KR200490739Y1 - Load beam supporting apparatus of heat treatment furnace - Google Patents

Abstract

The present invention relates to a load beam supporting apparatus, which is connected to a moving device of a heat treatment furnace, and a load beam on which a support body supporting the rotor shaft introduced into the heat treatment furnace and an apparatus body arranged to move in the direction of the heat treatment furnace are seated. And an elevating portion connected between the device body and the load beam and provided to elevate the load beam, and according to the present invention, a rod beam supporting the support of the rotor shaft is accurately fixed. In this way, the rotor can be induced to be located at the center of the heat treatment furnace.

Description

LOAD BEAM SUPPORTING APPARATUS OF HEAT TREATMENT FURNACE

The present invention relates to a load beam support apparatus for a heat treatment furnace, and more particularly, to a load beam support apparatus for accurately positioning a load beam supporting a support of a rotor shaft so that the rotor is positioned at the center of the heat treatment furnace. .

In general, the rotor shaft used in nuclear power plant, thermal power plant, gas turbine power plant, etc., through the quenching work, the quality level is much higher than the general forgings. These rotor shafts have the best heat distribution during heat treatment and are heat treated using an even vertical heat treatment furnace.

In order to perform such heat treatment vertically, the hanger and the rotor shaft are charged into a vertical heat treatment furnace while the upper end of the long shaft rotor shaft is hanged with a hanger, followed by heating. At this time, the hanger is supported by the support.

In addition, both sides of the vertical heat treatment furnace is provided with a load beam support device for reciprocating on the rail so that the hanger is supported on the support during the heat treatment time.

1 and 2 disclose an example of a load beam supporting apparatus of a conventional heat treatment furnace.

First, referring to FIG. 1, the rotor shaft R is introduced into the vertical heat treatment furnace W, and the rotor shaft R is connected to the hanger 2 formed at the lower end of the support 1 for heat treatment. The hoist or crane is used to transfer the equipment to the heat treatment furnace.

While the rotor shaft R is heat treated, the support 1 is mounted on the top of the load beam 5 so as to stably fix the position of the rotor shaft R in the vertical heat treatment furnace W. .

The conventional load beam support apparatus includes a load beam 5 supporting the support 1, a coil spring 7 providing an elastic force by sliding when the load beam 5 descends, and a coil spring 6 as a load beam. (5) and a bar (4) for connecting the beam frame (3), and the wheel (4) for moving the beam frame (3) in the direction of vertical heat treatment along the rail.

When the support 1 is seated on top of the load beam 5, the beam frame 3 is inclined by the load and is pushed back.

However, in the conventional load beam support apparatus, referring to FIG. 2, when the support 1 is seated, the range (see arrow) of the pair of load beams 5 is different from each other, so that the hanger ( The rotor shaft R connected by 2) is not located at the center of the heat treatment furnace W.

That is, the distance D1 between the inner side of the heat treatment furnace W and the distance D2 between the other side are different from each other, thereby making it difficult to uniformly heat the rotor shaft R. In this case, the worker lifts the support 1 again and repeats the work of adjusting the position, thereby increasing the workload and lowering the work efficiency.

The present invention is devised to solve the problems in the related art as described above, an object of the present invention is to accurately position the load beam for supporting the support of the rotor shaft, the rod so that the rotor is located in the center of the heat treatment furnace It is to provide a beam support device.

The present invention for achieving the above object relates to a load beam support device, the device body is connected to the moving device of the heat treatment furnace equipment, arranged to be moved in the heat treatment furnace direction; A load beam on which a support for supporting the rotor shaft introduced into the heat treatment furnace is seated; And an elevating part interposed between the device body and the load beam and provided to elevate the load beam.

In addition, in the embodiment of the present invention, the lifting unit, a drive motor disposed on the device body; A gear box connected to the rotation shaft of the drive motor and coupled to the drive shaft, the gear box being provided to switch the rotation direction of the drive motor in a vertical direction; One end is connected to the lower portion of the gear box, the other end of the screw bar is equipped with a stopper; And a screw block disposed on the load beam and engaged with the screw bar.

In addition, in the embodiment of the present invention, the lifting unit, the hydraulic cylinder disposed on the device body; And one end is connected to the hydraulic cylinder, the other end may be a lifting bar connected to the lower projection beam of the load beam.

In addition, in the embodiment of the present invention, the lifting unit, the first to be disposed between the device body and the lower projection beam of the load beam so that the load applied to the hydraulic cylinder by the weight of the load beam when the load beam rises; Elastic bodies; And a second elastic body disposed between the device body and the top protruding beam of the load beam.

In addition, the embodiment of the present invention may further include a load pad of heat-resisting elastic material disposed on the top of the gear box or the top of the hydraulic cylinder to support the top projecting beam of the load beam when the load beam is lowered. have.

According to the present invention, the load beam supporting the support of the rotor shaft is lifted using a motor / screw structure or a hydraulic cylinder / elevation beam structure, whereby the load beam can be accurately positioned at a desired position. This can prevent the rocker from leaving the center of the heat treatment furnace in the process of the support is placed on the load beam. That is, like the conventional load beam support apparatus, the phenomenon that the position of the load beam is shifted by the spring can be prevented in advance.

