RU2497663C1 - Method of wooden article processing - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to woodworking. Proposed method comprises drying the article to residual moisture not exceeding 16%, surface polishing, removing the grinding dust and applying of molten beeswax with temperature not over 100°C. Wax penetrates in the article at cooling to room temperature. Thereafter, the article is processed by gas jet at 450-560°C, wood darkening being prohibited. Gas jet is displaced relative to article surface at the speed of about 1 cm/s to 10 cm/s. In processing the articles of low-porosity timber, purified turpentine in amount of 50-200 wt % of wax is added to molten beeswax.

EFFECT: durable protective layer not infringing on wood natural texture without extra polishing.

Description

The invention relates to the field of woodworking, in particular to methods for producing protective coatings on wood products that preserve the natural texture of natural wood, and can be used in construction and in the furniture industry.

The main way to protect wooden surfaces from moisture and to obtain decorative effects is to coat them with organosoluble varnishes, enamels and paints, which are widely produced by industry. Most of these materials contain environmentally harmful chemical components.

Varnishes are solutions of film-forming substances (oils, resins, nitrocellulose) in volatile solvents (benzene, alcohol, gasoline, white spirit, acetone, etc.) and are intended to create a finishing layer of coatings. Enamels are a mixture of pigments and varnishes and are intended to create the main layer of a protective coating. Paints are a mixture of film-forming substances and finely divided pigments, sometimes with the addition of fillers, and are intended to create the main protective and decorative layer of paint coatings, similar to enamels.

These protective equipment, as a rule, contain chemical film formers (alkyd, vinyl chloride, glyphthalic, polyacrylate, etc.) with various pigments and fillers. As an analogue, polymerizable impregnation for the treatment of baths and saunas “Elkon-sauna” (http://www.elcon-termo.ru/articles/classification) can serve.

A disadvantage of the known methods of paint and varnish protection of wooden products is their environmental insecurity. Film-forming agents often contain harmful volatile components that evaporate into the environment for a long time, the use of compounds based on them is not recommended for interior decoration of furniture or for processing furniture. The disadvantage of covering and opaque protective materials is also the difficulty of maintaining a beautiful natural wood texture.

A known method of processing wooden products, giving them hydrophobic and bactericidal properties. In the known method, the application of a hot impregnating substance based on hydrocarbons (aerosol, smoke), which impregnated products (Pat. RF 2129954. V27K 3/34, V27K 5/00. The method of processing wood products. Publish. 05/10/1999). The components of the pyrolysis aerosol, including hydrocarbon ones, condense on the surface of the product and penetrate into it, forming a thin hydrophobic coating of wood pores. The method does not preserve the decorative structure of the wood surface, the products retain an unpleasant odor for a long time.

A known method of processing sheet materials containing natural organic or regenerated fibers (Pat. RF 2394008. The method of processing sheet material, the material obtained by the specified method, and its use as a lining. Publish. 07/10/2010). The sheet material is treated with a liquid containing an antimicrobial agent and a binder, after which the material is dried. During the second operation, a layer containing wax is applied to the treated surface and the layer is absorbed into the starting material at a temperature of 100-145 ° C. The wax layer penetrates the plate to a depth of 90-150 microns. The raw material processed in the above manner is used as a lining.

The known method is not environmentally friendly due to the presence of fungicides and poorly preserves the natural structure of the tree, because at these temperatures the wax becomes cloudy from water vapor.

Among eco-friendly methods, wood treatment with Lappenwachs patchwork wax is known - a mixture containing linseed oil, wood stand oil, beeswax and desiccant. The surface is polished, cleaned of dust, the patchwork wax is rubbed into the surface with a horsehair brush or cotton cloth at a temperature of 10-35 ° C, dried for 24 hours at t = 20 ° C and at a humidity of 40-60%. Final hardening takes place in 3-4 weeks. To give shine, the surface is polished (kreidezeit.ru/ImgItem/2LW.pdf). There is also a method of waxing wood in the manufacture of expensive furniture and musical instruments (http://www.ntpo.com/technologists/tree/l.shtml). Take 100 g of yellow wax, finely chop it and add 12 g of mastic or 25 g of rosin crushed into powder. These substances are stacked in a clay vessel and dissolved on charcoal. When the whole mass has melted, it is removed from the fire and 50 g of warm turpentine is added. All are thoroughly stirred and poured into a tin dish. In this form, the composition is stored until use. To polish furniture, take a small amount of the composition on a piece of woolen cloth and rub the wood, which acquires a beautiful soft shine. Furniture processed in this way acquires hydrophobic properties and preserves the natural structure of wood.

