DE2328449A1 - Multi-layer rope spooling mechanism - has spring between drum and shaft giving reduced loading when unwound - Google Patents

Abstract

The drum driving shaft acts on the drum via a volute spring between the two. The spring is so pre-loaded that when the rope is unwound the tension in it is less than when wound right on. Loading when the rope is unwound for use can be roughly half the max., and when fully wound on about 70% of it. Several drums can be mounted on the shaft, wound by key securing hub to shaft. The drum may be fed over the shaft to engage a driving peg.

Description

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D-445O Krefeld 1 Moerser Straße U4-O Fernruf (O 21 51) 2 O ^ 6θ / 2 82

Date: 1. June 1973

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Gebr. Wahlefeld, 415 Krefeld-Linn, Bruchfeld 85

Device for multi-layer winding of ropes, Kabelr. or the like

The invention relates to a device sum multi-layer winding of ropes, cables or the like with a drum rotatably mounted on an axis for winding up the ropes, cables Od. The like. And one supported between the drum and the axle Coil spring.

In the case of multi-layer winding of ropes, cables, Hoses or the like on a drum is at constant The number of revolutions of the drum is the amount of winding per revolution depending on the constantly changing winding diameter · Xn many cases, for example with cranes, external access systems Od. Like., It is necessary that the lifting speed of the wound rope od. Like. Independent of the The winding diameter on the drum remains constant. It is known that this requirement is met by the Speed of the drum as a function of the winding diameter

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Deutsche Bank AG 1O3 / 1S25 Krefeld · Stadt-Sparkasse Krefeld 305 732 · Postal check Essen 4Ο55

knife is changed. For this purpose, rope lengths up to about 50 m, usually so-called spring cable drums, with rope lengths over 50 m motor drums or spring motor drives used. Also known is a standing drums that are driven by a downstream traction sheave winch via a chain drive is driven with an additional slipping clutch. It is also known to provide a slip ring motor controllable via resistors as the drive.

The known devices are either prone to failure or expensive or not usable for all commonly occurring rope lengths. In part, they require a large one Space requirement.

The so-called spring cable drums, in which a drum is rotatably mounted on a fixed axis and a spiral spring is supported between the drum and the axle, have the disadvantage that they, for example when using a facade lift as a control cable when the platform is in the lowest position, pull the platform up on one side, because the spring force of the spiral spring is greater than the weight of the facade lift. In such arrangements, the bias is the spiral spring is maximum when the rope is unwound from the drum and is zero when the rope is full wound up 1st.

The invention is based on the object of eliminating the disadvantages of the known devices as simple as possible, safe and even multi-layer rope winding

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to ensure, with considerable costs both in terms of manufacture and in terms of warehousing can be saved compared to the state of the art.

To achieve this object, the invention is based on a device of the type mentioned at the beginning. The invention is characterized in that the axis is a shaft rotatably mounted with a winding drive and the spiral spring is underneath Bias between the shaft and the drum is supported in such a way that when the rope is unwound, the bias in the spring travel direction is less than when the rope is wound up.

In an expedient embodiment of the invention it is provided that the preload in the rope unwound for use is approximately half of the maximum preload of the spiral spring in the direction of the spring deflection. In an expedient embodiment of the invention, the preload when the rope is completely wound up for use is about 30% less than the maximum preload of the spiral spring in the direction of the spring deflection.

Under the term "rope unwound for use" it is to be understood that in the rope unwound for practical use there is still a number of turns of rope present on the cable drum 1st. Likewise, when the rope is completely wound up for use, this is actually the case existing take-up capacity not completely exhausted.

In an expedient embodiment of the invention, provision can be made be that several drums are arranged on the shaft.

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The winding drive engages the shaft, which is via the spiral spring acts on the actual drum in the installation position explained. If the rope is unwound from the drum, so If the spring force or the preload of the spiral spring is low · The spring force does not generate any additional forces to be taken into account · Is the rope completely or almost completely in several layers on the The drum is wound, it is the effect of the spring force Large coil spring. This spring force acts against the winding direction of the rope, the arrangement easily can be made so that with increasing winding diameter, thus increasing peripheral speed of the drum at constant speed, the counteracting one The spring force increases in roughly the same way, which means that a constant amount of rope is wound up per unit of time.

In the drawings, an embodiment of the invention is shown schematically. It shows

Fig. 1 shows two drums arranged side by side on a rotatable shaft, each of which is independent of one another connected to the inielle by means of spiral springs}

Fig. 2 'the representation of a spring diagram in the Arrangement according to FIG. 1 between the well and the Spiral spring arranged on drum.

Via a gearwheel or chain wheel 1 or an electric motor, for example a squirrel-cage motor, a shaft 2 drivable, which is stored in bearings 5. On the WtUe 2 are two drums 4 arranged next to one another in the axial direction,

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which are provided for multi-layer winding of ropes 10 · The drums 4 are rotatably mounted on the shaft 2 by means of roller bearings 5. In the embodiment shown, a hub 6 is attached to the shaft 2 by means of a feather key 6a, on the outside of which the inner ring of a roller bearing 5 is attached. The outer ring of the rolling bearing -5 is connected to a hub 4a of the respective drum. A spiral spring 7 is attached between the hub 6 - and thus between the shaft 2 - and the drum 4. The inner end 7a of the spiral spring engages in a slot 6b of the hub 6, while the outer end 7b of the spiral spring is attached to a bolt 8 which is seated on the pulley 4b of the drum 4. '\ -__ ■ _'

The spiral spring 7 can be prestressed in the spring direction (winding direction). In the spring diagram shown in Fig. 2, it has been assumed that the spiral spring in the spring travel direction (winding * winding direction) can perform 70 revolutions until the maximum bias is reached. In the abscissa of the diagram is thus entered “spring travel 70 usable turns ¹ '. The spring force is plotted on the ordinate.

It is assumed that the device described is a Downstream traction sheave winch, which requires 80 revolutions for an assumed cable lift of 100 m the drum 4, which is provided as a storage drum, requires a total of only 60 revolutions. In this case a Coil spring 7 selected, the maximum bias of which is reached at 70 revolutions. As shown in FIG

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Spring diagram for the spiral spring 7 can be seen, the Bias of the coil spring 7 when unwound for use Rope selected at about half the maximum preload of the spiral spring in the direction of the spring deflection. The bias of the The spiral spring when the rope is wound up for use is about 30% lower than the maximum pretensioning of the spiral spring. The working range of the spiral spring is accordingly 7 in the embodiment shown between 30 and 50 turns or 35 kp and 55 kp »that is within of the hatched area of the diagram,

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Claims (4)

Expectations 1. Device for multi-layer winding of ropes, Cables or the like with a drum rotatably mounted on an axis for winding up the ropes, Cable or the like and a spiral spring supported between the drum and the axle, characterized in that that the axis is a rotatably mounted shaft (2) connected to a winding drive and the Spiral spring (7) is supported under pretension between the shaft (2) and the drum (4) in such a way that when unwound Rope (10) the preload in the direction of the spring deflection is lower than with a wound rope, 2. Apparatus according to claim 1, characterized in that the pre-tension of the rope unwound for use is about half of the maximum pre-tension of the spiral spring (7) is in the spring travel direction, 3. Apparatus according to claim 1 or 2, characterized in that the bias when the rope is completely wound up for use is about 30 % lower than the maximum bias of the spiral spring (7) in the direction of the spring travel. 4. Device according to one of claims 1 to 3 » characterized in that a plurality of drums (4) are arranged on the shaft (2). 409 88 1/0506