KR20020031260A - Probe sampling apparatus having slag layer penetrating type - Google Patents

Abstract

PURPOSE: A slag layer penetrating type probe sampling apparatus is provided to achieve improved quality of molten steel by performing accurate sampling, while preventing damage of probe cause due to the slag layer. CONSTITUTION: A probe sampling apparatus comprises an elevation and lowering drive unit for moving, in a vertical direction through a rail(34), a probe mount vehicle(40) connected to a wire rope(33) wound to a wire drum(31) through the operation of a forward and reverse drive motor(30); a probe mount unit connected to the wire rope of the elevation and lowering drive unit, and which moves along with the rail; and a slag penetrating unit installed in front of the probe mount unit, and which penetrates through the slag layer. The probe mount unit includes the probe mount vehicle where rollers(41,42) moving along the rail are mounted to be rotatable; a probe charging shaft(43) fixed to the center of the front end of the probe mount vehicle; an insertion shaft(44) connected to the probe charging shaft; and a probe(45) inserted into the insertion shaft. The slag penetrating unit includes cylinders(50,51) having ends installed to the probe mount vehicle; a slag penetrating vehicle(54) connected to the other ends of the cylinders, and which have rollers(55,56) rotating along with the rail; and a penetrating bar(57) installed in front of the slag penetrating vehicle.

Description

Probe sampling apparatus having slag layer penetrating type

The present invention relates to a slag layer penetrating probe sampling device, and in particular, when collecting the molten steel in the steel ladle through a probe (probe), the slag layer penetrating and sampling can be performed at the same time Type probe sampling device.

Generally, the steelmaking process of refining molten iron with molten steel is performed in a process of processing in the grading ladles 2 placed on the receiving trolley after the tapping in the converter, as shown in FIGS. 1 and 2.

In the refining process of the molten steel (1), a sample of the molten steel (1) is sampled using a probe device to check the components after the molten steel adjustment and to measure the temperature.

The treatment process in the receiving ladle (2) is a process of bubbling using a bubbling lance for the purpose of separating the inclusions and the degassing process inherent in the molten steel (1) in the receiving ladle (2) Secondary refining process to remove the gas is applied in combination.

In the refining operation of the molten steel (1) as described above, the molten steel sample is taken in the middle to analyze the chemical composition of the molten steel (1) in order to maintain the composition and temperature of the molten steel (1) properly, based on this Is done. At this time, the commonly used molten steel sample is used to measure the temperature and sampling.

In such a temperature measurement and sampling device, a probe (10) having a shape formed of a paper tube and having a wire and a mold embedded therein is used.

Hereinafter, a conventional probe and a method of measuring a molten steel sample through the same will be described with reference to FIGS. 1 and 2.

The conventional probe 10 is formed with a paper tube divided into an upper end, a middle part, and a lower end as an integral part, and an insertion hole is inserted into the main body holder of the measuring device up to a predetermined part of the upper end and the middle part. Inside the bottom of 10), a mold for collecting the molten steel sample is embedded.

In addition, a plug in contact with the main body holder of the measuring device is inherent in the intermediate portion of the probe 10, and a wire is embedded in the paper holding tube between the mold and the plug. It is a one-time probe sampling device for use in one temperature and sampling measurement operation.

When the probe 10 is inserted into the main body holder of the temperature measuring device and the probe 10 is deposited in the molten steel 1 of the receiving ladle 2, the molten steel 1 is sucked into the mold of the lower end of the probe 10. Sampling is performed by analyzing the physical properties derived from the solidification process of the molten steel 1 in the mold to readjust the components, and again, a series of processes of collecting the molten steel sample and analyzing the components are generally repeated three or more times.

In the conventional molten steel sample collection, as shown in FIGS. 1 and 2, in order to prevent breakage of the probe 10 due to the impact of the probe 10 on the slag layer 3, the fracture bar 20 is used. Then, the slag layer 3 is first penetrated, and then the probe sampling device is put into the available steel 1 to collect the molten steel sample.

