RU2194816C2 - Floating cord - Google Patents

Abstract

FIELD: fishery. SUBSTANCE: floating cord has woven enclosure composed of two fabric layers connected along conventional seams. Each of fabric layers is formed by weaving warp threads, which are extending parallel to longitudinal axis of floating member, with weft thread, which is drawn from one fabric to another fabric. Such construction provides strong non-stretchable and non-twisting cord with increased floatability, which may be used in fishing tackle, floating members of ship equipment or in floating rescue vessels. EFFECT: wider operational capabilities and simplified construction. 4 cl, 3 dwg

Description

 The invention relates to the field of fishing or emergency rescue operations and can be used in fishing accessories, such as nets, seines, trawls, grapples, or in floating elements of ship equipment, or in rescue floating equipment.

 Known cable with positive buoyancy, containing carrier fibers made of high strength material and wound around a flexible tubular core filled with discrete elements from a material with a specific gravity of less than one; discrete elements are made in the form of balls alternating with cylinders having spherically concave surfaces facing the balls; as a filler material, a non-deformable and highly compressive material with a low specific gravity, for example, foam plastic (ed. St. USSR 473775 according to class D 07 B 1/20 from 06/14/75), was used.

 The disadvantages of this cable are its extensibility, low strength and the possibility of twisting under load; in addition, high buoyancy of the cable is achieved due to its large volume; such cables are expensive and difficult to manufacture.

 Known marine cord with floating properties, twisted from two or more strands made of fibers; among the strands, there is at least one strand with the central part introduced into it in the form of a skeleton with floating properties (see French application 2197392, class D 07 B 1/20 of 04/26/74).

 The disadvantage of this technical solution is the extensibility, low strength and the possibility of twisting the cord under load; in addition, the extension of the cord under load causes the compression of the floating frame, as a result of which the buoyancy of the cord deteriorates.

 A floating cord is known, including a floating element provided with a sheath; the floating element (frame) is made in the form of a hollow element filled with air or gas made of molded or extruded polypropylene, polyethylene, polyester or polystyrene, and is located in the form of a central layer inside a strand of fiber twisted around it; the cord may consist of two or more strands (RF patent 2136797 according to class D 07 B 1/20 from 09/10/99).

 This technical solution is taken as a prototype of the present invention.

 A disadvantage of the known floating cord is its extensibility, due to the fact that under load the twisted strands of fiber stretch, and under the action of the tensile force, the floating element (frame), which is the main load-bearing element, also stretches; the elongation of the cord determines its low strength; in addition, when the cord is stretched, the diameter of the carcass decreases, which causes a deterioration in the buoyancy properties of the cord. The fact that the shell of the floating element is formed by weaving it with fibers located at an acute angle to the axis of the floating element causes it to twist even with a slight load.

 The present invention is based on the solution of the problem of creating a durable, inextensible and non-twisting floating cord with a high degree of buoyancy. In addition, it should be possible to form a round and rectangular cross-sectional shape of the cord.

 According to the invention, this problem is solved due to the fact that in a floating cord including a floating element provided with a sheath, the sheath is made of woven fabric consisting of two webs connected by conditional seams, each of the webs being formed by weaving warp threads parallel to the longitudinal axis of the floating element, weft thread, passing from one canvas to another; in cross section, the floating element may be in the form of a rectangle; the floating element can be made of two or more sections, and reinforcing threads are laid between adjacent sections, while the longitudinal axis of the sections of the floating element and the reinforcing threads are parallel; the cord can be equipped with an additional woven outer shell, consisting of two canvases connected by conditional seams, each of the canvases of the additional shell formed by weaving warp threads parallel to the longitudinal axis of the floating element, a weft thread passing from one cloth to another, while for part monofilament yarns are used for warp threads of the additional sheath.

 The applicant is not aware of any sources of information containing information about a technical solution identical to the features given in the claims of the present invention. This determines, in the applicant's opinion, whether the invention meets the criterion of “novelty”.

