MD664Z - Process for the formation of portable plantation of strawberries - Google Patents

Abstract

The invention relates to agriculture, namely to a process for the formation of portable plantation of strawberries.The process, according to the invention, involves the formation of a culture pan on the basis of a water hose, in which throughout its length are made holes, in diametrically opposite pairs, and each following pair of holes is made on the axis crosswise to the axis of the previous pair. The water hose is fitted with substrate fixing bundles, made of vegetable waste or plastic fibers, which are fixed, one opposite each hole, by binding with artificial twines, after which the water hose is coated uniformly around the circumference with a dry layer and a wet layer of substrate and is wound with two strips of polyethylene film to obtain a cordon of a diameter of 15 cm, in which on two opposite sides are bared portions of substrate, where strawberry rosettes are planted or towards which are oriented the flagellums of the maternal plant for rooting of rosettes.

Description

The invention relates to agriculture, namely to a method of forming the permutable strawberry plantation.

The interchangeable cordon-shaped strawberry plantation can be used in any cultivation system for the purpose of fruit production: in the open field or in the greenhouse; with the placement and exploitation of plants in a horizontal or vertical plane. Such a plantation can also be used for the production of planting material, as well as for the establishment of new traditional and interchangeable plantations.

The method of growing strawberry plants in pots is known. The pots, bearing plants, can be placed and operated horizontally or vertically, in the open field or in different types of greenhouses [1].

The disadvantage is that the pots, depending on the way of placement and operation, must in each case be of specific shapes and sizes. More than that, the pots are made of ceramic or plastic mass, a fact that results in significant financial expenses.

The process of growing strawberries in polyethylene bags arranged vertically with hydroponic nutrition is known [2].

The disadvantage is that it is difficult to apply in the conditions of small, non-specialized households. In addition to this, it is necessary to respect many technological restrictions.

We know the method of growing strawberries in polyethylene hoses arranged to hang freely, equipped with wicks, through which the substrate is moistened [3].

The disadvantage is the need to build and use special metal or wooden supports, which are expensive. Polyethylene hoses are not durable and are extremely limited in size.

The process of growing strawberries in pipes made of different materials is known, in which holes or pockets are made on the side [4].

The disadvantage is that it requires a lot of labor to prepare the pipes, which are not flexible, to be able to use them as pots for growing plants.

The procedure for establishing the permutable strawberry plantation is also known by laying, in the spring, on the surface of the soil between the intervals between the rows of mother plants a vegetable net, with a width of 60...80 cm, made of vine ropes. Ordinary soil is sprinkled over the net, forming a layer with a thickness of 5 cm, which immediately gets wet. As they grow, the rosettes on the stolons of the mother plants are oriented to take root specifically in the area covered with the plant net. At the right moment, the new plantation in the form of a vegetative carpet, i.e. the vegetable net with the soil sprinkled on top of it and the new plants (but only after the separation of the stolons from the mother plants), is twisted, forming a roll, which permutes the permutation to the intended place [5].

The disadvantages of the procedure consist in the fact that it is complicated from a technological point of view to apply the vegetative nets for the purpose of establishing the new strawberry plantation, at the same time these nets are missing on the market. The production of vegetable nets requires a lot of time.

The closest solution is the process of forming the interchangeable strawberry plantation, which consists in the fact that in the spring, in the intervals between the rows of strawberry mother plants, a trench with a width of 20...95 cm and a depth of 5...17 cm is dug, on the bottom of which is covered with a polyethylene film, on which a 150 cm wide plastic net with mesh parameters of 1.25...5.5 mm is placed, then a 5 cm thick nutrient substrate is sprinkled on top of the net, which is covered with the lateral edges of the net, and a layer of the same nutrient substrate with a thickness of 2 cm is sprinkled on top, in which the stolons of the mother plants take root. Then, after separating the stolons from the mother plants, the strawberry vegetative carpet, thus formed, is twisted into a roll for permutation [6].

Disadvantages are the need to dig trenches between rows of mother plants and the use of too many expensive materials such as polyethylene film and plastic netting. Apart from this, such interchangeable plantation of plants is quite heavy and requires significant manual efforts for formation, transportation and placement on the vegetation land.

The problem that the invention solves is the essential simplification of the technology of forming the interchangeable strawberry plantation.

The process, according to the invention, includes the formation of a vegetation vessel based on a water hose, in which holes are made along its entire length, in diametrically opposite pairs, and each pair of subsequent holes is executed on the axis perpendicular to the axis of the previous pair. The water hose is garnished with bundles for fixing the substrate made of plant residues or synthetic fibers, which are fixed, one next to each hole, by tying with plastic string, after which the water hose is covered all around and evenly with a layer of wet and one dry substrate and wrapped with two strips of polyethylene film, obtaining a cord with a diameter of 15 cm, in which portions of the substrate are exposed on two opposite sides, where strawberry rosettes are planted or towards which the stolons of the mother plants are oriented for the rooting of the rosettes.

