KR101023113B1 - Surface pressure measuring system in the valve assembly mounted on the molten steel ladle and its measuring method - Google Patents

Abstract

The surface pressure measuring system and its measuring method in the valve assembly mounted on the molten steel ladle according to the present invention has an object to measure the surface pressure more quickly and accurately.

In order to achieve this object, the system according to the present invention removes the lower plate and the upper plate mounted therein from the valve assembly removed from the molten steel ladle and replaces the upper surface pressure plate with the lower pressure plate and the load cell in place. A mounted surface pressure measuring assembly, a horizontal seating table on which the surface pressure measuring assembly is seated and pivotally mounted on a support base, a tilting hydraulic cylinder connected to one side of the horizontal seating table to vertically mount the horizontal seating platform, and the horizontal A total surface pressure measuring means installed on a seating table and including a moving hydraulic cylinder for reciprocating the lower surface pressure measuring plate by a predetermined distance; A load cell installed under the vertical support and mounted on the upper surface of the valve assembly to press the lower surface pressure measuring plate and the upper surface pressure measuring plate to be in close contact with each other; It consists of individual spring force measuring means including a pressurized hydraulic cylinder pressurized from above.

Molten Ladle, Valve Assembly, Surface Pressure Measurement, Coil Spring

Description

System for measuring a face pressure in valve assembly coupled under molten steel ladle and method for measuring the same}

1 is a view showing a state where the molten steel ladle is mounted on the player.

2 illustrates a problem with a conventional valve assembly mounted on a molten steel ladle.

Figure 3 is a perspective view of a conventional valve assembly.

4 illustrates a surface pressure measurement system in a valve assembly in accordance with the present invention.

5 is a state of use of the total surface pressure measurement means according to the present invention.

Figure 6 is a perspective view of the surface pressure measurement assembly according to the present invention.

Figure 7 is a flow chart illustrating a method of measuring the surface pressure in the valve assembly according to the present invention.

[Description of Reference Numerals]

1: upper crane 2: ladle seat

3: player 4: molten steel ladle

4 ': open / close hydraulic cylinder 5: molten steel

6: fireproof block 7: mortar

8: ladle shell 9: top nozzle

10: valve assembly 10 ': surface pressure measurement assembly                 

11: upper plate 12: lower plate

13: collector nozzle 14: upper block

15: lower block 16: hinge for assembly

17: Pressing Hinge 18: Support

19: upper pressurization opening 20: coil spring

21: mounting block 22: lower pressure port

23: overhead crane 24: ladle belt

30: total surface pressure measuring means 31: load cell

32: upper surface pressure measurement plate 33: lower surface pressure measurement plate

34: horizontal seating 34 ': support base

35: tilt hydraulic cylinder 36: movable hydraulic cylinder

37: rotating shaft 38: rotating table

39: pressure rod 40: individual spring force measuring means

41: work table 42: vertical support stand

43: instrument panel 44: pressurized hydraulic cylinder

45: pressure plate 46: load cell

50: hydraulic generator 51: operation panel

The present invention relates to a surface pressure measuring system in a valve assembly mounted on a molten steel ladle and a measuring method thereof, and more particularly, in a valve assembly mounted on a lower portion of a molten steel ladle to adjust an amount of molten steel supplied to a player. It relates to a system and a method for measuring the surface pressure between the upper plate and the lower plate installed for the opening and closing operation of the quick and convenient.

1 is a view showing a state where the molten steel ladle is mounted on the player. After the steelmaking process is completed through the converter and ladle furnace (LF), the molten steel is contained in the ladle 4 and transported to the next process, the playing process. The molten steel ladle 4 carried in the playing process is seated on the ladle seating plate 2 provided on the upper part of the player 3, and the ladle seating board 2 has two molten steel ladles 4 attached to the upper crane 1. Can be seated at the same time. The molten steel in the seated molten steel ladle 4 is fed to the player 3 through a valve assembly 10 mounted at the bottom of the ladle. At this time, the two molten steel ladle 4 is rotated by the ladle seating plate (2) to continuously supply the molten steel.

