NO149137B - ANALOGY PROCEDURE FOR THE PREPARATION OF DIAZEPINE COMPOUNDS - Google Patents

Description

Apparatus for spinning filaments.

The present invention relates to an apparatus for spinning filaments, more specifically an apparatus for combining two spinning solutions for obtaining composite filaments by means of conventional spinning nozzles.

It is a well-known fact that composite spinning nozzles are expensive and difficult to manufacture. It is also known that conventional, composite spinning nozzles are limited to a rather low number of spinning nozzles due to their construction.

The purpose of the invention is to provide an apparatus for combining different spinning compositions in an apparatus for spinning compound filaments, which apparatus is cheap and easy to manufacture and in connection with which a common spinning head with a large number of holes can be used.

Due to the few and simple structural elements of which the spinning apparatus according to the invention consists, it is cheap and easy to produce. It has been shown that the individual components in the composite laminar flow do not mix with each other, so that the composite flow emerging from the chamber can be led through a wire to a conventional spinning nozzle with many holes to form composite filaments. The spinning apparatus according to the invention thus fulfills the purpose of the invention.

An embodiment of the present invention involves a device for combining two spinning solutions, where an enlarged insert placed in a large stream of a first spinning solution is provided with a number of longitudinal grooves through which the first solution flows and by which the large stream is divided up into a number of smaller current-more. Around the insert extends a branch tube provided with a number of nozzles which lie opposite the grooves in the insert and direct small streams of another spinning solution into the small streams of the first. The combined small streams are brought together to form a large stream which is fed to a common spinneret. Due to the high viscosity and low flow rate of the spinning solution, the combined stream flows in a laminar fashion to the spinning nozzle. Some of the filaments formed by the spinning nozzle consist of one composition, others consist of the other composition and the rest are composite filaments. Further purposes and advantages of the present invention will be apparent from the following detailed description in connection with the drawing, where

Fig. 1 is a cross-section through an embodiment of the invention and shows the general arrangement of the various elements in the device,

fig. 2 is a cross-section along the line 2-2 in fig. 1 and shows the construction of a branch pipe which injects streams of one spin solution into streams of the other, Fig. 3 is a perspective view of the insert which divides a large stream of spin solution into a number of smaller streams and Fig. 4 is a cross-section on a larger scale along the line 4-4 in fig. 1 and shows the combined streams of spin resolution.

The drawing shows a capsule 11 with

an opening or a chamber 12 which extends through this and by means of a pipeline 13 is connected to a first source 14 for spin dissolution, the pipeline 13 being in connection with the chamber 12. The opening or chamber 12 has a cylindrical central part and frustoconical end portions for recording an insert 18 with a similar design.

The insert 18, which has a cylindrical middle part and conical end parts, is provided with a number of longitudinally extending flanges 19 which extend from one end of the insert to the other, the flanges 19 delimiting grooves 20, through which the spinning solution flows

more from the source 14. The flanges 19 divide the large flow of spin solution as flow-

more from the pipeline 13 in a number of much smaller streams and these streams flow through the grooves 20 delimited by the flanges 19.

Another spinning solution is supplied from

a source 24 through an intake opening 25 to a circular manifold 28 which is mounted in the

the harness 11 and encloses the insert 8 cylindrical,

central party. The branch pipe is provided with a number of nozzles or openings 29 each of which is directly opposite one of the grooves or depressions 20 in the insert 18 and injects into these streams of spinning solution from the source 24.

Because of the spin resoln

high viscosities and very low flow rates, the combined flows form a laminar flow. In other words, current

minds unite with each other and flow together

but, but don't mix. Fig. 4 shows in cross-

mean the design of the combined current-

more since the area 30 is spin resolution from the first source 14 and the area 31 is spin resolution from source 24. The line 32 is the demarcation line between the two spin resolution

nings.

The combined small currents flow re-

nom the recesses 20 and is combined into a larger flow at the right end (fig. 1) of the in-

the batch 18 and is fed through a pipeline 35

to a spinning nozzle 36 of a per se known type with a large number of spinning nozzles (not shown). Although areas 30 and 31 and line 32

during the transfer from the chamber 12 to the tube

the wire 35 can change its shape to a certain extent, there will be no significant mixing of the two spinning solutions

gives.

The combined streams reach the spin nozzle

36 and passes through its nozzles to form filaments. The area 30 passes through the nozzles of the spinning nozzle and forms filaments

ter of one composition, while the area 31 passes through the nozzles of the spinning die and forms filaments of another composition. Sam-

menated filaments will be formed through the spinneret nozzles which are cut from lin-

jen 32, as some of each spinning solution will flow through each of these nozzles.

Thus the filament bundle at the exit will

of the spinneret contain three types of filaments,

more specifically filaments of the first spinning resolution, filaments of the second spinning resolution and composite filaments of both resolutions. If the two spin-

solutions have deviating shrinkage properties, a subsequent curing operation will shrink or curl the conjugated or composite filaments

ments. When the composite filaments take on a curled or wave-like configuration, the remaining filaments in the bundle will be deflected from their normal linear configuration by the curls of the composite filaments. This ripple or these curls in the composite filaments also serve to hold the remaining filaments

together in the bundle. Thus, a relationship

show small numbers of compound filaments, when these are hardened, serve to maintain whole-

the heat and appearance of the filament bundle. This is of the greatest importance because ropes that split or split usually provide difficult-

named in the subsequent processing.

Although the device according to the present invention can be used for complex spinning operations, it can also be used for injecting a pigment into a spinning

solution. The pigment is injected into the spinning

the solution through the openings 29 in the branch pipe 28 and the combined streams are supplied to one

mixing device (not shown) which disperses the pigment in the spinning solution. The advantage of the present device compared to conventional known pigment injection apparatus

ter, is that a number of small pigment streams are injected into the spinning solution rather than a large stream. This ensures a better dispersion

mitering in the subsequent mixing operation.

It should be emphasized that the embodiment

which is explained above is only intended as an example and that this embodiment may for-

of others or be modified and that a large number of other embodiments can be devised without thereby abandoning the spirit and thought of the invention.

Claims (2)

1. Apparatus for combining different equal spinning compositions in an apparatus for spinning compound filaments, characterized by a housing (11) with a chamber (12) extending through the same and an insert (18) mounted in the chamber and having a number of slots (20) for the passage of a first liquid, and a branch pipe (28) arranged on the housing and extending around the chamber in the housing and having a number of openings (29) each communicating with one of the slots for introducing a flow of a different liquid into each slot . 2. Apparatus according to claim 1, characterized in that the insert and the chamber have a cylindrical central part and conical ends and that the manifold is a circular manifold mounted on the housing in a position that encloses the cylindrical part of the insert.