KR101503320B1 - Apparatus for expanding pipe - Google Patents

Abstract

The widening processing apparatus of the present invention includes a lever unit that provides a force in a direction opposite to that of the wedge unit and the warp punch according to a pressure in one direction in order to separate the wedge unit and the warp punch.
Accordingly, since a separate separating device is unnecessary, the continuity of the manufacturing method is ensured thereby, work efficiency is improved, damage of the workpiece is prevented, and safety of the worker can be secured.

Description

[0001] APPARATUS FOR EXPANDING PIPE [0002]

The present invention relates to an expanding machining apparatus for manufacturing a ring.

In general, the retaining ring, which is a key component of a power generator, is a high-strength, high-strength material containing special alloys. In order to satisfy the mechanical properties of the retaining ring, it is manufactured by a cold-tube expanding method in which deformation is applied in cold and a work hardening technique is incorporated.

A ring preform material for forming a retaining ring is mounted on the outer side of the wedge unit and an inclined punch is inserted in the center of the wedge unit. Due to the inclined punch being inserted into the wedge unit, the diameter of the wedge material is widened and the thickness is reduced to form a desired ring.

In order to separate the formed ring from the wedge unit, the ring moves the wedge unit in close contact with the wedge unit, and moves the wedge unit and the punch combination on the center support bar below the punch. Whereby the wedge unit that is not supported by the center support bar is separated from the punch.

The wedge units composed of a plurality of pieces move in different directions. The wedge unit is thus separated from the formed ring ring.

Generally, the weight of one wedge unit mold is about 600 ~ 900kg, and in the case of punch, it is about 1,100kg. Further, the ring-shaped workpiece is formed to have a diameter of about 900 to 1800 mm. In this case, when the piece of the wedge unit is inclined toward the ring-shaped workpiece, the ring-shaped workpiece may be damaged. In addition, since the wedge unit and the punch assembly must be moved to the correct position on the center support bar, there is a safety problem and the working efficiency may be reduced.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an enlargement processing apparatus which can easily separate a manufactured pipe.

In order to achieve the above object, according to one aspect of the present invention, there is provided an expanding machining apparatus including a cylindrical shape having an inner space and extending in a first direction and having a ring- A wedge unit, an inclined punch insertable into the internal space, the inclined punch being formed by expanding the cross sectional area along the first direction, a pressure plate connected to the inclined punch and applied with pressure in a first direction, and a pressure plate And a pair of lever units configured to press the wedge unit in the first direction and press the inclined punch in a direction opposite to the first direction when the pressure is applied.

In one embodiment of the present invention, the pair of lever units are mounted on the pressure plate so as to face each other.

The lever unit may include a bent portion bent at a predetermined angle and having one end mounted on the pressing plate so as to be movable in a second direction perpendicular to the first direction, And a first socket connected to the lever so as to be rotatable with respect to one end of the first plate and mounted on the platen so as to be movable along the second direction.

In one embodiment of the present invention, the lever unit includes a second socket rotatably connected to the bending region and mounted to the wedge unit so as to be reciprocally movable in the second direction.

In one embodiment of the present invention, the second socket is detachably mounted on one surface of the wedge unit facing the pressure plate, and the second direction is formed on one surface of the wedge unit from the outer circumference of the wedge unit A guide groove is formed which is recessed and formed to fit the second socket.

According to an embodiment of the present invention, the warp punch includes a latching groove formed on one surface of the lever so as to catch the other end of the lever.

According to an embodiment of the present invention, the expanding machining apparatus further includes a lower pressure plate for supporting the wedge unit in which the inclined punch is inserted, and having an opening in one area corresponding to the inclined punch.

According to an embodiment of the present invention, when pressure is applied in the first direction, the levers included in the pair of lever units are formed to rotate in opposite directions with respect to each bending region.

According to the present invention, the wedge unit and the oblique punch can be separated from each other by using a lever unit formed to provide different pressures to the wedge unit and the oblique punch. Accordingly, since the continuity of the manufacturing method is ensured, the working efficiency can be improved.

Further, since the wedge unit and the warp punch are subjected to pressure in a direction not affecting the ring-shaped material formed along the outer periphery of the wedge unit, damage to the ring-shaped material is prevented, can do.

1 is a cross-sectional view of an expanding machining apparatus according to an embodiment of the present invention;
Fig. 2 is a partially exploded view of the expanding machining apparatus of Fig. 1; Fig.
3 is a conceptual diagram for explaining a method of forming a tube using an expanding machining apparatus.

