DE1291716C2 - EDENBORN REEL WITH VERTICAL OR HORIZONTAL, PREFERABLY HORIZONTAL WIRE GUIDE - Google Patents

Description

The invention relates to an Edenborn reel with a worm gear out of the winding layer.

vertical or horizontal wire guide, when pushes. By adjusting the inclination of the laying pipe

which the rotary tube with a laying cone is opposite the wall depending on the

is bound, from which the wire windings individually thickness of the wire or the feed speed

exiting with air admission up to a point where the axial speed of the wire winding

subsequent collection point are promoted, with stranges influenceable. This is especially for them

the circumferential surface of the laying cone with a downstream funding is advantageous in which

Worm gear is provided and conveyor device - the wire winding strand in fanned out windings

the individual wire windings are continuously conveyed lying down, because for the

convey further, in particular according to patent 1240 025 io put the wire windings out of the vertical

(German patent specification 1 240025). Level in a horizontal level is a definite one

The worm gear required by the axial speed of the wire windings arranged on the laying cone It was only possible to use a strand Hch to force it into a horizontal position from wire turns to be transferred from a defined turn. Becomes the slope of the laying pipe distance to form and the winding distance the 15 against the wall of the trailing screw conditions directed on the subordinate funding aisle, so you can adjust it in a limit. In this way, on the one hand, the diameter of the winding spacing could be generated through the defined area of wire windings with different winding spacings. That has with the transunter Consideration of the thermal radiation from the port that overlaps each other on a conveyor two successive turns of wire ao middle turns have the advantage that the be dimensioned accordingly and on the other hand the lateral places of material compaction as a result of the Transport speed of the wire winding strand different winding diameters apart be kept low so that a proportionately drawn. That, in turn, has an evenly short one Cooling section with as much cooling as possible was enough. as transport, resulting in a more even

With the aforementioned device, however, there is a structure over the length of the wire winding strand

not possible, the winding layer after the main is guaranteed.

patent in connection with the various conveying As a further feature, the laying pipe is to be used and at the same time divides designed to quickly open the outlet opening, which is subject to the creation of a properly shaped and relatively high wear, even with different wire coils - and to be able to easily exchange and to ensure that the wire thicknesses are sufficient.
would exist. The inventive development of

In order to achieve this object, according to the invention, the device mentioned at the outset can also be proposed that the rotary tube with respect to its Nei- in other conveyors perfect wire mesh For the worm thread on the laying cone, twists can be created with different wire thicknesses and / or to be exchangeable. witness. It is therefore advantageous to use the laying cone

This results in two different operations = - the above-mentioned features apart from these

types regarding the interaction between the 40 enclosing concentric screw conveyors

Laying pipe and the walls of the worm gear according to the main patent also together with

for forming individual turns of wire. other funds, such as several on the external

Namely, the outlet opening of the laying pipe ren circumference or on the inner circumference of the wire

endless conveyor belts resting against the leading wall of the screw winding strand

the aisles are arranged at an incline, then the resulting 45 will be used.

the wire windings on the leading wall. When the laying pipe is inclined, parallel to the

braking of the worm thread, which means that the running wall of the worm thread is particularly

axial exit speed of the wire winding the use in a horizontal

Strand can be influenced in such a way that the endless conveyor belt extending over the wire win conveyor plane

strand moves forward so slowly that 50 or a chain with a

this orderly and arranged with simple means on the facing side, the lower support

subsequent transport device are brought see the wire windings in their forward movement

can. The laying pipe is relatively short, so that obstructive trip edge, a sliding plate, a

due to the slight deflection of the wire in the laying pipe Daumemad or an endless short thumb

only a small amount of bending work and friction in the laying chain is an advantage.

pipe arises and thus the backwater for rolling- Embodiments of the invention represent the

street is kept small. To represent the swirl figures. It shows

distance with regard to the thickness of the wire F i g. ί a winding layer with against the pre-change to be able to, the slope of the current wall of the worm gear is directed Adjustable worm gear. 60 laying tubes and adjustable inclination of the turns

If the outlet opening of the laying pipe is parallel to the worm gear in the side view,
to the trailing wall of the worm Fig. 2 the same winding layer arranged inclined in the front passage, then the bil- view,

The end of the wire turns freely between the worm F i g. 3 a winding layer with against the nachkengangswunduiigeii moving, and only 65 running walls dos snail gangos or pardie last turns of wire, from the Legerolir directed from the allel / u and with respect to Rolling train run-out free end is formed its inclination ^ adjustable by worm gear the, are from the trailing wall of the laying pipe in the side view,

