WO2012008883A1

WO2012008883A1 - Honeycomb material

Info

Publication number: WO2012008883A1
Application number: PCT/RU2011/000526
Authority: WO
Inventors: Борис Александрович ГОРОДЕЦКИЙ
Original assignee: Общество С Ограниченной Ответственностью "Интер-Ремонт"
Priority date: 2010-07-16
Filing date: 2011-07-15
Publication date: 2012-01-19
Also published as: RU2010129455A

Abstract

The invention relates to a honeycomb material for the production of honeycomb panels and to methods for producing said honeycomb material. The honeycomb material comprises strips, each of which is provided on at least one side with a layer of adhesive liquid. The strips have a solid, substantially trapezoidal shape and are bonded together by a thermoplastic material. The honeycomb material and panels made therefrom are produced using a very simple and inexpensive method.

Description

W

one

Cellular material

The present invention relates to a cellular material for the production of cellular panels, as well as to methods for the production of this cellular material. The cellular material contains strips, each of which is provided on at least one side with a layer of adhesive fluid with additives and has a triangular shape, and the thermoplastic material is responsible for binding the strips to each other. The production of such material and panels from it is carried out in a very simple and inexpensive way.

Cellular structural materials are known and widely used that are used as fillers in various designs, in particular in helicopter blades. Cellular aggregate is a special type of cellular material used in the manufacture of light and rigid structures in the form of panels for various purposes.

Of all the structural materials, such panels provide one of the highest strength-to-mass and stiffness-to-mass ratios. For example, the DuPont company (http://www2.dupont.com/DuPont Home / en RU /) manufactures cellular materials based on paper, as a filler for bulkheads in aviation, etc.

At the same time, cellular materials are used not only as structural materials, but also as fillers for three-layer sandwich panels, door leafs, furniture elements in packaging, etc.

Another production method includes, first, creating sheets with a trapezoidal shape, and then gluing them together so that cells are formed in the form of honeycombs. However, this method is more complex, and in addition, it is difficult to accurately form the trapezoidal sheets, which leads to the fact that for bonding the sheets together requires an additional amount of adhesive fluid. Cellular structures are also made of metal.

For example, it is known to use aluminum cellular material in aircraft construction. This cellular material must meet high requirements in terms of dimensional compliance, and, for this reason, is very expensive. Metal honeycomb panels are also used in other vehicles, both for strength and for absorbing collision energy. Metal strips are usually glued together, but it is also known that metal strips can be connected to each other, for example, by laser welding.

The objective of the present invention is to provide a cost-effective cellular material and cellular panel that can be used in structures in which the requirements for the cellular material are the highest.

The claimed invention surpasses existing cellular materials in its characteristics.

The form we proposed has a triangular shape, which in terms of strength characteristics is much more profitable than a hexagon, but the technical solutions proposed for the manufacture of material with cells of a similar shape did not allow for low cost and high quality in the production of these materials. We have found a technical solution that allows the method of continuous molding to obtain cellular material in the form of plates with a transverse arrangement of cells. This technical solution allows to obtain cellular material with cells at three points of support of high quality and in large volumes, which makes it economically feasible.

This method has been successfully tested on a manual fixture. The essence of the method lies in the fact that a triangular-shaped cell is formed sequentially by making a corrugation in the shape of an angle and gluing to it a rectangular tape forming the missing bases. Corrugation W

3

trapezoidal shape, in turn, is the result of the formation between two endless ribbons with a profile forming a corrugation profile. The technical solution consists in the passage of the forming tape through the bend before they come into the working plane, which avoids the engagement of the elements of the forming tapes with each other and tearing of the source material by the tape. This technology allows for simple equipment with minimal use of manual labor to produce the above material.

Description of the manufacturing process of the material:

The paper tape passes through the device, where it is impregnated with bioporene of the company Nortex-X (Fire Safety Certificate CCnB.RU.On061.B.00071, Sanitary and Epidemiological Conclusion on State SanPiN GN 2.1.6.685-98, GN 2.1.6.1338-03 "MPC of pollutants in the atmospheric air of populated areas" - 18.УЦ.02.249.П.000622.12.04), then, the tape soaked with biopore is fed into the device, where it is covered with a gluing liquid and, in a plastic state, is fed into the corrugation forming device, where polymerization takes place. Material corrugated with a pitch of 6.7 mm with corrugation sides of 6.7 mm emerges from the corrugation forming device. Subsequently, the corrugated tape is glued to the tape impregnated with a gluing liquid, and a tape with successive cells is obtained. The tape is cut into strips of the same length, and they stick together in a bag so that the cells forming the material are connected by vertices. The resulting packet of layers with cells with three support points is cut into plates so that the plane of these plates is perpendicular to the axis of the cells. Depending on the purpose, a decorative material or a tape of the same material may be glued onto the plates, processed in the same way as described above, but without passing through the corrugation forming device. The same thing is done and on the other side of the sheet. Thus, at the exit we get a cellular sheet material, with the direction of the cell axis perpendicular to the plane of the sheet and closed on both sides with tape from the source material, or on one side a decorative coating is glued. We obtained hand-made samples that, during testing, confirmed the design characteristics of the cellular material. It is proposed to manufacture a plant for producing plates of cellular material for various certification tests, as well as for sale as decorative and finishing materials, namely, to replace gypsum boards, chipboard, furniture elements, etc.

Where can I use the proposed cellular material:

• construction (service bridges and loading platforms, outbuildings and structures, fencing structures and fences, agricultural buildings, the basis for roofing materials, partitions, doors, scaffolding, flooring, formwork);

• interior and exterior design (soundproof panels, lecture halls, concert halls, wall panels, window sills, doors, facade design, gates and hedges);

· Furniture production (facade, side and rear walls of cabinets, cabinet for upholstered furniture, garden and summer cottage furniture, bathroom furniture, tables and countertops, cabinets and shelves, kitchen furniture, shelving);

• shipbuilding (decoration of the interior of yachts and ships, sides, partitions, deck of yachts, boats and vessels, seats on boats, catamarans and passenger ships);

• transport engineering (trailers, lining, doors, bodies and floors for trucks, trailers, vans, trolleybuses, containers, buses, trailers, campsites, pickups, wagons);

trade, service and storage equipment (trade and service equipment (cabinets, counters, racks), equipment of hotels, bars and restaurants, hairdressers, laundries, medical rooms and pharmacies, beach houses, cabins and showers, furniture for outdoor restaurants, lining of storage rooms , fitting rooms and partitions, information desks);

children’s furniture and equipment for playgrounds (children’s furniture (tables, chairs, benches, cabinets, etc.), equipment for children’s and playgrounds, sports and playgrounds (hockey courts, slopes for skateboards, snow slides, seats for spectators at sports playgrounds, benches, sideboards, flooring), school furniture, children's toys, children's slides);

· Other areas of application (road signs, billboards, elevators, templates, etc.).

Claims

Formula

1. A cellular material for the production of cellular panels, 5 characterized in that the cells have at least a triangular shape;

2. The cellular material according to claim 1, characterized in that it consists of paper;

3. The cellular material according to claim 1, characterized in that the cells are impregnated with a gluing liquid;