Hereinafter, the expanding machining apparatus according to the present invention will be described in more detail with reference to the drawings. In the present specification, the same or similar reference numerals are given to different embodiments in the same or similar configurations. As used herein, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

Fig. 1 is a cross-sectional view of the expanding machining apparatus, and Fig. 2 is a partially exploded view of the expanding machining apparatus.

Referring to FIGS. 1 and 2, an expanding apparatus according to the present invention includes a lower pressure plate 110, a pressure plate 120, a wedge unit 200, a warp punch 300, and a lever unit 400.

The wedge unit 200 is fixed on the lower pressure plate 110. The wedge unit 200 is formed in a cylindrical shape. The wedge unit 200 is formed of at least two separate regions, and has an internal space 201 through which the inclined punch 300 can be inserted. For example, the wedge unit 200 may be formed of at least four pieces and a deformable spacing space may be formed between the four pieces. In addition, the spacing space may vary depending on the pressure applied to the wedge unit 200. The outer periphery of the wedge unit 200 can be deformed.

That is, the ring-shaped preform material is mounted along the outer circumferential surface of the wedge unit 200, and the outer circumference of the wedge unit 200 is increased by the pressure, so that the preform material is formed into a predetermined diameter tube.

The inclined punch 300 is formed to have a shape corresponding to the inner space 201 so as to be inserted into the inner space 201. However, the end face of the warp punch 300 is formed to be gradually narrowed along the first direction D1. The slant punch 300 may have a rectangular cross section, but the present invention is not limited thereto.

The lower pressure plate 110 includes an opening 111 formed in a region corresponding to a region where the wedge unit 200 is disposed. Therefore, when the wedge unit 200 mounted with the inclined punch 300 is mounted on the lower pressure plate 110, the vacuum force between the upper surface of the lower pressure plate 110 and the inclined punch 300 is prevented can do.

That is, the warp punch 300 widens the outer circumference of the wedge unit 200 by the pressure applied in the first direction D1, and the diameter of the preform material is widened. The inclined punch 300 includes a pair of hooks 310 projecting from one end of the inclined punch 300. The pair of hooks 310 may be formed to face each other. The pair of rings 310 includes a first hole 311 formed in a second direction D2 intersecting the first direction D1 so as to correspond to each other. The first hole 311 is formed to extend by a predetermined length in the first direction D1.

The pressing plate 120 includes a protrusion 121 protruding from one surface of the pressing plate 120 facing the wedge unit 200 of the pressing plate 120. The protrusion 121 is formed with a second hole 123 formed in the second direction D2.

The protrusion 121 is sandwiched between the pair of rings 310 and the first hole 311 and the second hole 123 are arranged in a line. Further, the adjustment bolt 500 is mounted to pass through the first and second holes 311 and 123. That is, the pressure plate 120 and the wedge unit 200 are fixed by the adjustment bolt 500.

The adjustment bolt 500 mounted on the second hole 123 and inserted into the first hole 311 is moved in the first direction D1 by the relative movement of the pressure plate 120 and the inclined punch 300. [ The first hole 311 extends in the first direction D1.

The wedge unit 200 is formed by pressing the warp punch 300 in the first direction D1 due to the pressure applied to the pressure plate 120. The wedge unit 200, It is possible to extend the outer periphery of the lens.

The expansion processing apparatus according to the embodiment of the present invention may further include a lever unit 400 connected to the pressure plate 120, the wedge unit 200, and the inclined punch 300, respectively. The lever unit 400 includes a lever 410, a first socket 420, and a second socket 430. The expanding machining apparatus may include a pair of lever units 400.

The lever 410 is formed in a bent shape at a predetermined angle. One end of the lever 410 is fixed to the pressure plate 120 so as to be rotatable. The bent portion of the lever 410 is rotatably fixed to the wedge unit 200. The other end of the lever 410 is engaged with the inclined punch 300.

1, the outer periphery of the bent lever 410 is supported on the upper surface of the wedge unit 200 facing the pressing pop 120, and one end of the lever 410 is supported by the pressing plate 40. [ And the other end of the lever 410 is supported on the side surface of the inclined punch 300. The other end of the lever 410 is supported by the side surface of the inclined punch 300. [

A latching groove 301 is formed on one side of the inclined punch 300 so that the other end of the lever 410 is caught. The latching groove 301 is formed by the other end of the lever 410 so that the inclined punch 300 moves in a direction opposite to the first direction D1. That is, the other end of the lever 410 fitted in the latching groove 301 supports the inclined punch 300 in a direction opposite to the first direction D1.

The first socket 420 is mounted on a lower surface of the pressure plate 120 facing the wedge unit 200. A first guide groove 122 is formed on a lower surface of the pressure plate 120 to be recessed to mount the first socket 420. The first socket 420 may be formed with a latching portion to be mounted on the first guide groove 122.