3 4

4 shows the same winding layer in the front tube * 73, which is held in tabs 78, angled

view, movable by the screw connections 77 of the

F i g. 5, 5a a further winding layer with slidably attached to the tabs 78 in elongated holes

outer circumference lead the wire winding strand are. The laying pipe 73 is expediently in

the conveying means in the side view and in the transverse 5 an inlet-side, fastened with tabs 72,

cut .. fixed section 73 and an outlet & a-

Fig. 6, 6a a winding layer with inside the term, interchangeable section 73α, the higher

Wire winding strand leading conveyor is subject to wear, divided. The snail tunnel

the side view and in cross section and 75 is on its periphery outward from

F i g. 7 a winding layer with the wire windings enclosed in a housing 76, whereby the penetration cord from the vertical to the horizontal knife of the wire windings W formed is bounded by means of the devices and lead them,
the funding. The establishment of the outlet end 73 a of the

In FIGS. 1 and 2, a split 15 of the worm thread 75, which is supported on a rotating laying pipe 73 parallel to the trailing wall, is supported, also enables a laying pipe, consisting of an inlet-side laying influence of the winding spacing by changing mlir section 63 and an outlet-side laying pipe- the inclination of the outlet-side end 73a of the laying-; ii) -> section 63rt. and a tube that is fastened to the frame 64. Especially when the "<alzgui" from the last in worm gear 65 is called Windungslegrr. The rolling stand of the rolling train has run out around the inlet-side section 63 of the laying pipe can be inserted and penetrated by the hollow shaft 61 acting from the laying pipe 73, 73a in the rolling stock as the centrifugal force develops, the end of the material pulls the frame in the winding layer in an outlet-side section 63a, pushes the trailing 64 and the wall of the screw flight 65. The wall, the last wire windings on the downstream-side section 63a of the laying pipe is on orderly conveying means. This arrangement Particularly the leading wall of the screw flight 65 35 is suitable for thick rolling stock, which is relatively dense. To the feed movement of the slow speed formed comes from the rolling train. Wire windings W influence or the wire thickness , is part of the wall of the Appropriate setting of the outlet end of the last screw flight 65 is designed to be displaceable, 73a of the laying pipe can be enlarged, which is especially changed by its pitch. The other is the turning of the wire windings on stumbling blocks, in that the wall of the worm thread 65 edges, sliding plates, thumb wheels or thumb chains in this section with the circumference of the frame of the wire winding strand so far.

64 is movably connected. For this purpose, in the frame, as the upper winding part opposite the men 64 in the conveying direction of the wire windings W, lower winding elongated holes 67 delayed in its movement are arranged, in which by means of the 35 part a greater relative movement is obtained. A white screw connection 68 in the wall of the Schnek- terer is that, due to the contact of the wire thread 65 parallel to the longitudinal axis of the hollow shaft, turns on the trailing wall of the 61 can be displaced. A housing 66 environmentally worm thread 75 at the screw against wall closes the worm gear 65 outward, WO-directional laying pipe portion 73 a due to occur by the diameter of the formed Drahtwin- 40 of the relative movements of a so-called Wobbeieffekt fertilize W is limited. can be achieved, ie the turns within limits

The wire windings W that are formed are then given a different diameter, with the lateral points of the material compression on the leading wall of the screw being braked and, with regard to the conditions on the conveying means, with the overlapping winding spacing of the wire windings W lying apart Conveying the wire windings apart can be varied, which is especially drawn for thin ones and thus avoided.
Wires with high rolling speed is cheap. In the main patent, the incline of the worm flight 65, for example the conveyor including the winding layer, is initially larger and smaller towards the outlet side, worm worms. It is advantageous that the axial exit speed of the wire 50 above-described development of the laying cone windings W is reduced to a favorable level. Can also be used for other types of funding to change the incline of the worm gear. Preferred embodiments

65 are the walls towards the outlet side in FIG. 5 to 7.

Slidable slots 67. In the F i g. 5 and 5 a is the winding winner in

In the F i g. 3 and 4 is one of a rotary movement 55 connection with a downstream conveyor

borrowed laying cone 74 and a split laying pipe, shown in principle for the wire winding strand,

consisting of an inlet-side laying pipe 73 "and the wire rod D exiting from a rolling train

an outlet-side laying pipe section 73 a, with is plumbing by means of a drive 81-

one on the laying cone 74 attached auger the laying cone 83 ″, on which together with

Gang 75 formed winding layer shown. The 60 attaches a laying cone 82 to a screw thread 84

The inlet-side section 73 of the laying pipe is in the

• Hollow shaft 71 can be inserted and its turns W penetrate and deform. Due to the slope of the

the outlet-side section 73a the laying cone 74.

