KR101327329B1 - Rotary joint test apparatus - Google Patents

Abstract

A rotary joint test apparatus according to the present invention is an apparatus for testing the sealing performance of rotary joints which cool a guide roll of a continuous casting machine. The rotary joint test apparatus comprises: a mounting device on which the rotary joints are mounted; and a fluid supply device for supplying fluid to the rotary joints placed on the mounting device so as to test the sealing performance of the rotary joints. The present invention enables the rotary joints to be recycled by checking whether or not the rotary joints are sealed, thereby reducing repairing costs by the recycling and preventing facility accidents with improved facility reliability.

Description

Rotary joint test apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary joint test apparatus, and to a test apparatus for sealing a rotary joint for cooling a guide roll of a continuous casting machine segment.

In the process of manufacturing cast steel in the machine, the molten steel supplied from the ladle is injected into the mold through the immersion nozzle, and the molten steel is first solidified in the mold into a solidified shell having a solid surface layer. While passing through the end to repeat the quenching process to produce a cast. The player has a pinch roll for drawing a solidification shell at the bottom of the mold and a plurality of guide rolls for guiding roles, which rolls are embedded in a plurality of segments supporting respective rolls. The pinch roll is provided with an upper roll and a lower roll, and the solidification shell is pulled by the friction force between the rotating pinch roll and the slab by entering the solidification shell therebetween so that smooth drawing can be performed. However, cast iron produced in the machine is a high temperature of 900 ~ 1200 ℃ average, so if the cooling performance of the pinch roll is insufficient, the surface temperature of the roll rises and the hardness decreases, the surface wear of the roll increases, the gap between the rolls is different It will cause the internal defect of cast steel. Therefore, the pinch roll of the player is equipped with a rotary joint for supplying cooling water therein to prevent deterioration by high temperature cast steel.

However, currently used rotary joints have different specifications for each continuous casting machine, and the number of installation is used, which is a factor of excessive cost of maintenance, which requires recycling, and recycling is impossible because the internal sealing structure of the rotary joint cannot be checked. Do.

The present invention relates to a rotary joint test apparatus, the rotary joint has a sealing (sealing) structure to prevent leakage between the stator and the rotor, which is integrally able to confirm the abnormality of the internal structure, the present invention Through this, it is possible to check whether there is an abnormality in the internal sealing structure of the rotary joint.

Rotary joint test apparatus according to the spirit of the present invention is a device for testing the sealing (sealing) performance of the rotary joint for cooling the guide roll of the continuous casting machine, a mounting device and a plurality of rotary joint is mounted on the mounting device It may include a fluid supply device for supplying a fluid to a plurality of seated rotary joint to test the sealing performance of the plurality of rotary joint.

The mounting apparatus may include a plurality of holders to which the plurality of rotary joints are fitted and coupled and a block capable of fixing the plurality of holders.

The plurality of holders may be characterized in different structures inside the plurality of holders according to the type of the plurality of rotary joints.

The longitudinal stops of the plurality of holders and the block may include vent holes to allow the fluid leaking out of the rotary joint to flow out.

The fluid supply device includes a pipe through which the fluid flows, a valve controlling the flow of the fluid through the pipe, and a plurality of rotary joints located at the end of the pipe to allow fluid to flow into the plurality of rotary joints. It may include an inlet coupled to, and a pressure gauge which is located on the pipe to measure the pressure of the fluid introduced into the plurality of rotary joints.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a rotary joint test apparatus, and to a test apparatus for sealing a rotary joint for cooling a guide roll of a continuous casting machine segment. The rotary joint has a sealing structure integrated between the stator and the rotor to prevent leakage. Since such an integrated structure cannot check whether there is an abnormality in the internal sealing structure, it is difficult to recycle. It can be checked whether the rotary joint can be recycled. Through this, repair costs are reduced due to material recycling, and facility accidents can be prevented by improving facility reliability.

1 is a cross-sectional view of a rotary joint for cooling a guide roll of a continuous casting machine.
Figure 2 is a side view of a rotary joint test apparatus according to an embodiment of the present invention.
3 is a top view of a rotary joint test apparatus according to an embodiment of the present invention.
4 is a top cross-sectional view of the mounting apparatus of the rotary joint test apparatus according to an embodiment of the present invention.

