of the specimen sampling apparatus according to an embodiment of the present invention may include a moving unit linked to the apparatus body unit and interlocked with the movement of the material, a closing unit connected to the moving unit, And punching means associated with the moving means and provided to extract the specimen from the workpiece.

Further, the moving means of the specimen sampling apparatus according to an embodiment of the present invention may include a moving member to which the closing means and the punching means are connected and a guide member for guiding the moving member in association with the apparatus body portion have.

The moving means of the specimen sampling apparatus according to an embodiment of the present invention further includes a weight member connected to the moving member and a connecting member and a moving member driving member associated with the connecting member so that the moving member can move up and down .

Further, the tightening means of the specimen sampling apparatus according to an embodiment of the present invention includes a fixing plate fixed to the moving means and having a fixing plate groove for receiving the punching means, and a pressing plate punching hole through which the punching means can pass And a pressure plate that is in contact with the moving means and closely adheres the work to the fixing plate.

In addition, the specimen sampling apparatus according to an embodiment of the present invention may further include a collecting section provided in the apparatus body section or the moving section for moving the specimen to the specimen collecting position, A specimen guide provided to the moving means, a specimen release prevention loop provided in the specimen guide, and a specimen collection box in which the specimen transferred from the specimen guide is collected.

Further, the specimen sampling apparatus according to an embodiment of the present invention may further include a speed sensing sensor for sensing the speed of the moving means, and may further include a control unit connected to the moving means for controlling the relative speed of the moving means and the workpiece .

The specimen sampling apparatus according to the present invention has an advantage that a specimen of a material in a continuous process can be extracted without stopping the process. As a result, the consumption time is reduced to improve the productivity of the process and to secure the competitiveness of the product.

In addition, there is an advantage that it is possible to prevent the occurrence of unusable material during the process due to the stoppage of the process.

On the other hand, since the extraction of the specimen is performed automatically, there is an advantage that the risk of the safety accident that may occur when the operator extracts it directly occurs. Thereby, there is an advantage that waste of manpower can be prevented.

FIG. 1 is a perspective view schematically showing a specimen sampling apparatus according to an embodiment of the present invention.
2 is a front view schematically showing a specimen sampling apparatus according to an embodiment of the present invention.
3 is a side view schematically showing a specimen sampling apparatus according to an embodiment of the present invention.
4 is a partial cut-away plan view schematically illustrating a moving means and a punching means of a specimen sampling apparatus according to an embodiment of the present invention.
5 is a partial cut-away plan view schematically showing a moving means and a tightening means of a sample-sampling apparatus according to an embodiment of the present invention.
6A to 6E are operational state diagrams schematically showing a specimen sampling apparatus according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

FIG. 1 is a perspective view schematically showing a specimen sampling apparatus 1 according to an embodiment of the present invention, FIG. 2 is a front view schematically showing a specimen sampling apparatus 1 according to an embodiment of the present invention, 3 is a side view schematically showing a specimen sampling apparatus 1 according to an embodiment of the present invention.

1 to 3, a specimen sampling apparatus 1 according to an embodiment of the present invention includes a device body 10 provided on a moving path of a work 2, And a mobile specimen extractor 20 provided to extract the specimen 3 from the workpiece 2 in conjunction with the movement of the workpiece 2 in association with the movement of the workpiece 2.

The specimen extracting unit 20 of the specimen sampling apparatus 1 according to an embodiment of the present invention includes a moving means 200 linked to the apparatus body 10 and interlocked with the movement of the workpiece 2, A tightening means 300 connected to the moving means 200 and tightly attached to the workpiece 2 and a pressing means 300 connected to the moving means 200 and provided to extract the test piece 3 from the workpiece 2 And may include punching means (100).

The moving means 200 of the specimen sampling apparatus 1 according to an embodiment of the present invention may further include a moving member 210 to which the tightening means 300 and the punching means 100 are connected, And a guide member 220 coupled to the movable member 210 to guide the movable member 210.

The moving means 200 of the specimen sampling apparatus 1 according to the embodiment of the present invention may further include a moving member 210 and a connecting member 240 such that the moving member 210 can move up and down The weight member 230 and the moving member driving member 250 associated with the connecting member 240 may be further included.

