KR20080007204A - Drawing apparatus for auto dies holder - Google Patents

Abstract

An automatic dies holder for drawing is provided to rectify variation of a product drawn through a drawing machine by using a tilting unit and a turning unit for adjusting an angle of a die vertically and horizontally. An automatic dies holder for drawing comprises a holder(1) for correcting variation of a drawing product drawn from a drawing machine toward vertical(X) and horizontal(Y) directions. The holder consists of a tilting unit(3), a turning unit(4), a tilting head(5) and a body(6), and a link unit(7) and a guide unit(8). The tilting unit adjusts an angle of a die(2) to be moved vertically. The turning unit adjusts the angle of the die to be moved horizontally. The tilting head and the body fix the die to be engaged with the tilting unit and the turning unit. The link unit and the guide unit safely transmit the body, the tilting unit, and the turning unit.

Description

Drawing apparatus for auto dies holder

The present invention relates to an automatic die holder (Auto Dies Holder), and more particularly to an automatic die holder for a drawer to be able to correct the deformation in the vertical and horizontal direction of the product drawn through the drawer.

Generally, products such as rods, wire rods, pipes, etc. are manufactured by rolling and extrusion processing, but drawing processes are used to manufacture accurate products having extremely small cross-sectional areas and small dimensional tolerances.

Since the drawing process is a process of reducing the cross-sectional dimension by exerting an axial tensile force on the outlet side of the die as a drawer and extracting a product having the same cross-sectional dimension as the die hole, plastic deformation passes the metal through the die hole. It is deformed by compression, which occurs as a reaction when doing so.

In general, solid and hollow products with a circular cross section are produced. This drawing process receives a lot of compressive force because the material is reduced in cross-sectional area and tension as it passes through the die, and in this process, a lot of temperature rise is caused by the friction between the die and the material, so the center burst or Severon crack ( Product defects such as chevron cracking occur, which is also affected by the internal structure of the material.

In addition, the product produced by the drawing process has a large effect on the accuracy of the product in the subsequent process. However, the warpage occurs due to the unevenness of the internal structure of the material and the temperature rise of the material during the production of the product by the drawing process, causing many problems.

In order to solve this problem, the position and angle of the installed die are adjusted manually by stopping the production of the product, and during the angle adjustment work of the die, the production of the product is stopped. This causes a problem that the work experience dependence is large.

According to the present invention, when a deformation occurs in a product drawn using a drawing machine, the angle of the die may be adjusted up or down or left and right so as to quickly and accurately correct the deformation of the drawn product during product production without stopping the product production equipment. The present invention has been completed with a technical problem in providing an automatic die holder for a drawer which is easily adjusted using a motor to correct deformation of a product.

The present invention provides an automatic die holder for a drawer that can achieve the above technical problem, but requires a large power because it adds additional deformation to the material that is being drawn using the drawer, the added deformation is continuous It is an object of the present invention to provide an automatic die holder for a drawer that can be maintained.

To this end, a tilting unit that can adjust the angle of the die up and down, a turning unit that can adjust the angle of the die left and right, and a die in conjunction with these moving units It is composed of a tilting head (Tilting Head) and the body (body) to fix the, the link unit and the guide unit (Link Unit) and the guide unit to implement a stable transport by connecting the body and the moving unit.

As mentioned above, since additional deformation must be added and maintained to the material being drawn, each part is designed and manufactured to have sufficient rigidity, and the mechanically stable structure ensures stable performance and durability. It is an object of the present invention to provide an automatic die holder for drawers.

The automatic die holder for the drawing machine of the present invention uses the motor to change the drawn product during the product production without stopping the product production equipment when the deformation occurs in the product drawn using the drawing machine. It is a very useful invention such that it can easily adjust the product's deformation by adjusting it, supply it at low cost, and contribute to export promotion.

The automatic die holder 1 for the extractor of the present invention may be configured as shown in FIGS. 1 to 4.

The illustrated figure shows one preferred embodiment for implementing the present invention, of course, it is possible to change a variety of designs in the same way as the present invention. And in order to help the understanding of the tilting and turning operation of the present invention, the angle of the actual die 2 is tilted and turned is very fine, but shown as moving in a larger angle.

Automatic die holder 1 for the drawer of the present invention is a tilting unit (Tilting unit) (3) which can be adjusted by angular movement of the die (2) up and down (X direction as shown in Figure 1) in large It consists of a turning unit (Turning unit) 4 that can be adjusted by angular movement of the angle of (2) to the left and right (Y direction as shown in Figure 1).