The known methods are long, laborious and unsuitable for industrial production. The protective layer has insufficient mechanical strength.

Closest to the invention, the technical solution is a method of waxing the surface of the hives. According to the known method, the boards are pre-dried with hot air, heating them to a temperature of 260-265 ° C and avoiding ignition, after which they are impregnated with natural wax at a temperature of 130 ° C (ON Mashenkov. Wax protection. Journal “Beekeeping”, No. 2, 2003) . The method adopted for the prototype.

The known method does not allow to obtain a thin transparent film on the surface of the product, since it does not provide for the regulation of the residual moisture of the processed product. At temperatures above 100 ° C, the wax layer becomes cloudy due to moisture vapor released from the wood, the wax is poorly absorbed, and the film itself does not acquire the necessary mechanical strength.

In order to protect the tree from the damaging effects of external factors (ultraviolet rays, atmospheric moisture) and at the same time not to lose the opportunity to maximize the natural beauty of the material, it is necessary to use a transparent finish from environmentally friendly materials. For these purposes, natural beeswax is most suitable, containing antibiotic and preservative substances and having good hydrophobic properties.

Beeswax is a mixture of many chemical compounds: ethers (monoesters, diesters, triesters and hydroxyesters) - 70-75%; free fatty acids (cerotinic, montanic, oleic) - 13-15%; saturated hydrocarbons - 12-17%; water - up to 1%, etc. When heated, the wax melts in the temperature range 60-70 ° C, on average at 63.7 ° C. At 100-105 ° C, water vaporization occurs, above 150 ° C the evaporation of light fractions begins. When cooled to room temperature, beeswax increases the viscosity and gradually restores the crystalline structure. The listed properties of beeswax are taken into account and used in the claimed method of processing wooden products.

The objective of the invention is to create on the surface of a wood product a strong protective layer that does not veil the natural texture of the tree and provides products with enhanced environmental characteristics.

The problem is solved in that in a method involving drying, grinding and coating the surface of wooden products with a protective material, the drying is carried out to a residual moisture content of wood not higher than 16%, preferably not higher than 12%, the pores of the wood are cleaned from grinding dust using a suitable suction device, a thin layer of molten beeswax is applied to the surface of the product, heated to a temperature not exceeding 100 ° C, preferably from 90 ° C to 95 ° C, and the wax is absorbed into the product when the wax cools to room temperature temperature, after which the surface of the product is treated with a jet of hot gas to prevent darkening of the wood, while the gas stream with a temperature of about 460-560 ° C is moved relative to the surface of the product at a speed of from about 1 cm / sec to about 10 cm / sec, preferably from 2 to 5 cm / sec

When treating wood with small pores, turpentine can be additionally introduced into the molten beeswax in an effective amount of about 50 to 200 wt.% With respect to the amount of wax.

The method is implemented as follows.

When machined at the factory, the planed board can be subjected to chamber drying (residual humidity is 8-12%), or natural atmospheric drying (residual humidity is 16%). Humidity in the range of 12-16% can be considered optimal. So, an indicator below 12% can lead to loss of knots, to swelling and deformation of the product during operation. A moisture value above 16% increases the likelihood of subsequent drying and crevice formation.

The wood has a porous structure, which makes it possible to absorb beeswax, however, for the wax to penetrate the tree to a sufficient depth, the pores must be open, therefore the surface of the product is cleaned with a suction device, for example, a vacuum cleaner, freeing the pores, including micropores, from grinding dust and preparing the product for impregnation with molten beeswax. The temperature of the wax is chosen no higher than 100 ° C, at a higher temperature in the wood, the evaporation of residual moisture occurs, which worsens the absorption process.

For the method according to the invention, insufficient consumption of beeswax, as well as applying it with a too thick layer, are ineffective. The optimal result is achieved by applying molten beeswax along the fibers with a brush or a rotating mechanical brush.

Absorption of beeswax is carried out by cooling the wax to room temperature, i.e. within 5-30 minutes, during this time the wax penetrates into the pores to a depth of 200-250 microns. An increase in the impregnation time in excess of the indicated upper limit has no effect, since the viscosity of beeswax at room temperature increases significantly, and it loses its ability to penetrate wood.