This ultimately improves the heat treatment performance of the rotor, thereby improving the quality of the rotor.

1 is a view showing a state before operation of a load beam support apparatus of a conventional heat treatment furnace.
2 is a view showing a state after the operation of the load beam support apparatus of the conventional heat treatment furnace.
Figure 3 is a view showing a pre-operational state for the first embodiment of the load beam support apparatus for a heat treatment furnace of the present invention.
Figure 4 is a view showing a state after the operation for the first embodiment of the load beam support apparatus for a heat treatment furnace of the present invention.
Figure 5 is a view showing a pre-operational state for a second embodiment of the load beam support apparatus of the present invention heat treatment furnace.
Figure 6 is a view showing a state after the operation of the second embodiment of the load beam support apparatus for a heat treatment furnace of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail preferred embodiments of the load beam support apparatus according to the present invention.

3 is a view showing a pre-operational state of the first embodiment of the load beam support apparatus of the present invention heat treatment furnace, Figure 4 is a post-operation of the first embodiment of the load beam support apparatus of the heat treatment furnace of the present invention 5 is a view showing a state before the operation of the second embodiment of the load beam support device for a heat treatment furnace of the present invention, Figure 6 is a second view of the load beam support device for the heat treatment furnace according to the present invention The figure which shows the state after operation with respect to an Example.

First, referring to FIGS. 3 and 5, the load beam supporting apparatus of the present invention may include an apparatus body 10, a load beam 20, a lifting unit 30, and a load pad 41.

First, the apparatus body 10 may be connected to a moving device of a heat treatment furnace (W) facility and disposed to move in the heat treatment furnace (W) direction. For example, although not shown in the drawings, the moving device may include a motor disposed on a heat treatment furnace (W) facility and a rotating bar processed with a screw connected to a rotating shaft of the motor, wherein the rotating bar includes the rotating bar. Connected to the device body 10, the device body 10 can be moved in the heat treatment furnace (W) direction or in the opposite direction in accordance with the rotation direction of the rotary bar.

At this time, the wheel connector 13 is disposed at the lower end of the device body 10, the wheel 12 is mounted to the wheel connector 13, although not shown in the drawings, the movement of the device body 10 is smooth For this purpose, a rail may be disposed in the heat treatment furnace (W) facility to allow the wheel 12 to be seated and moved.

Next, the load beam 20 may be a portion on which the support 1 supporting the rotor shaft R introduced into the heat treatment furnace W is seated. In the present invention, the load beam 20 may be implemented in an H beam shape, but is not necessarily limited thereto.

The rotor shaft R introduced into the heat treatment furnace W is connected by the support 1 and the hanger 2, and the support 1 is seated on the top of the load beam 20 so that the heat treatment furnace ( The position of the rotor shaft R inside W) is fixed.

Next, the lifting unit 30 may be disposed in association with the device body 10 and the load beam 20, and may be provided to lift the load beam 20.

In the first embodiment of the present invention, the lifting unit 30 may include a driving motor 31, a gearbox 33, a screw beam 35, and a screw block 34.

The drive motor 31 may be disposed above the device body 10.

The gear box 33 is connected to the rotation shaft of the drive motor 31 by the coupling 32 to receive the rotational force, and may be provided to switch the rotation direction of the drive motor 31 in the up and down direction. The gearbox 33 may basically include a bevel gear.

Next, one end of the screw beam 35 may be connected to the lower portion of the gear box 33, and the stopper 36 may be mounted on the other end of the screw beam 35 so that the screw block 34 is not separated.

The screw block 34 may be disposed in the load beam 20, and a hole in which a screw is engaged with the screw beam 35 may be formed.

When the operator operates the driving motor 31 to seat the load beam 20, the rotational force of the driving motor 31 is transmitted to the gearbox 33 to rotate the screw beam 35. As the screw beam 35 rotates, the screw block 34 engaged with the screw beam 35 moves downward, and the load beam 20 is seated on the periphery of the heat treatment furnace W.

In this case, the load pad 41 may be disposed at an upper end of the gearbox 33. The load pad 41 may be a heat resistant elastic material, and may be provided to support the upper protruding beam 21 of the load beam 20 when the load beam 20 is lowered.

That is, the lower protruding beam 22 of the load beam 20 supports the support 1 to the bottom of the periphery of the heat treatment furnace W, and the upper protruding beam 21 of the load beam 20 is formed of the gearbox 33. The support 1 is supported by the seating on the rod pad 41 disposed at the top. At this time, the interval H1 between the upper protruding beam 21 of the load beam 20 and the load pad 41 and the interval between the lower protruding beam 22 of the load beam 20 and the bottom of the periphery of the heat treatment furnace W (H1) may be the same. In this case, when the load beam 20 descends, the upper protruding beam 21 of the load beam 20 is lightly seated on the top of the load pad 41 so as not to apply excessive load to the gearbox 33. Of course, the housing of the gearbox 33 may be implemented with a metal material having high rigidity.