The first guide groove 122 is formed to be recessed along a second direction D2 substantially perpendicular to the first direction D1 from an edge of the pressure plate 120. [ For example, as shown in FIG. 1, the first guide groove 122 may extend along the second direction D2. Accordingly, the latching portion of the first socket 420 can be inserted and fixed from the edge of the first guide groove 122. The first socket 420 can be separated from the first pressing plate 120 by moving the first guide groove 122 to the edge region of the pressing plate 120 of the first socket 420.

The first socket 420 and the one end of the lever 410 are connected by the first hinge unit 411. The lever 410 is connected to the first socket 420 so as to be rotatable about an axis along a third direction D3 substantially perpendicular to the first and second directions D1 and D2.

The lever 410 is formed in a bent shape. A second guide groove 202 is formed at one end of the lever 410. The second socket 430 may be formed to be mounted to the second guide groove 202.

Like the first guide groove 122, the second guide groove 202 is formed on the upper surface of the wedge unit 200 and extends from the edge of the upper surface of the wedge unit 200 to a position substantially perpendicular to the first direction D1. And is formed along the two directions D2. For example, as shown in FIG. 1, the first guide groove 122 may extend along the second direction D2. However, it is preferable that the second guide groove 202 is formed so as not to communicate with the internal space 201 of the wedge unit 200.

Accordingly, the lever 410 can be separated from the wedge unit 200 by moving the second socket 430 toward the outer periphery of the wedge unit 200.

That is, the lever 410 on which the first and second sockets 420 and 430 are mounted is detachable from the pressure plate 120, the wedge unit 200, and the inclined punch 300.

As described above, the expanding processing apparatus according to the present invention includes at least a pair of lever units 400 formed to face each other, and may include two pairs of lever units 400, if necessary. The first and second guide grooves 121 and 202 and the engaging groove 301 are formed so as to correspond to the number of the lever units 400 included in the expanded machining apparatus.

According to the present invention, one end of the lever 410 is moved by the pressure in the first direction D1 applied to the pressure plate 120, and the other end of the lever 410 is moved in the first direction Lt; RTI ID = 0.0 > D1. ≪ / RTI > Accordingly, the inclined punch 300 can be separated from the wedge unit 200.

Hereinafter, the driving of the expanding machining apparatus for separating the inclined punch 300 from the wedge unit 200 in which the preform material 10 processed to a preset diameter is formed on the outer circumferential surface will be described.

Referring to FIGS. 1 and 3 (a) and 3 (b), the preform material 10 may be processed by a cold deformation method under a room temperature condition in order to secure the physical properties of the preform material 10. Accordingly, the processed preform material 10 can be strongly bonded to the wedge unit as compared with a technique of working in a hot state.

The lever unit 400 connected to the pressure plate 120 and the lever unit 400 connected to the wedge unit 200 clamped by the pressure of the inclined punch 300 are moved in the opposite direction to the first direction D1, , The preform material 10 formed on the outer periphery of the wedge unit 200 is moved in the opposite direction.

In this case, the first socket 420 is fixed to the first guide groove 122, the second socket 430 is separated from the second guide groove 202, And the other end may be separated from the latching groove.

In order to separate the wedge unit 200 and the inclined punch 300, the pressure plate 120 is moved to seat the components on the lower pressure plate 110.

Referring to FIG. 3 (c), the first socket 420 is moved toward the center of the pressure plate 120. The other end of the lever 410 is inserted into the latching groove and the second socket 430 is moved to be engaged with the second guide groove 202.

The first hole 311 is formed to extend in the first direction D1 and the pressure plate 120 on which the adjustment bolt 500 is mounted is formed to extend in the first direction D1 with respect to the inclined punch 300, D1). ≪ / RTI > Accordingly, the lever unit can be moved to a position where the lever unit can be engaged with the wedge unit 200 and the warp punch 300 by adjusting the position of the pressure plate 120.

One end of the lever 410 is coupled to the pressure plate 120 and the other end of the lever 410 is fixed to the inclined punch 300. The bent region Is mounted on the wedge unit (200).

Referring to FIG. 3 (d), the pressure plate 120 is moved toward the wedge unit 200 by the pressure in the first direction D1 provided to the pressure plate 120. The adjustment bolt 500 moves in the first direction D1 within the first hole 311. [

As the pressure applied to the pressure plate 120 increases, the first sockets 420 move in the second direction D2 within the first guide groove 122 due to the pressure. That is, the first socket 420 moves toward the edge from the center of the pressure plate 120. Accordingly, the lever 410 rotates about the one end by the first hinge unit 411 connecting the first socket 420 and the lever 410.