The specimen sampling device 1 of the present invention is an invention capable of extracting the specimen 3 of the material 2 on-line without stopping the continuous process. To this end, the specimen sampling apparatus 1 may provide a device body 10 and a specimen extractor 20. Accordingly, the consumption time for the extraction of the test piece 3 is reduced, so that the productivity of the process is improved and the competitive power of the product can be ensured.

In addition, when the plating process is included, the plating layer adhered to the surface of the material 2 moving in the plating bath flows and hardens due to stopping the continuous operation, so that the material (2) 2) is wasted, and defects and scrap of the material (2) are prevented from being generated during the process of cutting and removing the unusable material (2).

On the other hand, since the extraction of the test piece 3 is automatically performed, there is an advantage that the risk of a safety accident that may occur when the operator extracts it directly occurs. Thereby, there is an advantage that waste of manpower can be prevented.

The apparatus body 10 supports the specimen extractor 20 to extract the specimen 3 from the specimen 2 in cooperation with the specimen extractor 20. The apparatus body 10 includes a lower plate 11 or an upper plate 12 to which the sample extracting unit 20 is coupled and a lower plate 11 coupled to the lower plate 11, And a support member 13 for supporting the extraction unit 20.

The guide member 220 of the sample extracting unit 20 may be coupled between the lower plate 11 and the upper plate 12. [ A moving member driving member 250 for driving the moving member 210 of the specimen extracting unit 20 may be coupled to the top plate 12. The description will be made in detail in the section for explaining the specimen extracting section 20.

The support member 13 serves to support the specimen extracting unit 20 via the lower plate 11 and the upper plate 12 provided with the specimen extracting unit 20. For this purpose, an H-shaped beam or the like may be applied to the support member 13. However, the present invention is not limited thereto, and it may be the support member 13 of the present invention as long as it can support the sample extracting unit 20 through the lower plate 11 and the upper plate 12.

The specimen extracting unit 20 extracts the specimen 3 from the workpiece 2 in the continuous process during operation. To this end, the specimen extracting section 20 may include a moving means 200, a contact means 300, and a punching means 100.

The punching means 100 serves to extract the specimen 3 from the workpiece 2. A detailed description thereof will be described later with reference to Fig.

The tightening means 300 closely cooperates with the workpiece 2 to assist in extracting the workpiece 3 from the workpiece 2 to which the punching means 100 moves. A detailed description thereof will be given later with reference to Fig.

The moving means 200 is interlocked with the movement of the workpiece 2 and moves the punching means 100 so that the punching means 100 can separate the test piece 3 without stopping the process . That is, the moving means 200 can move the punching means 100 while keeping the speed at the same speed as the moving speed of the workpiece 2, so that the specimen 3 can be extracted from the workpiece 2 . To this end, the moving means 200 may include a moving member 210 and a guide member 220.

The moving member 210 serves to move the tightening means 300 and the punching means 100 in conjunction with movement of the work 2. [ To this end, the moving member 210 may be configured to move along the workpiece 2. [ Meanwhile, the shape of the moving member 210 may be "C" so that the workpiece 2 can be drawn in. However, the shape of the movable member 210 is not limited to this shape and may be the shape of the moving member 210 of the present invention, provided that the material 2 can be inserted. Meanwhile, the moving member 210 may be provided with a moving member guide hole through which the guide member 220, which will be described later, can pass.

The guide member 220 may provide a moving member guide 221 for guiding the moving member 210 to move along the work 2. [ To this end, the moving member guide 221 may be coupled to the device body 10. Specifically, when the work 2 moves up and down, the moving member guide 221 is provided between the upper plate 12 and the lower plate 11 to guide the moving member 210 up and down . However, if the work 2 does not move up and down, the moving member guide 221 may be provided to the apparatus body 10 along the movement path of the work 2. [ The movable member guide 221 is not limited as long as it is capable of guiding the movable member 210 and the movable member 210 can be guided by the movable member 210. However, it is preferable that the movable member guide 221 is provided so as to pass through each corner of the movable member 210 for a stable guide.

Further, the guide member 220 may further include a weight member guide 222 for guiding the weight member 230, which will be described later in detail with reference to the description of the weight member 230 .

