DE1218683B - Pulley - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

B66d

German class: 35 c-2/01

Number: i 218 683

File number: R33257Xl / 35c

Start date: August 2, 1962

Opening day: June 8, 1966

The invention relates to a bottle train with several rollers, one of which takes the end of a pull rope.

Wires and ropes of telephone lines, electrical lines or the like must be between the line poles Or other carriers according to their material cross-section and the type of material with a certain tensile stress are suspended so that they are on the one hand with an additional load, z. B. due to storm, dreary hoarfrost and ice hangings, do not tear and on the other hand not the slack gets too big.

Up to now, force measuring devices or dynamometers have been used to measure tensile stress. which have a not inconsiderable length and are unwieldy. The Kraftmeßemrich- "device in series with a pulley system and a frog clamp to attach to the previously only provisionally laid wire switched. This jig, which consists of three units, has one such a length that working with it on a power pole or roof stand, in particular because of the unsafe standing and the limited mobility is practically impossible.

It is therefore necessary to practice without measuring the Tension tension after slack. This procedure was too insecure because the Slack can only be adjusted by visors and, moreover, the lengths of the tracks are unequal are.

There are already devices for displaying the weight of a lifted by a hoist Load, in particular jacks, became known where the display has a mechanical or hydraulic measuring device takes place. With these devices only pressure forces are measured.

The invention is a tensile force measurement with the aid of a measuring device with simultaneous Shortening of the clamping device possible, so that a clamping without any difficulty under determination the tensile stress can take place even if the stand is unsafe. This is accomplished according to the invention achieved that a tensile stress measuring device is built into one pulley block, whose one end on the housing of one pulley block and the other end on the end of the pull rope receiving roller is attached, and that the measured tensile stress on one on the housing Attached display device is readable.

The tension measuring device is expediently designed as a torsion bar, which is one of the position bottle pullers

Applicant:

Josef Röhrl, Schierling (Ndb.), Am Anger 3

Named as inventor:

Josef Röhrl, Schierling (Ndb.)

tion of the rollers serving, with the housing of a Fläsehenaigteiles firmly connected hollow shaft interspersed, - the torsion bar with both the pulley receiving the end of the pull rope as well as is in communication with the end of the hollow shaft. In this way, the torsion bar will correspond to the the tensile stress occurring at the end of the rope is twisted, so that the magnitude of the twist is a measure of the tensile stress results. If you now connect the torsion bar or the parts connected to it with one Display device, so you can read off the tensile stress directly on one of the pulley parts. Through this direct connection of a pulley component With the force measuring device, considerable space is saved when measuring, so that the whole clamping device consists only of the pulley and the frog clamp. The one in the hollow shaft arranged torsion bar is expediently given such a length that it extends over the width of the pulley part protrudes. This allows the protruding part to be used as a handle, so that a Handling of the pulley part and the reading device thereby continues to be made much easier and is simplified.

In addition, instead of a torsion bar, a large number of disc springs can be used in the hollow shaft of the rollers are arranged, via a lever arrangement connected to the end of the rope by the tensile stress are compressed, the degree of compression also being a measure of the tensile stress results.

In the drawing, the invention is shown in one embodiment.

F i g. 1 shows one pulley part in longitudinal section;
F i g. 2 is a right side view of the igl.

One pulley part contains three rollers 1 for the pull rope, which are designed as a hollow shaft Shaft 2 are rotatably arranged. The shaft 2 is attached to the housing 3 of the pulley part.

609 578/123

An extension of the shaft 2 to the right (see Fig. 1) carries a ball bearing 4 - to eliminate any Bearing friction - another roller 5 to which the end of the pull rope 6 is attached.

The shaft 2 is according to Fi g. 1 to the left beyond the housing 3 with an extension 2 ' , which also serves as a handle for better handling of the pulley part. In the hollow shaft 2, a torsion bar 7 is arranged, which consists of a solid bar or a plurality of torsion bars combined in bundles. This torsion bar 7 is attached at its left end at 8 to the hollow shaft extension 2 ′ and thus to the housing 3. The other end of the torsion bar 7 is attached to the further roller 5 at 9. Thus, the torsion bar 7 is rotated in accordance with the tensile force acting on the roller 5 through the pull rope 6 and the angle of rotation:. this rod is a measure of the magnitude of the tensile force. Since this tensile force corresponds to the tensile stress in the wires or ropes to be suspended, the twisting of the torsion bar is a measure of the magnitude of the tensile stress.

A scale 10 is attached to the housing 3 to measure and determine the magnitude of the tensile stress. solidifies. The shaft 11 of a pointer 12 for this scale is carried by a spring 13 attached to the housing attached at 14. On the shaft 11 is a sleeve S made of a softer material, for example Plastic fastened by the force of the spring 13 against the roughened circumference 16 of an approach 17 of the roller 5 is pressed and thereby held in drive connection with this roller. at a rotation of the roller 5 so the pointer 12 rotates and shows on the scale 10 the value for the applied tension.

The window in the housing 3 is closed in a liquid-tight manner by a pane 18.

The end of the traction cable 6 is designed as a flexible steel cable and shortly after leaving the housing 3 provided with an eyelet 19 for hanging the pulley rope. The pull rope 6 is liquid-tight the housing 3 passed through, so that the entire interior of the housing 3 against penetration is protected from liquid.

Instead of a torsion spring 7, disc springs can be used in the hollow shaft 2, which are compressed by the end of the cable 6 via an angle lever will.

Claims (4)

Patent claims: 1. Pulley with several rollers, one of which receives the end of a pull rope, thereby characterized in that a tension measuring device in the one pulley block is installed, one end of which on the housing (3) of one pulley block and the other End (at 9) on which the end of the pull rope (6) receiving pulley '^) is attached, and that the measured tensile stress can be read on a display device attached to the housing (3). 2. Pulley according to 'claim 1, characterized in that the tensile stress measuring device is designed as a torsion bar (7) which is a dei storage of the rollers (I ₅ 5) serving, with the housing (3) of a pulley part firmly connected hollow shaft (2) interspersed, the torsion bar being connected to both the roller (5) receiving the end of the pull rope (6) and to the end of the hollow shaft. 3. Pulley according to claims 1 and 2, characterized in that a peripheral part dei the end of the rope receiving the pulley (5) mil a pointer (12) of the display device is in drive connection. 4. Pulley according to claim 3, characterized in that that the scope of an approach (IT of the roller (5) is roughened and with an au: the sleeve (15) attached to the pointer shaft (11) is resiliently in frictional connection. Considered publications:
Austrian Patent No. 129 256;
French Patent No. 457 558;
British Patent No. 596 577. 1 sheet of drawings 609 578/123 5.66 © Bundesdruckerei Berlin