EP2086732A1 - Process for producing a longitudinal wood composite product and a longitudinal wood composite product - Google Patents
Process for producing a longitudinal wood composite product and a longitudinal wood composite productInfo
- Publication number
- EP2086732A1 EP2086732A1 EP07848154A EP07848154A EP2086732A1 EP 2086732 A1 EP2086732 A1 EP 2086732A1 EP 07848154 A EP07848154 A EP 07848154A EP 07848154 A EP07848154 A EP 07848154A EP 2086732 A1 EP2086732 A1 EP 2086732A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- board
- side edge
- even face
- face
- longitudinal
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27B—SAWS FOR WOOD OR SIMILAR MATERIAL; COMPONENTS OR ACCESSORIES THEREFOR
- B27B1/00—Methods for subdividing trunks or logs essentially involving sawing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27M—WORKING OF WOOD NOT PROVIDED FOR IN SUBCLASSES B27B - B27L; MANUFACTURE OF SPECIFIC WOODEN ARTICLES
- B27M3/00—Manufacture or reconditioning of specific semi-finished or finished articles
- B27M3/0013—Manufacture or reconditioning of specific semi-finished or finished articles of composite or compound articles
- B27M3/0026—Manufacture or reconditioning of specific semi-finished or finished articles of composite or compound articles characterised by oblong elements connected laterally
- B27M3/0053—Manufacture or reconditioning of specific semi-finished or finished articles of composite or compound articles characterised by oblong elements connected laterally using glue
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- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04C—STRUCTURAL ELEMENTS; BUILDING MATERIALS
- E04C2/00—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels
- E04C2/02—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials
- E04C2/10—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of wood, fibres, chips, vegetable stems, or the like; of plastics; of foamed products
- E04C2/12—Building elements of relatively thin form for the construction of parts of buildings, e.g. sheet materials, slabs, or panels characterised by specified materials of wood, fibres, chips, vegetable stems, or the like; of plastics; of foamed products of solid wood
Definitions
- the invention relates to a process according to the preamble of claim 1 for producing a wood composite product, preferably a longitudinal wood composite product, consisting of a first board and a second board.
- the invention also relates to a wood composite product according to the preamble of claim 19, preferably a longitudinal wood composite product, comprising a first board and a second board.
- a board is henceforth referred to a board, a longitudinal piece of wood or the equivalent.
- a wood composite product is henceforth especially, but not exclusively, referred to other equivalent wood composite products, a stud or a joist.
- round logs have been sawn into studs or joists in such a way that the round log is first sawn in the longitudinal direction of the round log in order to first obtain studs or joists with the desired thickness and in which at least one side edge is a wane edge. Thereafter the wane edge or wane edges have been sawn away in order to obtain the desired breadth of the stud or the joists.
- the wood composite product in according to the invention is characterised by that which is presented in independent claim 19.
- the invention is based upon that the side edges of the boards, which are linked together as the boards are jointed into a composite product, are wane edges, which are machined in such a way that they can be jointed.
- a board of this kind has a rounded side edge or two rounded side edges
- a board of this kind has a first face (an upper or under face) on one side of the board, which has a larger area than the other face (the upper or under face) of the board on the opposite side of the board.
- a wood composite product may be obtained, the breath of which exceeds the breath obtained by first sawing the wane edges off both boards so that, in both boards, a side edge is obtained, which is orthogonal in relation to the flat upper and under face of the board, and by then jointing the straight side edges of the boards together.
- the bent wane edge in a first board, which shall be jointed to a second board is machined to a first side edge, showing a first longitudinal contact surface and a first longitudinal bevelled side edge fraction.
- the bent wane edge in a second board, which shall be linked to the first board, is machined to a second side edge, showing a second longitudinal contact surface for interaction with the first longitudinal contact surface of the first board and a second longitudinal bevelled side edge fraction for interaction with the first longitudinal side edge fraction of the first board.
- a longitudinal bevelled side edge fraction is formed in the side edge of the boards, the side edges of the boards get an at least partially askew cross section.
- the askew cross section results in that the preferred embodiment, which the board originally had before machining of the side edge, can be substantially preserved.
- this preferred embodiment design is meant that the board because of the bent wane edge originally had an under face, which had a larger area than its upper face or vice-versa. I the same way, the board, the side edge of which has been machined, has an under face, which had a larger area than its upper face or vice-versa.