2 and 3 show the structure of the valve assembly 10 in more detail. At the bottom of the molten steel ladle 4, a fire block 6 is provided on the ladle shell 8, and at a predetermined point of the fire block 6, a top nozzle 9 is inserted to provide a passage through which molten steel is discharged. do. The valve assembly 10 installed in the lower portion of the ladle shell 8 to communicate with the top nozzle 9 is installed so that the hollow upper plate 11 and the lower plate 12 closely adhere to each other in a body of a refractory body. In addition, a collector nozzle 13 is installed in the lower part to supply molten steel 5 into the machine. The lower plate 12 is reciprocated by a predetermined distance from side to side by an opening / closing hydraulic cylinder 4 'installed at one side of the molten steel ladle 4, whereby molten steel 5 is discharged from the molten steel ladle 4 ) Is controlled. That is, when the holes of the lower plate 12 and the upper plate 11 coincide with each other, the valve is open, and if it is completely inconsistent, the valve is closed.

In the case of using the valve assembly 10 configured as described above, as shown in FIG. 2, when the contact pressure between the upper plate 11 and the lower plate 12 (hereinafter referred to as “surface pressure”) is weakened and a gap is formed therebetween, Molten steel was spilled along this gap, resulting in large-scale accidents such as fire, equipment damage, and casualties. Therefore, it is important to maintain the surface pressure between the two plates above the reference value, and the adjustment of the surface pressure is made by a coil spring mounted in the valve assembly 10 to closely adhere the plates.

Referring to Figure 3 will be described in more detail the configuration of the valve assembly. The valve assembly 10 consists of an upper block 14 and a lower block 15 connected by an assembly hinge 16, the upper block 14 being slidably mounted on the upper block 11 and the lower The lower plate 12 is slidably mounted to the block 15, and the upper block 14 and the lower block 15 are rotated around the assembly hinge 16 so that the valve assembly 10 is assembled. The upper and lower plates 11 and 12 are in close contact with each other.

On the other hand, one side of the lower block 15 is provided with two support 18 at regular intervals, and the upper pressing hole 19 is installed between both ends of the support 18. The two supports 18 are rotatably installed from the lower block 15 by the pressing hinges 17, respectively. A cylindrical mounting block 21 is provided at one side of the upper block 14, and a plurality of coil springs 20 are mounted in the mounting block 21, and a lower pressurization is applied to the upper end of the coil spring 20. The sphere 22 is installed.

When the upper block 14 and the lower block 15 is rotated around the assembly hinge 16 and closely contacted with each other, the support 18 is rotated about the pressing hinge 17, and the upper pressurizing opening 19 and the lower presser 22 are engaged, and the upper presser 19 is compressed by the spring force of the coil spring 20. As a result, the upper plate 11 and the lower plate 12 in the upper block 14 and the lower block 15 are in close contact with each other to maintain a surface pressure of a predetermined reference value or more.

In such a configuration, when the spring force is weakened due to deformation of the coil spring 20 due to long time use, the surface pressure between the plates 11 and 12 is weakened, causing an accident that the molten steel flows out. Therefore, although it is necessary to periodically measure the surface pressure between the plates 11 and 12, conventionally, all coil springs 20 are removed from the mounting block 21 rather than measuring the total surface pressure. The length was measured by a vernier caliper or the like to check whether the spring force of each coil spring 20 falls within a predetermined range.

However, these conventional measuring methods are not only time-consuming because they were made manually, but also caused a safety accident immediately after inspection because accurate measurements were not made due to errors due to carelessness of the operator.

The present invention has been proposed to solve the above problems, and after removing the both plates in the valve assembly, the lower surface pressure measurement plate and the upper surface pressure measurement plate to which the load cell is attached are mounted so as to be in close contact with each other. It consists of a total surface pressure measuring means for measuring the surface pressure, and individual spring force measuring means for automatically measuring each spring force by removing all coil springs mounted in the valve assembly when the measured total surface pressure is out of a predetermined range. The purpose is to provide a measuring system and a method for measuring the surface pressure accurately and accurately.

The surface pressure measurement system in the valve assembly mounted on the molten steel ladle according to the present invention for achieving the above object removes the lower plate and the upper plate mounted therein from the valve assembly removed from the molten steel ladle and measures the lower surface pressure in place. A surface pressure measuring assembly equipped with a plate and an upper surface pressure measuring plate attached with a load cell, a horizontal seating table on which the surface pressure measuring assembly is seated and rotatably mounted on a support base, and a horizontal seating table connected to one side of the horizontal seating table. A total hydraulic pressure measuring means including a hydraulic hydraulic cylinder for erecting vertically, and a moving hydraulic cylinder installed on the horizontal seating plate to reciprocate the lower surface pressure measuring plate by a predetermined distance; A load cell installed under the vertical support and mounted on the upper surface of the valve assembly to press the lower surface pressure measuring plate and the upper surface pressure measuring plate to be in close contact with each other; It consists of individual spring force measuring means including a pressurized hydraulic cylinder pressurized from above.                     