In this series of processes, the time required for sampling is increased by repeating the slag layer 3 penetrating operation and the sampling operation separately, which causes an increase in the processing time of the entire molten steel 1, which is not described in the drawings. 4 is a ladle cover, 11 is an insertion shaft, 12 and 21 are wire ropes, 13 and 22 are guide cars, 14 and 23 are rollers, and 15 and 24 are lifting guides.

The present invention has been made to solve the above-mentioned problems of the prior art, the slag layer which can reduce the molten steel processing time by preventing the damage of the probe penetrating the slag layer and at the same time to collect the components of the molten steel at the same time through the slag layer It is an object of the present invention to provide a through probe sampling device.

1 is a schematic and partial enlarged view showing a conventional molten steel sample collection operation process.

Figure 2 is a schematic diagram showing a slag layer penetrating device before the conventional molten steel sample collection operation.

3 is a block diagram of a slag layer through-hole probe sampling apparatus according to the present invention.

Figure 4 is a partial detailed view of the slag layer penetrating process of the slag layer penetrating probe sampling apparatus according to the present invention.

Figure 5 is a molten steel sample sampling operation through the slag layer penetrating probe sampling apparatus according to the present invention.

<Explanation of symbols for main parts of drawing>

1: molten steel 2: water ladle

3: slag layer 30: forward and reverse drive motor

31: wire drum 33: wire rope

34: raising and lowering rail 35,36: limit switch

40: probe mounting car 43: probe insertion shaft

44: insertion axis 45: probe

50, 51: cylinder 54: slag through-car

57: Through Bar

In order to achieve the above object, in the device for refining molten steel tapping out of the converter through the slabs and sampling the molten steel through a probe passing through the slag layer on the upper portion of the molten steel, the operation of the forward and reverse drive motor A lifting and lowering driving unit configured to move the probe mounting car connected to the wire rope wound around the wire drum through a lifting rail; A probe mounting part connected to the wire ropes of the lift and lower driving parts to move on and off the rail by the lift and lower rails; The slag layer penetrating probe sampling device is provided in front of the probe mounting portion and comprises a slag penetrating portion penetrating the slag layer.

In the present invention as described above, the probe mounting portion is a probe mounting car rotatably mounted to the roller moving in the lifting, lowering rails, probe loading shaft fixed to the front end of the probe mounting car, and connected to the probe charging shaft And an insertion shaft and a probe inserted into the insertion shaft.

Further, in the present invention, the slag penetrating portion is provided with a cylinder having one end connected to the probe mounting car with the probe insertion shaft therebetween, and a roller connected to the other end of the cylinder and rotating on the lifting and lowering rails. And a through bar installed in front of the slag through-car and the slag through-car.

In addition, in the present invention, the upper and lower ends of the lifting and lowering rails are provided with limit switches, respectively, characterized in that the hydraulic coupler is connected to the cylinder, respectively.

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

3 to 5 show an embodiment of a slag layer penetrating probe sampling device according to the present invention, the probe sampling device according to the present invention is a probe connected to the wire rope wound on the wire drum largely according to the operation of the forward and reverse driving motor Lifting and lowering driving unit for moving the mounting car to the shanghai through the lifting rails; A probe mounting part configured to move on and off the rails; It consists of a slag penetrating portion penetrating the slag layer in front of the probe mounting portion.

The up and down driving unit is connected to one end of the wire drum 31, the rotation axis of the forward and reverse drive motor 30, the other end of the wire drum 31 through the support shaft 32 bearing block ( 37), one end of the wire rope 33 having a predetermined length is connected to the wire drum 31, and the other end of the wire rope 33 is connected to the probe mounting car 40 to be described later.

In addition, the rising and falling rails 34 having a predetermined length in the horizontal direction with the wire rope 33 is fixedly connected to the base 38, the upper and lower ends of the lifting and lowering rails 34, the limit switch ( 35 and 36 are provided, respectively, and the forward and reverse drive motors 30 and the bearing blocks 37 are fixed to the support bases 39-1 and 39-2, respectively.

The probe mounting portion 43 is fixedly installed at the center portion of the front end of the probe mounting car 40 in which the rollers 41 and 42, which move on the lifting and lowering rails 34, are rotatably mounted on the probe mounting portion. The cylindrical insertion shaft 44 is connected to the probe insertion shaft 43, and the probe 45 is inserted into the insertion shaft 44.