And a tilting head (5) and a body (6), which connect the tilting unit (3) and the turning unit (4) to fix the die (2), and the body (6) and the moving unit. It consists of a link unit (Link Unit 7) and a guide unit (Guide Unit) 8 to implement a stable transport. This will be described in more detail below.

The tilting unit 3 for adjusting the angle up and down (X direction) from the die 2 fixed to the body 6 as a starting point of the shaft 6a is an output shaft 9a of the tilting motor 9 connected to the reducer. The spur gear 10 fixed to the shaft) and the spur gear 11 geared to the shaft is fixed on the screw right 13 mounted on the screw right housing 12 so as to be rotated forward and backward. In addition, the tilting nut 14 is screwed on the screw right 13 so that the die 2 is installed while the tilting nut 14 slides back and forth when viewed from the front side with respect to the forward and reverse rotational motion of the screw 13. The tilting link 15 connecting the body 6 is angularly moved upward and downward (X direction) from the axis 6a coupled to the shaft hole 17 of the guide plate 16 as a starting point. Allow tilting to be done.

In addition to the tilting unit 3, the turning unit 4 capable of angle adjustment of the die 2 from side to side may include a spur gear 19 fixed to the output shaft 18a of the turning-motor 18 connected to the speed reducer. The geared spur gear 20 is axially fixed on the screw right 22 mounted on the screw right housing 21 so as to be rotated forward and backward, and the turning nut is formed on the screw right 22. 23) is screwed in.

The turning nut 23 is coupled to the turning link 24 and slides back and forth when the turning nut 23 is viewed from the front with respect to the forward and reverse rotational movement of the screw right 22. 6) the turning link 24 is adjusted to the left and right at the upper center portion.

The tilting unit 3 and the turning unit 4 are fastened to the body 6 on which the die 2 is fixed. The turning unit 4 rotates the body 6 from side to side, and the tilting unit 3 is Since the body 6 is rotated up and down, this movement is carried out by the feeding of the tilting nut 14 and the turning nut 23 by the rotation of the screw right 13 and 22 connected to the output shafts 9a and 18a. Is implemented.

However, in general, in order to simultaneously control the left and right direction and the up and down direction, the direction of each axis is orthogonal, so it must be designed to eliminate the interference. For the correction of the drawn product, sufficient rigidity to withstand the repulsive force of the drawn product Consideration should be given to these connections in order to design the device.

The body 6 is fixed to the die (2) to play the most important role in the drawing process, by connecting the tilting unit (3) and turning unit (4) which substantially changes the angle of the die (2) The role is to give. Thus, the structure of the body 6 is designed in conjunction with units that generate rotation in the respective tilting and turning directions. Of course, the body 6 is designed to have a rigidity that can stably fix the die (2).

The upper left and right sides of the body 6 are connected to the tilting link 15 and the turning link 24, respectively, and are coupled to the guide plate 16 that holds the movement of the body 6.

In addition, the tilting head 5 is designed to control the vertical angle of the die 2 as the body 6 moves as a whole, and at the same time, the left and right angles of the die 2 can be adjusted by the turning unit 4. do.

Therefore, the tilting head 5 is fixed to the turning link 24 to adjust the left and right movement of the die 2 independently of the vertical movement of the body 6. Since the components for fixing the die 2 are fastened inside the tilting head 5, a sufficient space for the fastening of these components is secured, and since the reaction forces generated during drawing are most directly received, sufficient rigidity is achieved. Designed and manufactured to have The tilting head 5 is fitted into the body 6 and then fixed by the upper and lower fix blocks 27.

On the other hand, drawing processing is a molding technology that reduces the cross-sectional area while passing the material through the die (2), stretches in the longitudinal direction to process the bar, wire, and pipe material, while passing through the die (2) a lot of compression and friction force This action causes a large temperature rise.

Since the large force acts on the die 2 and is exposed to high temperatures, the die 2 must be designed with consideration of such heat deformation and have a structure that can withstand a large repulsion force. Designed and manufactured.

In the figure, reference numeral 25 denotes a cover and 26 denotes a drawn product.

The automatic die holder 1 for the extractor of the present invention, which can be configured as described above, has a top and bottom (X direction) of the pull product 26 when drawing the molded product 26 through a drawer (not shown) or Since the deformation in the left and right (Y direction) directions can be corrected, the operation and the like of each component will be described in detail below.

That is, the automatic die holder 1 for the drawer of the present invention is a die (2) through which the product is passed in order to correct this when the product is made up and down when the drawing product 26 is drawn through the die (2) The angle of the up and down (X direction) is to be adjusted, and when the product being drawn is deformed left and right to adjust the angle of the die 2 to the left and right (Y direction).

