KR101706681B1 - bellows cover bending machine - Google Patents

Abstract

According to the present invention, a bellows cover bending machine comprises a rotation support, a rotation jig, a compression jig, and a support jig. As such, productivity is improved with respect to manufacturing a bellows cover; and moreover, as a result, a welding a welding portion is reduced to improve durability of the bellows cover in the entire bellows cover.

Description

{Bellows cover bending machine}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bellows cover bending apparatus used for manufacturing a bellows cover to be applied to a joint of a heat transfer tube used in a power plant or the like.

In a heat exchange apparatus such as a cogeneration power plant, a high-temperature working fluid (combustion gas) heated in a boiler is introduced into a heating furnace after the turbine is operated, and the working fluid in the heating furnace performs heat exchange with the heat- And the heated heat exchange fluid is utilized as a heat supply source.

Here, due to the change in the amount of heat transferred to the heat exchanger, the heating furnace and the heat transfer pipe, which are structures in the heat exchanger, undergo thermal deformation (expansion and contraction).

Therefore, a sealing structure using a bellows cover is used which prevents the sealing structure of the heating furnace from being broken by absorbing the expansion amount of the heat transfer tube at the joint portion between the heating furnace and the heat transfer tube.

The bellows cover is in the form of a pipe capable of expanding and contracting in the longitudinal direction, and is provided so as to surround the outer surface of the heat transfer tube, and the upper and lower ends thereof are connected to the heat transfer tube and the heating furnace, respectively.

Therefore, according to the sealing structure using the bellows cover, not only the bellows cover covers the boundary portion between the heating furnace and the heat transfer tube, but also the deformation due to the expansion and contraction of the heat transfer tube in the longitudinal direction is absorbed while expanding and contracting together with the bellows cover. The leakage phenomenon to the outside can be prevented.

The conventional bellows cover is formed by processing a relatively thin metal plate into a bellows shape, and it can be considered that the material properties of the metal plate and the morphological characteristics of the bellows are combined and expanded and contracted in the longitudinal direction.

Meanwhile, when the conventional bellows cover is to be formed in the form of a rectangular duct as an example, for the purpose of forming an edge, a part 5 of a split shape is welded and joined as shown in FIG. 1, (6) and (7) were welded and joined together to form corner portions.

According to the conventional technology, it is difficult to weld the ends of the parts connected to each other in accordance with the bending of the corrugated shape due to the shape characteristics of the bellows cover. do.

In addition, since the physical properties of the welded portion vary due to the high heat generated in the welding process, the elasticity of the welded portion may be lowered than other portions, and breakage may easily occur during the stretching process.

Japanese Patent Application Laid-Open No. 10-0825941

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bellows cover bending apparatus for bending a corner portion of a bellows cover to improve manufacturing efficiency and durability of the bellows cover .

According to an aspect of the present invention, there is provided a bellows cover bending apparatus comprising: a rotary pedestal that is horizontally rotatably seated on a base plate; and a rotatable shaft rotatable coaxially with the rotary pedestal, A jig, a pressing jig mounted on the rotation subject in a horizontal movement so as to adjust the distance between the rotary jig and the circle, and a rotary pedestal is rotated to circularly move about the rotary jig; And a supporting jig which is seated and movable so as to change the gap with the rotary jig.

The rotary pedestal is rotated by a stretching operation of a hydraulic cylinder connected to one end of the rotary pedestal, and the pressing jig is linearly moved by a cylinder actuator provided on the rotary pedestal.

A bellows-shaped linear jig groove portion corresponding to the curved jig groove portion of the rotary jig is provided on a side surface of the receiving jig and the pressing jig.

Wherein the rotary base and the rotary jig are rotatably supported by the rotary center shaft, the lower end of the rotary center shaft is supported by the base die, the upper end of the rotary center shaft is supported by the external support means from above the rotary jig, do.

The external supporting means may include a first post and a second post provided on the base die and opposed to each other about the rotary jig, and a second post having one end connected to the first post and the other end connected to the upper end of the rotation center shaft. 1 support rod, and a second support rod having one end connected to the second post and the other end connected to the upper end of the rotation center shaft.

The first support bar and the second support bar have a length adjustable structure.

The bottom of the rotating base is supported by a plurality of casters provided in the reverse direction on the upper surface of the base die.

The base die is provided with a guide rail along a movement path of the support jig, and the support jig is configured to be moved along the guide rail by a cylinder actuator.

As described above, according to the bellows cover bending apparatus of the present invention, it is possible to easily manufacture the structure corresponding to the edge portion when manufacturing the rectangular bellows cover.