The moving means 200 may further include a weight member 230, a connecting member 240, and a moving member 240 for driving the moving member 210 when the workpiece 2 moves up and down in the vertical direction of the ground surface, Member driving member 250. [0050]

The weight member 230 is connected to the moving member 210 via the connecting member 240 so as to move the moving member 210 when the moving member driving member 250 is driven, Is provided for weight balance with the member 210. That is, the driving of the moving member 210 is provided so that the moving member 210 can be moved up and down according to the rotating direction of the moving member driving member 250. That is, the moving member 210 is moved up and down on a principle similar to the principle of an elevator. Therefore, the weight of the weight member 230 may be set to a weight corresponding to the weight of the connecting member 240 connected to the moving member 210.

On the other hand, the weight member 230 can be guided up and down by the weight member guide 222. To this end, the weight member 230 may be provided with a weight member guide hole through which the weight member guide 222 can pass. Although the arrangement and the number of the weight member guides 222 are included in the present invention as long as they are capable of guiding the weight member 230 up and down in the present invention, As shown in FIG.

The connecting member 240 serves to connect the moving member 210 and the weight member 230. That is, the connecting member 240 is connected by the moving member 210 and the moving member linker 211 formed on the moving member 210, and the weight member 230 is connected to the weight member 230 The weight member linker 231 may be connected to the weight member. The connecting member 240 may be the connecting member 240 of the present invention if it can connect the moving member 210 and the weight member 230. For example, a chain or wire may be applied to the connecting member 240.

The moving member driving member 250 serves to move the moving member 210 up and down via the connecting member 240. To this end, the movable member driving member 250 may be associated with the connecting member 240. That is, when the connecting member 240 is a chain or a wire, a pulley having a shape corresponding thereto is provided to transmit the driving force to the connecting member 240, which is the chain or wire, . On the other hand, the driving force of the moving member driving member 250 may be provided by a driving member such as a motor. However, it may be included in the present invention as long as it provides a driving force to the connecting member 240. In addition, the moving member driving member 250 may further include an acceleration / deceleration device for adjusting the driving force.

Meanwhile, the moving unit 200 may include a driving member capable of moving forward and backward to drive the moving member 210 when the workpiece 2 moves in a direction parallel to the ground surface. As an example, a cylinder, a motor, or the like may be used. However, the present invention is not limited thereto, and may be included in the present invention as long as it can drive the moving member 210 in a horizontal direction to the ground surface.

A specimen sampling apparatus 1 according to an embodiment of the present invention is provided to the apparatus body 10 or the moving means 200 and is configured to move the specimen 3 to a position for collecting the specimen 3 Wherein the collecting unit 30 includes a sample guide 31 provided in the apparatus body 10 or the moving means 200 and a sample separation preventing unit 30 provided in the sample guide 31, Loop 32 and a specimen collection box 33 from which the specimen 3 delivered from the specimen guide 31 is collected.

The specimen guide 31 is provided to the apparatus body 10 or the moving means 200 and transfers the specimen 3 discharged from the specimen extractor 20 to the specimen collection box 33 . That is, it is preferable that the test piece 31 is formed with a groove through which the test piece 3 is transferred.

In addition, a specimen separation preventing loop 32 may be formed in the specimen guide 31. The specimen release preventing loop 32 is configured to prevent the specimen 3 from being thrown away from the specimen guide 31 when the specimen 3 is discharged from the specimen extracting section 20, And a roof formed on the roof 31.

The specimen collection box 33 serves to collect the specimen 3 transferred from the specimen guide 31. The specimen collection box 33 is disposed below the specimen guide 31 so that the specimen 3 moved along the specimen guide 31 can be collected in the specimen collection box 33. [ can do.

The specimen sampling apparatus 1 according to an embodiment of the present invention provides a speed sensing sensor 41 for sensing the speed of the moving means 200. The moving means 200, And a control unit 40 connected to the moving unit 200 to adjust the relative speed of the moving unit 200.

The speed sensing sensor 41 senses the speed of the material 2 or the speed of the moving means 200. Thus, the control unit 40 provides data for controlling the speed of the moving unit 200. [

The control unit 40 is connected to the moving unit 200 and controls the speed of the moving unit 200. The relative speed of the material 2 and the moving means 200 is adjusted so that the contact means 300 and the punching means 100 connected to the moving means 200 can move the material 2, So that the specimen 3 can be extracted. It is preferable to set the relative speed between the material 2 and the moving means 200 to 0 m / s so that the speed of the material 2 and the moving means 200 are equal to each other for the extraction of the specimen 3 desirable.