In addition, the method of measuring the surface pressure in the valve assembly mounted on the molten steel ladle according to the present invention removes the valve assembly from the molten steel ladle and seats on a horizontal seat, and operates a tilt hydraulic cylinder connected to one side of the horizontal seat to horizontal seat. Setting the table upright; After disassembling the valve assembly, the upper and lower plates are removed, and a lower pressure measuring plate and an upper pressure measuring plate with a load cell are mounted therein, and the surface on which the load cell is mounted is the lower surface pressure. Assembling in close contact with the measurement plate to form an assembly for measuring the surface pressure; Reciprocating the lower surface pressure measuring plate by a predetermined distance by operating a moving hydraulic cylinder installed on the horizontal seating plate and connected to the lower surface pressure measuring plate in the surface pressure measuring assembly; And detecting pressure data from the load cell while the lower surface pressure measurement plate is reciprocated to measure the surface pressure between the upper surface pressure measurement plate and the lower surface pressure measurement plate in the surface pressure measurement assembly.

Hereinafter, with reference to the accompanying drawings will be described in more detail with respect to the measuring system and the measuring method according to the present invention.

4 to 6 show the configuration of the measuring system according to the invention. First, the molten steel ladle 4 carried by the ceiling crane 23 is inclined horizontally by the ladle tilting platform 24 and the hoist 25 lifts the valve assembly 10 installed below the molten steel ladle 4. It is removed from the molten steel ladle 4 and conveyed to the total surface pressure measuring means 30 according to the present invention. As shown in FIG. 5, the total surface pressure measuring means 30 is connected to one side of the horizontal seating table 34 on which the valve assembly 10 is mounted, and the horizontal seating table 34 is installed. The hydraulic hydraulic cylinder 35 to be erected vertically, and the moving hydraulic cylinder 36 installed on the opposite side of the horizontal seat 34, the valve assembly 10 is seated.

In addition, when the horizontal seating table 34 is vertically erected by the tilt hydraulic cylinder 35, a rotating shaft 37 is installed at one end of the horizontal seating table 34 located above the rotating shaft 37. Swivel 38 is installed to rotate about the center, one end of the swivel 38 is connected to the valve assembly 10 via the pressure rod 39, the other end of the moving hydraulic cylinder 36 is Connection is installed.

In order to measure the total surface pressure of the valve assembly 10 by the total surface pressure measuring means 30 configured as described above, the valve assembly 10 is disassembled as shown in FIG. After removal, the lower surface pressure measurement plate 33 and the upper surface pressure measurement plate 32 on which the load cell 31 is mounted are mounted. Thus, the upper and lower surface pressure measuring plates 32 and 33 mounted in place of the upper and lower plates are distinguished from the existing valve assembly 10 and are referred to as a surface pressure measuring assembly 10 '. After the upper and lower surface pressure measurement plates 32 and 33 are mounted, the surface on which the load cell 31 is mounted in the upper surface pressure measurement plate 32 is assembled to be in close contact with the lower surface pressure measurement plate 33. This replacement operation is preferably performed in a state where the horizontal seating table 34 is vertically set by the tilt hydraulic cylinder 35. This is because the upper and lower plates and the upper and lower surface pressure measuring plates 32 and 33 are very heavy, so that it is easier to remove or mount in an upright position.                     

When the replacement of the upper and lower surface pressure measuring plates (32, 33) is completed while the horizontal seating table (34) is upright, the mobile hydraulic cylinder (36) connected to the lower surface pressure measuring plate (33) and the pressure rod (39) is installed. ). When the pressure rod 39 connected to the moving hydraulic cylinder 36 is moved up and down, the lower surface pressure measurement plate 33 connected to the pressure rod 39 is also reciprocated by a predetermined distance. Reciprocating the lower surface pressure measuring plate 33 in actual operation makes the same operation as the lower plate is reciprocated when the valve assembly 10 is installed in the molten steel ladle and opened and closed to control the discharge of molten steel. To provide the same conditions as the situation. While the lower surface pressure measurement plate 33 is reciprocated, pressure data is detected from the load cell 31 so that the upper surface pressure measurement plate 11 and the lower surface pressure measurement plate ( 12) Measure the surface pressure between.