The result consists in reducing the number of technological operations for the formation of interchangeable plantations, which leads to a reduction in labor costs. In an interval between two rows of mother plants, several interchangeable plantations can be formed parallel and simultaneously - from two to five in number. Essentially, the weight of the exchangeable plantation is reduced. The replaceable cordon plantation is suitable for any strawberry cultivation system.

The invention is explained by the drawings in fig. 1...7, which represent:

- fig. 1, water hose garnished with bundles to support the substrate, made of plant residues or plastic mass fibers;

- fig. 2, cord production accessories;

- fig. 3, planting strawberry rosettes in the substrate of the cords;

- fig. 4, troubleshooting of the strawberry plantation in the form of a cord;

- fig. 5, the exploitation of the strawberry plantation in the form of a cord, in propagation culture, in the case of the establishment of the new plantation by the traditional rooting of the rosettes directly in the soil;

- fig. 6, exploitation of the replaceable strawberry plantation in the form of a cord in propagation culture, by forming new strawberry cords;

- fig. 7, exploitation of strawberry cords by forced vertical cultivation, where:

1 - water hose with a diameter of 25...35 mm;

2 - bundle (of plant remains or fibers from plastic mass) for fixing the substrate on the water hose 1;

3 - link with string made of plastic mass;

4 - substrate;

5 - pot filled with wet substrate;

6 - pot filled with dry substrate;

7 - console;

8, 9 - polyethylene strips;

10 - elongated cord-shaped plant pot filled with substrate;

11 - belt wheel;

12 - console;

13 - trash;

14 - spindle;

15 - pedestal;

16 - crank;

17 - row of plants (left);

18 - row of plants (right);

19, 20, 21, 22, 23 - intercalating cords for rooting strawberry rosettes;

24 - stolon;

25 - strawberry rosette rooted in the substrate of the cord;

26 - coil of the cord twisted on the rope;

27 - cord with mother plants;

28 - strawberry mother plant;

29 - rosette rooted in the soil of the new plantation;

30 - cordon being garnished with plants;

31 - the metal or wooden rod, which makes up the tripod-shaped support;

32 - loop of the strawberry cord fixed on the tripod;

33 - soil surface;

34 - irrigation pipe;

35 - plug made of porous material.

The invention is carried out in the following way.

At first the cord is produced. Choose suitable water hoses 1 (fig. 1), with a diameter between 25 and 35 mm (of the agricultural type, which is used in drip irrigation systems). In the wall of the hose, along its entire length, holes with a diameter of 3...4 mm are made in diametrically opposite pairs. The distance between the pairs of holes is 25...30 cm. Each next pair of holes is executed perpendicular to the previous one. The water hose is garnished with 2 bundles (of vegetable scraps or fibers from plastic mass, or from any available material) for fixing the substrate, with a length of 10...15 cm. The thickness of the bundle is 2...3 cm. Next to each pair of holes, on one side and the other of the hose, fix a bundle of plant debris by means of a string 3 with a length of 20 cm. The length of the water hose depends on the specific goals pursued, on the dimensions of the pile on which it is to be repaired and can vary between 20 and 30 m. So that the water hose fitted in this way is uniformly covered all around and along its entire length with substrate , it is completely immersed in a vessel 5 of a special accessory (fig. 2), filled with fertilized soil and moistened to the state of pasty mass. After the final soaking with the pasty mass of substrate 4, the water hose 1 is pulled by one end of it through a hole with a diameter of 15 cm from the bottom of the pot 6 filled with dry soil. Following this technological operation, the dry soil sticks well to the moistened one already fixed on the support bundles 2, immediately after this it is wrapped with two strips of polyethylene film 8 and 9, with a width of 8 cm. First it is wrapped "clockwise" with strip 9, then "counter-clockwise" with strip 8. After this action 1 is covered all around with soil, at the same time it is wrapped with polyethylene strips 8, 9 and removed on the roller 13. One end of the hose 1, already covered with soil and wrapped, is initially fixed on the roller 13. During the work process, the fruit grower-operator throws, from time to time, wet or dry soil, as needed, on the portions of the hose lightly covered by the substrate (until the moment of winding). Being completely fixed on the musor, the hose thus garnished with support bundles, covered with substrate and wrapped becomes a cord, which represents a long vegetation vessel. During the work, the cord is supported by the belt wheel 11. The cords are transported to the mother strawberry plantation. There, the cords 19, 20, 21, 22, 23 lie along, four or five in an interval between the rows of strawberries 17, 18, thus becoming intercalary cords (fig. 3). During the vegetation, the stolons (24) of the mother plants, according to their emergence, go perpendicular to the cords (longitudinal vessels of vegetation), and the base of the rosettes of leaves 25 (with or without roots) deepens (washes) into the substrate of the cords, in their sides, by fixing with hooks, made of any available material. In the place required for fixing the rosettes, the cover made of polyethylene strips is pulled slightly to one side with the same hook, to expose the substrate on a surface of 1.5...2.5 cm2. Periodically moisten the substrate by means of the water hoses 1 in the middle of the cords, connected to the irrigation pipe. After the final rooting of the rosettes in the substrate, the stolons are cut (separation from the rosettes) on one side and the other of the cords with the help of five-six discoid knives joined in a block by a frame. By pushing the frame manually, the disk-knives propel between the parallel cords and thus the stolons are cut. After cutting the stolons, the cord garnished with rooted rosettes represents a strawberry plantation in the form of a cord (strawberry cord).