Due to the implementation of the distinguishing features of the invention (in conjunction with the features indicated in the restrictive part of the formula), important new properties of the object are achieved:
- reducing the elongation of the cord due to the fact that in the proposed technical solution, the outer shell is used in conjunction with a load-bearing floating element, while the warp threads together with the floating element are involved in tensile work;
- the exception of the twisting of the cord is due to the parallel arrangement of the warp and the floating element, which eliminates the additional deformation of the shell and the floating element from repeated bending;
- high strength and a high degree of buoyancy of the cord are due to the fact that the woven shell becomes the outer layer of the cord itself, which ensures the simultaneous operation of all power elements; during operation, the weft sheath yarn contributes to even greater crimping of the power elements and greater compactness of the cord, which enhances the effect of the simultaneous operation of all power elements and further improves the strength and buoyancy of the cord. The implementation of the floating element consisting of several sections, between which reinforcing threads are laid, allows you to further increase the tensile strength of the cord. The execution of the cord with an additional external woven shell using monofilic hard threads for part of the threads allows reinforcing the cord, thereby also increasing its strength.

 The applicant is not aware of any publications that would contain information on the influence of the distinguishing features of the invention on the achieved technical result. In this regard, according to the applicant, it can be concluded that the claimed technical solution meets the criterion of "inventive step".

The invention is illustrated by drawings, which depict:
in FIG. 1 is a general view of a floating cord;
in FIG. 2 is a section AA in FIG. 1;
in FIG. 3 - floating cord with a three-section floating element.

 The floating cord includes a floating element 1 provided with a sheath 2; the shell 2 is woven and consists of two paintings 3 and 4, connected by conditional seams; each of the canvases 3, 4 is formed by weaving the warp threads 5 with a weft thread 6, passing from one web 3 to another 4; warp threads 5 are parallel to the longitudinal axis of the floating element 1, and the weft threads 6 are perpendicular to this axis; conditional seams are formed by weaving the weft thread 6 of the outermost warp of another web after weaving the outermost warp of the first web. As the warp threads 5 and weft threads 6, synthetic threads are used that have high resistance to tension, abrasion and repeated bending - polyamide, polyester, polypropylene with a thickness of Tex 46 to Tex 250; the best result is achieved using polypropylene yarns with positive buoyancy. The floating element 1 is made of a material with positive buoyancy, in particular thermolone, polyethylene foam, etc., in the form of a longitudinally elongated frame. In cross section, the floating element 1 may be in the form of a circle or a rectangle.

 The floating element 1 can be made of two or more sections 7, in particular of three sections (figure 3); in this case, reinforcing threads 8 are laid between adjacent sections 7; while the longitudinal axis of the sections 7 of the floating element 1 and the reinforcing threads 8 are parallel.

 The floating cord can be equipped with an additional woven outer shell (not shown in the drawing), consisting of two canvases connected by conditional seams, each of the canvases of the additional shell formed by weaving warp threads parallel to the longitudinal axis of the floating element, a weft thread passing from one web in another, while for some of the warp threads of the additional sheath, monophilic hard threads are used; as monophilic threads can be used threads, in particular polypropylene threads with a diameter of 0.1 - 0.3 mm

 A floating cord is used as follows. Fishing gear made using a floating cord, for example, swimming nets, seines, trawls, gauges, or floating parts of ship equipment, or life-saving floating equipment, such as life rings with floating cord leaches, are placed on the surface of the water. During operation (in case of fish getting into the net or in the case when the victim holds onto the rail) the tensile load acts on the cord.

