KR100862600B1 - Pull drawing device - Google Patents

Abstract

A multiple pipe drawing device is provided to arrange a plurality of pipes which are drawn by a drawing unit on loading boards stably for discharging the pipes stably. A multiple pipe drawing device(1) comprises a dice(10), a drawing unit(20), and a discharging unit(30). The dice is formed with a plurality of forming holes(11). The drawing unit includes a traction pulley(22) and a conveyer rail(21). The conveyer rail is installed with conveyer chains(21a) which are conveyed to left and right sides by drive of a direct motor. The traction pulley receives feeding force of the conveyer chains and reciprocates. Pipes are loaded on loading boards(33). The discharging unit has conveyer belt parts(31) having conveyer belts(31c) between driving rollers(31a) and driven rollers(31b). Lifting and mounting parts(32) are installed at a lower side of the conveyer rail. The lifting and mounting parts are fixed with curved mounting plates(32b) on piston rods(32a).

Description

Pull-out device {Pull drawing device}

1 is a view showing the overall configuration of a bundle drawing device proposed as a preferred embodiment in the present invention, (a) is a perspective view, (b) is a cross-sectional configuration diagram,

Figure 2 shows a stretched state of the tube through the stretching means in the multiple drawing apparatus proposed in the preferred embodiment of the present invention,

Figure 3 shows the discharge process of the tubular body through the discharge means in the multiple drawing device proposed as a preferred embodiment in the present invention sequentially.

**** Explanation of symbols for the main parts of the drawing ****

1. Multiple drawing device 10. Die

11. Molding Machine

20. Extension means 21. Transfer rail

21a. Conveyor Chain 22. Towing Cart

30. Discharge means 31. Transfer belt part

31a. Drive roller 31b. Driven roller

31c. Conveying belt

32. Lifting seat 32a. Lifting piston

32b. Seating plate

33. Loading platform

100. Pipe 110. Once

The present invention relates to a multiple drawing apparatus, and more particularly, to a multiple drawing apparatus for pulling and stretching a plurality of tubular bodies penetrating through a die, and then collectively discharging them in a state arranged in a line without scattering.

As is well known, a drawing process mainly used for drawing a tubular body is a processing method in which one end of a tubular body that has passed through a die is pulled through a pulling force to obtain a tubular body having a predetermined diameter.

In addition, the drawing of the large-diameter tube is carried out one by one in consideration of the fact that relatively strong traction force is required, and the drawing of the small-diameter tube can be drawn with a relatively small force, so that a plurality of tubes are pulled at once. A bunch of drawing is being done.

By the way, the large diameter pipes are drawn one by one, so that the tube is not twisted due to the collision between the pipes, but the small diameter pipes are discharged because they are drawn out at the same time. Collisions occur and are likely not to be aligned in line, and may be dislodged from the device.

In this way, when the departure of the pipe is generated, there is a threat to the safety of the worker, and also damage the continuity of the work, there is a need in the art for a stable discharge structure that can efficiently solve this problem.

SUMMARY OF THE INVENTION An object of the present invention devised to solve the above problems is to provide a multiple drawing apparatus for pulling and stretching a plurality of tubular bodies penetrating through a die, and then discharging and loading them collectively in a lined-up state without scattering. have.

The above object is achieved by the following configuration provided in the present invention.

Multiple drawing device according to the present invention,

A die in which a plurality of molding holes are formed; Stretching means for pulling one end of the tubular body which has passed through the molding hole of the die, respectively, and pulling in one direction to sandwich the end of the tubular body; In the multiple drawing apparatus comprising a discharge means for discharging a plurality of pipes drawn through the stretching means collectively,

The discharging means includes: a conveying belt portion disposed between the driving rollers and the driven rollers disposed to be spaced apart from each other, orthogonal to the lower portion of the guide constituting the stretching means; It is disposed on one side of the conveying belt portion, comprising a mounting table for loading a plurality of tubular body discharged through the conveying belt portion, the tube body finished stretching through the stretching means is dropped on its own weight and seated on the conveying belt, It is characterized in that it is configured to be discharged in one direction through the conveying belt to be transferred to be stacked on the mounting table.