- the boards are laid out alongside so that the bigger face of the first board is evenly parallel to the smaller face of the second board and in such a way that the smaller face of the first board becomes evenly parallel to the bigger face of the second board and in such a way that the interacting bevelled side edge fractions and the interacting longitudinal contact surfaces in the first and the second board are turned to face each other.
- first side edge of the first board and the third side edge of the second board are connected in such a way that the first even face of the first board and the fourth even face of the second board together form a first even surface, which is substantially parallel to the second even surface, which is formed- by the second even face of the first board and the third even face of the second board together, and the first side edge of the first board and the third side edge of the second board are glued together in such a way that the first board and the second board form a substantially monolithic entity.
- bent wane edges are in the invention machined into side edges with a longitudinal contact surface and a longitudinal bevelled side edge fraction, i.e. into side edges, which at least partially have an incline in relation to the even upper and under face of the board, in the invention less of the area of the face of the first board and the face of the second board is lost, which has the larger area, and at the same time less of the cross section area of the first board and the second board in comparison to if the wane edge of the first and the second board would, for instance, be sawn straight off in order to get a side edge in the first and the second board, which is orthogonal in relation to the even upper and under face of the board.
- first board and the second board are jointed together in such a way that the first even face of the first board and the fourth even face of the second board together form a first even surface, which is substantially parallel to the second even surface, which the second even face of the first board and the third even face of the second board form together, this accomplishes that the bending of the wood composite product at least partially is counteracted, since the bending of the first board counteracts the bending of the second board and vice-versa.
- the face of the first board, which originally before sawing the round log was situated closer to the core or heartwood of the round log on the same side as the face of the second board, which originally before sawing the round log was farther away from the core or heartwood of the round log and since a board bends around the original core or heartwood
- bending of the wood composite product can at least partially be counteracted by the invention, since the first board bends at least partially counter-clockwise around its original heartwood and since the second board bends at least partially clockwise around its original heartwood or vice-versa. The bending may be even further reduced, if the wood composite product is manufactured of boards, sawn from different trees.
- the first longitudinal contact surface of the first side edge of the first board shows a first tongue and a first groove
- the second longitudinal contact surface of the third side edge of the second board shows a second tongue for interacting with the first groove of the first longitudinal contact surface and a second groove for interacting with the first tongue of the first longitudinal contact surface.
- first longitudinal contact surface of the first side edge of the first board shows a first tongue and a second tongue and the second longitudinal contact surface of the third side edge of the second board show a first groove for interacting with the first tongue of the first longitudinal contact surface and a second groove for interacting with the second tongue of the first longitudinal contact surface.
- the first longitudinal contact surface of the first side edge of the first board shows a first tongue and a first groove and the second longitudinal contact surface of the third side edge of the second board shows a second tongue, which together with the first groove of the first longitudinal contact surface forms a formatting joint, and a second groove, which also, together with the first tongue of the first longitudinal contact surface, forms a formatting joint.
- first longitudinal contact surface in the first side edge in the first board shows a first tongue and a second tongue
- second longitudinal contact surface in the third side edge of the second board show a first groove, which together with the first tongue of the first longitudinal contact surface forms a formatting joint
- a second groove which together with the second tongue of the first longitudinal contact surface forms a formatting joint
- first side edge of the first board and the third side edge of the second board show substantially the same dimensions and substantially the same form.
- the first board and the second board in this preferred embodiment have been turned in relation to each other in such a way that the first longitudinal bevelled side edge fraction of the first board lies alongside the second longitudinal bevelled side edge fraction of the second board. Since the first side edge of the first board and the third side edge of the second board are substantially of the same dimensions and substantially the same form, the wane edge of the first board and the wane edge of the second board can be machined with the same cutting tool so that the first side edge of the first board and the third side edge of the second board are substantially of the same dimensions and substantially of the same form.
- the invention also enables that cuneiform boards, i.e. boards with a cross section, which is larger in one end of the board than in the opposite end of the board, are jointed into a wood composite product with a uniform cross section along the entire wood composite product.
- a uniform cross section can also be achieved by machining the wood composite product after the jointing.
- the two cuneiform boards are preferably, but not necessarily, turned in relation to each other in such a way that the end that has the smaller cross section of the first board gets into the same end of the wood composite product as the end that has the larger cross section area of the second board and vice versa.
