TR2023003634U5 - REINFORCED NETWORK AGAINST ROCK AND STONE FALLS - Google Patents

Abstract

In construction site conditions, instead of strengthening the steel wire nets (1) with ropes (2) by spending extra labor on the field, the nets (1) created with steel wire 5 (1.1) are completed and ready for use during production in the factory and they are attached to them by means of C clips (3). It is about providing a high-strength wire network (1) by combining the wires (1.1) with ropes (2) at the knot points.

Description

DESCRIPTION NETWORK REINFORCED AGAINST ROCK AND STONE FALLS Technical Area The process of strengthening steel nets with ropes under site conditions is related to completing the production of steel nets and making them ready for use during production in the factory, instead of doing it by spending extra workmanship in the field, and providing wire mesh by joining the ropes at the knot points by means of c clips on them. Prior Art Nowadays, wire nets are used by combining them during field operations. In the work area where there are rocks and stones for this joining, the mountains are completed with special equipment. The process of strengthening steel nets with ropes under site conditions is carried out in the field by professional industrial climbers. Labor costs for mountain climbers are very high. Therefore, a problem arises in this area as labor costs increase by spending extra labor on the field. Combining ropes with steel nets by climbers increases labor costs and reduces the quality and strength of the product. Climbers assemble the ropes by passing them through the pores of the product, so the product does not work as a single composite product. In the document numbered EP168055251, which is seen in the state of the art, the protective wire mesh, the protective structure built with the mesh and the use of the protective wire mesh to build the protective structure are explained. A shielding wire network includes a series of longitudinal wires arranged side by side and each intertwined with at least one corresponding adjacent longitudinal wire. Each of the one or more longitudinal metal wires is also interlaced with at least one adjacent longitudinal wire. One or more transverse wires and/or metal cables may also be provided arranged in the transverse direction with respect to the longitudinal wires and external interweaving zones defined by sections of adjacent longitudinal wires. Wires, transverse wires and/or metal cables twisted around each other are intertwined or intertwined with one or more longitudinal wires. The elephant and stone wall protection method is explained. It is the object of the invention to provide a stone fall protection net that can effectively prevent a falling stone from passing through the net and is also simply configurable. A stone wall protective net consists of a plurality of support posts erected on a slope S, at intervals in the width direction of the slope S; a main rope stretched between the upper ends of a plurality of support poles; and a main net-like body laid on the slope S while connecting and supporting the mountain side end to the main rope. An opening has been created between the mountain side end of the net-like main body and the slope S for the stonefall entrance. A net-like upper body, the upper end of which is attached and supported by a tow rope stretched between the upper ends of the support poles, is provided while hanging from the tow rope to one side of the slope. In the document numbered CN 105569059A, which is seen in the current technique, the passive protective network and its installation method are explained. It discloses a passive protective net that is high in flexibility and blocking power, convenient to install, and has a warning function, and an installation method of the passive protective net. The passive protective net consists of a steel rope network, steel columns used to fix the steel rope network, an upper support rope, a lower support rope, a tensile anchor rope and a warning mechanism. The lower parts of the steel columns are mounted permanently on a plinth by means of connection screw rods. The steel wire rope network and steel columns are securely connected to each other through the upper support rope and the lower support rope. The upper ends of the steel columns are pulled tightly and fixed by the anchor rope pulled up. It has been developed so that workers can conveniently find risks in a timely manner through the warning mechanism, so that the protective net can be accurately inspected and maintained in a timely manner, and the safety protection performance of the protective net can be improved. protective fence is described. It is intended to provide a rockfall protective fence that can suppress the amount of deformation of a mesh body that catches fallen rocks from a specific tension position by suppressing the bending of the support posts towards the underside of a sloping surface. When there are a plurality of support pillars, they are erected at predetermined intervals in the lateral direction of a sloping surface and a web body is supported by the support pillars and tensioned between said support pillars. Both ends are secured with a tensile material to prevent adjacent support posts from separating. They are connected to each other and to the tops of the support columns to accommodate said tension material between said adjacent support columns. Thus, when the net body catches a falling rock and the support pillars impact of the falling rock transmitted through the net body, the tensile material can restrict the separation of the upper parts of the support pillars. The document numbered CN1696408A, seen in the prior art, describes the protective net and its production method. The document relates to a protective net and a manufacturing method thereof, in particular a protective net used primarily for rockfall protection or edge fastening and a manufacturing method thereof. The technical problem to be solved by the present invention is to provide a protective mesh and a method for producing it that can further reduce the risk of wire breakage. It contains a protective mesh consisting of a mesh woven from a twill weave made of steel wire, forming a three-dimensional, pillow-like structure. The woven web of twill weave is a steel wire, a bundle of steel wire, a steel wire rope consisting of at least two steel wires