CS207229B1 - Lifting frames for unwinding the cables from the cable drums - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a cable reel stand for cable reels, in which it provides for mounting and securing a bearing for a cable drum shaft or lifting member on a rack structure at different heights depending on the diameter of the drum being lifted.

When unwinding cables from cable drums, portable racks are used designed to be universal for a wide range of cable drum diameters. To this end, the bearing for the cable drum shaft is vertically adjusted after the construction of the stand with the possibility of securing at a height as close as possible to the cable drum shaft, followed by lifting the cable drum by the lifting member by the working stroke, thereby allowing the drum to rotate freely over the floor.

Previously known and commonly used stands consist of a base on which two guide columns formed by a metallurgical U-profile are fixed. The bearing bearing is moved between these columns and can be secured at any point by eccentrics or cams clamping the column profile. Since the load-bearing capacity of the stand is transmitted to the columns by the frictional component of the clamping force, it is evident that the clamping force here will be of an order of magnitude higher than the load-bearing capacity of the stand and it will therefore be necessary to adequately dimension all clamping force transmitting components. Practically this is evident on the stands used so far, when the entire lifting device is robust and very massive.

For safety reasons, the locking mechanism of the lifting member uses a self-clamping effect of clamping, which in effect means that after use, the rigidity of the clamping is greater than it was before lifting the drum. The release of such a joint is then only possible with a hammer or force such that it is not in the power of the operator to release the clamping other than by impact. The suddenly released mass of the lifting member then falls to the lower limit position and can be a source of injury, despite the excessive stress on all parts.

Another example of the stands used is an embodiment wherein the lifting member, typically a hydraulic jack, is positioned permanently on the base, while the bearing is height adjustable in a frame that is guided between the columns and lifted entirely by the lifting member. Here the bearing is hung on stops made at constant spacing in the frame. This, however, becomes a loose part, which is easily lost in terrain conditions and must be connected to the stand by a chain, cable, etc. The predetermined spacing of the stops may not always meet the specific spatial conditions. As an example, the two racks cannot be set to the same height. This is very common when the cable drum is built on a terrain wave or next to a sidewalk. Then we have to (one stand to support the difference; to make up for it. An even worse situation occurs, i

when one of the racks is placed on a lower load-bearing subsoil and begins to collapse when the cable drum is lifted. Then we must lower the drum back, level the stands, eventually adjust the terrain and lift again. All of the above operations considerably hinder the operator's work and prolong the preparation times.

The aforementioned drawbacks are overcome by the lift stands according to the invention such that at least one pair of actuator pawls mounted in the chain of components between the bearing and the base are pivotably mounted on the bodies mechanically directly related to the bearing. the resilient member, while the bodies closer to the base are at least two pairs of stops made at different heights from the base. Furthermore, the bearing body is swinging! one pawl pair is fastened and the other pawl pair is fastened to the lift body while the pitch of the pairs of stops made on the columns is less than the lift of the lift member. Furthermore, in that one side of the pawl is adapted to form part j of the outer cylindrical surface while in the lifting body? A seat in the shape of an inner cylindrical surface is provided in the body or even in the bearing body.

By using the latches and stops to anchor the lifting member or bearing on the mast columns at the selected height, the clamping force value approximates the load capacity, respectively, half the load capacity of the frame. Thus, all parts involved in the transmission of this force will be much smaller and lighter than friction clamping. The clamping member or bearing remains automatically locked on the reached stops after the upward extension. Back-release is done by a force acceptable for manual operation without sudden or unexpected shocks, which can cause injury to the operator. When the drum is lifted by the lifting device, the drum is permanently suspended at the height reached when the closest stops are reached by the latches on the bearing and the lifting element can be completely released. Any small working stroke limited only by the height of the stand can be achieved by a small-lift hoist. Three embodiments of the stand according to the invention are shown in the accompanying drawings. Fig. 1 is an overall view of a set of two racks with a cable drum raised. Giant. 2 shows the suspension of the lifting member between the columns and the stand. Giant. 3 shows a bearing suspension in another; 4 shows the application of a latch mechanism for both the lifting member and the bearing.