One end portion of the pair of cylinders 50 and 51 is fixed to the probe mounting car 40 with the slag through portion interposed between the probe insertion shafts 43 and the other end of the cylinders 50 and 51. Is connected to the rear of the slag through-car 54 is equipped with a roller (55, 56) to rotate the lower rail 34, the lower, the front of the slag through-car 54 A knife-shaped through bar 57 penetrating the slag layer 3 is fixed.

In addition, hydraulic couplers 52 and 53 are connected to the cylinders 50 and 51, respectively, and the slag through-car 54 has a cylindrical structure having a predetermined diameter to allow the probe 45 to reciprocate. .

Hereinafter, the operation of the present invention having the configuration as described above.

When the probe 45 is connected to the insertion shaft 44 for the sampling (sampling) of the molten steel 1 and the forward and reverse driving motor 30 is operated, the wire rope 33 is pulled from the wire drum 31. While the probe mounting car 40 and the slag through-car 54 is moved through the roller (41, 42; 55, 56) to the lower rail 34, the lower.

At this time, the probe 45 is located at the intermediate point of the cylinders 50 and 51 in the state of being extended by hydraulic pressure. When the probe mounting car 40 is lowered by a predetermined height as described above, the through bar 57 4 is lowered while passing through the slag layer 3 as shown in FIG. 4, and the probe mounting car 40 is detected by the limit switch 36 and stopped at a predetermined height.

Thereafter, when the cylinders 50 and 51 are contracted through the hydraulic couplers 52 and 53, the probe 45 is positioned at the front end of the slag through-car 54 and the molten steel 1 in the receiving ladle 2 is formed. A predetermined amount flows into the through bar 57, and the sampling operation of the molten steel 1 is performed by the probe 45 in the above state.

That is, as the penetration of the slag layer 3 and the sampling operation of the molten steel sample are performed quickly and continuously, the sampling operation of the molten steel sample can be easily performed without the inconvenience of performing the slag layer 3 in advance. After the sampling operation of the molten steel sample, the forward and reverse driving motors 30 are operated to raise the probe mounting car 40 and the slag through car 54, and the probe mounting car 40 is the limit. When the switch 35 is detected, the operation of the forward and reverse driving motors 30 is stopped, and the standby state of the molten steel sample sampling operation is reached.

As described above, according to the present invention, the molten steel sample sampling operation in the steel ladle is simplified, the processing time of the molten steel is shortened, and the breakage of the probe by the slag layer is prevented, as well as the quality of the molten steel by accurate sampling. This has the effect of being improved.

In addition, the slag layer penetration and the probe mounting process for the molten steel sample sampling in the short before and after process has the effect of shortening the process time.

Claims (4)

In the apparatus for refining molten steel outgoing from the converter through the steel slab and sampling the molten steel through a probe passing through the slag layer on the molten steel, A lift and lower drive unit configured to move the probe mounting car connected to the wire rope wound on the wire drum according to the operation of the forward and reverse drive motors, by moving the probe mounting car; A probe mounting part connected to the wire ropes of the lift and lower driving parts to move on and off the rail by the lift and lower rails; Slag layer through-probe sampling device, characterized in that it is provided in front of the probe mounting portion and comprises a slag penetrating portion penetrating the slag layer. The probe mounting unit of claim 1, wherein the probe mounting unit includes a probe mounting car in which a roller moving along the up and down rails is rotatably mounted, a probe charging shaft fixed to a central portion of the tip of the probe mounting car, and the probe mounting shaft. A slag layer penetrating probe sampling apparatus comprising a connected insertion shaft and a probe inserted into the insertion shaft. The roller of claim 1 or 2, wherein the slag penetrating portion is connected to the cylinder mounted at one end of the probe mounting car with the probe insertion shaft interposed therebetween, and the roller which is rotated by the lifting and lowering rail connected to the other end of the cylinder. And a slag through-car equipped with a through bar installed in front of the slag through-car. The slag layer penetrating probe sampling apparatus according to claim 1 or 2, wherein limit switches are respectively provided at upper and lower ends of the lifting and lowering rails, and hydraulic couplers are respectively connected to the cylinders.