RU200045U1 - ARCH TAPE FOR VINEYARD ARCHES FROM FIBERGLASS - Google Patents

Abstract

The utility model relates to the field of agriculture, in particular to viticulture, and is designed to support grape bushes and vines cultivated in production vineyards with mechanized processing, and in household plots with the use of small mechanization. The advantage of the proposed design is that they use prestressed arcs made of fiberglass reinforcement with a trellis wire stretched on them, which ensure durability, high bearing capacity, ease of installation and do not require large labor costs in manufacturing. in the form of a rounded vault and consists of curved arc-shaped rods, on which a trellis wire is stretched. The trellis consists of separate end and intermediate structures made of fiberglass reinforcement, each of which is made of two prestressed bent reinforcement rods, intersecting and interconnected in the upper part, the ends of which, having a concrete head, are installed and rammed into wells with a depth of at least 80 cm The distance between the ends of the arcs along the row is set by the required parameters, taking into account the possibility of free passage of equipment during mechanized processing. At the same time, the end structures are reinforced with fiberglass reinforcement, laid in a zigzag manner and fixed to them and an arc made of fiberglass reinforcement, and are located at the beginning and end of the trellis, and intermediate structures are located between the end structures along the entire length of the trellis every 6-7 meters.

Description

The utility model relates to the field of agriculture, in particular to viticulture, and is designed to support grape bushes and vines cultivated in industrial vineyards with mechanized processing and in household plots using small mechanization.

The basis of most of the trellises used to maintain and distribute the vines of grape bushes in space are various types of trellises - one-plane, two-plane, arbor and others. The most common types of gazebo trellis of grapes are known, which are divided into three main groups - gallery (arched), hinged visor and roof-like - pergolas.

Hinged canopy arbors consist of a series of vertical supports, in the upper part of which beams are obliquely attached, the ends of which either rest on the pillars of the next row (closed arbor), or do not reach it (open arbor). On the vertical and inclined planes of the gazebo, wire is pulled in rows.

Roof-like trellises or pergolas are a flooring made of horizontal or inclined lattice (wire or from poles), raised on powerful supports over two meters. Such trellises are used for uncovered vineyards.

Gallery (arched) trellises are most often presented in the form of a rounded vault or rectangular arch, consisting of a series of bent arcuate rods or half-arcs connected at the top, or vertical supports connected in two adjacent rows with crossbeams, between which a wire is stretched or wooden slats are attached, forming a kind of mesh, twined with a vine from top to bottom. (Encyclopedia of Viticulture: in 3 volumes / Ed. A.I. Timush; ed.collegium A.S. Subbotovich et al. - Chisinau: Ed. Moldovan Soviet Encyclopedia, 1986. Volume 1. - C 154).

The main disadvantage of all the considered designs of arbor trellises is the large amount of materials used - wooden and metal supports, crossbars, arcs and other structural elements. As a result, such designs are cumbersome, difficult to manufacture, short-lived and expensive.

High material consumption, the use of short-lived wooden structural elements, expensive metal arcs require a new approach to creating structures for arched trellises.

The use of reinforced polymer racks for vineyard trellises allows to partially eliminate these disadvantages. The rack includes a polymer shell and reinforcing steel wires along the entire length, evenly spaced along the profile, which provide the necessary rigidity, bearing capacity, durability and low weight (RF patent No. 101894). However, the use of such struts in prestressed structures in an arched trellis is impossible.

The technical task of this utility model is the creation of an arched trellis design for growing grapes with a wide range of selection of its parameters for any planting scheme, which ensures durability, high bearing capacity, ease of installation and does not require large labor costs during manufacture.

The problem is solved with the help of the proposed design of an arched trellis for vineyards on arches made of fiberglass reinforcement, made in the form of a rounded vault and consisting of curved arc-shaped rods on which a trellis wire is stretched. The trellis consists of separate end and intermediate structures made of fiberglass reinforcement, each of which is made of two prestressed curved reinforcement rods, intersecting and interconnected in the upper part, the ends of which have a concrete head installed and rammed into boreholes at least 80 cm deep. The distance between the ends of the arcs along the row is set by the required parameters, taking into account the possibility of free passage of equipment during mechanized processing. At the same time, the end structures are reinforced with fiberglass reinforcement, laid in a zigzag manner and fixed to them and an arc, and are located at the beginning and end of the trellis, and the intermediate structures are located between the end structures along the entire length of the trellis every 6-7 meters.