Therefore, the productivity of the bellows cover is improved, and as a result, the entire bellows cover is reduced in the welded portion, thereby improving the durability of the bellows cover.

Fig. 1 is a view showing a manufacturing process of a corner portion of a bellows cover according to the prior art;
2 is a perspective view showing a structure of a bellows cover bending apparatus according to the present invention;
3 is a perspective view showing a state in which a bellows cover to be processed is mounted on the bellows cover bending apparatus according to the present invention;
Figs. 4A, 4B and 4C are diagrams sequentially showing steps of bending a linear bellows cover by the bellows cover bending apparatus according to the present invention
5 is a perspective view showing the shape of a bellows cover (edge portion) manufactured by the bellows cover bending apparatus according to the present invention.

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

 2, the bellows cover bending apparatus according to the present invention includes a rotary pedestal 20 that is horizontally rotatably mounted on a base die 10 and a rotary pedestal 20 mounted on the rotary pedestal 20, And the rotation support member 20 is rotatably mounted on the rotation support member 20 so as to be horizontally movably mounted on the rotation support member 20 to adjust the distance between the rotation jig 30 and the rotation support member 20, A pressing jig 40 that is circularly moved about the rotary jig 30 and a supporting jig 50 that is movably mounted on the base die 10 and is movable to change the interval between the rotary jig 30, .

The side surface of the rotary jig 30 is provided with a bellows-shaped curved jig groove portion 301 having a constant radius of curvature. On the side surfaces of the supporting jig 50 and the pressing jig 40, The bellows-like straight jig grooves 401 and 501 corresponding to the jig groove 301 are provided, respectively.

The rotary pedestal 20 is configured to be rotated by the expansion and contraction operation of the hydraulic cylinder 22 connected to one end thereof.

The pressing jig 40 is configured to be linearly moved by the cylinder actuator 42 provided on the rotating pedestal 20.

A guide protrusion line (not shown) is formed on the upper surface of the rotary pedestal 20 so as to guide the linear movement of the pressing jig 40. The pressing jig 40 has a guide projection line So as to partially form a groove.

The rotary pedestal 20 and the rotary jig 30 are commonly rotatably supported by a rotary center shaft 32. A lower end of the rotary center shaft 32 is supported by the base die 10, The upper end of the rotation center shaft 32 is supported by the external supporting means above the rotary jig 30. [

The external supporting means includes a first post 60 and a second post 62 provided on the base die 10 and arranged to be opposed to each other about the rotary jig 30, A first support rod 64 connected at one end thereof to the upper end of the rotation center shaft 32 and connected at the other end thereof to the second post 62, And a second support rod 66 whose other end is connected to the upper end.

The first support rod 64 and the second support rod 66 may have a length adjustable structure.

The bottom of the rotary base 20 is supported by a plurality of casters 12 provided on the upper surface of the base die 10 in a reverse direction and each of the casters 12 includes a rotary pedestal 20 and a rotary jig 30 And a rotating center shaft 32 passing through the rotating shaft 32 in common.

According to the structure in which the rotary pedestal 20 is supported by the caster 12 as described above, even when a large load load is applied to the rotary pedestal 20 due to the configuration in which the rotary jig 30 is obtained on the rotary pedestal 20 The rotating operation of the rotating pedestal 20 is smooth compared with the case where the rotating pedestal 20 and the base die 10 are in direct contact with each other.

The upper surface of the base die 10 is provided with a guide rail 14 along the movement path of the support jig 50 and the support jig 50 is configured to be moved along the guide rail 14.

The operation of the bellows cover bending apparatus according to the present invention constructed as described above will now be described.

4A, when the pressing jig 40 and the receiving jig 50 are arranged in a line and the linear jig grooves 401, 501 of the pressing jig 40 and the receiving jig 50 are aligned The bellows cover B having a straight shape is seated on the pressing jig 40 and the receiving jig 50 (see FIG. 3).

4B, the pressing jig 40 and the supporting jig 50 are moved toward the rotary jig 30 by the operation of the respective cylinder actuators 42 and 52, so that the bellows cover B And a part thereof comes into contact with the rotary jig 30. [

At this time, the curved jig groove portion 302 of the rotary jig 30 is engaged with the bellows cover B such that they are engaged with each other.

In this state, as shown in Fig. 4C, the rotation pedestal 20 is slowly rotated in one direction by the operation of the hydraulic cylinder 22. [

The rotary jig 30 mounted on the rotary pedestal 20 is rotated about the rotary center shaft 32 and at the same time the pressing jig 30 mounted on the rotary pedestal 20 is rotated, (40) is circularly moved along the rotary jig (30) about the rotation center shaft (32).