Meanwhile, in the second embodiment of the present invention, the lifting unit 30 may include a hydraulic cylinder 37, a lifting beam 38, a first elastic body 39a and a second elastic body 39b.

First, the hydraulic cylinder 37 may be arranged to look downward from the top of the device body (10).

One end of the lifting beam 38 may be connected to the rod end of the hydraulic cylinder 37, and the other end thereof may be connected to the lower protruding beam 22 of the load beam 20.

In addition, the first elastic body 39a may be disposed between the device body 10 and the lower protruding beam 22 of the load beam 20, and the second elastic body 39b may be connected to the device body 10. It may be disposed between the upper protrusion beam 21 of the load beam (20).

When the first and second elastic bodies 39a and 39b raise the lifting beam 38 again by using the hydraulic cylinder 37, the first and second elastic bodies 39a and 39b may apply a load applied to the hydraulic cylinder 37 by the weight of the load beam 20. Reducing power is to reduce the function.

When the operator operates the hydraulic cylinder 37 to seat the load beam 20, the lifting beam 38 connected with the rod of the hydraulic cylinder 37 is lowered. At this time, since the lower end of the lifting beam 38 is connected to the lower protruding beam 22 of the load beam 20, the load beam 20 is seated on the periphery of the heat treatment furnace (W).

In this case, the rod pad 41 may be disposed at an upper end of the hydraulic cylinder 37. The load pad 41 may be a heat resistant elastic material, and may be provided to support the upper protruding beam 21 of the load beam 20 when the load beam 20 is lowered.

That is, the lower protruding beam 22 of the load beam 20 supports the support 1 to the bottom of the periphery of the heat treatment furnace W, and the upper protruding beam 21 of the load beam 20 of the hydraulic cylinder 37 The support 1 is supported by the seating on the rod pad 41 disposed at the top. At this time, the interval H1 between the upper protruding beam 21 of the load beam 20 and the load pad 41 and the interval between the lower protruding beam 22 of the load beam 20 and the bottom of the periphery of the heat treatment furnace W (H1) may be the same. In this case, when the load beam 20 descends, the upper protruding beam 21 of the load beam 20 is lightly seated on the upper portion of the load pad 41, so that an excessive load is not applied to the hydraulic cylinder 37. Of course, the material of the hydraulic cylinder 37 housing may be implemented with a high rigidity metal material.

The foregoing merely shows a specific embodiment of the load beam support apparatus.

Therefore, it will be apparent to those skilled in the art that the present invention can be easily substituted or modified in various forms without departing from the spirit of the present invention described in the claims below. do.

W: Heat treatment R: Rotor shaft
1: support 2: hanger
10: device body
12: Wheel 13: Wheel connector
20: road beam 21: upper projection beam
22: lower protrusion beam 30: lifting portion
31: drive motor 32: coupling
33: gearbox 34: screw block
35: screw barb 36: stopper
37: hydraulic cylinder 38: lifting beam
39a: first elastic body 39b: second elastic body
41: road pad

Claims (5)

An apparatus body connected to the moving device of the heat treatment furnace and disposed to move in the direction of the heat treatment furnace;
A load beam on which a support for supporting the rotor shaft introduced into the heat treatment furnace is seated; And
And a lifter disposed in association with the device body and the load beam and provided to lift the load beam.
The lifting unit,
A drive motor disposed on the device body;
A gear box connected to the rotation shaft of the drive motor and coupled to the drive shaft, the gear box being provided to switch the rotation direction of the drive motor in a vertical direction;
One end is connected to the lower portion of the gear box, the other end of the screw bar is equipped with a stopper; And
A screw block disposed on the load beam and engaged with the screw bar;
Road beam support apparatus of the heat treatment furnace comprising a.
The method of claim 1,
And a load pad of a heat resistant elastic material disposed on an upper end of the gear box so as to support the upper protruding beam of the load beam when the load beam descends.
An apparatus body connected to the moving device of the heat treatment furnace and disposed to move in the direction of the heat treatment furnace;
A load beam on which a support for supporting the rotor shaft introduced into the heat treatment furnace is seated; And
And a lifter disposed in association with the device body and the load beam and provided to lift the load beam.
The lifting unit,
A hydraulic cylinder disposed on the apparatus body; And
An elevating bar having one end connected to the hydraulic cylinder and the other end connected to a lower protruding beam of the load beam;
Road beam support apparatus of the heat treatment furnace comprising a.
The method of claim 3,
The lifting unit,
When the load beam is raised, the load applied to the hydraulic cylinder is reduced by the weight of the load beam,
A first elastic body disposed between the device body and the lower protruding beam of the load beam; And
A second elastic body disposed between the device body and the top protruding beam of the load beam;
Load beam support device of the heat treatment furnace, characterized in that it further comprises.
The method of claim 3,
And a load pad made of a heat resistant elastic material disposed on an upper end of the hydraulic cylinder so as to support the upper protruding beam of the load beam when the load beam descends.

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