The advantages of the proposed design of an arched trellis are that, instead of structural elements made of wood and metal, prestressed arcs made of fiberglass reinforcement with a trellis wire stretched on them are used, which provide durability, high bearing capacity, ease of installation and do not require large labor costs during manufacture.

Essential and new in this design is the use of fiberglass reinforcement, the preservation of which can reach up to 50 years. A feature of the proposed arch trellis is that the main load from the tension of the trellis wire falls on the end structures installed at the beginning and end of the row spacing, the rigidity and stability of which is increased by attaching fiberglass reinforcement to them and an additional arc, laid in a zigzag manner. To maintain the tensioned trellis wire between the end structures of the arched trellis, intermediate ones are installed every 6-7 m. In addition, to obtain the necessary stability and rigidity of the entire structure, concrete heads are provided at the ends of the arcs with installation and subsequent layer-by-layer compaction into wells with a depth of at least 80 cm.

The technical result is expressed in the fact that the use of this design of the trellis provides durability, high bearing capacity, ease of installation and does not require large labor costs during manufacture. This design of the arched trellis allows you to vary its parameters for any planting scheme, which provide for both mechanized processing of industrial vineyards with commercially available equipment, and the processing of household plots using small mechanization.

A general view of a vineyard with an arched trellis on arches made of fiberglass reinforcement is shown in Fig. 1, 2, where 1 - arc-shaped rods, 2 - trellis wire; 3 - end structures; 4 - intermediate structures; 5 - concrete head; 6 - zigzag fiberglass reinforcement; 7 - arc made of fiberglass reinforcement.

The proposed design of an arched trellis for growing grapes (Fig. 1) is made in the form of a rounded vault and consists of curved, arched rods 1 of fiberglass reinforcement, connected in the upper part, between which the trellis wire is stretched 2. The general design of the trellis is made in such a way that the main the load from the tension of the trellis wire falls on the end structures 3 located at the beginning and end of the row spacing. End structures 3 are formed of two prestressed bending arcs made of fiberglass reinforcement 1, each of which is bent diagonally of a rectangle formed by the width of the row spacing of grape bushes and the selected distance between the ends of the arcs along the row, the value of which is determined by the required height of the structure and is equal to the bending radius of each arc ... To obtain the necessary stability and rigidity of the structure, the diameter of the rods of fiberglass reinforcement should be at least 16 mm, and the ends of the arcs are fixed in the ground to a depth of at least 80 cm, with the preliminary production of concrete heads (Fig. 2).

The need to fix the ends of the arcs to a depth of at least 80 cm is that in a pre-stressed state they will gradually turn out of the ground, especially if a well with fiberglass reinforcement is poured with concrete. In this case, the borehole walls will become soggy and reduce the resistance for turning the underground part of the arcs out of the ground. Taking this into account, at the ends of each arc, before installing them in the wells, heads are made of concrete. To perform this operation, formwork with a diameter of up to 10 cm and a length of up to 30 cm is used (you can use a plastic bottle with a capacity of 1.5 liters, having previously cut its bottom). Further, the end of the reinforcement, bending the rod of the reinforcement into an arc and securing it in this state with a wire or twine, is lowered into plastic bottles up to its very cap, which must be twisted. After that, the bottles are poured with sand-gravel cement mortar and left until the solution is completely solidified. In the places where the ends of the arcs are located in the ground, wells are drilled with a diameter of at least 10 cm and a depth of at least 80 cm.After the concrete heads have hardened, one prepared end is lowered into the well and compacted well in layers with earth, then, bending the plastic reinforcement rod into an arc, the second. To impart rigidity and stability to the structure, the arcuate rods are connected in the upper part in any reliable way (with a clamp, wire twist or in some other way). The rigidity of the end structures is increased with fiberglass reinforcement 6 with a diameter of 12-14 mm, laid in a zigzag manner, fixed on the end structures and an additional arc 7, which allows simultaneously lengthening the upper part of the arched trellis at its ends.