First, look at the action of the tilting unit (3) that can adjust the angle of the die (2) up and down.

When the tilting motor 9 connected to the reducer of the tilting unit 3 starts in one of the forward and reverse directions, the output shaft 9a starts in response to the spur gear 10 and the gear fixed thereto. The spur gear 11 in which the bite screw 13 is axially fixed is driven so that the screw 13 is started on the screw right housing 12 in a direction selected from the forward and reverse directions. Since the tilting nut 14 angularly moves the tilting link 15 connecting the body 6 while the tilting nut 14 slides forward and backward with respect to the forward and reverse rotational motion of the screw right 13, the tilting link ( 15, the body 6 connected to the shaft 6a is a starting point in the shaft hole 17 of the guide plate 16 is finely tilted in the vertical direction (X direction) direction to be drawn product deformed in the vertical direction ( 26) can be corrected in the reverse direction.

When turning the die 2 to the left and right, the turning-motor 18 of the turning unit 4 starts up in one of the forward and reverse directions, and the output shaft 18a starts up accordingly. The axially fixed spur gear 19 and the screwed tooth 22 that is geared to drive the axially fixed spur gear 20 to drive the screw right 22 in the forward and reverse directions on the screw right housing (21) The turning nut 23 is moved in the selected direction, and the turning nut 23 is screwed to the turning link 23 installed at the upper center of the body 6 while the turning nut 23 slides back and forth with respect to the forward and reverse rotational motion of the screw right 22. (24) to adjust the turning, the body (6) connected to the turning link 24 is to be turned in the left and right direction to correct the deformed drawn product 26 passing through the die (2) in the reverse direction. .

The automatic die holder for the pulverizer of the present invention is spread to companies for molding a pulverized product, so that the related industrial development can be promoted as well as a drastic reduction of the defect factor of the product.

1 is a front configuration diagram showing an embodiment of the present invention

Figure 2 is a plan view of the automatic die holder showing a preferred embodiment of the present invention

3 is a cross-sectional view of the A-A line showing a preferred embodiment of the present invention

Figure 4 is a cross-sectional view of the B-B line showing a preferred embodiment of the present invention

■ Explanation of symbols used in main part of drawing ■

1: auto die holder 2: die

3: tilting unit 4: turning unit

5: tilting head 6: body

6a: Axis 7: link unit

8: Guide Unit 9: Tilting Motor

9a: output shaft 10: spur gear

11: spur gear 12: screw-housing

13: screw thread 14: tilting nut

15: Tilting Link 16: Guide Plate

17: shaft 18: turning motor

18a: output shaft 19: spur gear

20: spur gear 21: screw-housing

22: screw thread 23: turning nut

24: Turning Link 27: Fix Block

Claims (3)

In constructing an automatic die holder (1) capable of correcting deformation in the up-down (X-direction) and left-right (Y-direction) directions of the drawn product 26 drawn from the drawing machine; The holder 1 is a tilting unit (3) which can be adjusted by angular movement of the die (2) up and down, Turning unit 4 which can be adjusted by angular movement of the die 2 to the left and right, and A tilting head 5 and a body 6 for fixing the die 2 in cooperation with the tilting unit 3 and the turning unit 4, Automatic die holder for a drawer comprising a link unit (7) and a guide unit (8) for connecting the body (6), the tilting unit (3) and the turning unit (4) to implement a stable transfer. The method of claim 1; The tilting unit 3 has a spur gear 10 geared with a spur gear 10 fixed to an output shaft 9a of a tilting motor 9 connected to a reducer on a screw-housing 12. It is configured to be the forward and reverse rotation by the shaft fixed on the screw (13) installed on the shaft, The tilting nut 14 is screwed on the screw right 13 so that the tilting nut 14 slides with respect to the forward and reverse rotation of the screw right 13, thereby connecting the body 6 on which the die 2 is installed. For the pulverizer, the tilting link 15 is angularly moved so that the shaft 6a of the body 6 can be tilted in the vertical direction (X direction) through the shaft hole 17 of the guide plate 16. Automatic die holder. The method of claim 1; The turning unit 4 has the spur gear 19 and the spur gear 20 geared to the output shaft 18a of the turning-motor 18 shaft-mounted on the screw-housing 21. It is configured to be fixed and reverse rotation on the screw right 22, The turning nut 23 is screwed on the screw right 22, The turning nut 23 is coupled to the turning link 24 so that the turning nut 23 slides with respect to the forward and reverse rotational motion of the screw 22. The turning nut 23 is left and right at the upper center of the body 6 on which the die 2 is installed. Automatic die holder for a drawer, characterized in that turning the turning link (24) to adjust the turning.

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