joined together, or a combination of at least two of the above. To join a wire rope, a strand of wire, a wire rope, or a combination of at least two of these in 1800 bends on a tool type nail, at a specified angle of inclination around the nail, and to form the wire rope, a strand of wire, a wire rope, or at least two of these a combination of which is twisted around the nail at a predetermined length around its longitudinal axis and the cable is formed into a spiral by a bundle of wires, wire rope, or a combination of at least two of these. The process is knitted together in the same way and thus repeated until the woven mesh reaches the desired size. In wire mesh and systems, which are seen in the state of the art, both the production of the nets and then taking them directly to the field, and the long installation process in the field, with high cost of labor and similar disadvantages. Instead of having it done by industrial climbers, C clips enable the rope and wire mesh to be used as a composite one-piece product by joining the ropes at the knot points by means of C clips, after the production of the steel nets is completed. The purpose of the invention is to ensure that the rope and wire are combined with c clips to work as a single composite product, instead of passing the ropes through the pores of the product. Another purpose of the invention is to create the rope, wire and C clips as a single and composite product directly at the production site, to increase their strength and to ensure that they work as a single product by reducing application costs. Wire mesh reinforced with steel rope against falling rocks and stones, which is the subject of the invention; - It contains a steel net formed by serially intertwined wires with hexagonal pores, - a steel rope that increases the strength of the nets, - a C clip that ensures the connection of the rope and the net to each other, - a clip gun that allows the C clips to compress the net on the rope. Description of the Invention Figures Figure - 1 Steel Rope - Wire and C clip Connection View Figure - 2 C Clip Open-Closed View Reference Numbers: 1. Wire Network 1.1. Wire 1.2. Ring 2. Rope 3. Clip Detailed Explanation of the Invention The steel rope (2) reinforced wire network (1) against rock and stone falls, which is the subject of the invention, has the form of a woven network (1) consisting of rings (1.2) with four or more corners. . The wire network (1) consists of rings (1.2) formed by serially intertwined wires (1.1) with hexagonal pores, which are connected to each other at their corners by being curled in a series of spirals. The woven wire (1.1) mesh is combined with the rope (2) passed through the edges of the rings (1.2) with at least four corners, by means of C clips (3). Thus, a wire mesh (1) with high strength and ready to be used in the field was created. By reinforcing the steel rope (2) during production, the labor costs incurred when assembled in the field are reduced. With the invention, hexagonal porous double twisted wires (1.1) can be combined with steel ropes (3) with C clips (3). (Figure - 1) Rope (2) reinforced mesh wire mesh (1) used in areas where there is danger of falling rocks and stones; The said wire mesh (1), which has a weaving form with four or more corners and consists of rings (1.2) formed by serially intertwined wires (1.1) with hexagonal pores, which are connected to each other at their corners by being curled in a spiral shape, is knitted from the said wires (1.1). The rope (2), which increases the strength of the net (1), contains a C clip (3) that ensures the connection of the said rope (2) and the said wire net (1) to each other. After the production of hexagonal porous double twisted wires (1.1) produced in EN 10223-3 standard is completed, monolithic steel ropes (2) are laid along a roll in the quantities required for the beam technique in 30 cm, 50 cm, 100 cm, 200 cm. Figure - 2' It is produced by combining the C clips (3) and wire (1.1) rolls, whose details are seen in the section, at the double bending points. Thus, a single product, net (1), is obtained in the composite form created in production. The C clips (3) to be used are 3 mm thick and have a minimum strength of 170 kg/mm2. Additionally, C clips (3) are fixed at the double bending points of the wires (1.1) every 20 cm. The subject of the invention is to prevent large-scale rocks from falling on highways, highways, railways, dams and housing projects against rock and stone falls. They are reinforced with ropes (2), which are prevented from tearing by means of ropes (2) compared to normal networks. By combining the products produced separately in the factory environment, a single product is produced for the field. It saves manpower, time and strength by ensuring that it is sent separately. Reinforced mesh mesh used in areas where there is a danger of falling rocks and stones; - at least one wire net (1) that enables the catching of falling stones/rocks by consisting of rings (1.2) formed by the wires (1.1) connected to each other, - a rope (2) that increases the strength of the said wire net (1), - open when compressed It contains a C clip (3) whose ends are closed, allowing the said rope (2) and the wire mesh (1) to be connected to each other. The said wire (1.1) and/or the said rope (2) is made of steel. The aim of the invention is to reduce high labor costs in the field, to obtain a more durable composite product, and to shorten the assembly time with a single material instead of two. The subject of the invention provides advantages in workmanship and technical strength by ensuring that two separate materials work as a single material by combining them with C clips (3). TR TR

Claims (2)

1. It is a reinforced mesh network used in areas where there is a danger of falling rocks and stones. Its features are; - a wire net (1) consisting of rings (1.2) formed by the wires (1.1) connected to each other and consisting of at least 5 wires that enable the falling stones/rocks to be caught, - a rope (2) that increases the strength of the said wire net (1), - when compressed It contains a C clip (3), which enables the connection of the said rope (2) and wire mesh (1) to each other by closing the open ends. 10 2. It is a wire mesh (1) reinforced with rope (2) in accordance with claim 1, and its feature is; The said wire (1.1) and/or the said rope (2) is made of steel.