KR20190071910A - The upper die moving unit of the bellows forming device - Google Patents

Abstract

The present invention relates to an upper die moving unit of a bellows forming apparatus, which is able to, when forming a bellows, prevent an upper die from being forcibly moved. According to the present invention, the upper die moving unit of the bellows forming apparatus comprises: an elevation block elevatably installed on an upper side of a low die; a plurality of upper dies installed on an idling shaft on a lower side of the elevation block to be movable horizontally at regular intervals, coming in contact with an external surface of a cylindrical-shaped material pipe; a plurality of bidirectional shafts rotatably placed between the elevation block and the upper dies to have transfer screws formed on both sides to have different directions; and a plurality of upper die supporters respectively spirally engaged with both sides of the bidirectional shafts to move the upper dies riding on the bidirectional shaft when the bidirectional shafts rotate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an upper die moving unit of a bellows forming apparatus,

And more particularly to an upper die moving unit of a bellows molding apparatus which prevents forced movement of an upper die during bellows molding.

In general, expansion or shrinkage occurs when the pipe receives heat or cold. When it is suppressed, compression and tensile stresses are generated. In the case of mechanical piping, pipe is damaged when vibration or earthquake or ground settlement occurs.

Expansion joints are used to absorb the expansion, contraction and displacement.

The bellows is the most important part of the expansion joints and is formed by argon welding the joints with high-quality stainless steel plates and by roll-forming or hydraulic-forming machines.

In order to remove the residual stress of the welded part and the working stress at the time of molding, a heat treatment and an acid treatment may be carried out.

The shape of the bellows can be divided into U, S, Multi-Ply and Omega types. Of these, the U type is the most widely used and has excellent stretchability. However, If necessary, insert a control ring into the bellows bend.

Among them, the U-shaped bellows forming methods are used to mold the bellows by using the sliding mold while applying the hydraulic pressure to the clamped pipe, so that it takes a lot of time to form a plurality of acids, and mass production is difficult have.

In order to solve the above problem, Korean Patent Registration No. 10-1430919 filed and registered by the inventor of the present invention includes a rotating shaft which is rotatably installed on an upper part of a lifting block; A plurality of row-dies disposed horizontally at predetermined intervals on the rotating shaft and contacting the inner surface of the cylindrical work tube; An idling-shaft provided on the lifting means on the upper portion of the rotating shaft so as to freely rotate; And a plurality of upper dies provided in the idle-shaft so as to be horizontally movable at predetermined intervals and in contact with an outer surface of the cylindrical work tube, wherein the cylindrical work tube horizontally coupled to the row- A bellows molding apparatus is disclosed in which a bellows can be formed by a lowering of an upper die and a horizontal movement of the upper die from the left and right sides of the lower die toward the center.

However, although the upper bellows forming apparatus is capable of mass production by allowing a plurality of acids to be simultaneously formed at one time, there are the following problems.

Idle-Shaft Upper-Dia and Rotating During bellows molding using the low-die of the shaft, a plurality of upper-dies are forced to move on the idling-shaft while being in down pressure under contact with the workpiece , There is a fatal problem that uneven wear occurs in the moving direction in the round shape of the upper die outer edge.

Further, there is a problem that the U-shape of the bellows to be formed due to the uneven wear of the upper die is not uniformly formed and the quality of the product is deteriorated.

Korean Patent No. 10-1430919 Korean Patent Publication No. 10-2004-0068676

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems and technical prejudices, and it is an object of the present invention to provide a method of manufacturing a bellows, And an upper die moving unit of the bellows molding apparatus.

To achieve the above object, an upper die moving unit of a bellows molding apparatus according to the present invention comprises: a lifting block vertically installed on a row-die; A plurality of upper dies provided to be horizontally movable at predetermined intervals in an idling-shaft of the lower portion of the ascending / descending block and in contact with an outer surface of the cylindrical work tube; A plurality of bidirectional shafts rotatably disposed between the elevating block and the upper die and formed with conveying screws having opposite directions; And a plurality of upper die supports spirally coupled to both sides of the bidirectional shaft, respectively, for moving the upper die on a bidirectional shaft when the bidirectional shaft is rotated.

