CS276507B6 - Sectional roller for transfer heavy flat materials - Google Patents

Abstract

Link roller for heavy duty flat materials, especially steel strips sheet with fluctuating high load and, in particular, their edges, consisting of from the combined carrier shaft (10) with bearing pins (12) mounted in a support tube (11) of a uniform outer average over which they are end flange clamps formed and on the tube (11) of which is tightly transferred cells (31) of monolithic plastic of an abrasive material, for example alkali polyamide or polyurethane on uniform internal and external diameters, it has front walls (32) carrying cells (30 rough or mirror-shaped) to at least one half their annular height, while remaining they have dilatation rebounds (33) as well as the ultra transfer cell (31) at least from the side of the fixed flange (21) the grip has a roughened contour formed the rebound (34) at the bottom of his the height corresponding to the width of the beam to flange (21).

Description

. The invention relates to a link roller for transfer. heavy flat materials, especially steel strips of sheet metal of various widths and high abrasive and gray action, especially of the edge parts.

When transporting, in particular, steel sheets of sheet metal, for example during their heat treatment or other surface treatment, and during their transfer in the unwound state, transfer rollers of predominantly metal are used, in particular in the heat. environment of continuous furnaces, but also in run-in and inlet sections. In these out-of-furnace sections of the line, attempts are being made to save metal and to use rollers using non-metallic materials, in particular ceramic or plastic abrasion-resistant materials. All these materials can be used only in the function of transmitting, resp. supporting under the material, while the supporting and storage function of the roller is performed by a metal central shaft of various suitably selected construction according to the size of the load, speed, etc. The most important is also the choice of the said transfer material and especially its binding, resp. mounting on a metal shaft so as to form a monolithic unit in order to fulfill the function and the roller, but also to achieve the longest possible service life of the rollers and thus reduce track failures and downtimes.

For transfer or transfer rollers in the textile and food industry, t. j. for small drafts, plastics of varying elasticity, including rubber, can be afforded, applied to a metal cylinder by casting directly or by sliding after casting in a mold as a monolith. For larger rollers, the efficiency of cast plastic coatings or even monoliths is limited, both for the difficulty of forming and casting plastics and for the difficulty of settling or direct melting on the metal core or on the leg tube so as to maintain the correct entrainment function of their contact pads. In the case of these monolithic full-width layers, there is also an uneven wear of the surface, especially at the edges of the steel strips, which causes unnecessary discards and consumption of plastics. For this purpose, attempts are made to divide the cylinder body into rings with the possibility of replacing only the individual worn parts, possibly in the case of ceramic rings, due to their load-bearing capacity and cracking. Despite their firm front clamping, the ceramic rings are unusable because it is not possible to ensure their entrainment and to limit the clearance to the shaft, for example with rotary adhesives and the like. Experiments with the use of plastic or elastic rings or grooves, firmly clamped by a flange joint at the ends of the roller, also have further disadvantages in that they do not transfer loads 3 by large accelerations or inertial forces and, in particular, inseparable connection. Finally, rollers with one or more links around the circumference of the supporting metal tube are known without significant frontal clamping, but with demanding entraining intermediate layers monolithic over the entire width of the roller or at least at the ends of these links. Due to the variety of these materials, the insufficient rigidity of the joint and the entrainment, and thus the low load-bearing capacity, these articulated rollers are not equally applicable for the stated purpose of transport, especially of steel sheets.

The above-mentioned drawbacks are eliminated and the articulated roller according to the invention solves the problem of transporting heavy objects or steel sheets of sheet metal on rollers with a plastic surface. The essence of the invention lies in the fact that the link cylinder, the transfer elements of which form transfer elements made of monolithic plastic heat-resistant material tightly threaded on the circumference of the support tube, has these links roughened or mirror-shaped to a height of at least one half of their annular height. Expansion bounces are formed in the opening part of their height. The outermost transmission member, at least from the side of the fixed clamping flange, has a roughened shaped bounce formed at the bottom of its height corresponding to the width of the offset at. flanges. . .

