NO143027B - PROCEDURE FOR PREVENTING POLYMER BUILDING IN THE PREPARATION OF VINYL CHLORIDE POLYMERS - Google Patents

Abstract

Process for preventing polymer build-up in the production of vinyl chloride polymers.

Description

Fishing net.

The present invention relates to a fishing net with meshes which, in the catching position, lie at different heights.

In the case of fishing nets of the specified species, it is

in many cases, it is required during the catching operation to maintain a specific vertical distribution of the meshes in spatial terms without thereby affecting the mobility of the garm. This is e.g. required when fishing nets are used which in working position hang vertically downwards in the water, unlike a curtain, whereby the fish to be caught get caught in the mesh. Fish that swim towards such a net get their head into one of the meshes and thereby hook themselves with the gills behind the net threads.

Larger and correspondingly stronger fish, such as e.g. salmon, however, do not stay calm [lying in the water when they have got stuck in an obstacle, but with the help of powerful swinging and whirling movements again try to get free. If this is to be countered, it must be ensured that the net, or the part of the net that is located immediately around the catch, can follow the fish's movements in a simple and unforced way, i.e. that the net has the greatest possible mobility. On the other hand, it must be ensured that the net is brought into its catching position as quickly as possible after being set out, and that the vertically hanging net is thus stretched over its entire surface and thus utilized

tested completely.

In order for these properties to be achieved in the best moldy way, such yarns have so far been exclusively made from hemp. Hemp has a natural ability to absorb water, and hemp produced from this material sinks immediately after release and settles into a fangist position. At the same time, such yarns are easily movable everywhere.

In recent times, people have now more and more switched to producing such nets from chemical fibers due to their many different advantages. However, chemical fibers have almost no ability to absorb water, so that the yarn no longer has any ability to sink through the material. This creates difficulties when setting nets out at sea, as these initially float flat on the water and it takes quite a long time for them to sink and assume their catch position.

In rough seas, however, setting out these nets is not possible at all, because before they sink, they are already in such disarray due to the waves that they can no longer sink down to!! catching position.

In order to achieve that even fishing nets made of chemical fibers should have their own ability to sink and should hang stretched downwards in the water, attempts have been made to prepare or coat these nets with tar or iron varnish. In this way, it is true that the net bit more heavily and hung extended downwards in the water, but at the same time, in this way the mobility of the net was affected in such a way that the fish could break free after only a few movements and thereby the catch result was worse.

One has therefore further attempted to achieve the sinking ability of yarns made from chemical fibers by providing them along their bottom stitches or rows of stitches with an underline. This underline was so

in turn, with the help of some means

part made heavier, e.g. by lead balls or by lead wire spun into the line. However, the real disadvantage, namely excessive stiffness, was not eliminated in this way either. The naturally stronger designed underline simply acted as a fixed stiffener, so that the mesh parts that lay immediately around the catch site could not completely freely prevent the movements of the caught fish and thus its release.

The present inventor.se thus intends to provide fishing nets that quickly sink down to the catch, in this position maintaining a spatial distribution of the meshes and at the same time having a completely free movement of the individual mesh sections among themselves.

According to the invention, this task is solved by providing the yarns with mesh-shaped weight lines which are tied in the same way as the other threads in the yarn. It is particularly advantageous that the stitches or stitch parts located at the bottom in the f angst position compared to the other stitches are tied by a slightly flexible thread with a greater specific weight and thus form weight lines.

In this way, it is achieved that the yarn, through a distribution of the lighter and heavier stitches that are suitable for the respective yarn type and size, gets its own and evenly distributed sinking ability without the yarn's mobility being affected by the introduction of additional weight links and their support elements, such as e.g. the hitherto usual underliners. In the case of a special design form, especially the net sections which are located furthest down in the catching position have an advantageous sinking ability. A further advantage consists in the fact that, in the production of such gams, a work operation is saved, which until now was required for the introduction and attachment of the underC!ine.

Especially with nets that hang vertically downwards like a curtain, it is achieved in this way that when the net is set out in shallow water everywhere it is adapted to the unevenness of the ground and thus — in contrast to nets with an underline — closes all slip-through holes.

The specifically heavier thread is produced from the same or similar yarn material as the lighter meshes and contains within itself individual small material particles arranged at a distance from each other. These material particles preferably consist of lead. Depending on the type of yarn, the actual yarn is spun, laced or braided around these lead particles.

By the arrangement of the individual material particles inside the yarn thread, it is achieved that even the stitches made from the heavier thread retain their great mobility; the spaces between the individual material particles form joint-like connections to a certain extent so that the thread as such does not become stiff with this insertion.

The lead particles which are arranged at a distance from each other can, e.g. is produced from a lead wire that is cut at regular intervals and incorporated into the yarn thread. The length of the material particles must be between 1.5 and 2.5 mm, as it should be noted that too long material particles protrude through the casing hose.

The lead particles can also be incorporated in such a way that they are first placed on a thread and then this thread is spun, knotted and braided. Finally, the material particles can also be introduced in the form of a chain, as the design of the individual chains is again completely arbitrary.

Otherwise, the stitches that are tied with the specifically heavier thread are in their nature exactly the same as the other stitches in the yarn. The number of heavier stitches or rows of stitches must be chosen according to the type of yarn. In the case of stretched yarns hanging vertically downwards, e.g. the bottom half row of stitches should be made of the heavier thread and the other rows of the lighter thread, if only a lower sinking ability is required. However, it is possible to arrange an arbitrary number of stitches of heavier thread depending on how heavy the yarn should be or how deep it is. Laksegann achieves a depth of approx. 7.5 m.

Other advantages and features of the invention will be apparent from the following description in connection with the drawing, which schematically shows a special embodiment of the form of a yarn according to the invention.

The actual yarn weave 2 is tied along its upper and two side edges in the usual way by a strong line 4. Along the upper edge, floats 6 and loops 8 for handling are arranged on this line.

The yarn weave 2 is tied in the usual way in the form of squares that stand at the tip and which in the corners that collide with the edge line 4 are partly tied directly together with the line 4 and are partly suspended on a thread 5 running along the line.

In the embodiment shown, the bottom two rows of stitches are connected by the heavier thread, whereby usually only a transition is required with an immediate connection at points 7 between the two types of thread. The possibilities for tying the heavier thread are not affected due to the fine distribution of the material particles in this thread, but the knots 9 on the heavier thread are made in the same way as the knots 10 in the part of the yarn that is made with the lighter thread .

The special embodiment described here of a yarn according to the invention should not be understood as a limitation. On the contrary, it is possible in all cases where a specific spatial distribution of the stitches in the yarn in the catching position is to be maintained and where the yarn must nevertheless remain extremely mobile, e.g. when the yarn must form a kind of ball shape, and Cøsie this task according to the invention. In particular, it is also possible to carry out the spatial arrangement of the heavier stitches in the overall structure of the yarn according to the respective requirements. Thus, e.g. in the case of vertically hanging yarn, stitches or rows of stitches in the middle must be tied with the heavier thread, especially in such cases where the entire yarn is relatively large. LikeCedes, the specifically heavier thread can be built up in a different way, where e.g. a movable and specifically heavier continuous material thread of an arbitrary material is also used.

Claims (1)

Fishing nets with rows of meshes that lie at different heights in the catching position and where thread with small trapped sinking particles is used as the weight line, characterized by the fact that the weight lines, in the same way as the usual threads that form the net, are tied as meshes.