At this time, the upper die support body is disposed adjacent to the upper die, and pushes the pushing plate to move the upper die when the bidirectional shaft rotates. A plurality of ball bearings coupled to the pushing plate to contact one surface of the upper die; And a fixing member movably coupled to the bi-directional shaft through the upper portion of the pushing plate and fixing the rotational state of the pushing plate so as to be adjacent to the upper die according to the positions of the bidirectional shafts. .

The fixing member may include a fixing bolt formed on the inner circumferential surface with a conveying screw coupled to the bidirectional shaft, and a nut coupled with the fixing bolt.

Preferably, the upper portion of the pushing plate is provided with a dividing piece for dividing a coupling hole through which the fixing member passes.

It is preferable that a return plate for returning the moved upper die to the original position through rotation of the bidirectional shaft is further provided on the other side of the upper die adjacent to the pushing plate.

In addition, the bi-directional shaft is preferably arranged radially from the center of rotation of the upper-die.

Finally, it is preferable that both sides of the bidirectional shaft are rotatably disposed on a support piece disposed under the lift block, and a reinforcement piece for preventing deflection of the bidirectional shaft is provided at the longitudinal center of the bidirectional shaft.

According to the upper die moving unit of the bellows molding apparatus of the present invention having the above-described structure, since the lowering of the elevating block and the upper die are moved on the bidirectional shaft by the drive motor, Thereby preventing uneven wear of the upper die in one direction.

In addition, since the uneven wear of the upper die is prevented, it is possible to form a bellows of good quality.

1 is a front view showing a state in which an upper die moving unit according to the present invention is installed in a bellows forming apparatus,
2 and 3 are a perspective view and a front view showing an upper die moving unit according to the present invention,
4 is a rear perspective view showing an upper die support and a bidirectional shaft among constitutions of the upper die moving unit,
5 is an exploded perspective view in which the upper die support is disassembled,
Fig. 6 is a cross-sectional view of the coupled portion of Fig. 5,
7 is a process diagram showing a process of forming a bellows using an upper die moving unit, which is a state before molding,
8 is a process diagram showing a process of molding a bellows by using an upper die moving unit, which is a state after molding.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by terms. Terms are used only for the purpose of distinguishing one component from another.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

FIG. 1 is a front view showing a state in which an upper die moving unit according to the present invention is installed in a bellows forming apparatus, FIGS. 2 and 3 are a perspective view and a front view showing an upper die moving unit according to the present invention, 5 is an exploded perspective view showing the upper die support, Fig. 6 is a cross-sectional view of the coupled main portion of Fig. 5, and Fig. 7 is an exploded perspective view of the upper die support unit FIG. 8 is a process diagram showing a process of forming a bellows by using an upper die moving unit, and FIG. 8 is a state in which a bellows is formed.

As shown in Figs. 1 to 8, the upper die moving unit 50 of the present invention includes a lift block 10 installed on a top of a row-die 4 so as to be able to move up and down; A plurality of upper die 20 installed horizontally at predetermined intervals in an idling shaft 21 under the elevating block 10 and in contact with the outer surface of the cylindrical work pipe 5; A plurality of bidirectional shafts (30) rotatably disposed between the elevating block (10) and the upper die (20) and having conveying screws having different directions on both sides; And a plurality of upper die supports (20) which are spirally coupled to both sides of the bidirectional shaft (30) and which move the upper die (20) while riding on the bidirectional shaft (30) 40).

The upper die moving unit 50 of the present invention is installed in the bellows forming apparatus 100 and forms the bellows 6 while moving in contact with the outer surface of the cylindrical work tube 5 when the bellows 6 is formed.