 The proposed design of the cord allows the use of the outer shell 2 together with a load-bearing floating element 1. The warp threads 5 of the shell 2 together with the floating element 1 participate in tensile work; in view of the fact that synthetic threads having high tension resistance are used as warp threads, the cord is not subject to great stretching. At the same time, the parallel arrangement of the warp threads 5 and the floating element 1 eliminates additional deformations of the shell 2 and the floating element 1 from repeated bending, which creates favorable conditions for eliminating the loss of strength from twisted cord elements and prevents its twisting. Woven shell 2 becomes the outer layer of the cord itself, since its elements (warp threads 5 and weft thread 6) perform several new unusual functions: weft thread 6, crimping parallel elements (warp threads 5 and floating element 1), compacts the structural strength elements (warp threads 5 and floating element 1), contributing to an increase in adhesion and friction, which ensures the simultaneous operation of all power elements. In tension, i.e. during operation, the weft thread 6 of the sheath 2 contributes to even greater crimping of the power elements and greater compactness of the cord, which enhances the effect of the simultaneous operation of all power elements 1 and 5. This circumstance allows to increase the strength and degree of buoyancy of the cord.

 A floating cord, the floating element of which in the cross section has the shape of a rectangle, is most convenient when used as a floating element for hanging a web in the manufacture of nets, because it does not twist when caught in a fish net.

 The implementation of the floating element 1 consisting of several sections 7, between which reinforcing threads 8 are laid, improves the tensile strength of the cord.

 The execution of the cord with an additional external woven shell using monofilic hard threads for part of the threads allows reinforcing the cord, thereby increasing its strength. In addition, when placing such a cord at great depths, it does not compress under water pressure, therefore, does not lose a fixed level of buoyancy, which allows it to be used as a floating element in bottom networks or in deep work.

 A floating cord can be made on a TLB type shuttleless loom. The frame of the floating element 1 is fixed in the mandrel, around the element 1, the warp threads 5 are pulled parallel to its longitudinal axis, and on the one side of the element 1 there are threads 5 for one web 3 of the shell 2, and on the other hand, for the other web 4; they are fed perpendicular to the weft thread 6. Weft thread 6 weaves the warp threads 5 of the base of the first web 3, moving from right to left, weaves the leftmost thread 9 of the warp of another web 4, then, without weaving, transfers the weft 6 to the rightmost thread 10 of the warp of the first web 3 , braid it and, transferring the weft thread 6 to another web 4, weave the warp threads 5 of the other web 4, moving from right to left, braid the leftmost thread 11 of the warp of the first web 3, then, without weaving, transfer the weft 6 to the rightmost thread 12 basics of the second lotn 4 and braid it. The first layer of two paintings 3, 4 of the shell 2 is formed. Then the floating element 1 and the warp threads 5 are fed one step forward, while the weft thread 6 is always perpendicular to them. Similarly form the second and subsequent layers of the shell 2.

 The use of flat-weaving equipment for the manufacture of a floating cord provides tension to the warp threads 5, which when forming the webs 3, 4 of the shell 2 are not deformed, this allows the use of soft material as a material for the floating element 1, which provides high buoyancy of the cord. In addition, this circumstance makes it possible to manufacture cords having a wide range of specific buoyancy from 5 to 100 G / m, with a slight increase in the cross section of the cord.

 The floating cord is very simple in design, cheap and can be manufactured industrially from known materials using well-known technical means and technologies, which, according to the applicant, determines its compliance with the criterion of "industrial applicability".

Claims (4)

 1. A floating cord comprising a floating element provided with a sheath, characterized in that the sheath is woven, consisting of two webs connected by conditional seams, each of the webs being formed by weaving warp threads parallel to the longitudinal axis of the floating element, a weft thread passing from one canvas to another.  2. The floating cord according to claim 1, characterized in that the floating element in the cross section has the shape of a rectangle.  3. A floating cord according to claim 1 or 2, characterized in that the floating element is made of two or more sections, wherein reinforcing threads are laid between adjacent sections, while the longitudinal axis of the sections of the floating element and the reinforcing threads are parallel.  4. A floating cord according to any one of paragraphs. 1-3, characterized in that it is provided with an additional woven outer shell, consisting of two canvases connected by conditional seams, each of the canvases of the additional shell formed by weaving warp threads parallel to the longitudinal axis of the floating element, a weft thread passing from one web to another, while for some of the warp threads of the additional shell used monophilic threads.

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