RU162196U1 - ROLL BIOMAT - Google Patents

Abstract

1. Rolled biomat, including non-woven anti-erosion and mesh carrier layers bonded to each other and made of biodegradable fibers of plant origin with filler placed between them with plant seeds, characterized in that the layers are connected by needle-punched method, and the mesh carrier layer is made so that t <t where t is the maximum linear size of the cell; t is the minimum linear size of the seeds. 2. A roll biomat according to claim 1, characterized in that the fibers of the nonwoven anti-erosion layer contain up to 50% mixed fibers. A roll biomat according to claim 1, characterized in that the fibers of the carrier layer contain up to 50% mixed fibers. A roll biomat according to claim 1, characterized in that a fabric with plain weave is used as a mesh support layer. A roll biomat according to claim 1, characterized in that gauze is used as a mesh support layer. A roll biomat according to claim 1, characterized in that burlap is used as a mesh support layer. A roll biomat according to claim 1, characterized in that it contains an additional non-woven anti-erosion layer. Roll biomat according to claim 1, characterized in that it contains an additional mesh support layer.

Description

The utility model relates to the field of agricultural products for the technical restoration of disturbed lands, in particular for restoration of the soil and plant layer, as well as for strengthening and protecting natural and artificial soil surfaces from erosion processes.

Known needle-stitched roll biomat, which is a multilayer, at least three-layer, structure comprising reinforcing layers and placed between each two reinforcing layers and bonded with them a filler layer containing plant seeds, in which the reinforcing layers are made in the form of woven or non-woven fabrics or small nets with a mesh size of 3 ÷ 5 mm from decaying natural or artificial, chemical origin, fibers, during biodegradation forming a nutrient medium for plants, or from the named laying fibers with an admixture of non-decomposable or slightly decomposable artificial fibers. As decaying natural fibers can be used cotton, or jute, or coconut, or linen, or other fibers of plant origin, or a combination thereof. Fibers made from cellulose or polyvinyl alcohol, or from other biodegradable materials, including synthetic ones, or a combination of fibers from these materials can be used as decaying artificial, chemical origin fibers. As an impurity from non-degradable or slightly decomposable artificial fibers, polyester, or polyamide, or polypropylene, or polyethylene, or other polymeric fibers, or a combination thereof can be used (RF Patent No. 2338348 C1, publ. 20.11.2008).

The disadvantages of this analogue include the following. The use of non-woven fabrics, as a rule, performs an erosion control function well, but has an extremely low bearing capacity. The use of woven cloths or nets can provide a high load-bearing capacity of the biomat (which is essential when used on steep slopes of great length), but the erosion control function of such a biomat is weakened. The combination of these versions in the analogue is not disclosed. In addition, as a rule, the mesh size of the reinforcing mesh is 3-5 mm, which is reflected in this analogue. Moreover, the size of seeds used in biomats, as a rule, varies in a very wide range from 0.5 to 11 mm (see, for example, http://fermer.ru/files/_mn._trav.docx, accessed 24.12 .2015), accordingly, a small fraction of seeds from such a biomat will simply spill out. A method of attaching layers will also contribute to the rash of seeds from the biomat

- threading. Three main types of biomats are known (see, for example, http: //www.td-, accessed December 24, 2015):

- with seeds glued to the base - a non-woven or woven fabric, paper, etc. acts as a base However, water-soluble glue adversely affects the similarity of seeds, so this option is the least quality;

- stitched (thread-sewing) - made of non-woven fabric and waterproof paper. They are the most popular, but require careful laying to prevent the rash of seeds and the appearance of an uneven grass layer;

- needle-punched biomats - are free from the above disadvantages, although, as a rule, they have a rather high price.

The above indicates the low quality of the analogue.

The closest both in technical essence and in the achieved effect

- the prototype - is a rolled biomat, including bonded with a thread-sewing method and made of biodegradable fibers of plant origin, non-woven anti-erosion and mesh, with a mesh size of 3-5 mm, bearing layers with filler placed between them with plant seeds (RF Patent No. 116739 U1, published on June 10, 2012). Direct precipitation of seeds from the biomat from the side of the mesh carrier layer is prevented by the introduction of a layer of permeable paper placed between the carrier layer and the seed filler into the structure.

The disadvantages of the prototype include insufficiently high quality due to the inevitable damage to the paper layer with piercing threads both during the manufacturing process of the mat and when it is rolled, which will lead to the precipitation of seeds of small fractions from the mat. In addition, as shown above, to contribute to the shedding of seeds from the biomat and the appearance of an uneven grass layer there will be a way of attaching the layers - threading - due to the weak holding of seeds between the layers.

Based on the foregoing, the objective of the utility model is to create a high-quality roll biomat, which includes a variety of seeds, securely and without the possibility of rash fixed between the layers.

The technical result is an increase in the quality of the rolled biomat.

The problem is solved, and the claimed technical result is achieved by the fact that in the rolled biomat, which is bonded to each other and made of biodegradable fibers of plant origin, a non-woven anti-erosion and mesh carrier layers with filler placed between them, the layers are connected by needle-punched method, and the mesh carrier the layer is made so that t _i <t _c , where t _i is the maximum linear cell size; t _c is the minimum linear seed size, while the fibers of the nonwoven anti-erosion layer and / or the fibers of the mesh carrier layer may contain up to 50% mixed fibers, possibly using a fabric with plain weave as a mesh carrier layer, including, but not limited to, gauze, burlap , if necessary, the biomat may contain additional non-woven anti-erosion and / or mesh support layers.