As shown in Fig. 1, the upper die moving unit 50 is disposed on the upper side of the frame 1 having a roughly rectangular shape, and the lower die Direction.

The up and down movement of the upper die moving unit 50 is to provide a pressing force toward the downward direction when the cylindrical work pipe 5 is formed.

The upper die moving unit (50) is provided with a plurality of upper die (20) which move in a variable manner.

A rotating shaft 3 is installed at a lower portion of the upper die moving unit 50 along the direction in which the upper die 20 is installed and is rotated by a driving means M provided at one side.

A plurality of row-shaped dies 4 are provided on the rotating shaft 3 to move along with the upper-die 20 while rotating on the rotating shaft 3.

At this time, a spline is formed on the outer surface of the rotating-shaft 3 and the inner surface of the low-die 4 so that the movement of the low-die 4 can be performed.

In the present embodiment, 12 low-die 4 and 11 upper die 20 are shown, but the number may be changed according to the size of the bellows 6 to be formed.

2 to 4, the upper die moving unit 50 is installed on the upper part of the frame 1 and includes an elevating block 10, an upper die 20, a bidirectional shaft 30, And a die support body 40.

The lifting block 10 maintains a roughly rectangular form and sequentially supports the bidirectional shaft 30 and the idling-shaft 21 on the lower side.

The elevating block 10 is engaged with the shaft 11a of the cylinder 11 provided on the upper side of the frame 1 and is lifted up and down in the drawing by driving of the cylinder 11. [

At this time, both ends of the elevating block 10 are vertically coupled to the guide rails 2 provided on both sides of the frame 1 as shown in Fig. 1. When the elevating block is driven by the driving of the cylinder 11, 2).

Therefore, the elevating block 10 is allowed to ascend and descend stably.

As shown in Figs. 2 to 4, the upper die 20 is provided with eleven idling shafts 21 horizontally movably disposed under the lift block 10, Is installed.

At this time, the idling-shaft 21 is rotatably supported by the support 14 under the lift block 10.

The upper die 20 is formed by molding a bellows 6 together with a row die 4 which is in contact with an outer surface of a cylindrical workpiece tube 5 to be molded and contacts the inner surface of the workpiece tube 5, .

The upper die 20 and the lower die 4 are formed in the form of a disk having a predetermined thickness as a whole and the shape of the outer end portion is formed of a round of "U" shape for forming the bellows 6 Since the shape and material are common matters, a detailed description will be omitted.

As shown in FIGS. 2 to 4, the bidirectional shaft 30 is rotatably provided between the up-and-down block 10 and the upper die 20 at regular intervals.

At this time, both sides of the bidirectional shaft 30 are rotatably disposed on a support piece 12 disposed at a lower portion of the elevation block 10, The reinforcing member 13 is provided. The reinforcing piece 13 is also connected to the lower portion of the elevating block 10. [

On the outer surface of the bidirectional shaft 30, a conveying screw having a different direction with respect to the longitudinal center of the bidirectional shaft 30 is formed. That is, the direction of the conveying screw spiral opposite to the one directional conveying screw helix is the left direction.

Thus, when the rotation of the bidirectional shaft 30 is performed, rotation of the two directional conveying screws in one bidirectional shaft 30 is performed, so that a pair of upper die support bodies 40, which will be described later, The simultaneous movement is performed in the horizontal direction inside and outside of the casing 30.

In addition, the bidirectional shafts 30 are preferably radially arranged with a constant distance from the center of rotation of the upper-die 20.

This is because a plurality of bidirectional shafts 30 are arranged at regular intervals from the center of rotation of the upper-die 20, that is, the center of the idling-shaft 21, so that a plurality of upper die supports 40, So that it can be installed in the shaft 30.

Both ends of the bidirectional shaft 30 are rotatably supported by the support pieces 12 coupled to the lower surface of the lift block 10. [

On the other hand, a driving motor 31 for rotating the bidirectional shaft 30 is provided on one side of each bidirectional shaft 30, that is, on the right side in the drawing.