The control unit 40 may be connected to the speed sensing sensor 41 to receive data on the speed of the material 2 and the moving means 200. The control unit 40 may be connected to the moving member driving member 250 to adjust the speed of the moving unit 200 so that the pressing unit 300 is in close contact with the workpiece 2 And may be connected to a platen drive member 324 to be described later. In addition, the controller 40 may be connected to the punching member 110 to adjust the time of extraction of the test piece 3.

4 is a partial cut-away plan view schematically illustrating a moving means 200 and a punching means 100 of a specimen sampling apparatus 1 according to an embodiment of the present invention.

Referring to FIG. 4, the punching means 100 of the specimen sampling apparatus 1 of the present invention may include a punching member 110 and a punching rod 120.

The punching means 100 serves to extract the specimen 3 from the workpiece 2. The punching means 100 may include a punching member 110 and a punching rod 120 which punches the punching rod 120 with a predetermined force And pressurizes rapidly to collect the specimen (3) from the material (2). The punching rod 120 may have a sharp end so that the test piece 3 can be separated from the work 2. [ However, it is preferable that the sharp portion is formed in the circumferential direction of the punching rod 120 in order to separate the test piece 3. The size of the specimen 3 to be sampled is preferably 30 mm in diameter for inspection of specimens, and the diameter of the punching rod 120 is preferably set to 30 mm.

On the other hand, the punching means 100 of the present invention can be used as long as the test piece 3 can be separated from the raw material 2. That is, not only the means for separating the specimen 3 from the workpiece 2 by using the punching rod 120, but also the cutting member having the straight blade formed thereon, ) May be included in the present invention.

5 is a partial cut-away plan view schematically showing the moving means 200 and the close-contact means 300 of the sample-sampling apparatus 1 according to an embodiment of the present invention.

5, the tightening means 300 of the specimen sampling apparatus 1 according to an embodiment of the present invention is fixed to the moving means 200 and includes a fixed plate groove (not shown) for receiving the punching means 100 And a pressing plate punching hole 321 through which the punching means 100 can pass is formed in the fixing plate 310. The fixing plate 310 is connected to the moving means 200, And a pressure plate 320 which is in close contact with the pressure plate 320.

The tightening means 300 closely cooperates with the workpiece 2 to support the punching means 100 to extract the specimen 3 from the workpiece 2. [ To this end, the contact means 300 may provide a fixing plate 310 and a pressure plate 320.

The fixing plate 310 is provided to be fixed to the moving means 200 and serves as a pedestal when the pressing plate 320 presses the work 2. A fixing plate groove 311 in which the punching rod 120 of the punching means 100 can be received may be formed in the fixing plate 310. This is because when the punching rod 120 performs a punching operation for extracting the test piece 3 from the workpiece 2, the punching rod 120 for securing the effective moving distance of the punching rod 120 for separating the test piece 3 will be.

In addition, the fixing plate 310 may be provided with a discharge hole 312 through which the test piece 3 separated from the workpiece 2 can be discharged. Accordingly, the specimen 3 discharged from the discharge hole 312 can be moved to the collecting part 30. [ The discharge hole 312 may be connected to the fixed plate groove 311 to receive the specimen 3 through the fixed plate groove 311.

The specimen guide 31 of the collecting unit 30 is coupled to the fixing plate 310 to guide the specimen 3 discharged from the discharging hole 312. The collecting unit 30 ) As described above.

The pressing plate 320 presses the workpiece 2 against the fixing plate 310 to closely contact the workpiece. To this end, the pressure plate 320 may provide a pressure plate driving member 324 and a pressure plate guide 323. That is, the pressure plate 320 is capable of closely contacting the workpiece 2 to the fixing plate 310 by receiving driving force from the pressure plate driving member 324 coupled to the moving member 210.

The pressing plate 320 can be moved along the pressing plate guide 323 provided on the supporting plate 330 coupled to the moving member 210 so that the pressing plate 320 can be guided by the fixing plate 310. For this, a pressing plate guide hole 322 through which the pressing plate guide 323 can pass may be formed on the pressing plate 320.

A pressing plate punching hole 321 may be formed in the pressing plate 320 so that the punching rod 120 of the punching means 100 passes through the pressing plate 320 to extract the test piece 3 from the workpiece 2 .

A supporting plate punching hole 331 through which the punching rod 120 can pass may also be formed in the support plate 330. The supporting plate 330 may be formed with a supporting plate driving member hole 332 through which the pressing plate driving member 324 for moving the pressing plate 320 can pass.