If the measured total surface pressure does not belong to a certain range, there is an error in the coil spring 20 which makes the total surface pressure. Therefore, after removing all coil springs 20 from the surface pressure measuring assembly 10 ', individual springs Transport to the force measuring means 40 to measure the respective spring force. As shown in Fig. 4, the individual spring force measuring means 40 includes a vertical support 42 provided on one side of the worktable 41 on which the coil spring 20 is removed, and a lower portion of the vertical support 42. Pressurizes the coil spring 20 by a load cell 46 installed in the upper surface of the coil spring 20 on the upper surface thereof, and a pressing plate 45 provided on the top of the vertical support 42. It is composed of a pressurized hydraulic cylinder 44 provided so as to display the instrument panel 43 for displaying the pressure data output from the load cell 46.

Meanwhile, the hydraulic hydraulic cylinder 35 and the moving hydraulic cylinder 36 included in the total surface pressure measuring means 30 and the pressurized hydraulic cylinder 44 included in the individual spring force measuring means 40 provide convenience for operation. It is preferable to configure such that it is operated by one hydraulic generator (50). The operation panel 51 is connected and installed for the control of the hydraulic generator 50.

A method of more quickly and accurately measuring the surface pressure in the valve assembly using the surface pressure measuring system in the valve assembly according to the present invention configured as described above will be described with reference to FIG.

First, the valve assembly 10 is removed from the molten steel ladle to be horizontally seated on the horizontal seat 34 of the total surface pressure measuring means 30 in order to measure the total surface pressure of the valve assembly 10, and the horizontal seating The horizontal seating table 34 is vertically operated by operating the tilt hydraulic cylinder 35 connected to one side of the base 34.

Next, the valve assembly 10 is disassembled to remove the upper and lower plates 11 and 12, and the upper surface pressure measuring plate 32 having the lower surface pressure measuring plate 33 and the load cell 31 attached thereto is removed. After mounting the surface pressure measuring assembly 10 ', the surface on which the load cell 31 is mounted is assembled so as to be in close contact with the lower surface pressure measuring plate 33. In this case, the thickness of the lower surface pressure measuring plate 33 is equal to the thickness of the lower plate 12, and the sum of the thicknesses of the upper surface pressure measuring plate 32 and the load cell 31 is the upper plate 11. It is configured to be equal to the thickness of the upper and lower plates (11, 12) so that the same surface pressure is generated as if the contact.                     

Thereafter, the movable hydraulic cylinder 36 is operated to detect pressure data from the load cell 31 while reciprocating the lower surface pressure measuring plate 33 by a predetermined distance, thereby allowing the upper portion of the surface pressure measuring assembly 10 'to be detected. The total surface pressure between the surface measurement plate 32 and the lower surface measurement plate 33 is measured. For normal operation, the total surface pressure measured should be within 9.5 to 12 tonnes. If the total surface pressure is less than 9.5 tons, a gap may occur on both plates 11 and 12, and molten steel may leak out. If the total surface pressure is more than 12 tons, the friction on both plates 11 and 12 may be too large. 12 does not move smoothly.

Therefore, if the measured total surface pressure is out of the above range, there is an abnormality in the coil spring 20 that generates the surface pressure, so that each coil spring 20 is removed from the surface pressure measuring assembly 10 'and the individual spring force It carries to the measuring means 40. In the spring force measurement, first, the pressure hydraulic cylinder 44 is operated to pressurize the coil spring 20 to the maximum, and in this state, the pressure data detected from the load cell 46 is measured. If the measured individual spring force is less than 1300kg, there is a risk that the molten steel will leak by lowering the total surface pressure, and if the individual spring force exceeds 1420kg, the lower plate 12 will not move smoothly by excessively increasing the total surface pressure. Therefore, the coil spring 20 must be replaced.

The present invention is to measure more quickly and accurately whether or not the surface pressure of the valve assembly 10 falls within an appropriate range, and thus includes the step of measuring by the total surface pressure measuring means 30 and the individual spring force measuring means 40 described above. As a result, the configuration of the invention is completely made.

As described above, as a result of measuring the surface pressure in the valve assembly 10 according to the measuring method of the present invention, the total surface pressure belongs to the normal range of 9.5 to 12 ton or the coil spring 20 in which the total surface pressure is out of the normal range. ), After disassembling the surface pressure measuring assembly 10 ', removing the upper and lower surface pressure measuring plates 32 and 33 used for measuring the surface pressure, and replacing the upper and lower plate 11, 12) Refit. Thereafter, the valve assembly 10 is assembled and the tilt hydraulic cylinder 35 is operated to level the horizontal seat 34 and the valve assembly 10 is removed from the horizontal seat 34 to be molten for reuse. Transport with ladle.

