EP1184097A2 - Coil forming head for wire coming from a wire rolling mill - Google Patents

Abstract

The opposing guide walls (FW) of the guide channel (FR) narrow down steadily from entry (EO) into funnel shape and then steadily expand from before the center to the outlet opening (AO). With a channel (FR) turning 360 degrees from entry (EO) to outlet (AO) the narrow part formed by the contracting walls (FWR, FWV) accounts for 0 to 110 degrees of the 360 degrees turn so the ensuing expanding parts accounts for 250 degrees . The rear channel (FR) wall (FWR) towards the outlet (AO) rises through 360 degrees at a constant angle ( alpha ) to the outside (AU) of the support (TK) as against the leading channel wall (FWV) which remains level in the 110 degrees region only to rise at angle ( beta ) more steeply than the rise angle ( alpha ) of the rear wall (FWR).

Description

The invention relates to a winding layer for, from a wire rolling mill upcoming fast moving wire rod, consisting of a stationary horizontal or vertically mounted drive body and a non-rotatably connected to it Pipe holding body, which carries a laying pipe, the pipe entrance to the drive body facing, aligned with its axis of rotation and its tube outlet is arranged at an axial and radial distance from the pipe end, the Laying pipe is the shape of an axially pulled apart pipe entry and pipe exit Has spiral and in the middle of the axis of the drive body in wire rod introduced into the pipe entrance until it exits the pipe exit leads, and in the axial direction behind the pipe holding body, with this rotation-connected support body provided with a cylindrical outer peripheral surface is arranged on which a thread-shaped guide trough is in the inlet opening of the pipe outlet of the laying pipe, and out the outlet opening of the wire rod coming from the laying tube at his Exit formed into continuously successive circular turns, is placed on a conveyor.

Coiling layers of this type have developed over the past few decades became known in numerous forms of training. The ever increasing speeds of the wire rod brought out from the wire rod mills and the growing demands on cross-sectional and surface quality required Coiling layer with great smoothness and quick and easy to replace Wear parts, especially the laying pipes and other wire guide elements.

In DE-A-129 17 16 and GB-1175402 winding layers are described in those on the outer peripheral surface of the pipe holding body downstream Cylinder body threaded guide troughs by standing up Guide walls are formed. Together with an output adjustable Laying pipe is to be created with this coiler, in addition to a better cooling of the wire rod emerging from the laying tube uniform, perfect shape of the wire loops formed with different Ensure wire sizes and qualities.

According to a proposal from EP 554 976, the guide troughs are thread-shaped running double-walled circumferential ruts of a supporting body, which with its wheel hub is placed on the supporting axis of the tube holding body and can be connected to it. With this very torsionally stable embodiment The guide trough should achieve cross-sectional and surface quality the end portion of the continuous and guided wire rod, in particular not be affected with thin wires.

Practical operation has shown that the possibilities of influencing the Cross-sectional dimensions and the surface quality of the through the circumferential ruts of the supporting body guided wire rod are very limited and above also with different wire thicknesses of the changing use of such Wheel centers with different circumferential ruts are required. A necessity, which is both material, operation and time consuming.

The invention has for its object to avoid this effort and beyond in addition, better management options for the start and end sections of the wire rod.

This object is achieved in that the distance between the opposing Guide walls of the guide channels, starting from the entrance opening, steadily reduced to form a funnel-like constriction and then before reaching the middle of the total length of the guide trough to the exit opening is constantly expanding.

As the invention further provides, the course of the total length of the Guide trough between entrance opening and exit opening by 360 ° Scope of the area of constant reduction in the distance between the guide walls between 0 ° and about 110 ° and the area of continuous expansion in the subsequent 250 °.

The rear, as seen in the direction of the exit opening of the guide trough Guide wall of the guide trough can be 360 ° with a constant thread pitch angle arranged on the outer peripheral surface of the cylinder body be while the opposite front guide wall is in the area of 110 ° without thread pitch angle and in the following range of 250 ° with a thread pitch angle that is larger than the thread pitch angle the rear guide wall.

With this inventive formation and dimensioning of the funnel-shaped narrowing entrance area and the corresponding funnel-shaped widening Output range is achieved with one and the same winding layer Wire rods of different thicknesses can be processed, and further, that the frequently occurring whiping movements from the pipe exit of the laying tube inserted into the entrance opening of the guide trough of the continuous wire rod through the walls of the funnel-shaped Narrowing intercepted braking and then through again funnel-shaped part of the guide walls up to the exit opening minimizes friction to be led. In addition, the funnel-shaped narrowing catches the emerging from the exit opening of the laying tube at this moment still unguided top leading and guiding.