The utility model is illustrated by the image where in FIG. The design of the claimed biomat is presented.

According to a utility model, a rolled biomat includes needle-punched and made of biodegradable fibers of plant origin (flax, jute, cotton, hemp, etc.) non-woven anti-erosion 1 and net bearing 2 layers with a filler 3 with seeds 4 between them In this case, the mesh carrier layer 2 is made so that t _i <t _s , where t _i is the maximum linear cell size (for, for example: a rectangular cell - the diagonal, a round cell - the diameter, a triangular cell - the largest side); t _s - minimum linear seed size (selected from three: length, width, thickness). If it is necessary to strengthen the anti-erosion and / or bearing function (depending on specific conditions of use, such as: steep slopes, strong winds), the biomat may contain additional, respectively, non-woven anti-erosion and / or mesh bearing layers that can be attached to it with any (depending from the specific conditions of use) of the party in any way (needle-punching, threading, gluing).

The utility model is based on the following:

- optimal from the point of view of holding seeds between layers are biomats connected by needle-punched method (the essence of this method is presented in many sources, see, for example, http: // shei-ialy / 68-1-0-826, accessed 12.24.2015 , and does not require additional explanation);

- for the optimal performance of the basic functions by the layers (anti-erosion and carrier), these functions are divided into layers: the non-woven fabric optimally performs the anti-erosion function, and the grid - the carrier;

- from the point of view of maximum adhesion of the selected layers when needle-piercing, it is optimal that they are made of plant fibers. It was found that when mixed fibers are added to the composition of plant fibers (which helps to reduce the cost of biomat) up to 50% by mass, the adhesion properties of the layers (both net and non-woven) decrease slightly, and more than 50% sharply decrease;

- the implementation of the mesh carrier layer so that t _i <t _s , where t _i - the maximum linear cell size (diagonal); t _c - minimum linear seed size (selected from three: length, width, thickness), guarantees the passage of seeds through the cells. At the same time, since the shape of the seeds is not perfectly even, the presence of cells even an order of magnitude smaller than the seeds, helps to keep the seeds from slipping in the interlayer space;

- of the existing materials, the specified mesh parameters are fully consistent with a fabric with a dense plain weave (see, for example, http://orfio.wmsite.ru/ftpgetfile.php?id=32&module=files, accessed 12/24/2015), the representative of which there are gauze, burlap and a number of other fabrics, while since the plain weave rapport is equal to two threads, the warp and weft threads are intertwined through the thread, which gives the fabric greater strength.

The work of the utility model is practically no different from the work of the prototype - a rolled biomat rolls onto the soil (butt with other biomats) and is fixed in the required position, for example, with pegs. At the same time, the roll biomat demonstrates a significant improvement in quality: the thickness of the cover, ceteris paribus, is up to 15-20% higher than that of the prototype, and the absence of a layer of moisture-permeable paper makes it easier and cheaper.

The foregoing allows us to state that the task - the creation of a high-quality roll biomat, which includes a variety of seeds, securely and without the possibility of rash fixed between the layers - is solved, and the claimed technical result - improving the quality of the roll biomat is achieved.

The analysis of the claimed technical solution for compliance with the conditions of patentability showed that the characteristics indicated in the formula are essential and interconnected with the formation of a stable set of necessary features, unknown at the priority date from the prior art and sufficient to obtain the claimed technical result.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed technical solution:

- an object embodying the claimed technical solution, when implemented, relates to the field of agricultural products for the technical restoration of disturbed lands, in particular for restoration of the soil and plant layer, as well as for strengthening and protecting natural and artificial soil surfaces from erosion processes;

- for the claimed object in the form described in the utility model, the possibility of its implementation using the methods and methods described above or known from the prior art on the priority date has been confirmed;

- the object embodying the claimed technical solution, when implemented, is able to ensure the achievement of the technical result perceived by the applicant.

Therefore, the claimed object meets the criteria of patentability "novelty" and "industrial applicability" under applicable law.

Claims (8)

1. Rolled biomat, including bonded to each other and made of biodegradable fibers of plant origin, non-woven anti-erosion and mesh carrier layers with filler placed between them with plant seeds, characterized in that the layers are connected by needle-punched method, and the mesh carrier layer is made so that t _i <t _c , where t _i is the maximum linear cell size; t _c is the minimum linear seed size. 2. Rolled biomat according to claim 1, characterized in that the fibers of the nonwoven anti-erosion layer contain up to 50% mixed fibers. 3. Roll biomat according to claim 1, characterized in that the fibers of the carrier layer contain up to 50% mixed fibers. 4. Rolled biomat according to claim 1, characterized in that a fabric with plain weave is used as a mesh support layer. 5. Roll biomat according to claim 1, characterized in that gauze is used as a mesh support layer. 6. The rolled biomat according to claim 1, characterized in that burlap is used as the mesh support layer. 7. Roll biomat according to claim 1, characterized in that it contains an additional non-woven anti-erosion layer. 8. Roll biomat according to claim 1, characterized in that it contains an additional mesh support layer.

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