Each cord is laid on a bush, keeping the orientation of the side parts garnished with rosettes still established in the mother strawberry plantation. Troubleshooting is carried out so that there is a distance of 8...10 cm between turns. As a result, the rosettes 25 (fig. 4) remain placed laterally, end to end, and cannot be damaged under the pressure of the mass of the entire cord. The cord sweeper can be mounted on a trailer or body and transported to the destination. The same cord can be moved (swapped) to the destination by rolling. In this case, a special frame is used consisting of two stringers joined at the ends by crossbars. Between the struts of the frame of the coupling device, consecutively, one after the other, several pulleys are installed, the axles 14 of which are inserted into specially made holes in the struts. The string of bales formed by means of the coupling is aggregated with the tractor and towed to the place of destination. The strawberry cords can be kept in warehouses in good condition on the drums of the straws during the autumn-winter period. In this case, the substrate, if necessary, is moistened through the hoses 1. Strawberry cords 27 are used to establish new plantations directly on the ground (fig. 5) for the production of strawberry fruits and for the formation of new cords of these plants 30 (fig. 6). Another aspect of use is forced vertical cultivation, with the aim of producing fruit. In this case, the strawberry cords are stretched on tripods made up of three oblique supports 31 (fig. 7), represented by metal rods or rods, with a height of 200...220 cm. The upper ends of the water hoses 1 of the strawberry cords are connected to the irrigation pipe 34, while the lower ends are plugged with plugs 35 made of porous material, which let the water pass slowly. The distance between the turns of the cord fixed on the tripod is 8...10 cm. The distance between the bases of the blocks of oblique supports in the row is 60...80 cm, and between the rows of blocks carrying cords - from 1.2 to 2.2 m, depending on the width of the motoblocks or minitractors, which are used to maintain of the agrofund on the plot of vegetation. In the case when the vertical cultivation of strawberries is applied, the cord is cut into fragments smaller than the length necessary to cover the tripods with spirals. Strawberry cords can be placed on racks in greenhouses to force the plants to fruit.

1. Чухляев И. N. Vertikalnaya kultur zemlyaniki. Horticulture, 1974, № 10.

2. Caraman I. P. Strawberry culture. AŞM printing house, Chisinau, 2005, p. 132-134

3. Богдан И. G. Земляника по вертикли. Gardening. Ежемесячное приложение Fazenda, №7, 1991, p.7-8

4. Богдан И. G. Vertical culture of fruit plants. Gardening. Encyclopedia, volume 1, Chişinău, 1990, p. 207-208

5. Богдан И. G. Barberoshie M. N. New way of planting earthworms. Agriculture of Moldova, no. 1, 1998, p.16-17

6. MD 199 Y 2010.05.31

Claims (1)

Process of forming the interchangeable strawberry plantation, which includes the formation of a vegetation pot based on a water hose with a diameter of 25...35 mm and a length of 20...30 m, in which holes with a diameter of 3... 4 mm, in diametrically opposite pairs, over every 25...30 cm, and each pair of subsequent holes is executed on the axis perpendicular to the axis of the previous pair; the water hose is garnished with bundles for fixing the substrate made of plant residues or synthetic fibers, with a length of 10...15 cm and a thickness of 2...3 cm, which are fixed, one next to each hole, by tying with strings from plastic table, the ends of which are passed through the holes, after which the water hose is covered all around and uniformly with a layer of wet substrate and a dry one and is wrapped with two strips of polyethylene film with a width of 8 cm, obtaining a cord with a diameter of 15 cm, in which portions of the substrate are exposed on two opposite sides, where strawberry rosettes are planted or towards which the stolons of the mother plants are oriented for the rooting of the rosettes.