The outlet-side section 73 α of the laying pipe is continuously moved forward windings W and 'Je-

parallel to the trailing wall of the screw lantien standing between them on the circumference

ganges 75 directed. Circumferential, end-to-end, around the spacing of the wire winding strand

The wire windings W formed influence too loose conveyor belts 85. At the end of the conveyor line

ncn, is the outlet-side section 73 "of the laying-is a so-called stumbling edge 89 the Be

Claims (9)

Movement of the lower winding section is delayed, so that the wire windings W tilt into a collecting device 86, for example. In the F i g. 6 and 6 a, a further exemplary embodiment for the formation of the conveying means for the wire winding strand, which is arranged downstream of the winding leg, is shown in principle. The wire rod D exiting from a rolling train is deformed into wire windings W forming a wire winding strand by means of a laying cone 103 rotating by a drive 101, on which a laying tube 102 is fastened together with a worm gear 104. As a result of the incline of the worm gear 104, the individual wire windings W are continuously moved forward and hang on an endless conveyor 107, against which another endless conveyor 105 rests from above, so that the wire winding strand continuously joins the endless conveyor 107 endless chain conveyor 108, however, is conveyed. The chain of the chain conveyor 108 is toothed in order to ensure a safe transport of the wire windings W to the collecting device 106. When leaving the chain conveyor 108, the wire windings W are delayed at their lower as winding part as a result of grinding on a guide 109 and are thus transferred into a horizontal position from which they are inserted into the collecting device 106. In FIG. 7 shows another exemplary embodiment for the formation of the conveying means for the wire winding strand, which is arranged downstream of the winding layer. The wire rod D exiting from a rolling train is deformed into a wire winding strand W by means of a laying cone 113 rotating by a drive 111, on which a laying tube 112 is attached together with a worm gear 114. As a result of the incline of the worm gear 114, the individual wire windings W are continuously moved forward. Since the * o wire windings are delayed at their lower winding section at a trip edge 119, the wire windings W lay on an endless conveying means 115, overlapping one another, in the horizontal position and are fed to a collecting device. In all of the exemplary embodiments, it is not absolutely necessary for a laying cone to hold the laying pipe and the worm gear, but rather both parts can also be attached to a circumferential frame. The circumference of the worm thread is in any case enclosed by a housing in order to limit the diameter of the wire turns formed. SS claims: 1. Edenborn reel with vertical or horizontal wire guide, in which the rotary tube with a laying cone is connected from which the wire windings, exiting individually, extend through move a cavity through which cooling air flows to a subsequent collection point, the circumferential surface of the laying cone is provided with a worm thread and, this Including concentrically, screw conveyors with the incline of the conical screw thread are arranged, the laying cone and the screw conveyor at the same speed run, in particular according to patent 1 240025, characterized in that the laying pipe adjustable and / or exchangeable with regard to its inclination to the worm thread on the laying cone is trained. 2. Edenborn reel according to claim 1, characterized in that the outlet opening of the Laying pipe is arranged inclined against the leading wall of the worm gear. 3. Edenborn reel according to claim 2, characterized in that the outlet opening of the Laying pipe inclined against the trailing wall of the worm gear or parallel to it is arranged. 4. Edenborn reel according to one of claims 1 and 3, characterized in that the slope of the worm gear is adjustable. 5. Edenborn reel according to one of claims 1 to 3, characterized in that the laying pipe designed divided and the outlet opening is replaceable. 6. Edenborn reel according to claim 5, characterized in that the exit angle of the split Laying pipe is adjustable. 7. Use of the Edenborn reel according to one of claims 1 to 6 in a conveying device, that of several turns in the conveying direction on the outer circumference of the wire winding strand formed from the individual windings applying endless ribbons or chains and subordinated to the laying cone is. 8. Use of the Edenborn reel according to one of claims 1 to 6 in a conveyor device, which are made up of several in the conveying direction against the inner circumference of the wire winding strand formed from individual windings there is endless ribbons or chains and is arranged downstream of the laying cone 9. Use of the Edenborn reel according to one of claims 1 to 6 in a conveyor device, on an endless belt extending in the horizontal conveying plane Chain with one arranged on the side facing the laying cone, the lower support side of the turns in their forward movement inhibiting stumbling edge, thumbwheel, slip sheet metal or endless, short thumb chain and is subordinate to the laying cone 1 sheet of drawings