RU2191331C1 - Plank drying method - Google Patents

Abstract

FIELD: wood-working industry, furniture and house manufacture. SUBSTANCE: method involves forming pack of planks; arranging planks in vertical position and providing mechanical air circulation in pack of planks so that air flow is directed from the bottom to the top along plank patches and ribs; closing ends and plank patch parts with aqueous emulsion substance possessing good adhesion to wet plank wood. Aqueous emulsion substance is applied to part of plank patches in strip extending above core of each patch from one to other end of plank. Method provides for uniform drying of planks, increased drying rate, prevents planks from shrinkage and cracking. Wood dried by said method does not absorb moisture from air. EFFECT: increased efficiency, wider range of use and improved quality of wood. 2 dwg

Description

 The invention relates to the technology of drying boards and can be used at woodworking enterprises in the manufacture of boards, furniture, houses, etc.

 A known method (T. A. Matveeva. The manufacture of wood art: Pract. Manual - M .: Higher. Shk., 1992, p.24-25) drying boards, in which boards are stacked in rows in rows, between which are placed gaskets providing air circulation inside the stack itself. Air, moving inside the stack, washes the evaporating surfaces of the boards and carries moisture from the stack. This simple drying method has significant drawbacks. The main disadvantage is the long drying time of the boards. On average, for the central regions of the Russian Federation, Ukraine, and Belarus, the drying time for coniferous species of boards with a thickness of 35-50 mm can range from 20 to 60 days. A significant drawback of this drying method is that the moisture content of the wood cannot be less than the humidity equilibrium of the environment, i.e. 10-15%.

 A significant disadvantage of the analogue is also the vulnerability of the boards during drying from cracking. During drying, cracks form on the plates and ends in the boards.

 The closest analogue of this invention in terms of technical nature and the achieved result is the method (see Krechetov I.V. Wood drying. Publishing house 40th revised and supplemented M., 1977, p. 40-40-40) drying boards, selected as a prototype, in which raw boards for drying are stacked in packages in stacks obliquely in the lateral direction or obliquely along the length of the boards. In order to speed up the drying, the known method uses stimulating air circulation, in which the air from the fans is fed into the stack along or across the board layers. Air, forcibly moving inside the stack at a speed of 3-4 m / s, washes the evaporating surfaces of the boards, thereby drying the latter.

 Known for the prototype method of inducing atmospheric drying is 2-3 times shorter than without induction, however, the duration of the drying time remains significant. So, for softwood boards with a thickness of 38 mm, the drying time at a final humidity of 20% in the summer is approximately 8-10 days. In this method, the inclined arrangement of the boards, as well as their horizontal arrangement, does not ensure uniform drying of the boards in stack packages. This, in turn, leads to the creation of local tensions in the ends and layers of a number of boards and to their warping and cracking.

 The basis of the invention is to develop a method of drying boards, in which the boards in the bag are placed vertically, and the air of motive circulation is directed upward along the planks and edges of the boards, while the ends and parts of the planks are closed with an aqueous emulsion substance having adhesion to the raw wood of the board, which is applied to the part of the board planks in the form of strips passing over the core of each plank from the end to the end of the board.

 As a result of the vertical arrangement of boards in a stack package, stimulating air supply from bottom to top along the boards and ribs of boards and redistribution of moisture output from the boards, the following practical problems are solved: achieving high uniformity of drying of boards and high drying speed, as well as eliminating warping of boards and formation on them cracks.

 The problem is solved by the fact that a method of drying boards is proposed, in which a package of boards is formed and the air is circulated in the bag, the boards in the bag are placed vertically, and the air of the motive circulation is directed upward along the layers and edges of the boards, while closing the ends and parts board planks with an aqueous emulsion substance having adhesion to the raw wood of the board, which is applied to the part of the board board in the form of strips passing over the core of each board from end to end of the board.

 Signs relating to the closure of the ends and parts of the plank layers with an aqueous emulsion substance having adhesion to the raw wood of the board, which are applied to the parts of the plates in the form of strips extending over the core of each layer from end to end of the board, refer to preliminary preparation of the boards for drying and are known from RF patent 2164467. However, in the claimed method of drying, these signs are used in conjunction with the signs relating to the drying of boards, i.e. the vertical arrangement of the boards in the package and the directivity of the air in a forced circulation from the bottom up, taking into account the peculiarities of the redistribution of moisture removed from the board. Only with this combination of essential features can the task be solved.