The trellis wire 2 is stretched between the end structures 3, which in this case serve as anchor posts. To maintain the tensioned trellis wire 2 between the end structures 3 of the arch trellis of each row of vine bushes, after 6 ÷ 7 m, intermediate structures of two arches 4 are installed, the installation of which is similar to the installation of the end structures. For an even supply of solar radiation throughout the day on all sides of the arched trellis, the direction of the rows of grapes should be chosen from north to south. It should be noted that with the formation of a continuous canopy on an arched trellis from the aboveground vegetative mass of grape bushes, the land surface of the plot will be completely shaded, which will increase the productivity of using moisture reserves in the soil. In addition, the surface area of the arched trellis will be approximately 1.5 times larger than the surface of the land of the vineyard, which will increase the amount of solar radiation entering the leaf surface of the grapes by the same amount.

As an example, two options for the device of arched trellises are given, which can most often be found in the cultivation of grapes. For the cultivation of grapes, taking into account the mechanized processing of vineyards with serially used equipment, the following main parameters of the arched trellis are selected - the width of the aisle 3.00 m and the height of the arched trellis 2.91 m, taking into account the height of the tractor DT-752.25 m and its width 1.74 m , as well as the height of the MTZ-80 tractor 2.66 m and its width 1.98 m.For the accepted basic parameters of the arched trellis - its height and row spacing, the bending radius of each arc is 2.91 m, which corresponds to the height of the arched trellis, and the distance between the ends of these curved arcs is 5.83 m. The bending of each arc is performed along the diagonal of a rectangle formed by the ends of two intersecting arcs at the top with dimensions of 3 × 5 m, where 3 m is the row spacing, and 5 m is the distance between the ends of these arcs in a row of bushes grapes. Taking into account the adopted parameters, the total length of each arc is 10.75 m, the aboveground part of which is 9.15 m, and the rest - its underground part, falls on the fastening of the two ends in the ground at a depth of 80 cm.

For growing grapes on a personal plot using small mechanization, the following parameters of the arched trellis are selected - the width of the row spacing is 2.00 m, the height of the arched trellis is 2.01 m. For the adopted parameters of the arched trellis, the bending radius of each arc is 2.01 m, which corresponds to the height of the arched trellis, and the distance between the ends of these curved arcs is 4.03 m. The bending of each arc is performed along the diagonal of a rectangle formed by the ends of two intersecting arcs at the top with dimensions of 2 × 3.5 m, where 2 m is the row spacing, and 3.5 m - the distance between the ends of these arcs in a row of grape bushes. Taking into account the adopted parameters, the total length of each arc will be equal to 7.92 m, while the aboveground part will be 6.32 m, and the rest - the underground part falls on the fastening of the two ends in the ground to a depth of 80 cm. The arc is made of fiberglass reinforcement with a diameter of 12 14 mm has a length of 5.16 m and is attached as described above.

Particular attention should be paid when choosing UV-resistant fiberglass or composite rebar. Without the presence of special additives, the reinforcement in the sun begins to lose its original properties after 5 years.

Claims (1)

An arched trellis on arches made of fiberglass reinforcement for growing grapes, made in the form of a rounded vault and consisting of curved arcuate rods, on which a trellis wire is stretched, characterized in that the trellis consists of separate end and intermediate structures made of fiberglass reinforcement, each of which is made of two prestressed, curved reinforcement rods, intersecting and interconnected in the upper part, the ends of which, having a concrete head, are installed and tamped into wells with a depth of at least 80 cm, and the distance between the ends of the arcs along the row is set by the required parameters, taking into account the possibility of free passage machinery for mechanized processing, while the end structures are reinforced with fiberglass reinforcement, laid in a zigzag manner and fixed to them and an arc made of fiberglass reinforcement, and are located at the beginning and end of the trellis, and intermediate structures are located between the end structures along the entire length of the sleeper ry after 6-7 meters.

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