According to the surface pressure measuring system and the measuring method in the valve assembly mounted to the molten steel ladle according to the present invention as described above, unlike the conventional manual manual check of the coil spring, first the total surface pressure in the valve assembly is automatically measured and measured It is possible to measure the surface pressure more quickly and accurately by measuring the spring force of the coil spring only when the surface pressure is out of the normal range.

Claims (6)

The lower plate 12 and the upper plate 11 mounted therein are removed from the valve assembly 10 removed from the molten steel ladle 4, and the lower surface pressure measuring plate 33 and the load cell 31 are attached in place. A pressure measuring assembly 10 'having the upper surface pressure measuring plate 32 mounted thereon, and a horizontal mounting table 34 on which the surface pressure measuring assembly 10' is mounted and rotatably installed on the support base 34 '. A hydraulic hydraulic cylinder 35 connected to one side of the horizontal seat 34 to vertically mount the horizontal seat 34, and a lower pressure plate 33 installed on the horizontal seat 34. Total surface pressure measuring means (30) including a moving hydraulic cylinder (36) for reciprocating a predetermined distance; The coil spring 20 is installed below the vertical support 42 and mounted on the upper surface of the valve assembly 10 to press the lower surface pressure measuring plate 33 and the upper surface pressure measuring plate 32 to closely contact each other. It is composed of an individual spring force measuring means 40 including a load cell 46 and a pressurized hydraulic cylinder 44 installed above the vertical support 42 and pressurizing the coil spring 20 from above. The movable hydraulic cylinder 36 is installed on the opposite side of the horizontal seating assembly 34 on which the surface pressure measuring assembly 10 'is seated, and is positioned thereon when the horizontal seating stand 34 is standing vertically. A rotating shaft 37 is installed at one end of the horizontal seating table 34, and a lower surface pressure of the surface pressure measuring assembly 10 ′ is provided at one end of the rotating table 38 installed to rotate about the rotating shaft 37. The measuring plate (33) is connected to the pressure rod (39) is installed through the other end of the surface pressure measurement system in the valve assembly mounted to the molten steel ladle, characterized in that the mobile hydraulic cylinder (36) is connected. delete The hydraulic hydraulic cylinder (35) included in the total surface pressure measuring means (30) and the moving hydraulic cylinder (36) and the pressurized hydraulic cylinder (44) included in the individual spring force measuring means (40) are provided. A surface pressure measurement system in a valve assembly mounted to a molten steel ladle, characterized in that it is operated by one hydraulic generator (50). The valve assembly 10 is removed from the molten steel ladle 4 and seated on the horizontal seat 34, and the tilt hydraulic cylinder 35 connected to one side of the horizontal seat 34 is operated to operate the horizontal seat ( 34) upright; After disassembling the valve assembly 10, the upper and lower plates 11 and 12 are removed, and the lower surface pressure measuring plate 33 and the upper surface pressure measuring plate 32 to which the load cell 31 is attached are mounted in place. And assembling the surface on which the load cell 31 is mounted to be in close contact with the lower surface pressure measurement plate 33 of the upper surface pressure measurement plate 31 to make an assembly 10 'for surface pressure measurement; The lower surface pressure measurement plate 33 is operated by operating the moving hydraulic cylinder 36 installed on the horizontal seat 34 and connected to the lower surface pressure measurement plate 33 in the surface pressure measurement assembly 10 '. Reciprocating by a distance; Pressure data is detected from the load cell 31 during the reciprocating movement of the lower surface pressure measurement plate 33, so that the surface pressure between the upper surface pressure measurement plate 32 and the lower surface pressure measurement plate 33 in the surface pressure measurement assembly 10 is reduced. Measuring; Determining whether the surface pressure in the measured surface pressure measuring assembly 10 'falls within a range of 9.5 to 12 tons; When the measured surface pressure is out of the range, a plurality of coil springs 20 mounted in the surface pressure measuring assembly 10 'to closely contact the lower surface pressure measuring plate 33 and the upper surface pressure measuring plate 32 with each other. Measuring the spring force of each coil spring (20) after withdrawing from the surface pressure measuring assembly (10 '). delete The load cell 46 according to claim 4, wherein the measurement of the spring force is achieved by placing each coil spring 20 on the load cell 46 and pressing the coil spring 20 to the maximum with a pressure hydraulic cylinder 44. And detecting whether the measured spring force falls within a range of 1300 to 1420 kg. 4. The method of measuring the surface pressure in a valve assembly mounted on a molten steel ladle, characterized by the above-mentioned.

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