CS209079B1 - Unwinding stands for cable reels - Google Patents

Description

(54) Cable drum unwinding stands

BACKGROUND OF THE INVENTION The present invention relates to a cable reel stand for cable reels in which it delimits a rotating cable reel path and increases the stability of the stand by increasing the base in operational condition.

To unwind the cables from the cable drums, portable stands are used that are attached from both sides of the cable drum. The shaft is threaded through the center of the drum. The stands are designed so that the bearings that are part of them are located under the shaft. The lifting members are then actuated to mechanically or hydraulically lift the bearings, and thus also the entire cable drum by the working stroke, thereby allowing the cable drum to rotate freely. Previously known and commonly used racks consist of a base, generally formed by a base plate, on which one or two guide columns are fixed. The columns are designed to guide the bearing for inserting the cable drum shaft, both when performing the auxiliary stroke, which moves the bearing to different heights according to the radius of the lifted cable drum, and when performing the working stroke. The dimension of the base determining the stability of the entire stand is given directly by the dimensions of the base plate, which is the base. Increasing stability is only possible by increasing the dimensions of the base plate. However, this has its limits due to the possibility of transferring forces from the center of the plate, where they are displaced by the action of the lifting member to its entire surface. This is a very unfavorable stress on the flat plate, which is laid on differently uneven surfaces and loaded at the same place. Over time, the plate deforms, as we see in the racks used. When such a stand is then placed on a relatively flat surface, it does not sit on the surface but wobbles. Increasing the rigidity of the plate would be possible by increasing its thickness, but this would lead to an unbearable increase in the weight of the rack. Another way is to reinforce with welded reinforcements, but we encounter other technological problems such as deformations due to internal stresses and the like. At the same time, the dimensions of the base plate define the transport dimensions of the stand. By enlarging it, the stand becomes a very bulky object, which has consequences in the demands on storage space and means of transport. Solutions are also known which increase the surface of the base of the stand by tilting arms. However, the arms are tilted about an axis parallel to the base surface and thus in the direction in which they should absorb the load. This task is then left to the stiffness of the arm fixing mechanism in the tilted position, which in practice proves insufficient at greater forces.

The wooden cable drums are designed in such a way that the ends of the drums are pulled together by a series of screws situated on a circle concentric with the circumference of the drum. The screws from the drum faces protrude a certain amount. When the drum is rotated during cable unwinding, the cable drum may be axially displaced on the shaft, especially if both sides are not raised equally, i.e. if the shaft is not horizontal. Then, the protruding parts of the drum may become trapped on the stand or at best scrub the forehead against some part of the stand. This phenomenon is avoided by inserting different inserts between the drum and the stand, the best known being the adjusting rings on the shaft defining the position of the drum on the shaft and the position of the shaft relative to the stands. However, the use of rings greatly complicates the handling of the installation.

These drawbacks are eliminated by the racks of the invention by having at least one wheel whose axis is perpendicular to the axis of the cable drum shaft mounted on the rack at a distance from the shaft axis than the radius of the cable drum, with the side facing the cable drum the circumference of this wheel exceeds the contours of all other parts of the stand. Furthermore, the base of the stand is formed by at least one profile beam and at least one arm mounted rotatably in a bearing whose axis is perpendicular to the bottom surface of the base. Alternatively, the arm is supported on a pair of bearings provided on a common axis, one bearing being provided at the root of the arm, while the other bearing is connected to the arm by means of a strut.

By using the wheel as the highest point of the stand with respect to the wall of the drum face, the path of the rotating drum is defined so that it cannot engage with its projections on the stand and at the same time the resistance to free rotation of the drum is not substantially increased. The insertion of a base arm in a hinge whose axis is perpendicular to the base surface is made possible by using the arm as a support at any opening angle without affecting the stiffness of the buckling or the arm needing to be further secured.