- Figure 1 shows an end view of how a round log can be sawn into boards and how the wane edges of the boards can be machined in order to produce for instance the longitudinal wood composite product, which is shown in Figure 6,
- Figure 2 shows an end view of the round log of Figure 1 after it has been sawn into boards, showing a wane edge, which is a part of the original envelope surface of the round log,
- Figure 3 shows an end view of a first board, which has a first side edge, which is a wane edge,
- Figure 4 shows an end view of a second board, which has a third side edge, which is a wane edge,
- Figure 5 shows and end view of a first board, which has a first side edge, which has been a wane edge
- Figure 6 shows an end view of a second board, which has a third side edge, which has been a wane edge
- Figure 7 shows a first longitudinal wood composite product as an end view
- Figure 8 shows an end view of a second board, which has two wane edges
- Figure 9 shows an end view of the board in Figure 8 after machining
- Figure 10 shows an end view of a third board, which has a fifth side edge, which is a wane edge,
- Figure 11 shows an end view of the third board in Figure 10 after machining
- Figure 12 shows how a round log can be sawn in order to achieve the longitudinal wood composite products shown in Figures 13, 14 and 15,
- Figure 13 shows an end view of a second longitudinal wood composite product
- Figure 14 shows an end view of a third longitudinal wood composite product
- Figure 15 shows an end view of a fourth longitudinal wood composite product
- Figure 16 shows how a round log can be sawn in order to achieve the longitudinal wood composite products shown in Figures 17, 18 and 19,
- Figure 17 shows an end view of a fifth longitudinal wood composite product
- Figure 18 shows an end view of a sixth longitudinal wood composite product
- Figure 19 shows an end view of a seventh longitudinal wood composite product.
- the present invention relates to a process for producing a longitudinal wood composite product (not referred to by a reference number), comprising a first board 1, a piece of wood or equivalent and a second board 2, a piece of wood or equivalent.
- the wood composite product can also comprise a third board 3 as shown in Figures 15 to 17 or more than three boards as for instance in a laminated wood panel, comprising several boards.
- a first board 1 is taken, showing a first even face 4 on one side of the first board 1 and another even face 5 on the opposite side of the first board 1 in such a way that the first even face 4 and the other even face 5 are substantially parallel, and which show a first side edge 6 between the first even face 4 and the other even face 5 and which shows a second side edge 7 on the opposite side of the first board 1 between the first even face 4 and the second even face 5.
- such a first board 1 is taken, which is sawn out of a round log in such a way that the first side edge 6 is a wane edge 9 and in such a way that the first even face 4 has a larger area than the other even face 5.
- the first side edge 6, i.e. the wane edge 9 of the first board 1 is machined in order to achieve a first longitudinal contact surface 10 in the first side edge 6.
- the first side edge 6, i.e. the wane edge 9 of the first board 1 is also machined in order to achieve a first longitudinal bevelled side edge fraction 11 in the first side edge 6 in such a way that the first even face 4 of the first board 1 has a larger area than the other even face 5 of the first board 1.
- the wane edge 9 has been machined in such a way that there has been formed such a first side edge 6, which shows such a first longitudinal bevelled side edge fraction 11, which stretches only partly between the first even face 4 of the first board 1 and the other even face 5 of the first board 1.
- the wane edge 9 can alternatively be machined in such a way that there is formed such a first longitudinal bevelled side edge fraction 11, which stretches completely between the first even face 4 of the first board 1 and the other even face 5 of the first board 1.
- a second board 2 is taken, which shows a third even face 12 on one side of the second board 2 and a fourth even face 13 on the opposite side of the second board 2, wherein the third even face 12 and the fourth even face 13 are substantially parallel and wherein the distance between the third even face 12 and the fourth even face 13 of the second board 2 substantially corresponds to the distance between the first even face 4 and the second even face 5 of the first board 1, and which shows a third side edge 14 between the third even face 12 and the fourth even face 13, and which shows a fourth side edge 15 on the opposite side of the second board 2 between the third even face 12 and the fourth even face 13.
- such a second board 2 is taken, which is sawn out of a round log 8 in such a way that the third side edge 14 is a wane edge 9 and in such a way that the third even face 12 has a larger area than the fourth even face 13.
- the third side edge 14, i.e. the wane edge 9 of the second board 2 is machined in order to achieve a second longitudinal contact surface 16 in the third side edge 14 for interaction with the first longitudinal contact surface 10 in the first side edge 6 of the first board 1.
- the third side edge 14, i.e. the wane edge 9 of the second board 2 is machined in order to achieve a second longitudinal bevelled side edge fraction 17 in the third side edge 14 for interaction with the " first longitudinal bevelled side edge fraction 11 of the first board 1, wherein the third even face 12 of the second board 2 has a larger area than the fourth even face 13 of the second board 2.