A second hinge unit 412 that connects the second socket 430 with the bent region of the lever 410 by the rotation of the lever 410 may guide the bent region of the lever 410 And the other end of the lever 410 rotates.

That is, the bent region of the lever 410 supports the upper portion of the wedge unit 200 in the first direction D1 as the first socket 420 moves, And the other end is driven to rotate based on the bent region.

The rotating force of the other end portion is converted into a force in a direction opposite to the first direction D1 by the engagement groove and the insertion structure of the lever 410. [

The wedge unit 200 receives a force in the first direction D1 due to the bent structure of the lever 410 and the inclined punch 300 is moved in the opposite direction to the first direction D1 The force is applied in the direction of The wedge unit 200 and the warp punch 300 which are coupled to each other are separated from each other by forces in opposite directions.

That is, the inclined punch 300 receives the force in the first direction D1 by the pressure in the first direction D1 applied to the pressure plate, and the wedge unit 200 is moved in the first direction D1 In the direction opposite to the direction of the arrow. Also, the lever 400 rotates about the bending area, that is, the second hinge unit 412, by the pressure. Further, the pair of levers 400 facing each other rotate in opposite directions with respect to the respective second hinge units 412.

Even if only the inclined punch 300 is separated from the wedge unit 200 while the wedge unit 200 is mounted on the lower pressure plate 110, the lower pressure plate 110 is opened by the opening 111 formed in the lower pressure plate 110, And the warp punch 300 do not become a problem.

In this embodiment, when a pressure is applied in the first direction D1, each lever unit mounted to face each other has one end of the lever unit 400 in the second direction D2 and the second direction D2, D2, it will be obvious that further explanation will be omitted.

Referring to FIG. 3E, when the inclined punch 300 is separated from the wedge unit 200, the pressing plate 120 is moved in a direction opposite to the first direction D1. The lever unit 400 mounted on the pressing plate 120 and the inclined punch 300 connected to the pressing plate 120 by the adjusting bolt 500 are moved in the opposite direction.

Although not shown in the drawing, the wedge unit 200 having a plurality of pieces is moved more easily when the inclined punch 300 is detached. So that the manufactured ring can be more easily separated from the wedge unit 200.

According to the present invention, the wedge unit and the oblique punch are separated from each other by a lever unit formed to provide different pressures to the wedge unit and the oblique punch using a pressure provided in one direction .

In addition, since the wedge unit and the warp punch are applied with pressure in a direction not affecting the ring-shaped material formed along the outer periphery of the wedge unit, damage to the ring-shaped material can be prevented.

It is to be understood that the above-described expanding machining apparatus is not limited to the configuration and method of the above-described embodiments, but the embodiments can be modified so that all or some of the embodiments are selectively combined .

Claims (8)

A cylindrical wedge unit having an inner space and extending in a first direction and having a ring-shaped material for expansion processing mounted on the outer periphery thereof;
A slant punch insertable into the inner space, the slant punch being formed to have a narrow cross-sectional area along the first direction;
A pressure plate connected to the inclined punch and to which a pressure in a first direction is applied; And
And a pair of lever units mounted on the pressure plate and configured to press the wedge unit in the first direction when the pressure is applied and to push the inclined punch in a direction opposite to the first direction, . The apparatus according to claim 1, wherein the pair of lever units are mounted on the pressure plate so as to face each other. The lever unit according to claim 1,
A lever including a bent region bent at a predetermined angle and having one end movably mounted on the platen so as to be movable in a second direction perpendicular to the first direction; And
And a first socket connected to the lever so as to be rotatable about one end of the lever and mounted on the platen so as to be movable along the second direction. 4. The lever unit according to claim 3,
And a second socket rotatably connected to the bending region and mounted to the wedge unit in a reciprocating manner in the second direction. 5. The method of claim 4,
The second socket is detachably mounted on one surface of the wedge unit facing the pressure plate,
Wherein a guide groove is formed on one surface of the wedge unit so as to be recessed along the second direction from the outer periphery of the wedge unit so as to fit the second socket. 6. The method of claim 5,
Wherein the inclined punch includes a latching groove formed on one surface of the lever so that the other end of the lever is hooked. The method according to claim 1,
Further comprising a lower pressure plate for supporting the wedge unit into which the inclined punch is inserted and having an opening in a region corresponding to the inclined punch. 3. The method of claim 2,
Wherein when the pressure is applied in the first direction, each of the levers included in the pair of lever units is formed so as to rotate in directions opposite to each other with respect to each bending region.

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