In this case, it is preferable that the driving motor 31 is a step motor in which the constant rotation speed and the rotation ratio of the bidirectional shaft 30 can be precisely controlled, and the number of revolutions is controlled by a separate control device (not shown).

In this embodiment, five bidirectional shafts 30 are shown. However, the number of the bidirectional shafts 30 is not limited because the number of the bidirectional shafts 30 may vary depending on the number of the upper die support bodies 40 according to the bellows 6 molding.

The upper die support body 40 includes a plurality of upper die support bodies 40 and is movable between the upper die 20 and the bidirectional shaft 30 in such a manner that the upper side of the upper die support body 40 is movable to both sides of the bidirectional shaft 30 And the lower side is disposed adjacent to one surface of the upper die 20. [

The upper die support body 40 is movably installed on each of the bidirectional shafts 30 so that the upper die support bodies 40 are coupled to the transfer screws on both sides of the bidirectional shaft 30 one by one.

In this state, the upper die support body 40 moves the adjacent upper die 20 in the process of moving while moving along the feed screw by the rotation of the bidirectional shaft 30 (see FIGS. 7 and 8).

The upper die support body 40 having the above functions is composed of a pushing plate 41, a ball 44a, and a fixing member 45. [

As shown in Fig. 5, the pushing plate 41 holds a trapezoidal shape gradually expanding toward the lower side on a plate having a predetermined area, and the idling-shaft 21 The upper die 20 is disposed adjacent to the upper die 20 while accommodating a part of the upper die 20 so as to move along the feed screw of the bidirectional shaft 30 when the bidirectional shaft 30 rotates, Direction.

As shown in FIG. 5, three ball bearings 44 are coupled along the receiving grooves 41a on the lower side of the pushing plate 41, and in a coupled state, the ball bearings 44 exposed on the tip of the ball bearings 44 44a are in contact with one surface of the upper die 20. [

The reason why the ball 44a is brought into contact is that the ball 44a is pressed against one face of the upper die 20 when the upper die 20 that rotates during molding of the bellows 6 is pushed by the pushing plate 41 The upper die 20 is moved in a supported state so as not to interfere with the rotation of the upper die 20.

At this time, the ball bearing 44 is threaded through the pushing plate 41 so that the ball 44a can be exposed in the direction of the upper die 20.

4 to 6, the fixing member 45 is movably engaged with the bidirectional shaft 30 through the upper portion of the pushing plate 41, - Fix the pivoting state of the pushing plate (41) so that it is arranged adjacent to the die (20).

The fixing member 45 is composed of a fixed ball 44a formed on the inner circumferential surface with a transfer screw to be coupled to the bidirectional shaft 30 and a nut 47 engaged with the fixed ball 44a.

That is, when the engaging portion 46a of the fixed ball 44a is in contact with the pushing plate 41 in the state in which the fixed ball 44a and the nut 47 are disposed with the pushing plate 41 interposed therebetween as shown in FIG. 5, And is coupled with the nut 47 through the coupling hole 43 formed in the upper portion of the nut 47.

The transfer screw of the engaging portion 46a is formed on the inner circumferential surface of the engaging portion 46a of the fixed ball 44a so as to be engaged with the conveying screw of the bidirectional shaft 30, And is spirally coupled with the shaft 30.

Since the fixing member 45 is in a state of being spirally coupled to the bidirectional shaft 30 with both sides of the pushing plate 41 being pressed, the pushing plate 41 is movably supported on the bidirectional shaft 30 .

On the other hand, the upper part of the pushing plate 41 is preferably provided with a dividing piece 42 for dividing the coupling hole 43 through which the fixing member 45 passes, as shown in FIG.

That is, the engagement hole 43 is formed in the pushing plate 41 and the other part is formed in the split piece 42, so that the split piece 42 is coupled to the pushing plate 41 So that the ball 43 is formed.