- the wane edge 9 has been machined in such a way that it forms such a third side edge 14, which shows such a second longitudinal bevelled side edge fraction 17, which stretches only partly between the third even face 12 of the second board 2 and the fourth even face of the second board 2.
- the wane edge 9 can alternatively be machined in such a way that such a second longitudinal bevelled side edge fraction 17 is formed, which stretches all the way between the third even face 12 of the second board 2 and the fourth even face 13 of the second board 2.
- first longitudinal contact surface 10 of the first board 1 and the second longitudinal contact surface 16 of the second board 2 are jointed in such a way that the first even face 4 of the first board 1 and the fourth even face 13 of the second board 2 together form a first even surface 18, which is substantially parallel to the second even surface 19, which the second even face 5 of the first board 1 and the third even face 12 of the second board 2 form together and in the process the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are glued together, and in such a way that the first board 1 and the second board 2 form a substantially monolithic entity.
- the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, glued together with a two-component glue (not shown in the figures) in such a way that one of the glue components (not shown in the figures) is applied on one of the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 and in such a way that the other glue component (not shown in the figures) is applied on the other of the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 before jointing the first longitudinal contact surface 10 of the first board 1 and the second longitudinal contact surface 16 of the second board 2, wherein the first glue component and the second glue component come into contact with each other as they are jointed.
- a two-component glue (not shown in the figures) in such a way that one of the glue components (not shown in the figures) is applied on one of the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 and in such a way that the other
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, machined so that substantially the same form and substantially the same dimensions are achieved in the first longitudinal bevelled side edge fraction 11 of the first board 1 and the second longitudinal side edge fraction 17 of the second board 2.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 have been machined so that the first longitudinal side edge fraction 11 and the second longitudinal side edge fraction 17 have the same inclination and the same dimensions.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, machined so that substantially the same form and substantially the same dimensions are achieved in the first longitudinal contact surface 10 of the first board 1 and the second longitudinal contact surface 16 of the second board 2.
- the first side edge 6 of the first board 1 is preferably, but not necessarily, machined so that a first longitudinal contact surface 10, showing a first tongue 20 and a first groove 21, is achieved, and the third side edge 6 of the second board 2 so that a second longitudinal contact surface 16 is achieved, which shows a second tongue 22 for interaction with the first groove 21 of the first longitudinal contact surface 10 and a second groove 23 for interacting with the first tongue 20 of the first longitudinal contact surface 10.
- first side edge 6 of the first board 1 may be alternatively machined so that a first longitudinal contact surface 10 is achieved, showing a first tongue 20 and a second tongue 22, and the third side edge 6 of the second board 2 may be machined so that a second contact surface 16 is achieved, showing a first groove 21 for interaction with the first tongue 20 of the first longitudinal contact surface 10 and a second groove 23 for interaction with the second tongue 22 of the first longitudinal contact surface 10.
- the first side edge 6 of the first board 1 is preferably, but not necessarily, machined in such a way that one achieves two first longitudinal contact surfaces 10 so that a first longitudinal contact surface 10 showing a first tongue 20 is achieved, and so that a first longitudinal contact surface 10 showing a first groove 21 is achieved and so that the first longitudinal bevelled side edge fraction 11 between the first tongue 20 and the first groove 21 is achieved.
- the third side edge 14 of the second board 2 is preferably, but not necessarily, machined in such a way that one achieves two other longitudinal contact surfaces 16 in such a way that a second longitudinal contact surface 16, showing a second tongue 22, and a second longitudinal contact surface 16, showing a second groove 23, are achieved, and so that the other longitudinal bevelled side edge fraction 17 between the second tongue 22 and the second groove 23 is achieved.
- the first side edge 6 of the first board 1 may alternatively be machined in such a way that two first longitudinal contact surfaces 10 are achieved in such a way that a first longitudinal contact surface 10, which shows a first tongue 20, and a first longitudinal contact surface 10, which shows a second tongue 22, are achieved, and so that the first longitudinal bevelled side edge fraction 11 between the first tongue 20 and the second tongue 22 is achieved.
- the third side edge 14 of the second board 2 is machined in such a way that two other longitudinal contact surfaces 16 are achieved in such a way that a second longitudinal contact surface 16, which shows a first groove 21, and a second longitudinal contact surface 16, which shows a second grove 23, are achieved, and so that the second longitudinal bevelled side edge fraction 17 is achieved between the first groove 21 and the second groove 23.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, machined so that a first tongue 20 is achieved, which together with the second groove 23 forms a formatting joint.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, machined so that a first groove 21 is achieved, which together with the second tongue 22 forms a formatting joint.