 As a result of the vertical arrangement of the boards in the stack package, the water located in the longitudinal large capillaries of the boards, under the action of the pressure of its own hydrostatic columns, is able to go down and out of the wood of the boards due to the large capillaries extending to the lower ends of the boards, as well as exit the wood of the boards beyond due to the many small capillaries that go to the surface of the boards. In the drying method according to this invention, the ends of vertically mounted boards and part of the plates are closed with an aqueous emulsion substance having adhesion with raw board wood, which, in turn, significantly limits the moisture output through the ends and closed parts of the layers of the dried boards. Most of the water comes out through the free, i.e., unclosed by an aqueous emulsion substance, planks of planks. Despite the reduction of moisture (water) output through the closed areas of the board due to the redistribution of the moisture output through the parts of the plates and the faces of the boards and due to the larger area (compared to the ends) of the open sections of the core board, the total rate of moisture release from the wood of the boards increases, and The acceleration of drying by this method and the reduction of drying time are explained. Organized in this way, the release of moisture through parts of the planks and edges of the planks provides a uniform distribution of stresses in the planks, relieves local stresses in the planks and protects the planks from central and other cracks.

 However, in vertically standing boards, the gravitational forces of hydrostatic columns of liquid, which cause an increase in the drying speed, simultaneously cause some uneven distribution of moisture along the length of the board. As a result, a vertically standing board in the drying process always has a humidity in its lower end that is greater than at its upper end. This difference in moisture along the length of the board leads to its warping and, ultimately, to cracking of the board.

 In the present invention provides a stimulating flow of air from the bottom up along the plates and ribs of the board. With such a forced air supply pattern (from bottom to top), air draws moisture from the damp lower parts of the plank layers and then transports humidified air to the drier upper part of this board and is then released into the atmosphere.

 Incentive air circulation, in turn, leads to a more uniform distribution of humidity (due to its own moisture released during the drying process) along the entire vertically installed board during the entire drying period. At the same time, a high uniformity of drying of the board is achieved, warpage, cracking is eliminated and a high drying speed is ensured.

 As an aqueous emulsion substance having adhesion to raw wood of a board, a water-based adhesive like PVA (polyvinyl acetate), a water-based varnish like VD-AK-1101 (based on acrylic dispersion) or a water-based paint like VD-VA-224 (Savinykh V .P. Umelets about ornamental materials. Mn .: Poland, 1997, p.309).

 The mechanism of moisture release from a vertically arranged board, previously prepared before drying by closing the ends and parts of the board layers with an aqueous emulsion substance having adhesion with raw board wood, differs from the moisture discharge mechanism in the prototype method. So, in the dried heart-shaped board installed vertically and with previously closed ends and parts of the layers, according to this invention, the redistribution of moisture removed from it occurs. Most of the moisture is removed through the unclosed portions of the board and board faces. Significantly decreases the yield of moisture through the closed ends and the closed parts of the board. Moreover, due to the colloidity and wettability of the aqueous emulsion substance covering the ends and parts of the board planks, an insignificant release of moisture from them is also carried out uniformly over the entire closed area of the core board.

 On vertically mounted boards (as provided by the present invention), the gravitational forces of hydrostatic columns of liquid also accelerate the release of moisture from the wood and thereby increase the drying speed of the boards. However, these same gravitational forces also cause some uneven distribution of moisture along the length of a vertically standing board. As a result, a vertically standing board in the drying process always has a moisture content in the lower end of the board than in its upper end. In the present invention provides a stimulating air supply from the bottom up along the layers and edges of the dried boards. With such a forced air supply pattern (from bottom to top), air takes moisture from the damp lower parts of the planks and then transports moistened air (moisture taken from the dried planks) to the drier upper parts of the planks, and then the air is released into the atmosphere. This operation of the induction air supply circuit, in turn, leads to a more uniform distribution of humidity along all vertically installed boards during the entire drying period. Organized in this way, the moisture output for vertically installed boards provides a uniform distribution of tension in the board layers, warping and cracking are eliminated, and at the same time, a high drying speed is ensured.

 The increased volume of water discharge due to capillaries emerging from the plates and faces of the board leads to the destruction of large longitudinal capillaries (to rupture them along the length of the hydrostatic column) passing along the board. Moreover, the destruction of these capillaries due to the selection of liquid from them occurs, almost simultaneously, along the entire length of the capillaries and, therefore, along the entire length of the board.

 The hygroscopicity of boards (plank wood) is explained by capillary condensation. In this case, water vapor is absorbed from the air in the wood with the formation of liquid menisci in its capillaries. A decrease in water vapor pressure over the concave surface of the meniscus causes condensation of water vapor in the capillaries. This explains the hygroscopicity of wood. With this method of drying boards, mainly core, the destruction of capillaries occurs along their entire length. At the same time, the conditions for capillary condensation of water vapor of the liquid are also destroyed, therefore, the conditions for the hygroscopicity of the core boards by this method are completely removed.