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

1 is a cross-sectional view of a rotary joint for cooling a guide roll of a continuous casting machine.

The rotary joint for cooling the guide roll of the continuous casting machine has a stator (1), a rotor (2), and an internal leakage preventing sealing structure (3), and although not shown in the drawing, a coolant pipe is placed on the rotor (2) side of the rotary joint. Combined. Through this, the rotor 2 and the coolant pipe part are inserted into the guide roll, and the guide roll can be cooled by flowing the coolant therein.

The stator 1 has a cooling water inlet and an outlet so that the cooling water flows in and out. In the case of the rotor 2, it is a part inserted into the guide roll, and is a part which rotates according to the rotation of the guide roll, and is comprised so that rotation about a rotating shaft is possible. In this case, however, the sealing should be sealed between the rotor (2) and the stator (1), which is a fixed chain. If the seal is not sealed, the coolant flows out to the outside of the guide roll. This is to prevent product defects from leaking out and to prevent accidents.

In the rotary joint, it should be known whether the sealing (sealing), the internal sealing (sealing) structure (3) is integrally coupled with the rotor (2) and the stator (1) to determine whether or not sealing (sealing) or not I can't check it. Rotary joints have different specifications for each player, and the number of installations is high, which causes excessive maintenance cost, which requires recycling. However, recycling is impossible because the internal sealing structure (3) cannot be checked.

2 is a side view of a rotary joint test apparatus according to an embodiment of the present invention, FIG. 3 is a top view of a rotary joint test apparatus according to an embodiment of the present invention, and FIG. 4 is a rotary joint according to an embodiment of the present invention. Top section of the mounting apparatus of the test apparatus.

Rotary joint test apparatus according to the present invention is a device for testing the sealing performance of the rotary joint (30) for cooling the guide roll of the continuous casting machine, a mounting device on which a plurality of rotary joints 30 are mounted ( 4) and a fluid supply device 5 for supplying fluid to the plurality of rotary joints 30 seated on the mounting device 4 to test sealing performance of the plurality of rotary joints 30. It is characterized by.

The mounting apparatus 4 may mount a plurality of rotary joints 30.

The mounting apparatus 4 may include a plurality of holders 6 into which the plurality of rotary joints 30 are fitted and coupled, and a block 7 to fix the plurality of holders 6.

Rotary joint 30 has a different specification for each continuous casting machine, the size and shape are different. Therefore, different test apparatus for each rotary joint 30 is inefficient and inexpensive, so it must be commonly accepted.

The plurality of holders 6 are configured differently for each of the rotary joints 30 to accommodate the different types of rotary joints 30, but the external shapes are configured to be the same. By fixing the holder 6 coupled to the rotary joint 30 to the block 7, the rotary joint 30 can be accommodated in one mounting device 4 even with different specifications.

There may be various methods for coupling the rotary joint 30 to the holder 6, but the rotor part of the rotary joint 30 is inserted in the direction in which the rotary joint 30 is fitted toward the holder 6. It is desirable to. After the rotary joint 30 is inserted into the holder 6, the rotary joint 30 is fixed to the holder 6 through screwing.

In addition, the holder 6 has a form in which the holder 6 portion of the rotor side is open to allow fluid to flow into the rotor.

Thus, the rotary joint 30 fixed to the holter is inserted into the groove provided in the block 7 to fit the size of the holder 6, and the holder 6 and the block 7 are coupled by screwing. do. As a result, the rotary joint 30 is configured to be fixed to the mounting apparatus 4.

The block 7 is provided with a hole 8 so that the end of the pipe 20 can be inserted so that the fluid can pass through to allow the fluid flowing from the fluid supply device 5 to flow therein. The fluid flowing from the fluid supply device 5 is introduced into the rotor through the opening 8 of the holder 6 through the hole 8 of the block 7.

The block 7 and the plurality of holders 6 are provided with vent holes 9 in the longitudinal interruption, in case there is an error in the internal sealing structure during the sealing performance test. Fluid leaks to the outside of the rotary joint 30, which flows out through the vent hole 9 to determine whether an internal sealing structure of the rotary joint 30 is abnormal.