The other end of the bellows cover B is supported at one end thereof by the pressing jig 40 (right side in the figure) with the rotary jig 30 as the center, while one end of the bellows cover B is supported by the receiving jig 50 Thereby being bent along the rotary jig 30 to complete its shape (see FIG. 5).

The degree of bending of the bellows cover (B) is determined according to the radius of curvature of the curved jig groove portion (301) of the rotary jig (30).

Since one end of the bellows cover B is supported only in a limited lateral movement by the receiving jig 50 and is not fixed, the bellows cover B may be bent in the process of bending the other end of the bellows cover B B is naturally pulled up to the side of the rotary jig 30 in a state of being in contact with the supporting jig 50.

Therefore, according to the present invention, since the portion of the bellows cover B is not elongated in the longitudinal direction during bending, the thickness of the bellows cover B does not become thin.

In the operation of the bending apparatus according to the present invention, a strong pressure is applied from the pressing jig 40 to the rotary jig 30 in the horizontal direction. As a result, the pressure is applied to the rotary base 20 and the rotary jig 30 To the rotating center shaft 32 which rotatably supports the rotating shaft 32 in common.

Therefore, in order to ensure stable and precise operation of the bending apparatus according to the present invention, the rotation center of the rotation center shaft 32 must be maintained properly without being deviated, despite the pressure applied by the pressing jig 40. [

In order to satisfy such a condition, it may be considered that the lower end of the rotation center shaft 32 is not supported by the base die 10. In the present invention, The stability of the operation can be enhanced.

The first and second support rods 64 and 66 extending from the first and second posts 60 and 62 disposed opposite to each other with the rotary jig 30 as a center are rotated The rotation center shaft 32 is sufficiently stably supported despite the pressure applied by the pressing jig 40 by being connected to the upper end of the center shaft 32 to support the upper end of the rotation center shaft 32. [

Since the first and second support rods 64 and 66 have a length adjustable structure, when the alignment of the rotation center shaft 32 is slightly shifted, the lengths of the support rods 64 and 66 The alignment of the rotation center shaft 32 can be corrected.

10: base die 20: rotating base
30: rotation jig 32: rotation center axis
40: pressing jig 50: receiving jig
60: first post 62: second post
64: first support rod 66: second support rod
B: Bellows cover

Claims (9)

A rotary pedestal which is horizontally rotatably seated on the base plate,
A rotary jig mounted on the rotary pedestal and coaxially rotated together with the rotary pedestal,
A pressing jig that is mounted on the rotary pedestal so as to be horizontally movable so as to adjust the distance between the rotary jig and the rotary pedestal and is circularly moved about the rotary jig,
And a supporting jig movably seated on the base plate and movable so as to change a distance from the rotary jig,

Wherein the rotary base and the rotary jig are rotatably supported by the rotary center shaft, the lower end of the rotary center shaft is supported by the base die, the upper end of the rotary center shaft is supported by the external support means from above the rotary jig, And,

The external supporting means may include a first post and a second post provided on the base die and opposed to each other about the rotary jig, and a second post having one end connected to the first post and the other end connected to the upper end of the rotation center shaft. And a second support rod having one end connected to the second post and the other end connected to the upper end of the rotation center shaft,
Wherein the first support bar and the second support bar have a length adjustable structure
Wherein the bellows cover bending device is a bellows cover bending device.
The method according to claim 1,
A bellows-shaped bending jig groove portion having a predetermined radius of curvature is provided on a side surface of the rotary jig,
And a bellows-shaped linear jig groove portion corresponding to the curved jig groove portion of the rotary jig is provided on a side surface of the receiving jig and the pressing jig
Wherein the bellows cover bending device is a bellows cover bending device.
The method according to claim 1,
The rotating pedestal is rotated by a stretching operation of a hydraulic cylinder connected to one end thereof
Wherein the bellows cover bending device is a bellows cover bending device.
The method according to claim 1,
Wherein the pressing jig is linearly moved by a cylinder actuator provided on a rotating subject
Wherein the bellows cover bending device is a bellows cover bending device.
delete delete delete The method according to claim 1,
The rotating pedestal is supported by a plurality of casters provided in the reverse direction on the upper surface of the base die
Wherein the bellows cover bending device is a bellows cover bending device.
The method according to claim 1,
The base die is provided with a guide rail along the movement path of the support jig,
The support jig being configured to be moved along the guide rail by a cylinder actuator
Wherein the bellows cover bending device is a bellows cover bending device.

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