 The implementation of the drying method can be illustrated in FIG. 1 and 2. In FIG. 1 shows a separate core board prepared for drying. In FIG. 2 shows a drying scheme for this method. In FIG. 1, positions 1 and 2 show the ends of the core board; 3 and 4 - plasti boards; 5 - a strip on the upper layer, covered by an aqueous emulsion substance having adhesion with raw wood of the board, and covering the width of the uncut annual rings of the outer layer; 6 and 7 - uncut annual rings; 8 and 9 are lines defining the closing width of strip 5. Strip 10 on the lower face is shown by dashed lines 11 and 12.

 In FIG. 2, positions 13, 14 and 15 show boards (pre-prepared) arranged vertically for drying them. Position 16 shows the suction fans that supply air to the boards 13, 14, 15 in the direction from the bottom up. 17 shows suction fans that emit raw air. Positions 18 and 19 indicate the manifolds of the fans, which are interconnected by a light cover of the shelter 20. As a cover of the shelter 20 can be used, for example, a film of polyethylene, etc.

 In the inventive method before drying carry out the preliminary preparation of raw boards as follows. In the raw board, they close (paint over) the ends 1 and 2 with glue like PVA, or with varnish VD-AK-1101, or with paint like VD-VA-224. At the same time, glue like PVA or varnish like VD-AK-1101 or paint like VD-VA-224 on face 3 closes strip 5 with a length from end 1 to end 2.

 The width of strip 5 is limited by lines 8 and 9 and is equal in width to the width of the area of uncut annual rings 7 of face 3.

 Similarly, on face 4 with adhesive like PVA, varnish like VD-AK-1101 or paint like VD-VA-224, strip 10 is closed (painted over). Band width 10 is limited by lines 11 and 12 (dotted) and equal to the width of the area of uncut annual rings 7 face 4 and long from end 1 to end 2.

 This completes the preliminary preparation of the board before drying it.

 When drying in vertically installed and pre-prepared boards 13, 14 and 15, a significant part of the moisture is released through the capillaries that go to the unclosed parts of the plates and the faces of the boards. Moisture is released on uncovered areas due to capillary distribution is carried out mainly uniformly. An insignificant part of the moisture is also released through the capillaries that go to the ends (parts of the layers of these boards) that are closed (with PVA glue). Moreover, due to the colloidity and wettability of the aqueous emulsion substance (PVA), which covers the ends and parts of the plank layers, a slight release of moisture from them is also carried out evenly over all closed areas of the core planks. In vertically installed boards 13, 14, 15, the gravitational forces of the hydrostatic columns of liquid in the capillaries determine the acceleration of moisture out of the wood of these boards. However, these same gravitational forces also cause some uneven distribution of moisture along the length of vertically standing boards 13, 14, 15.

 As a result, vertically standing boards in the drying process always have humidity in the lower ends that is greater than in the upper ones. When operating ventilation, i.e. when the fans 16 and 17 are on, air is supplied from below from the fans 16 to the upper fans 17. This air is washed along the face and edges of the boards 13, 14, 15 in the direction from the bottom up. With this scheme of stimulating supply of the working agent, the air takes moisture from the damp lower parts of the plank layers and then transports the moistened air to the drier upper parts of the plank layers, and then this air is discharged by the fans 17 into the atmosphere. Such a scheme of stimulating air supply, in turn, leads to a more uniform distribution of humidity along all vertically installed boards during the entire drying period.

 The uniform distribution of moisture, in turn, provides a uniform distribution of tension in the board layers, while warping and cracking are eliminated and a high drying speed is achieved. Tests of the described method for drying pre-prepared core boards were carried out on the following wood species: pine, spruce, oak, larch, maple and cedar.

 The humidity achieved during the drying process on all the listed board species did not exceed 6%. Boards dried by this method are non-hygroscopic. These boards throughout the life of operation (under normal operating conditions) do not absorb moisture from the surrounding air, but only can discard that small remaining moisture. This, in turn, provides the maximum depth of moisture extraction from wood, which, in practice, reaches no more than 6%. Moreover, the tests for the lack of hygroscopicity of the dried boards were carried out by the weight method, i.e. by controlling the change (decrease) in the weight of a controlled sample of boards. Tests for the lack of hygroscopicity were carried out on the boards for 9 years. Tests confirmed the lack of hygroscopicity of the dried wood of the boards in this way.

 The drying time of the core boards for all of the listed breeds was 2 times less in comparison with the method of the prototype. Moreover, the dried boards did not have warpage and did not have cracks.

 All of the above technological methods of drying and preparing core boards, providing a solution to the tasks in this invention, are easily served mechanization, automation and automatic control. This, in turn, provides a wide industrial implementation of the invention.

Claims (1)

 A method of drying boards, in which a package of boards is formed and the air is circulated in the bag, characterized in that the boards are stacked vertically, and the air of motive circulation is directed upward along the planks and ribs of the boards, while the ends and parts of the planks are closed with an aqueous emulsion a substance having adhesion to the raw wood of the board, which on the part of the board planks is applied in the form of strips passing over the core of each board from end to end of the board.

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