The advantages of the link cylinder according to the invention are mainly in that a transfer roller of simple construction is created, using the properties of plastics both for transmitting forces by clamping and for their simple and operative renovation by cell replacement, which allows substantial extension of service life . There is no need for demanding production of all-plastic cylinders with casting of steel parts, the possibility of production of cells directly at the user of the cylinders in the required assortment and material composition, for example for straightening cylinders.

CS 276 507 B6 2

Another significant advantage is in the rigid monolithic connection of the driving elements with the supporting elements of the cylinder, especially the tube, without complicated settling and fastening around the circumference of the supporting tube, without the use of other materials and labor on this connection. Expansion bounces under the transfer surface allow the simultaneous use of more elastic materials with the exclusion of their extrusion above the transfer surface and easy disassembly and assembly of rings of uniform construction. '

An exemplary embodiment of a link cylinder according to the invention is shown in the accompanying drawing in partial axial section.

The combined support shaft 10 consists of a support tube 22, in the ends of which the shoulder J.3 of the bearing pins ^ 2 are pressed. At the ends of the tube 22 above the fitting 23, fastening elements of the clamp are arranged, namely a flange 21 at one end and a threaded nut 22. Annular transfer members 32 with an inner diameter identical to the outer diameter of the tube 11 and with a uniform outer diameter are threaded on the support tube 22. The end member 31 has a roughened shoulder 34 formed at the front and around the circumference of the flange 21, and moreover the members 21 have the front walls 22 roughened or mirror-shaped to one half the height of the annulus. Expansion shoulders 23 in the form of double-sided recesses are formed in the upper part of the intermediate ring of the links 31, the links 31 are made of alkaline polyamide and are intended for leveling rollers.

After fitting the end member 31 to the shoulder 31, the remaining members 21 are gradually pushed in according to the required length, and after fitting their end faces 32, the clamping nut 22 is firmly tightened, which clamp is fixed by a lock nut.

The invention can be used in all branches of industry, including use in silos and possible thermal stresses corresponding to the selected type of plastic material.

Claims (2)

· CS 276 507 B6 Furthermore, a substantial advantage is in the solid monolithic connection of the driving elements with the supporting elements of the valo, especially the wound, without the demanding settling and fixing around the circumference of the bearing measure, without the use of other materials and the labor of this connection. Expansion bends under the transfer top surface also allow for more elastic materials, avoiding extrusion over the transfer surface and easy disassembly and assembly of the rings for uniform construction. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the link cylinder according to the invention is shown in the accompanying drawing in a partial axial section. The combined support shaft 10 consists of a support tube H, at which ends the bearing shafts 2.3 of the bearing pins are pressed. Fastening elements of the clamp are placed at the ends of the tube H above the shoulder J.3, on the one hand the flange 21 on one end and the nut 22 on the thread. Annular transfer members 31 of internal diameter are coincident with the outer diameter of the tube H and the uniform outer diameter. The end member 31 has a roughened shoulder 34 formed over the forehead and circumferentially of the flange 21, and moreover, the members 21 have front faces 22 roughened or mirror-shaped to one-half the height of the annulus. In the upper part of the annular rings of the cells 31, dilatation faces 23 are formed in the form of double-sided plugs, the cells 31 are of an alkaline polyamide and are intended for straightening rolls. After the end member 31 has been fitted to the shoulder 3, the remaining members 21 are inserted in succession according to the required length and, after the end faces 32 have been fitted, the clamp 22 is tightened, which is fixed by the lock nut. The invention can be utilized in all industries, including applications up to 31, and possibly thermal loads corresponding to the selected type of plastic material. BOTTLE BOXES A link roller to transfer heavy flat materials, especially steel belts with fluctuating high loads and bursts, in particular to their edges, as a combined support shaft with bearing pins mounted in a support tube of uniform outer diameter over which diameter are formed end flanged clamps and, in a plurality, transferring members of a monolithic plastic abrasive material, such as an alkali polyamide or polyurethane of uniform interior and exterior diameters, characterized in that the front walls (32) of the transfer links (30 are roughly or mirror-shaped to at least one half of them) of the annular height, the residual height having the dilatation bends (33) formed, as well as the outer transfer member (30 at least from the fixed clamp flange (21) has a roughened contour formed from a jump (34) at the bottom of its height corresponding to the width of the flange (21)