6A to 6E are operational state diagrams schematically showing a specimen sampling apparatus 1 according to an embodiment of the present invention.

6A to 6E, the operation of the specimen sampling apparatus 1 of the present invention will be described. FIG. 6A is a standby state before the specimen sampling apparatus 1 extracts the specimen 3, 6C shows a state in which the contact means 300 and the punching means 100 are moved in conjunction with the movement of the workpiece 2 and the specimen 3 Is separated from the material (2). 6D shows a state in which the separated sample 3 is collected by the collecting unit 30 and the tightening unit 300 is separated from the material 2. FIG. ) Have returned to their original position to extract another specimen (3).

More specifically, the specimen sampling apparatus 1 may be configured such that the moving member 210 is positioned on the upper side of the apparatus body 10, and the pressing plate 320 of the pressing means 300 is disposed on the material 2 It is retreated. At this time, the material (2) does not stop for the extraction of the test piece (3) but continues to move (M1) and remains on-line.

The pressing means 320 is moved forward by the pressing plate driving member 324 toward the fixing plate 310 so that the pressing member 320 is moved to the fixing plate 310 and the pressing plate 320, respectively. The contact means 300 is then preferably moved to follow the workpiece 2 at the same rate as the movement speed of the workpiece 2.

The punching member 100 operates the punching member 110 so that the punching rod 120 passes through the pressing plate punching hole 321 of the pressing plate 320 in close contact with the test piece 3 And separates the specimen 3 from the material 2. At this time, the moving member 210 moves (M3) at the same speed as the material 2. Accordingly, the contact means 300 and the punching means 100 provided to the moving member 210 are also moved (M3) at the same speed as the material 2. [

The specimen 3 extracted from the material 2 is discharged to the discharge hole 312 and moves along the specimen guide 31 to be collected in the specimen collection box 33.

After the collection of the test piece 3 is completed, the pressure plate 320 is retracted (M2) again to release the adhesion between the workpiece 2 and the fixing plate 310. Thereafter, the movable member 210 moves to the upper side of the apparatus body 10 (M1) and is placed in a standby state for extraction of another specimen 3.

1: Specimen sampling device 2: Material
3: Test piece 10: Device body part
20: specimen extraction unit 100: punching means
200: moving means 210: moving member
220: guide member 221: movable member guide
222: weight member guide 230: weight member
240: connecting member 250: moving member driving member
300: contact means 310: fixed plate
320: pressure plate 321: pressure plate punching hole
322: pressure plate guide hole 323: pressure plate guide
324: Platen-driven member 330: Support plate
30: collecting section 31: sample guide
32: specimen separation prevention loop 33: specimen collection box
40: control unit 41: speed sensor

Claims (7)

A device body portion provided on the movement path of the material; And
A movable specimen extracting part connected to the apparatus body part and adapted to extract a specimen from the specimen while interlocking with movement of the specimen;
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The sample extracting unit extracts,
Moving means associated with the apparatus body portion and interlocked with movement of the material;
A contact means connected to the moving means and brought into close contact with the workpiece; And
Punching means associated with said moving means and provided to extract a specimen from said workpiece;
And a sampling device for sampling the sample. delete The method according to claim 1,
The moving means includes a moving member to which the contact means and the punching means are connected; And
A guide member connected to the apparatus body and guiding the moving member;
And a sampling unit for sampling the sample. The method of claim 3,
The moving means includes a weight member connected to the moving member and the connecting member so that the moving member can move up and down; And
A moving member driving member associated with the connecting member;
Further comprising: The method according to claim 1,
The fixing means being fixed to the moving means and having a fixing plate groove for receiving the punching means;
A pressing plate formed with a pressing plate punching hole through which the punching means can pass and which is in contact with the moving means to bring the material into close contact with the fixing plate;
And a sampling device for sampling the sample. The method according to claim 1,
A collecting part provided in the apparatus body part or the moving part, for moving the specimen to a specimen collecting position;
Further comprising:
Wherein the collecting portion includes a sample guide provided in the apparatus body portion or the moving means;
A specimen deviation preventing loop provided in the specimen guide; And
A specimen collection box in which the specimen transferred from the specimen guide is collected;
And a sampling unit for sampling the sample. The method according to claim 1,
A control unit connected to the moving means to control a relative speed of the moving means and the workpiece;
Further comprising:

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