Fig. 1

einen Axialschnitt durch den Tragkörper mit den Führungswänden,

Fig. 2 und 3

Seitenansichten des Tragkörpers nach Fig. 1, und

Fig. 4

eine Einzelheit der Darstellung nach den Fig. 2 und 3 in vergrößertem Maßstab.

The invention is explained in more detail with reference to the embodiment shown in the drawing. Show in the drawing

Fig. 1

an axial section through the support body with the guide walls,

2 and 3

Side views of the support body according to Fig. 1, and

Fig. 4

a detail of the representation of FIGS. 2 and 3 on an enlarged scale.

As can be seen from Fig. 1, the support body TK consists of a truncated cone Frame SR, which is driven via the tube holder body, not shown, to the axis indicated with x-x rotates. On the cylindrical outer peripheral surface AU of the support body TK are, radially outwardly projecting guide walls FW arranged; these run (see. Fig. 2 and 3) in the form of a screw thread. These guide walls FW form a guide trough opposite one another FR, which has an entrance opening EO and an exit opening AO with 360 ° is guided around the outer peripheral surface AU of the support body TK. Around this guide trough FR is by far a dash-dotted ring gutter Cover AD arranged in a fixed position.

As can be seen from FIGS. 2 and 3, a guide wall FWR runs the Guide walls forming guide walls with a constant slope α over 360 °, while the other of the guide walls FWV (cf. also FIG. 4), initially over an initial section AS of the guide trough FR without a slope and then via an end section EA to the exit opening of the Guide trough FR runs with a slope β which is greater than the slope α the opposite rear guide wall FWR.

The in the direction of the arrow in the entrance opening EO of the guide trough FR incoming wire rod WD is initially funnel-shaped narrowing, initial section AS of the guide trough FR added, forwarded over the subsequent, funnel-shaped end section EA and guided and after leaving the guide trough FR through the exit opening AO in the form of successive wire rod loops in the direction the arrow A is thrown onto a conveyor device, not shown.

The through the guide walls FWR and FWV in the initial section AS of the guide trough The funnel-shaped constriction formed FR then acts on the inlet the end of the wire rod WD the frequently occurring whip movements, this dampens counter and causes this end to run smoothly emerges from the exit opening AO of the guide trough FR.

LIST OF REFERENCE NUMBERS

TK

supporting body

SR

(truncated cone) frame

AU

Outer circumferential surface

FW

guide walls

FR

guide trough

FWR

(rear) guide wall

FWV

(front) guide wall

AS

initial section

EA

end

EO

entrance opening

AO

output port

e

arrow

A

arrow

WD

wire rod

α

(Angle)

β

(Angle)

Claims (3)

Coil laying device for fast moving wire rod coming from a wire rolling mill, consisting of a stationary, horizontally or vertically rotatably mounted drive body and a pipe holding body, which is connected in a rotationally fixed manner and which carries a laying pipe, the pipe inlet of which, facing the drive body, is aligned with its axis of rotation and its pipe exit is aligned axially and radial distance from the pipe entrance is arranged, the laying tube in the form of a spiral axially pulled apart between the pipe entrance and the pipe exit and the wire rod inserted in the center of the drive body into the pipe entrance leads to its exit from the pipe exit, and in the axial direction behind the pipe holding body a, with this rotationally connected support body (TK) with a cylindrical outer circumferential surface (AU) is provided, on which a thread-shaped guide trough (FR) is arranged, in the inlet opening (EU) of which the pipe outlet of the laying pipe opens et, and from its outlet opening (AO) the wire rod (WD) coming out of the laying tube is formed into continuously successive circular turns as it exits and placed on a further conveying device,
characterized in that the distance between the opposing guide walls (FW) of the guide trough (FR), starting from the entrance opening (EO) to form a funnel-like constriction (AS), continuously decreasing and then before reaching the center of the total length of the guide trough (FR) to to the exit opening (AO) is continuously expanded. Coil layer according to claim 1,
characterized in that, when the total length of the guide trough (FR) between the inlet opening (EO) and the outlet opening (AO) is 360 °, the area (AS) of the constant reduction in the distance between the guide walls (FWR; FWV) between 0 ° and approximately 110 ° and the range of continuous expansion is in the subsequent range of 250 °. Coil layer according to claim 2,
characterized in that the rear guide wall (FWR) of the guide trough (FR), viewed in the direction of the exit opening (AO), is arranged over 360 ° with a constant thread pitch angle (α) on the outer peripheral surface (AU) of the support body (TK), while the opposite, front guide wall (FWV) runs in the area AUS) of 110 ° without thread pitch angle and in the following area (EA) of 250 ° with a thread pitch angle (β) that is greater than the thread pitch angle (α) of the course of the rear Guide wall (FWR).

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