CS268735B1 - Coronation Thorn - Google Patents

Abstract

The essence of the solution is the design of the coroneting mandrel, whose tubular perforated shell is provided at both ends with hollow centering pins, through which the winding shaft passes. The winding shaft of non-circular cross-section rests with its support surface on the driving surfaces of the segment, which at the same time form reinforcing fastenings for the centering pins.

Description

The invention relates to a corona mandrel for heat treatment of glass fiber material, in particular glass fiber fabric. The corona mandrel consists of a perforated tubular shell, which is provided at both ends with a tubular centering pin of smaller diameter, through which the winding shaft passes. The centering pin is attached to the shell by an external disc at the front of the shell and by an internal element located inside the shell at the front of the centering pin.

Corona treatment is a heat treatment of fiberglass materials that serves to remove unwanted lubrication components from their surface.

There are known coronating mandrels, the centering pins of which at both ends are fixed to a perforated tubular casing, namely by means of an outer and an inner perforated disc of intermediate circular shape. The driving elements of the winding shaft are formed in the pins of the discs.

The disadvantage of the design of this corona mandrel is the necessity of fastening both discs to the inner circumference of the casing, usually by welding. Both discs must be provided with supporting elements, for example, various surfaces, teeth and the like, which ensure a constant mutual position of the corona mandrel and the winding shaft during winding. In addition, both perforated discs represent an inserted undesirable resistance to the flow of the gaseous medium through the corona mandrel during the heat treatment of the glass-fiber material.

The above disadvantages are eliminated or substantially reduced in the coronalizing machine according to the present invention, the centring pin of which is attached to the perforated casing by means of an outer disc and an inner element. The essence of the present invention lies in the fact that the inner element is formed by at least one segment which extends into the cavity of the tubular centring pin with its driving surface which abuts the support surface of the winding shaft. '

The advantage of the coronation chamber solution according to the invention is to ensure the necessary rigidity of the fastening of the centering pin to the shell. The design of the coronation chamber is simpler in terms of production, presents a lower resistance to the flow of the gaseous medium through the inner space of the coronation chamber and eliminates the need to create driving surfaces of the winding shaft in the centering pin.

An exemplary embodiment of the invention is described below and is schematically illustrated in the accompanying drawings, of which Fig. 1 represents a longitudinal axial section through a coronation mandrel and Figs. 2 to 5 show a section A-A of Fig. 1 for various alternative embodiments of the coronation mandrel.

- -Fig. 1 shows a coronation train in a longitudinal axial section, the partially illustrated perforated tubular casing χ of which is provided at both ends with a tubular centering pin 2», through which passes a driving winding shaft 2» which further passes through the interior of the casing 1 and is connected at both ends to a non-illustrated movement device. Each of the two centering pins 2 is fixed at the front of the casing X or in close proximity thereto by means of a perforated outer disc £. In addition, the casing 1 is fixed to the centering pins 2 by at least one segment 5, located on the inside of the casing χ at the front of the centering pin 2. The segment 2 performs the function of rigidly fixing the centering pin 2 and at the same time ensures a constant angular position of the winding shaft 2 to the coronation mandrel.

In the exemplary embodiment in Fig. 2, the segments 2 are represented by two belts fixed to the inside of the tubular shell χ and to the face of the centering pin 2 inside the shell χ. Both belt segments 2 are placed parallel to each other in the face of the centering pin 2.

CS 268 735 Bl

The inner surfaces of both belt segments 2, facing the winding shaft J, extend into the cavity of the centering depot 2 with the help of the driving surfaces 6, which abut the support surfaces 2 of the winding shaft J. The winding shaft 2 has a square cross-section in this case.

-óbV/^^áázčii^^ embodiment of one *-segment- £ in the shape of an approximate triangle, in the vertex parts of which the segment χ is attached to the inner part of the tubular shell 1. One driving surface 6 of the segment 2 rests on one supporting surface X of the winding shaft 2, the circular cross-section of which is provided with a chamfer adapted to the type of triangular segment 2.

Another possible exemplary embodiment, consisting of two belt segments X fixed perpendicularly to each other, is shown in Fig. 4 for a winding shaft J of square cross-section.

Another variant is presented in Fig. 5, for three belt segments 2 and a winding shaft 2 of regular hexagonal cross-section. Two of the belt segments X are arranged parallel to each other and the remaining third belt segment X crosses both parallel segments £ so that the three driving surfaces 6 of these segments 2 rest on the three adjacent support surfaces 7 of the winding shaft J.

The coronation mandrel works as follows:

The winding shaft fixed in the centering pin 2 and passing through the entire coronation mandrel along its length ensures the centering of the coronation mandrel and at the same time its constant angular position during winding. The coronation line is reliably carried during winding of the glass fiber fabric, since the carrying surfaces 6 of the segments % abut the support surfaces 2 of the winding shaft J. After winding of the glass fiber fabric onto the coronation mandrel is completed, the winding shaft 2 is removed and the coronation mandrel is rolled over the outer surfaces of the centering pins 2 onto coronation frames (not shown). During the coronation process itself, the gaseous medium in the coronation furnace, heated to, for example, 350 °C depending on the type of glass fiber material and the type of lubrication, flows with little resistance into the root of the coronation mandrel and unwanted lubrication components are thus removed from the glass fiber fabric.

The given examples of embodiments of the coronation mandrel do not, however, limit the scope of the invention and it goes without saying that a number of variants and modifications are possible within the scope of the inventive idea expressed in its subject matter.

Claims (1)

SUBJECT OF THE INVENTION Coronation line for heat treatment of eco-fiber material, especially fabric, whose perforated tubular casing is provided at both ends with a tubular centering pin of smaller diameter, through which the drive winding shaft passes, and the centering pin is attached to the casing by means of a perforated outer disc at the front of the casing, and an internal element inside the casing at the front of the centering pin, characterized in that the internal element is formed by at least one segment (5), which extends into the cavity of the tubular centering pin (2) with its driving surface (6), which abuts the support surface (7) of the winding shaft (3).