Abstract:
In a baffle tray for a fiber distributor, the tray has opposite curved walls, the lower edges of which of their midpoints are each provided with an arcuate recess to aid in uniform formation of a fleece.

Description:
DESCRIPTION OF THE INVENTION 
     An apparatus for distributing fibers in the production of spun fleece in accordance with the general concept is already known from DE-PS No. 24 21 401 and U.S. Pat. No. 3,713,590, the disclosure of which is incorporated by reference herein. 
     It has been shown that with such units also known as changing devices certain irregularities appear in the production of fleece which appear as reduced fluff formation of the produced fleece. Supposedly, this is based on the fact that the fibers are deposited too densely in the areas affected when the corresponding dead points are reached during the oscillation of the flow baffles. This can also not be eliminated by increasing the frequency of the back and forth motion. 
     This present invention has the objective of creating a functionally reliable production apparatus that remains easy to service and which allows for the production of spun fiber fleece of the highest possible degrees of regularity. 
     In order to solve this task, an apparatus of the aforementioned type is proposed in which an arc-shaped recess is provided on both sides at the lower edge of the oscillating flow baffles (coanda trays). 
     Other preferred embodiments are contained in the subclaims. 
     Surprisingly, it was shown that a completely uniform spun fiber fleece can be produced with an arc-shaped recess in the central area of the edges of each flow baffle (coanda trays). Even though the cause for the almost complete uniformity of the produced spun fiber fleece achieved in this way is not yet precisely known, it can be assumed that a uniform distribution occurs because the deflector points at the lower edge of the coanda tray are located at different heights so that there is slightly less deflection in the internal region of the arc-shaped groove and larger deflection in the external region or rim area of the coanda trays, resulting in a uniform production of the fibers with consideration given to the entire flow and production ratios. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     Below, the invention is described with the aid of illustrations; they show: 
     FIG. 1: a side view of a portion of a deflection unit; 
     FIG. 2: a vertical cross-section through an expander nozzle with flow baffles along line II--II; 
     FIG. 3: a partial side-view of a cross-section of the apparatus similar to diagram 2; 
     FIG. 4: a side-view of the expander nozzle with a coanda tray along line IV--IV. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The fibers, which are initially entrained directed after the spinning process in a known way by means of a flow medium, are guided through an expander nozzle, 5 or 5&#39;, to the flow baffles or coanda trays, 1 and 2 or 1&#39; and 2&#39;, and are deflected alternatingly and periodically in opposite directions, due to reciprocations or oscillations, perpendicular to the original course of the fibers. This occurs by the fact that the two coanda trays are moved back and forth in the direction of arrows P and P&#39; in such a way that the threads make contact in rapid succession and alternatingly with one of the two flow baffles. The frequency of the motion back and forth is from 10 to 60 and preferably from 25 to 50 s -1  in one region. The fibers are deposited on a support moving in direction B. 
     The individual coanda trays, 1, 2 or 1&#39;, 2&#39;, are rigidly connected by other baffles, 3 and 4, as is shown in diagram 1 and 4. These other baffles, 3 and 4, are shaped convexly in the direction of the expander nozzles or can be a simple tube which is engaged by the vibratory drive for the purpose of oscillation or reciprocation. 
     At each lower edge of the coanda trays, 1, 2 or 1&#39;, 2&#39;, there are arc-shaped grooves, 6 and 7. The depth at the vertex of the arc-shaped grooves, 6, 7, is about 4 to 6 mm with a base of about 2.5 to 3 cm with reference to a coanda tray that is about 6 cm wide and about 3 cm high. 
     As is shown in FIGS. 1 and 3, the slit-like expander nozzles are positioned in such a way that the longer dimension of the nozzle opening is located in the direction of vibratory motion of the trays 1, 2 and aimed below the deflection unit. 
     FIG. 2 shows clearly that the deflection of the path of the fibers in the vertex of the recess is very much smaller (arrow A i ) than the deflection at the lower edge of the coanda tray (arrow A a ). 
     Of course, it is possible to design and dimension the groove differently in the event that there is a slant to the formation of fluff in the produced spun thread fleece due to flow or output proportions in certain areas. 
     The use of the apparatus described above leads to endlessly spun thread fleece of complete uniformity which up to now could not be achieved with known apparatus. 
     Furthermore, contrary to known procedures, as for example the `DOCAN` method with one dimensional expansion, the two additional baffles set at an angle of 90° to the flow baffles allow for two dimensional expansion with complete uniformity of the product.