- the first side edge 6 of the first board 1 is preferably, but not necessarily, machined in such a way that, on both sides of the first tongue 20, a first even edge area 32 is achieved, which is orthogonal in relation to the first even face 4 and the second even face 5.
- the first side edge 6 of the first board 1 is preferably, but not necessarily, machined in such a way that, on both sides of the first groove 21, a second even edge area 33 is achieved, which is orthogonal in relation to the first even face 4 and the second even face 5.
- the second side edge 14 of the second board 2 is preferably, but not necessarily, machined in such a way that, one on both sides of the second tongue 22, a third even edge area 34 is achieved, which is orthogonal in relation to the third even face 12 and the fourth even face 13.
- the second side edge 14 of the second board 2 is preferably, but not necessarily, machined in such a way that, one on both sides of the second groove 23, a second even edge area 35 is achieved, which is orthogonal in relation to the third even face 12 and the fourth even face 13.
- first side edge 6 and the second side edge 14 of the second board 2 are preferably, but not necessarily, machined in such a way that the edge (not referred to with any reference number) between the first even face 4 of the first board 1 and the first side edge 6 of the first board 1 and the edge (not referred to by any reference number) between the fourth even face 13 of the second board 2 and third side edge 14 of the second board 2 touch.
- the first side edge 6 of the first board 1 and the second side edge 14 of the second board 2 are preferably, but not necessarily, machined in such a way that the edge (not referred to by any reference number) between the second even face 5 of the first board 1 and the first side edge 6 of the first board 1 and the edge (not referred to by any reference number) between the third even face 12 of the second board 2 and the third side edge 14 of the second board 2 touch.
- the first side edge 6 of the first board 2 is preferably, but not necessarily, machined and the third side edge 14 of the second board 2 is machined so that substantially the same form and substantially the same dimensions are achieved in the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, machined with the same cutting tool (not shown in the figures).
- first board 1 is taken, which shows such a second side edge 7, which is substantially orthogonal in relation to the first even face 4 and the second even face 5.
- such a second board 2 is taken, which shows such a fourth side edge 15, which is substantially orthogonal in relation to the third even face 12 and the fourth even face 13.
- first side edge 6 of the first board 1 and/or the second side edge 14 of the second board 2 are preferably, but not necessarily, machined so that when the first board 1 and the second board 2 are jointed, a space for glue (not shown in the figures) is formed between the first longitudinal bevelled side edge fraction 11 of the first board 1 and the second longitudinal bevelled side edge fraction 17 of the second board 2.
- first board 1 and the second board 2 are preferably, but not necessarily, machined after the jointing in order to achieve the preferred form and/or dimension of the wood composite product.
- first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are preferably, but not necessarily, glued together with a 2-component glue
- the fourth side edge 15 of the second board 2 is machined in order to achieve a third longitudinal bevelled side edge fraction 24 in the fourth side edge 15 in such a way that the third even face 12 of the second board 2 has a larger area than the fourth even face 13 of the second board 2.
- the fourth side edge 15 of the second board 2 is machined in order to achieve a third longitudinal contact surface 25.
- a third board 3 is taken, which is sawn out of a round log in such a way that it shows a fifth even face 26 on one side of the third board 3, a sixth even face 27 on the opposite side of the third board 3, wherein the fifth even face 26 and the sixth even face 27 are substantially parallel and wherein the distance between the fifth even face 26 and the sixth even face 27 substantially correspond to the distance between the third even face 12 and the fourth even face 13 in the second board 2, and in such a way that the third board 3 shows a fifth side edge 28 between the fifth even face 26 and the sixth even face 27 and a sixth side edge 29 on the opposite side of the third board 3 between the fifth even face 26 and the sixth even face 27, wherein the fifth side edge 28 is a wane edge 9 in such a way that the fifth even face 26 has a larger area than the sixth even face 27.
- the fifth side edge 28 of the third board 3 is machined in order to achieve a fourth longitudinal bevelled side edge fraction 30 for interaction with the third bevelled side edge of the second board 2, wherein the fifth even face 26 of the third board 3 has a larger area than the sixth even face 27 of the third board 3.
- the fifth side edge 28 of the third board 3 is machined in order to achieve a fourth longitudinal contact surface 31 for interaction with the third longitudinal contact surface 25.