The time of thermal exposure to hot gas depends on the speed of movement of the product relative to the gas stream. The gas jet performs two functions: firstly, it evens out the surface of the wax coating to a mirror finish that does not require further polishing, and secondly, light oily fractions, light hydrocarbons and water evaporate from beeswax under the influence of a high-temperature jet, as a result of which the wax coating hardens and acquires the necessary mechanical strength without losing transparency. In this case, do not allow the darkening of the tree, i.e. due to short-term exposure to a hot stream, its surface layer is heated to a temperature of no higher than 260 ° C. Due to the lack of contact with oxygen and a short exposure time, carbonization of the tree does not occur. At a higher temperature, cellulose and polysaccharides of wood begin to break down and a resin forms. Varying the gas temperature and duration of exposure within the stated limits allow for maximum performance with high quality processing.

When processing by the method according to the invention, the surface does not require additional polishing; after cooling to room temperature, the product is ready for use or for transportation.

Thus, the method includes drying, grinding, cleaning the pores of the wood from grinding dust, applying a layer of molten beeswax, absorbing it into the product before the solidification stage, and treating the surface with a hot gas stream in the claimed sequence and in the declared parameter ranges. Common features with the prototype are pre-drying, application of molten wax and hot-gas spraying. New features in comparison with the prototype are drying wood to a residual moisture content of wood no higher than 16%, cleaning the pores of the wood from grinding dust, the sequence of applying molten beeswax and processing with hot gas, as well as temperature conditions for coating, absorption of wax and treatment with hot gas. The set of features provides a solution to the problem and the achievement of the claimed technical result.

The processing method according to the invention during the first 3-5 years of operation of wooden products gives a visual effect of enhancing the natural decorative structure. Violation of the technological regime, especially residual humidity, is unacceptable.

For example, processing by the method according to the invention of softwood lining, supplied for export according to GOST 26002-83 (transport humidity 18-22%), gives a short-lived protective coating with a dull surface.

Hardwood has a low porosity, which makes it difficult to impregnate the surface layer. To achieve the required depth of the wax layer, its viscosity should be reduced, for which, in particular cases of applying the method according to the invention, purified turpentine is additionally introduced into the molten beeswax in an effective amount. When dissolving beeswax in turpentine, the environmental characteristics of the impregnation do not deteriorate, since turpentine is a natural environmentally friendly product, purified turpentine (turpentine oil) is used for medicinal purposes. In addition, volatile turpentine almost completely evaporates when the product is treated with a stream of hot gas.

The method can be easily mechanized. For example, at the end of the grinding operation, the surface of the products is subjected to conveyor cleaning of the pores using a suction device, then molten beeswax is fed to the surface, which is distributed in a thin layer using rotating mechanical brushes. The product can withstand the required time for the surface to be impregnated with wax, after which the product is pulled with the selected speed relative to the fixed nozzles of the hot gas. An example is provided to illustrate one of many possible implementations of the method of the invention.

The method provides high-quality processing of flat wooden products, such as lining, carpentry, parquet, simplifying the processing process, increasing the operational and decorative characteristics of marketable products. EFFECT: obtaining on the surface of wood products a strong protective layer that does not veil the natural texture of wood and provides products with enhanced environmental characteristics.

Information Sources Used

1.http: //www.elcon-termo.ru/articles/classification.

2. Pat. RF 2129954. Publ. 05/10/1999.

3. Pat. RF 2394008. Publ. 07/10/2010.

4.http: //kreidezeit.ru/ImgItem/2LW.pdf.

5. http://www.ntpo.com/technologists/tree/1.shtml.

6. O.N. Mashenkov. Wax protection. - The journal “Beekeeping”, No. 2, 2003 (prototype).

Claims (2)

1. A method of processing wooden products, including drying, grinding, cleaning the surface and coating the surface with a protective material, characterized in that the drying is carried out to a residual moisture content of wood not higher than 16%, the pores of the wood are cleaned from grinding dust using a suitable suction device on the surface of the product apply molten beeswax heated to a temperature not exceeding 100 ° C, preferably to a temperature of from 90 to 95 ° C, and the wax is absorbed into the product while cooling the surface to room temperature, then the surface of the product is treated with a gas jet with a temperature of from 460 to 560 ° C, avoiding darkening of the wood, while the gas stream is moved relative to the surface of the product at a speed of 1 to 10 cm / s. 2. The method according to claim 1, characterized in that when processing wood products having low porosity, purified turpentine is additionally introduced into the molten beeswax in an effective amount of from 50 to 200 wt.% With respect to the amount of wax.