The fluid supply device 5 is a device for testing the sealing performance of the plurality of rotary joints 30 by supplying a fluid to the plurality of rotary joints 30 seated on the mounting device 4, the fluid flows The pipe 20, the valve 21 for controlling the flow of the fluid through the pipe 20, and the end of the pipe 20 so that the fluid can be introduced into the plurality of rotary joints 30. By measuring the pressure of the fluid introduced into the plurality of rotary joints 30 and the rotary joint 30, the pressure gauge 23 located on the pipe 20 It may include.

The fluid flowing along the pipe 20 is introduced into the mounting apparatus 4 through the inlet 22, which is introduced into the rotor of the rotary joint 30 to be introduced into the rotary joint 30. In this case, the outflow pipe or inflow pipe provided in the stator of the rotary joint 30 is sealed by using equipment such as a cap or a cover so that the fluid does not flow out.

In this way, the fluid introduced into the rotary joint 30 has an outer circumferential surface of the holder 6 and the outer circumferential surface of the holder 6 so that the fluid flows out through the sealing structure only when there is an abnormality of the inner sealing structure. The o-ring 10 is inserted into the inner circumferential surface of the stator side to seal the fluid entering the rotary joint 30 to prevent the fluid from flowing out through the other passage.

Mounting device 4 coupled to the rotary joint 30 as described above can be provided on a stand (not shown) to facilitate the convenience of the operator.

The operation according to the present invention by the above configuration will be described.

After separating the rotary joint (30) inserted into the guide roll of the continuous casting machine and insert it into the holder (6) and combine. In addition, the rotary joint 30 is fixed to the mounting apparatus 4 by inserting the holder 6 to which the rotary joint 30 is coupled to the block 7 and then engaging. In addition, the inlet port 22 or the outlet port provided on the stator side of the rotary joint 30 is sealed by using equipment such as a cap or a cover so that the fluid does not flow out.

Then, the inlet 22 of the fluid supply device 5 is inserted into the hole 8 provided in the block 7, and then the valve 21 is opened to connect the fluid to the rotor side cooling water pipe of the rotary joint 30. When the fluid flows into the part to be measured and measured by the pressure gauge 23, the fluid flow is stopped by stopping the inflow of the fluid by locking the valve 21.

If there is no abnormality of the inner sealing structure (sealing), the pressure gauge 23 is the same without a decrease in pressure when measured, and further, the fluid does not flow through the inner sealing (sealing) structure to the outside.

However, if there is an abnormality in the inner sealing structure (sealing) there is a decrease in pressure when the pressure gauge 23 is measured, and further fluid leaks out through the inner sealing structure, and the holder (6) and The fluid flows out through the vent hole 9 provided in the block 7.

The above embodiment is a device for testing the sealing (sealing) after fixing the rotary joint 30, but the rotary joint 30 has a configuration of a rotor of a rotating body, the holder 6 and the block ( The structure change of 7) allows the rotor to rotate while testing in the mounting device (4).

1: Stator 2: Rotor
3: internal sealing structure
4: Mounting device 5: Fluid supply device
6: holder 7: block
8: hole 9: vent hole
10: O-ring
20: pipe 21: valve
22: inlet port 23: pressure gauge
30: rotary joint

Claims (3)

In the apparatus for testing the sealing performance of the rotary joint for cooling the guide roll of the continuous casting machine,
A mounting device to which a plurality of rotary joints are mounted;
And a fluid supply device for supplying fluid to a plurality of rotary joints seated on the mounting device to test sealing performance of the plurality of rotary joints.
The mounting apparatus includes a plurality of holders to which the plurality of rotary joints are fitted and coupled;
And a block capable of fixing the plurality of holders.
And a vent hole for discharging the fluid leaking out of the rotary joint to the outside of the plurality of holders and the longitudinal stops of the block. The method of claim 1,
And the plurality of holders have different structures inside the plurality of holders according to types of the plurality of rotary joints. The method of claim 1,
The fluid supply device includes a pipe through which the fluid flows, a valve controlling the flow of the fluid through the pipe, and a plurality of rotary joints located at the end of the pipe to allow fluid to flow into the plurality of rotary joints. And a pressure gauge positioned on the pipe and measuring the pressure of the fluid introduced into the plurality of rotary joints.

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