CS248366B1 - Centering device, in particular for centering a steel cord buffer belt for tire casing - Google Patents

Abstract

The device is formed by a frame with systems of horizontally and vertically arranged guide elements in relation to the central plane, given by the area of the guided belt. The essence of the solution lies in the fact that the system of horizontal guide elements is formed by pairs of free-running upper rollers and free-running lower rollers, whereby in at least one of these pairs the upper roller is forcibly pressed against the lower roller, and further in the fact that the system of vertical guide elements is formed by free-running guide rollers and free-running centering rollers, arranged in rows along both edges of the guided belt, always in pairs facing each other, whereby the centering rollers of at least one of the pairs of centering rollers are attached to mutually sprung support elements, adjustable symmetrically with respect to the longitudinal axis of the guided belt, according to its width.

Description

BACKGROUND OF THE INVENTION The present invention relates to a centering device for at least the centering of a steel cord bumper strip in tire casings.

In the case of tire casings, especially in the case of radial constructions with a steel cord bumper, one of the most important factors directly influencing their uniformity is the exactly symmetrical arrangement of the bumper belt or, in multilayer bumper strips of individual layers, relative to the theoretical axis of symmetry.

This requirement has to be addressed in case of tire sheathing either during the step-by-step operation of placing individual bumper layers directly on the skeleton (possibly pre-formed) on the ready-made drum or during the bumper wrapping operation by successively depositing individual bumper layers on the auxiliary drum.

However, the reliable fulfillment of the requirement of accurately symmetrical placement of the bumper belt on the ready-made or auxiliary drum is, however, largely complicated by the fact that the width of the belt is usually not constant but fluctuates within certain tolerances due to inaccuracies of the cutting device.

Furthermore, the position of the bumper strip wound in a wrapper of greater width also often changes. These unfavorable factors, which, as mentioned above, have a very profound influence on the quality of the casings produced, should be eliminated as far as possible by the use of a suitably designed centering device.

Various design solutions for centering devices are currently known. It is known, for example, to use a lever system, at the ends of which the centering rollers are located, the contact force of these centering rollers being adjustable by a spring located in the longitudinal axis of said belt. Another known solution uses a spring located on the pivot pin of the centering pulley lever mechanism to press the centering pulleys.

Also known is a device in which the position of the centering pulleys is adjusted by an actuator based on the indication of the position of the strip between a pair of sensors at each of its edges, and various types of centering devices equipped with magnetic guides are often used. elements.

In general, the main disadvantage of the aforementioned construction types of centering devices is that they are not able to reliably ensure a symmetrical deposition of web material whose width varies within certain tolerances. In the case of belt devices, the problem is, above all, the optimal adjustment of the contact force of the centering rollers and, moreover, a small number of guide elements, which of course reduces the centering accuracy.

Any efforts to improve this state of the art so far have a negative effect on the disproportionate increase in the complexity of the entire device and the associated increased potential for failure and increased space requirements. The complexity of the construction arrangement and the considerable space requirements are a disadvantage of the other types of centering devices described above - devices with actuators for positioning pulleys and devices with magnetic guiding elements for centering the steel cord bumper.

The above-mentioned disadvantages of the previously known design types of centering devices are largely eliminated by the centering device according to the invention. It is a device which consists of a frame with systems in relation to the central plane, given by the surface of the guided strip, horizontally and vertically arranged guide elements.

The principle of the invention is that the set of horizontal guide elements is formed by pairs of freewheel, vertically displaceable upper rollers and idle lower rollers, wherein at least one of these pairs the upper roller is forcedly pressed against the lower roller, and further that the vertical guide system The elements are formed by free-running guide rollers and idling centering pulleys arranged in rows on both edges of the conveyor belt in pairs opposite each other, the centering pulleys of at least one pair of centering pulleys being mounted on mutually sprung support elements adjustable symmetrically with respect to the longitudinal axis guided belt, according to its width.

The guide rollers are mounted on the arms to form a start-up funnel whose inlet width is adjustable symmetrically to the longitudinal axis of the guided belt by a right-hand screw and the outlet width is given by the position of the adjustable support elements of the pair or pairs of centering pulleys.

The supporting elements of the centering rollers are preferably toothed racks, the movement of which is coupled to each other by a joint engagement with a pinion mounted on a cross-member of the device frame, so that they are symmetrically adjustable relative to the longitudinal axis of the belt.

The main advantage of the device according to the invention lies in the comparison with the previously known types of centering devices in that its main part - the rolling element formed by centering rollers mounted on mutually spring-loaded supporting elements, adjustable symmetrically with respect to the longitudinal axis Each point of the guide table width, at the original setting according to the width of the center belt, is mechanically forced and precisely symmetrical (relative to the longitudinal axis of the belt) by springing the support elements of the centering rollers depending on possible width tolerances of the center belt.