Preferably, between the conveying belt portions constituting the discharge means is disposed orthogonally to the lower portion of the guide constituting the stretching means, the lifting seat is fixed to the seat plate indented to be curved in the upper end of the piston rod,

When the drawing of the tubes by the stretching means is completed, the piston rod of the lifting seat is extended so that the seat plate is located in the lower part of the pipe, in this state, the pipe is completed in the self-falling and aligned in line with the seat plate, and then The piston rod of the seat portion contracts and the seat plate seating the tubes is lowered, so that the tubes aligned in a line with the seat plate are placed in the conveying belt conveyed in one direction.

Hereinafter, with reference to the accompanying drawings it will be described in detail the multiple drawing apparatus proposed in the preferred embodiment of the present invention.

Figure 1 shows the overall configuration of the multiple drawing apparatus proposed as a preferred embodiment in the present invention, (a) is a perspective view, (b) is a cross-sectional configuration diagram, Figure 2 is proposed as a preferred embodiment in the present invention In the multiple drawing apparatus, which shows a drawing state of the tubular body through the stretching means, Figure 3 is a multiple drawing apparatus proposed as a preferred embodiment in the present invention, the discharge process of the tubular body through the discharge means sequentially To show.

The bundle drawing device 1 proposed as a preferred embodiment of the present invention includes a die 10 as shown in Figs. Stretching means (20) for pulling one end of the tubular body (100) which has passed through the die (10) in one direction; And discharge means 30 for collectively discharging the plurality of tubular bodies 100 drawn through the stretching means 20.

A plurality of molding holes 11 are formed in the die 10 to penetrate the tubular body 100 having one end bent, and a plug is usually inserted into the inner diameter of the tubular body.

And the stretching means 20, the pull cart 22 for pulling and stretching in one direction by sandwiching one end of the tubular body 100 penetrating the forming hole (11); Exposed on one side of the die 10 is configured to include a conveying rail 21 which is a conveying path of the towing cart (22).

Here, the conveyor chain 21a which is left and right transferred by the driving of a DC motor (not shown) is disposed in the conveying rail 21 which is the conveying path of the towing cart 22, and the towing cart 22 is a conveying rail ( Received by the transfer force of the conveyor chain (21a) disposed in the 21 is to be reciprocated.

In addition, a plurality of clamps (not shown) for holding one end of the bent molded tube 100 is provided on one side facing the die 10, and penetrates the molding hole 11 of the die 10 through the clamp. One end of one tubular body 100 is fixed to the pull cart 22.

Therefore, the tow cart 22 through the conveying action of the conveyor chain 21a in a state where the tow cart 22 sandwiches one end of the tubular body 100 which has passed through the molding hole 11 of the die 10 through the clamp. When 22) is transferred in one direction, the tubular body 100 penetrating through the forming hole 11 of the die 10 is stretched while being drawn in one direction to be drawn.

In this way, the tubular bodies 100 that have been drawn are dropped by weight by the release action of the clamp provided in the towing cart 22, and the dropped tubular bodies 100 are externally discharged through the discharge means 30 provided in this embodiment. Ejected and loaded on.

Meanwhile, in the present invention, the tubular bodies 100 drawn out through the stretching means 20 are stacked in a lined up state without scattering, and the stacked tubular bodies 100 are sequentially stacked on the mounting table 33. To be loaded.

To this end, in the present embodiment, the discharge means 30 is disposed orthogonally to the lower portion of the conveying rail 21 constituting the stretching means 20 and spaced apart from each other to drive roller 31a and driven roller 31b. A conveying belt part 31 having a structure in which a conveying belt 31c is installed; It is basically comprised by the mounting base 33 arrange | positioned at the one side of the said conveyance belt part 31, and loading the several pipe body 100 discharged through the said conveyance belt part 31. As shown in FIG.