In the drawings two exemplary embodiments of the stands according to the invention are shown, in which Fig. 1 shows a set of two stands and a shaft on which the cable drum is suspended in the ready-to-unwind position, and Fig. 2 shows a view of the stand itself. Fig. 3 shows another embodiment of the stand.

The yarn racks 1 are used in pairs. It is delivered from both sides of the cable drum 2, a shaft 3 is pushed through the center of the cable drum, which engages the bearings 4 and the drum 2 is lifted by the manipulation stroke to the drum position. 6. The screws 7 of the drums 6 protrude by a certain dimension. When the cable drum 2 is rotated, during the unwinding of the cable 5, the cable drum 2 can be axially displaced on the shaft 3. In order to prevent the protruding parts of the drum 2 from being supported by the stand 1, the stand 1 is provided with a wheel 8 whose axis is perpendicular to the axis of the shaft 3. If the drum 2 moves to one of the stands 1 8, it will begin to roll and prevent its contact with another part of the stand

1. The stand 1 thus prepared can also absorb considerable axial forces from the side of the rotating cable drum 2. The stands 1 can be used to unwind the cable 5 from the cable drums slightly inclined, for example if deformation occurs during transport of the cable drum 2 without to take this circumstance into account.

In order to absorb the forces of the tilting racks 1 in the side *, the base of the rack 1 needs to be adequately expanded. The base of the rack 1 consists of a continuous U-profile beam 9, which achieves high base rigidity and perfect load transfer from the columns 10 or the entire base area. Also, the connection of the columns 10 to the base beam 9 by means of struts 12 gives a new justification under the angle of view of its perfect stiffness. Furthermore, the base is formed by two arms 13. The arms 13 are mounted on the stand 1 rotatably in the bearing 14, which is in the root of the arm 13, and in the bearing 15 provided at the end of the strut 16 of the arm 13. The strut bearing 15 is in the same axis as The bearing 14 of the arm 13. The described bearing of the arm 13 allows it to rotate about the axis of the bearings 14, 15 and to be used to buckle in any position. At the same time, the bearing resistance to the forces exerted by the arm 13 is still maintained.

Another embodiment of the jack (Fig. 3) consists of one column 10, which is here intended only for guiding the bearing holder 17. The bearing 4 is height adjustable on the holder 17 and the entire holder 17 with the bearing 4 is lifted by a lifting member 11 base. The base consists of two L-shaped beams 9, one of which is shorter, and one pivot arm 13 mounted directly on the one hand and by means of a strut 16 in the bearings 14,15. Here the wheel 8 defining the path of the cable drum 2 is mounted on the bearing bracket 17 of the bearing 4, so that when the cable drum 2 is lifted by the lifting member 11, this wheel 8 is simultaneously moved. 2 when lifting.

Equipping the base of the stand with swinging arms not only allows for a favorable difference between the size of the base in transport and working condition, but can also be used to smoothly adjust the base size to the space conditions around the drum. For example, in the presence of a non-removable obstacle, the base of the stand of the invention is much more flexible and requires considerably less landscaping than, for example, a base plate.

Claims (3)

SUBJECT OF THE INVENTION Cable drum unwinding stands comprising a base, at least one guide column, a shaft bearing and a lifting member, characterized in that they are provided with at least one wheel (8) whose axis is perpendicular to the axis of the shaft (3) of the cable drum (2) mounted on the rack (1) at a distance from the shaft axis (3) than the radius of the cable drum (2), the side of the rack (1) facing the cable drum (2) extending beyond the circumference of this wheel (8) stand (1). The unwinding stands according to claim 1, characterized in that the base of the stand (1) is formed by at least one profile beam (9) and at least one arm (13) mounted rotatably in a bearing (14) whose axis is perpendicular to the bottom surface of the base. Unwinding stands according to claim 2, characterized in that the arm (13) is supported on a pair of bearings (14, 15) provided on a common axis, one bearing (14) being provided at the root of the arm (13) while the other bearing (14). 15) is connected to the arm (13) by means of a strut (16).