RU2127782C1 - Method of manufacturing guard device net - Google Patents

Abstract

FIELD: textile technology of netted articles of guard devices used to prevent foreign objects from getting into equipment of various applications. SUBSTANCE: method includes formation of meshes of main netted panel from several systems of highly strong high-modulus threads by their mutual laying-on or weaving, doubling and twisting to form loops which are connected with contour thread; securing of points of intersection of net panel with low-modulus threads to form an additional net and application of polymer coating to guard net. According to the invention, threads of the main system has the same breaking load and connected with contour thread with the help of high-strength high-modulus thread. One part of contour thread is laid in one of thread directions of one of the main systems of net panel before fastening of meshes with low-modulus threads. All net of the guard device is made of one or several symmetrical parts. EFFECT: higher protective properties and reliability of guard nets for gas-turbine engines of aircraft and other transportation vehicles to protect from birds and foreign objects. 3 dwg

Description

 The invention relates to textile technology for the manufacture of mesh products of protective devices used to prevent various items from falling into objects of technical purpose, and allows to increase the protective properties of grids for gas turbine engines of aircraft, speech and sea vessels, power plants of helicopters and other vehicles from birds and foreign objects . The importance of using such nets is emphasized by the conclusions of the meeting of the European Committee on the Danger of Birds for Aircraft (Brussels). Thus, the annual damage caused by birds, only for Western European airlines is about 12.5 million US dollars, and 44% of birds colliding with an airplane get into gas turbine engines.

 A known method of manufacturing a grid from the application of Germany 2657247, CL. D 04 G 1/00, 1980, made by forming a mesh of a network web from strands by mutual overlapping, fixing the intersections of the network web, which is the closest analogue of the claimed method.

 The aim of the invention is to obtain a mesh with enhanced protective properties and reliability.

 This goal is achieved by the fact that in the manufacture of a protective mesh, including the formation of a mesh of the main network fabric from several systems of high-modulus high-strength filaments by overlapping or weaving, twisting and twisting them with the formation of loops, fixing the intersection of the network fabric low modulus filaments with the formation of additional mesh and application polymer coating on a protective mesh, according to the invention, the threads of the main network web systems have the same breaking load Ku, connected to the thread contour using high strength high modulus filament yarn of the length of the contour is conveyed in one direction of one of the main systems of the primary network web before fixing meshes low modulus yarns, the entire grid protective device is made of one or more of its symmetrical portions. The use of filament systems of the same linear density to form the main network web creates its equal strength in each cell of the network web. The fastening of the contour and main thread systems with the help of high-modulus high-strength threads also increases the protective properties and reliability of the product, and the laying of the contour thread along the network web allows you to bend the network web if necessary, more securely fix it on the frame of the protective device and avoid possible flutter. The manufacture of a mesh of several parts increases the possibilities of using this manufacturing method. All of these factors increase the damping time of the impact of birds, hail and other foreign objects with a grid, i.e. reduce the impact force, while increasing the reliability and performance of the product.

 In FIG. 1 schematically shows a device for manufacturing a mesh of a protective device / a / and a thread-guy with a hook and a bolt with a through radial hole / b /; in FIG. 2 - fixing the main thread to the contour from the hook side / a / and from the side of the rod / b / and in FIG. 3 is a general view of a grid consisting of two symmetrical parts.

 On the plate 1 of the device for manufacturing a grid along the line of a given contour (in FIG. 1 - trapezoidal), rods (studs) 2 are installed for laying and supporting the contour thread (edge) above the plate 1. Near the contour from the rods, the strips are fixed to the plate 1 3 with hooks 4, strands of brackets 5 fixed on bolts 6 (Fig. 1b) (the locations of the bolts on the strips 3 in the top view on the plate are indicated by axes) located at a constant step, the value of which is calculated based on the mesh size of the mesh and geometry of its contour. By turning the head of the bolt 6 with a socket wrench, the necessary position of the hook 4 is set.

 Example 1

A loop 1 is laid on the rods 2 and the ends are tied. A highly modular high-strength thread II is alternately laid on the resulting contour in mutually perpendicular directions, putting it on the hook 4 on one side and on the rods 2 on the other, while receiving in each laying of the same direction two adjacent yarns II, forming loops on the hooks 4 and the rods 2. The thread II is alternately removed from the hook 4, turning the bolt 6, and re-hung on another hook on a round metal rod with a handle and allowing you to twist two threads II into one. After each torsion, the thread II is fixed to the contour thread I with an additional thread II (Fig. 2a), while the loops formed on the rods 2 are attached with it (Fig. 2b). In this way, the yarns II of the second system are laid and fixed. The cell formation angles are fastened with a strapping with a low modulus thread III (Fig. 3) with the formation of an additional mesh at an angle of 45 ^o relative to the main fabric. Next, they wrap the mesh contour with the help of yarn IV and impregnate the mesh with a polymer binder. In the manufacture of the protective device mesh, a nylon thread with a diameter of 2.5 mm according to TU 6-06-24-5-82 of a textile structure of 187 tex x 3 x 3 x 3 was used as thread I; threads II - technical SVM thread according to TU 6-06-I117-84 of structure 58.5 tex x 5 x 3; yarns III - nylon technical yarn according to OST 6-06-C1-75 with a structure of 187 tex x 3; threads IV - kapron technical thread according to OST 6-06-C1-75 with a linear density of 187 tex cracked into 8 threads. The grid was treated with chlorine glue according to TU 6-40-0203995-12-88 with a brush. The weight gain of the polymer coating (dry solids) amounted to 12.5%.

 Example II

 A method of manufacturing a mesh protective device, similar to example 1, except that the contour thread I is additionally laid along one of the directions of the threads II (diagonal of the trapezoidal contour ((Fig. 3).

 Example III

 The manufacturing method of the protective device according to examples I and II, except that two mesh fabrics are made on one device, and they are connected on one side by thread II, and the connection point is wrapped with thread IV (Fig. 3).

 Factory tests of the protective mesh of the gas turbine engine of the MI-2 helicopter showed its performance. According to the test report, the protective grid of the power plant of the Ka-32 helicopter is operational and provides protection from birds, large objects and hail of more than 13 mm in the range of helicopter operation speeds with the mass of birds and hail sizes specified in the airworthiness standards.

Claims (1)

A method of manufacturing a mesh of a protective device, including forming a mesh of a network fabric from threads and fixing places of intersection of a network fabric, characterized in that they form a mesh of the main network fabric from several systems of high-modulus high-strength threads by overlapping or interlacing, doubling and twisting them with the formation of loops, fixing the intersection of the network web is carried out by low-modulus threads with the formation of an additional mesh at an angle of 45 ^o relative to about the main fabric, applying a polymer coating to the protective net, while the thread system of the main network web has the same breaking load and is connected to the loop thread using a high-modulus high-strength thread, and part of the length of the loop thread is laid in one of the directions of one of the main network web systems before fixing places of its intersection.

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