This is to ensure ease of assembly so that the pushing plate 41 can be supported on each bidirectional shaft 30 via the fixing member 45. [

The split pieces 42 are pressed by the engagement of the fixing balls 44a passing through the fitting holes 43 and the nuts 47 in a state where the split pieces 42 are arranged, In order to separate the split piece 42 from the pushing plate 41 through the disengagement of the fixing member 45. [

Needless to say, the fixed ball 44a, the nut 47, and the split piece 42 are mutually coupled in a state of passing through the bidirectional shaft 30.

On the other hand, on the other side of the upper die 20 adjacent to the pushing plate 41, the shifted upper die 20 is returned to its original position through the rotation of the bidirectional shaft 30, A return plate 48 may be further provided.

The return plate 48 preferably has a plate-like shape connected to one side of the split piece 42 so as to be able to move while pushing the other side of the upper-die 20, Die 20 is returned to its original position by being moved.

The return plate 48 is configured to hold the upper-die 20 and the lower-die 4 when a spacing jig (not shown) for setting the positions of the upper-die 20 and the row- So that the automatic setting of the display 4 is performed.

At this time, it is needless to say that the return of the return plate 48 is performed by the reverse rotation of the drive motor 31 that rotates the bidirectional shaft 30.

Hereinafter, a process of forming the bellows 6 according to the present invention will be described with reference to the accompanying drawings.

First, a plurality of row-dies (not shown) are assembled on the rotary-shaft 3 and the idling-shaft 21 to match the pitch of the bellows 6 to be formed using a return plate 48 or spacing jig 4 and the upper die 20.

Thereafter, a cylindrical workpiece tube 5, which is coated with a stainless steel plate, is placed on a rotating-shaft 3 so that the upper side of the inner edge of the workpiece tube 5 is joined to the lower die 4 To be connected to the upper part.

When the work tube 5 is seated, the rotating shaft 3 is rotated by the driving means M, and the ascending / descending block 10 descends as shown by the arrow in FIG. 7 through the driving of the cylinder 11 A plurality of upper ends of the upper die 20 coupled to the idling shaft 21 are connected to the upper outer edge of the work tube 5 as shown in Fig.

In this state, the elevating block 10 is continuously lowered. At the same time, the plurality of driving motors 31 are driven together to rotate the bidirectional shafts 30 at the same time while rotating the upper dies 20 in the horizontal direction 7).

The upper die 20 is lowered and together with the lower die 4 of the rotating shaft 3 presses the upper and lower sides of the work tube 5 and the work tube 5 is pressed downward Plastic deformation occurs.

The outer edge of the work tube 5 is deformed to the central portion by the descent of the succeeding upper die 20 and the valley made of the annular recessed portion is formed and the row die 4 is rotated in the rotating shaft 3 So that an acid comprising a relatively annular protrusion is formed.

In this process, the upper die 20 is moved toward the intermediate portion of the idling-shaft 21 by the rotation of the bidirectional shaft 30 at the same time as the lowering and simultaneously the deformation of the work tube 5 The lower die 4 is also slid along with the rotating shaft 3.

At this time, the elevating block 10 is lowered by a predetermined lowering stroke under the control of the controller, and at the same time, the movement of the lower die 4 is carried out by the movement and the lowering of the upper die 20, A plurality of mountains and valleys having pitch are simultaneously formed as shown in Fig. 8 to complete the bellows 6.

On the other hand, since the upper die 20 is moved by the rotating bidirectional shaft 30, the upper die 20 is not forcibly moved while receiving a downward pressure as in the prior art, thereby preventing uneven wear in one direction.

Thereafter, when molding of the bellows 6 is completed, the rotation-shaft 3 is stopped to rotate, and the up-and-down block 10 returns to the initial position.