Therefore, the tubular body 100 which has finished stretching through the stretching means 20 falls on its own weight and is seated on the conveyance belt 31c. At this time, the conveyance belt 31c is driven in one direction by driving the driving roller 31a in one direction. The pipe bodies 100 transported and placed in the transport belt 31c are discharged in one direction and are sequentially loaded on the mounting table 33.

The transfer belt 31c on which the tubular bodies 100 are initially seated is not a hard metal surface but a cushioning surface having flexibility, so when the heavy-loaded tubular bodies 100 are placed, the center portion is bent so that the tubular body 100 falls into its own weight. They are lined up.

In addition, in the present embodiment, in implementing the discharge means 30, the lifting seat 32 is disposed at the lower portion of the transfer rail 21 constituting the stretching means 20.

As shown in the drawing, the elevating seating part 32 has a form in which a seating plate 32b recessed in a curved manner is fixed to the upper end of the piston rod 32a, and the seating plate 32b is similar to the conveying belt part 31. It is disposed orthogonally to the lower part of the conveyance rail 21.

Therefore, when the drawing of the tubular bodies 100 is completed by the stretching means 20, the piston rod 32a of the elevating seating portion 32 is extended so that the seating plate 32b is positioned below the tubular body 100. In this state, the completed tubular body 100 is dropped in its own weight and aligned in a line with the seating plate 32b.

At this time, the seating plate (32b) is formed in a curved concave shape, the dropping weight of the tubular body is aligned in a row, after that, the piston rod (32a) of the elevating seating portion 32 is contracted to seat the tubular (100) The mounting plate 32b is lowered.

As a result, the tubular bodies 100 aligned in a row on the seating plate 32b are aligned and placed on the conveying belt 31c transferred in one direction, and the conveying belt 31c in which the plurality of tubular bodies 100 is placed is driven by a driving roller. It is conveyed in one direction by the drive of 31a).

Therefore, the plurality of tubular bodies 100 arranged in a line without being scattered on the conveyance belt 31c are sequentially supplied to and loaded on the mounting table 33.

Thus, when providing the lifting seat 32 in the transfer belt unit 30 as in the present embodiment, the tubular body 100 is not directly seated on the transfer belt 31c, the lifting seat 32 Since it is seated on the conveyance belt (31c) through the seating plate (32b) of the), the phenomenon that the pipe bodies 100 are scattered with each other by the impact during the fall of the weight can be more suppressed.

As described above, the present invention proposes a multiple drawing apparatus having a discharging means for discharging the tubulars that have been drawn through the drawing means in a state in which they are not scattered, that is, arranged in a line.

Discharge means of the multiple drawing device provided in the present invention, the transport belt portion and the lifting seat is provided, it is possible to promote a more stable discharge process.

Claims (2)

A die in which a plurality of molding holes are formed; Stretching means for pulling one end of the tubular body which has passed through the molding hole of the die, respectively, and pulling in one direction to sandwich the end of the tubular body; In the multiple drawing apparatus comprising a discharge means for discharging a plurality of pipes drawn through the stretching means collectively, The discharging means includes: a conveying belt portion disposed between the driving rollers and the driven rollers disposed to be spaced apart from each other, orthogonal to the lower portion of the guide constituting the stretching means; Is disposed on one side of the transfer belt portion, is configured to include a mounting table for loading a plurality of tubular bodies discharged through the transfer belt portion, Finished tubular body is dropped in its own weight is seated on the conveying belt, it is discharged in one direction through the conveying belt conveyed in one direction is a multiple drawing device, characterized in that configured to be stacked on the mounting table. The lifting and lowering seating portion according to claim 1, wherein the lifting seating portion, which is disposed orthogonally to the lower portion of the guide constituting the stretching means, is fixed to the upper end of the piston rod. Became, When the drawing of the tubes by the stretching means is completed, the piston rod of the lifting seat is extended so that the seat plate is located in the lower part of the pipe, in this state, the pipe is completed in the self-falling and aligned in line with the seat plate, and then The piston rod of the seating portion is contracted, and the seating plate seating the tubular body is lowered, so that the tubular body arranged in a row on the seating plate in the conveying belt conveyed in one direction, characterized in that the multiple drawing device.

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