NO149136B - Imidazo (1,5-a) (1,4) -DIAZEPINFORBINDELSER. - Google Patents

Abstract

Imidazo (1,5-a) (1,4) -diazepine compounds.

Description

Apparatus for spinning filaments.

The present invention relates to an apparatus for spinning filaments, more specifically an apparatus for spinning a bundle of filaments, some of which are composed.

Composite filaments spun from spinning solutions with different shrink properties are known to curl or twist when cured. Thus, the usual step of shrinking can be omitted when using composite filaments. One of the significant disadvantages of commonly known compound spinning nozzles is that they are limited to a very small number of spinning openings or nozzles. This of course limits production. According to the present invention, a new and improved device is provided for spinning compound filaments through a standard spinning die, in which there are both compound filaments and filaments of a single spinning solution. According to the invention, a spinning nozzle is also provided which is capable of spinning a larger number of filaments, some of which are composite.

According to the invention, it is thus possible to spin a bundle of filaments of three types at the same time through a spinning die plate of ordinary construction. A first part of these filaments is formed from another material and a third part is composite filaments that are formed from both materials. The spinning nozzle plate is of ordinary construction and can have a larger number of openings. The device in the invention can also be described as robust and simple with regard to construction and composition.

The invention thus relates to a spinning nozzle

for spinning filaments and in particular for bundles of filaments which are partly composite filaments, from a number of spinning compositions comprising first and second perforated plates mounted in a channel formed inside a housing, the first perforated plate being mounted in front according to and coaxially with the another perforated plate in the direction of flow, and the housing has a first inlet leading to the channel on the upstream side of both perforated plates and at least one other inlet leading to the channel at a point between the perforated plates, and is distinguished by the fact that the housing is constructed in such a way that it produces a constriction in the lateral direction of the channel between the orifice plate on the upstream side of the second orifice plate which closes the channel at the end on the downstream side, which constriction laterally divides the channel into a first and a second chamber, the first orifice plate being mounted across the first chamber and the second orifice plate being mounted across the second chamber. As a result of the laminar flow, the solutions will not mix with each other. Filaments that are formed at the middle part of the second spinning nozzle will consist of one solution, while filaments that are formed at the outer second part of the second spinning nozzle will be of the other spinning solution. The filaments which are formed at an annular intermediate part of the second spinning die will be composite or united in pairs. Curing the bundle or string of filaments will cause curling or shrinking of the composite or paired filaments. These curled or crimped filaments bend the other filaments

away from their linear design and hold the string together.

Additional purposes and benefits of pre-

lying invention will appear from the following detailed description in connection with the

the nings, where

Fig. 1 is a cross-section through an embodiment

form of the invention and shows the con-

structural connection between the different elements in the device, and fig. 2 is an elevation following the line 2—2 on

fig. 1 and shows the areas where the different filaments are formed.

The drawing shows a conventional pre-

th spinning nozzle plate 11 fixedly mounted in a cam

more 12 in a housing or a capsule 13 by means of an insert 14 which is fixed with threads in the housing

set 13. Gaskets 17 and 18 seal the connection between the insert 14 and the housing 13.

Spinning solution is pressed from a source 21

into the chamber 12 through insert openings 20 and 22 in the housing 13, as this solution enters the chamber 12 after the first spinning nozzle

11 set in the direction of current. From another source

25, another spinning solution with a different color or chemical composition is pressed through an opening 26 in the insert 14 into the chamber 12 in front of the first spinning nozzle viewed in the direction of flow. This spinning solution then passes through the first spinning nozzle 11 and combines with the spinning solution from the wedge

on 21. As a result of the two spin solutions

gers high viscosities and low flow rates

is called, the small streams leaving the first spinning nozzle 11 will not mix with each other to any significant extent. In other words, the flow of the combined solutions is a laminar flow.

The small separated streams of spin up-

solution from the first spinning nozzle 11 moves inwards or converges in the chamber 12

under the influence of the radially directed inward flow of the spin solution from the source 21.

The chamber 12 is provided with a constriction

ring, through which the combined spin-

solutions flow to another spinning nozzle 29,

which by means of a cap 30 is attached to the

set 13 and is arranged in such a way that it closes cam-

more 12. Expressed in another way, it can be said that the housing 13 is provided with chambers 12

and 32 which are mutually connected by an in-

narrow opening 36, the chamber 32 forming a recess which is closed by the spinning nozzle 29 and forms a chamber.

It will immediately appear that when they came

binary solutions flow through the opening 36, the streams of solution from the first spinning nozzle 11 will occupy the middle part of the opening

gen 36, while the spin resolution from the source

will occupy the outer part of the opening 36. Along the connecting line for the two spinning solutions

there will be separate streams of solvent

ning from the source 25. These separated streams which are formed by the outermost nozzles in the first spinning nozzle 11 and which cut mouth-

the pieces in the second spinning nozzle 29 form composite or paired filaments.

Since there is a large number of such ad-

separate streams and a large number of mouthpieces

ker in the second spinning nozzle 29, a large number of composite filaments will be formed.

The composite filaments will thus

present in the bundle of filaments in a ring

met band 40 (fig. 2) has a mean radius which is equal to about half the radius of the circle determined by cutting the filament bundle by a plane parallel to the surface of the second spinneret.

Within the annular band 40, the fila-

The filaments will be formed by spinning solution from the source 25. This area is indicated by the reference number 41. In an annular band 42 which surrounds the band 40, the filaments will be formed by the spinning solution from the source 21. In operation

Alternatively, different spinning solutions could be fed in through the intake openings 20

and 22, so that different filaments in the band 40 would consist of different combinations of spin solutions.

When the bundle of filaments or string

then cured, the composite filaments will

ter curls and twists in a well-known way.

This automatic shrinkage of compound

filaments seek to deflect the other filaments

from their normal linear design and also seeks to hold the cord together, thereby giving it a better appearance, and whereby after-

the following treatment becomes significantly easier.

Claims (2)

1. Spinning nozzle for spinning bundles of filaments which are partly composed of fila- ments, from a number of spinning compositions comprising first and second perforated plates mounted in a channel formed inside a housing, the first perforated plate being mounted in front of and coaxial with the second perforated plate in the direction of flow, and where the housing has a first intake which leads to the channel on the upstream side of both perforated plates and at least one other intake which leads to the channel at a point between the perforated plates, characterized in that the housing (13) is constructed in such a way that it produces a narrowing in the lateral direction of the channel between the perforated plates (11, 29) on the upstream side of the second perforated plate (29) which closes the channel at the end on the downstream side, which narrowing laterally divides the channel into a first and a second chamber (12 and 32), the first perforated plate (11) being mounted across above the first chamber (12) and the second perforated plate (29) is mounted across the second chamber (32). 2. Spinning nozzle according to claim 1, characterized in that the second chamber (32) has the shape of a truncated cone.