At this time, the return of the upper position of the upper die 20 and the lower die 4 to the initial position is performed using a gap adjusting jig (not shown), and if the return plate 48 is applied to the upper die 20 Only the upper die 20 can be automatically set to the initial position by the reverse rotation of the drive motor 31. [

As described so far, in the upper die moving unit of the bellows molding apparatus of the present invention, since the lowering of the elevating block and the upper die are moved on the bidirectional shaft by the driving motor, the forced movement of the upper die during bellows forming Thereby preventing uneven wear of the upper die in one direction.

In addition, since the uneven wear of the upper die is prevented, it is possible to form a bellows of good quality.

Although the upper die moving unit of the bellows forming apparatus of the present invention has been described with reference to the preferred embodiments and the accompanying drawings, it is needless to say that the technical scope of the invention is not limited thereto .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. There is no doubt that it is within.

1: Frame 2: Guide rail
3: Rotating - shaft 4: low-die
5: Material tube 6: Bellows
10: lift block 11: cylinder
11a: shaft 12: support piece
13: reinforcement piece 14: support piece
20: upper-die 21: idling-shaft
30: bidirectional shaft 31: drive motor
40: upper die support body 41: pushing plate
41a: receiving groove 42:
43: engagement ball 44: ball bearing
44a: Ball 45: Fixing member
46: fixing bolt 46a:
47: nut 48: return plate
50: Upper die moving unit 100: Bellows forming device

Claims (7)

The bellows molding apparatus 100 is provided with an upper die moving unit (not shown) of the bellows molding apparatus 100 for forming the bellows 6 while moving in contact with the outer surface of the cylindrical work tube 5 at the time of forming the bellows 6 50,
A lift block 10 installed on the upper portion of the low-die 4 so as to be able to move up and down;
A plurality of upper die 20 installed horizontally at predetermined intervals in an idling shaft 21 under the elevating block 10 and in contact with the outer surface of the cylindrical work pipe 5;
A plurality of bidirectional shafts (30) rotatably disposed between the elevating block (10) and the upper die (20) and having conveying screws having different directions on both sides; And
A plurality of upper die supports 40 spirally coupled to both sides of the bidirectional shaft 30 to move the upper die 20 on a bidirectional shaft 30 during rotation of the bidirectional shaft 30, ) Of the bellows forming apparatus (1).
The method according to claim 1,
The upper die support body (40)
A pushing plate 41 disposed adjacent to the upper die 20 for pushing and moving the upper die 20 when the bidirectional shaft 30 is rotated;
A plurality of ball bearings (44) coupled to the pushing plate (41) to contact one surface of the upper die (20); And
The upper die 20 and the upper die 20 are coupled to each other so as to move along the bidirectional shaft 30 while passing through the upper portion of the pushing plate 41 and to be disposed adjacent to the upper die 20 according to the positions of the bidirectional shafts 30. [ And a fixing member (45) for fixing the rotating state of the pushing plate (41).
3. The method of claim 2,
The fixing member 45 includes a fixing ball 44a formed on the inner circumferential surface thereof with a transfer screw coupled to the bidirectional shaft 30 and a nut 47 engaged with the fixing ball 44a. The upper die moving unit of the bellows forming apparatus.
3. The method of claim 2,
Wherein an upper part of the pushing plate (41) is provided with a dividing piece (42) for dividing an engaging hole (43) through which the fixing member (45) penetrates.
3. The method of claim 2,
The return plate 48 for returning the upper die 20 moved to the original position through the rotation of the bidirectional shaft 30 is provided at the other side of the upper die 20 adjacent to the pushing plate 41 And the upper die moving unit of the bellows molding apparatus.
The method according to claim 1,
Wherein the bidirectional shaft (30) is arranged radially from the center of rotation of the upper die (20).
The method according to claim 1,
Both sides of the bidirectional shaft 30 are rotatably disposed on a supporting piece 12 disposed at a lower portion of the elevating block 10,
And a reinforcing piece (13) for preventing deflection of the bidirectional shaft (30) is provided at the longitudinal center of the bidirectional shaft (30).

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