DE19917791C1 - To produce heald frame rod for high-speed looms extruded hollow aluminum profile is used to be shaped by tapering ends sides and open top is filled with bar or bar strap for strength - Google Patents

Abstract

To produce the heald frame rod for the loom heald frame, an extruded hollow profile length is used, open at the upper side over its whole length. The height of the profile decreases to both side ends to match the maximum profile height of a heald frame rod without center supports, and it is shaped to give a taper to both side ends. After shaping, the profile chamber is closed by a bar of the length of the heald frame rod, or by a suitable bar strap. The bar or the bar strap is secured to the profile by a bonding of their materials, or in a positive fit. The bar or bar strap has a T-shape, with its upright inserted into the profile chamber.

Description

The invention relates to a method for manufacturing a shaft rod for heald frames according to the preamble of Main claim.

Light and rigid heald frames are for high performance weaving machines with up to 2,000 weft entries / min. needed such. Only with light heald frame strand systems can Acceleration with economically justifiable energy consumption reach the highest shot entry services possible do. For a trouble-free web process are possible rigid shaft rods required.

In the past, you have the continuous performance wrestling of weaving machines in heald frames tion that the shaft cross-sections are essentially lichen in height to reduce the growing Deflection has increased. As a rule, extruded profiles this procedure is used for the shaft rods wise due to the also significantly increasing profile weight set limits. Further increasing heald frame weights make reinforcements of the heald frame drive means and one considerably higher energy consumption is required and therefore far re increases in the weft entry uneconomical.

The previously proposed and partly also practiced Problem solutions ignore the state of the art, the be says that a carrier on two supports makes sense in loading realm of the highest tensions the greatest surface inertia has moments.  

For this purpose, the Austrian patent specification 25 82 24 beaten, a single hollow profile made of steel or aluminum a relatively low overall height as a basic shaft rod Zen. By attached to the stem bar z. B. screwed, riveted or welded bars that run from the profile ends to the Increasing the height in the middle becomes as minimal as possible Weight gain is aimed at a higher bending stiffness and reached. The web height in the middle can correspond to the web shaft length or variable according to the load the. However, this ideal heald frame construction also has itself not proven in practice for reasons of cost, because obviously the manufacturing process is too expensive and the adjustment to the variety of occasions of use be difficult rode.

Another solution provides that if no longer permissible Shank weights and heald frame lengths from 250 cm nominal width often one or more so-called center supports between the upper and lower shaft profile. This Center supports are an extremely unpleasant tool for re Reduction of the profile deflection, because they hinder the Handling in the pull-in and often lead to the webpro lead to defective fabrics and thread breaks.

With two half-shells that are firmly connected to each other, assembled shaft rods, it is known that by half shell formed space towards the outside by a bar or to complete a strip-like web (US 52 97 589, EP 504 102 A1, JP 0 83 11 739 A1). With these known An orders is not a through through this used bar the specific formation of the shaft rod possibly occurring jump in the area moment of inertia over the Length of the shaft rod seen balanced or avoided, but this bridge only has the task of passing through the half-shells formed open interior from the outside close.

In the generic DE 196 25 076 C2 is a Leichtme tall extruded profile proposed as a shaft rod, which in its Height of the maximum required profile height of the shaft rod corresponds. That is, the basic profile must be as high as it is for egg ne still acceptable deflection of the shaft rod in its Middle is required. The determined profile height is for one center support heald shaft significantly higher than that of the Time usually used profiles with shaft rods Center support. It is also provided that this is relatively high Shank rod tapering from the center to both sides is processed in order to save weight without the  dynamic performance of the shaft rod is impaired becomes.

It becomes a one-piece, preferably aluminum strand Press profile suggested that besides tapering to the En which requires no further processing.

This known arrangement has proven itself in practice. There in the practice is such that the middle part of the Shaft rod, which is preferably made of a hollow metal profile, ins special there is a light metal extrusion, ge is closed and that only towards the two end areas Machining is done in such a way that the shaft rod to its two tapered lateral ends, arises over the length of the Seen on both sides of the middle part a jump in Area moment of inertia that can lead to heavy fabrics or high tour load here notch Stresses occur that cause the profile bar to tear could lead.

The invention has for its object the generic to improve the shaft rod in such a way that such Notch stresses can not occur, but controlled become.

This object of the invention is achieved by Teaching of the main claim solved.

Advantageous embodiments are in the subclaims purifies.

In other words, it is suggested that the preferably designed as a light metal extruded profile Shaft rod seen along its entire length at its top is open. This shaft rod becomes its two side ends which is tapered and then into the  the entire length of the shaft rod seen hollow above profil a bar or a strip-like web used, the one running the entire length of the shaft rod Longitudinal reinforcement forms and a tight cavity closure creates, d. H. the groove on the top of the shaft rod seen over the entire length is provided by a feathery body closed. This feathery body d. H. So the bar or the strip-like web is preferred se inserted materially into the groove, d. H. so glued od. Like., It is of course also possible, a positive connection to choose for the inserted bar in the groove.

According to a preferred embodiment, the bar is as T-profile formed, this T-profile in the open profile chamber, d. H. so the groove engages while the crossbar des T's on top of the groove bounding walls sets. As a result, the length of the shaft rod is a one-piece component and thereby a sharp jump in the Area moment of inertia switched off.

Claims (4)

1. A method for producing a shaft rod for web shafts from an extruded hollow profile, the height of which decreases towards its two lateral ends, the hollow profile being selected in terms of its profile height adapted to the maximum profile height of a shaft rod without a central support and then to its two ends since union is tapered processed, characterized in that it is assumed that the entire length of the hollow profile is open on its upper side, after the processing finally the open profile chamber by means of a bar extending over the length of the shaft rod or one over the length of the shaft tabes reaching strip-like web is closed. 2. The method according to claim 1, characterized in that the bar or the strip-like web material-tight in the profile chamber is determined. 3. The method according to claim 1, characterized in that the bar or the strip-like web form-fitting in the Profile chamber is set. 4. The method according to any one of the preceding claims, characterized in that the bar or the strips like bridge is T-shaped and with its bridge in the profile chamber is used.