Lifting stands 1 for unwinding the cables 2 from the cable drums 3 are used in pairs (see Fig. 1). ! The racks 1 are retracted from the sides of the cable drum 3. The lifting member 4 provided with the bearing 5 is lifted up to below the shaft 6 threaded through the cable drum 3 and is fastened to the columns 7 of the rack 1. 3 is raised by the working stroke. The lifting stand 1 is generally formed by a base 8, on which two columns 7 are fastened directly or by means of suitably designed struts 9. Between them, a lifting member 4 equipped with a bearing 5 is slidably mounted.

In order to secure the lifting member 4 on the columns (see Fig. 2), the columns 7 are provided with stops 10 on their inner side and [the lifting member 4 is provided with latches 11. Between the latches 11] and the lifting member 4 are springs 12 causing automatic engagement of the latch 11 beyond the edge of the stop 10 after the lifting member 4 has been moved by the distance of the stop 10 above. The latches 11 are provided with a protruding actuator 13. To move the lifting member 4 downward, the latches 11 are released by pressing the actuators 13 against each other. Here, the bearing 5 for the shaft 6 of the cable drum 3 is directly a part of the lifting member 4, which can be solved on the mechanical, hydraulic or other principle. ___________________

Another embodiment of the lift stand

1 is a stand 1 in which the lifting member 4, as a rule a hydraulic jack, rests permanently on the base of the stand 1 (see FIG. 3). Between the columns 7 is then guided a bearing holder 14, which here has a different frame shape. The bearing 5 is displaceably mounted in the holder 14 and performs the working and stroke together with it. The bearing housing 5 is provided with latches 11 with springs 12 and the stops 10 are provided here on the inner sides of the bearing holder 14.

II is closed and displaceably fastened in the holder 14 by means of a suitable cover so that it forms an integral part with it.

Creating stops 10 at regular spacing as well as protruding shapes is technologically more demanding | than grooves 15 under the same conditions. Therefore, it is possible, if the strength of the columns 7 is not to be reduced to an appreciable extent, to make stops 10 as edges of the grooves 15 (see FIG. 4). If the spacing of the stops 10 is smaller than the lift of the lifting member 4 and the latches 11 are provided with both the lifting member 4 and the bearing 5, the stroke summing function is achieved. In the first phase after the lifting body 4 in activities' deposits · 5 lifts the latch 11 to engage at the earliest ί stops 10. From this moment I reached the position permanently bearing 5 11th and latched ¹ In the next phase we can relax lifting 4, lift it behind the bearing 5 to a position where its I latches 11 engage at the nearest higher stop 10 ί and lifting can continue.

The latches 11 must be pivoted relative to the body of the lifting member 4 or the bearing 5. In this case, it has to carry the load corresponding to the load-bearing capacity of the stand 1. Therefore, it is advantageous to provide a bearing directly by abutting a suitably adapted latch face 11 into a shaped body of the lifting member 4 or bearing 5.

Claims (4)

SUBJECT OF THE INVENTION Lifting stands for unwinding cables from cable drums consisting of a base and two pillars resting on it, between which a shaft bearing can be mounted, which can be fixed at at least two different heights from the base and then lifted by a working stroke by in the chain of components between the bearing (5) and the base (8) there is at least one pair of pawls (11) provided with an actuator (13) pivoted on bodies mechanically directly related to the bearing (5), and between the body on which the pawl ( 11) and the latch is a resilient member, while the bodies closer to the base (8) have at least two pairs of stops (10) made at different heights from the base (8). Lifting stands according to claim 1, characterized in that one pair of pawls (11) is pivotably mounted on the bearing body (5) and a second pair of pawls (11) is pivotably mounted on the body of the lifting member (4) while the pitch of the pairs of stops ( 10) on the masts (7) is less than the lift of the lifting member (4). Lifting stands according to Betl 1 and 2, characterized in that one side of the pawl (11) is adapted to form part of the outer cylindrical surface, while in the body on which the pawl (11) is mounted, a seat in the shape of the inner cylindrical surface is provided 4 drawings