This ensures continuous and very accurate centering of the belt. The constructional design of the centering device according to the invention is also advantageous in comparison with the known types of equipment, which is also of a smaller space requirement, which is particularly important when stacking multiple feed tables.

An important advantage of the device according to the invention is also the possibility of adjusting the contact force of the centering rollers along the entire width of the feed table, always from zero to the optimum value. It is also not negligible to refine the operation of the entire device by arranging the guide pulley systems in the shape of a run-in funnel.

The following practical example illustrates the invention in more detail; FIG. 1 is a top plan view of the device; FIG. 2 is a front view of the outlet portion of the device; FIG. 3 is a cross-sectional view of the outlet portion of the device.

The device consists of a frame 2 in which the shafts 18 are arranged in two rows one above the other.

On these shafts, the upper rollers 8 and the lower rollers 10 which are biased on both sides are mounted in the axial direction. The vertically displaceable upper rollers 8 act on their own weight on the lower rollers 10 and the centered belt 24; furthermore, in the illustrated embodiment, the four upper rollers 8 (in the region of the belt 24 exit from the centering device) are mounted in the profiles 9 and are then urged by the compression springs 11 to the lower rollers 10.

The compression force of the compression springs 11 can be adjusted by means of an adjusting screw 12. In the gaps between the individual pairs of upper rollers 8 and lower rollers 10 of the output part of the centering device are rotatably supported by bearings 20 on the front pins 19 and rear pins 17 of the centering roller 4.

In an exemplary arrangement (see FIGS. 2 and 3), two pairs of centering rollers 4 are provided by front pins 19 and 18, respectively. The rear pin 17 is mounted on toothed racks 2, the movement of which is coupled to each other by a common engagement with the pinion 3. This pinion 2 is supported on a crossbar 21 fixed to the frame 8 of the device. One of the racks 2 is rigidly connected with its bracket 22 to the screw 6, on which the width 2 of the opposing centering rollers 8 (according to the width dimension of the centered belt 24) is adjusted by the nut 2 via a spring 7 supported by the bracket 23. centering preload (to compensate for the width differences of the belt 24 during operation of the centering device).

The guide rollers 13 are attached to the arms 14 by pins and thus form a start-up funnel 15 whose inlet width is adjustable symmetrically with respect to the axis of the belt 24 by the left-hand screw 16 and the outlet width is given by the position of the racks 2 - see at the end portions of the rear pins 17 / FIG. 3 /.

During operation of the device, first of all, according to the dimensions and mechanical properties of the centered belt 24, the amount of pressure applied to the profiles 2 of the upper rollers 8 is adjusted by adjusting screws 12 and further. necessary value of centering prestressing (according to size of assumed width differences and transverse stiffness of centered belt).

The input width of the start-up funnel 15 - right - with the left-hand screw 16 is also set. Further operation of the device then proceeds automatically, whereby the initially set values of the individual parameters can be operatively changed at any time.

In addition to the deposition of ready-made blanks in the manufacture of tire casings, the described centering device can be used in all cases where it is desired to support a web of material with production width differences symmetrically with respect to its theoretical axis. The only limitation here is the sufficient transverse stiffness of the centered material.

Claims (3)

A centering device, in particular for centering a steel cord bumper strip in tire casing, comprising a frame with assemblies relative to the central plane given by the surface of the guided belt, horizontally and vertically arranged guide elements, characterized in that the set of horizontal guide elements is formed by pairs of idling vertically displaceable upper rollers (8) and idle lower rollers (10), wherein at least one of these pairs the upper roller (8) is urged against the lower roller (10), and that the set of vertical guide elements is formed by freewheeling! pulleys (13) and idle centering pulleys (4) arranged in rows on both edges of the guided belt (24), in pairs facing each other, the centering pulleys (4) of at least one pair of centering pulleys being mounted on mutually sprung support elements adjustable symmetrically with respect to the longitudinal axis of the guided belt (24), depending on its width and the guide roller (13), are attached to the shoulders (14) and thus form a start-up funnel (15) whose inlet width is adjustable symmetrically with respect to the longitudinal axis and the output width is given by the position of the adjustable support elements of the pair or pair of centering rollers (4). 2. The centering device according to claim 1, characterized in that the supporting elements of the centering rollers (4) are toothed racks (2), the movement of which is interconnected by mutual engagement with a pinion (3) mounted on the crossbar (21) of the rifle (1). They are symmetrically adjustable relative to the longitudinal axis of the conveyor belt (24) by means of a nut (5) via a screw (6) and a spring (7). 3. Centering device according to claim 1, characterized in that the upper rollers (8) and the lower rollers (10) are mounted on the shafts (18) in the frame (1) and are biased on both sides in the axial direction.