- the third longitudinal contact surface 25 of the second board 2 and the fourth longitudinal contact surface 31 of the third board 3 are jointed in such a way that the third even face 12 of the second board 2 and the fifth even face 26 of the third board 3 together form a first even surface 18, which is substantially parallel to the second even surface 19, which the fourth even face 13 of the second board 2 and the sixth even face 27 of the third board 3 form together, and the fourth side edge 13 of the second board 2 and the fifth side edge 28 of the third board 3 are glued together in such a way that the first board 1 and the second board 2 and the third board 3 form a substantially monolithic entity.
- than three boards may be jointed together, as for instance a first board 1 , a second board 2, a third board 3 and a fourth board (not shown) etc.
- the invention also relates to a wood composite product, which comprises a first board 1 and a second board 2.
- the first board 1 shows a first even face 4 on one side of the first board 1, and a second even face 5 on the opposite side of the first board 1.
- the first even face 4 and the second even face 5 are substantially parallel.
- the first board 1 also shows a first side edge 6 between the first even face 4 and the second even face 5.
- the first board 1 also shows a second side edge 7 on the opposite side of the first board 1 between the first even face 4 and the second even face 5.
- the second board 2 shows a third even face 12 on one side of the second board 2 and a fourth even face 13 on the opposite side of the second board 2.
- the third even face 12 and the fourth even face 13 are substantially parallel and the distance between the third even face 12 and the fourth even face 13 substantially equals the distance between the first even face 4 and the second even face 5 of the first board 1.
- the second board 2 also shows a third side edge 14 between the third even face 12 and the fourth even face 13.
- the second board 2 also shows a fourth side edge 15 on the opposite side of the second board 2 between the third even face 12 and the fourth even face 13.
- the first side edge 6 shows a first longitudinal contact surface 10 and the third side edge 14 shows a second longitudinal contact surface 16 for interaction with the first longitudinal contact surface 10.
- the first longitudinal contact surface 10 of the first board 1 and the second longitudinal contact surface 16 of the second board 2 are jointed and the first side edge 6 of the first board 1 and the third side edge 14 of the second board 2 are glued together in order to form a substantially monolithic entity of the first board 1 and the second board 2 in such a way that the first even face 4 of the first board 1 and the fourth even face 13 of the second board 2 together form a first even surface 18, which is substantially parallel to the even surface 19, which is formed by the second even face 5 of the first board 1 and the third even face 12 of the second board together.
- the first board 1 is sawn out of a round log 8 in such a way that the first even face 4 of the first board 1 has a larger area than the other even face 5 of the first board 1 and in such a way that the first side edge 6 originally has been a wane edge 9.
- the first side edge 6 of the first board 1 has been machined in such a way that the first side edge 6 shows a first longitudinal bevelled side edge fraction 11 between the first even face 5 and the second even face 5 in such a way that the first even face 4 of the first board 1 has a larger area than the second even face 5 of the first board 1.
- the wane edge 9 has been machined, so that there has been formed such a first side edge 6, which shows such a first longitudinal bevelled side edge fraction 11, which only partly stretches between the first even face 4 of the first board 1 and the second even face 5 of the first board 1.
- the wane edge 9 may alternatively be machined so that there is formed such a first longitudinal bevelled side edge fraction 11 , which stretches all the way between the first even face 4 of the first board 1 and the second even face 5 of the first board 1.
- the second board 2 is sawn out of a round log 8 in such a way that the third even face 12 of the second board 2 has a larger area than the fourth even face 13 of the second board 2 and in such a way that the third side edge 14 originally was a wane edge 9.
- the third side edge 14 has been machined in such a way that the third side edge 14 shows a second longitudinal bevelled side edge fraction 17 between the third even face 12 and the fourth even face 13 for interaction with the first longitudinal bevelled side edge fraction 11 of the first board 1 in such a way that the third even face 12 of the second board 12 has a larger area than the fourth even face 13 of the second board 2.
- the wane edge 9 has been machined so that there is formed such a second longitudinal bevelled side edge fraction 14, which shows such a second longitudinal bevelled side edge fraction 17, which stretches only partly between the third even face 12 of the second board 2 and the fourth even face 13 of the second board 2.
- the wane edge 9 may alternatively be machined so that there is formed such a second longitudinal bevelled side edge fraction 17, which stretches all the way between the third even face 12 of the second board 2 and the fourth even face 13 of the second board 2.
- the first longitudinal bevelled side edge fraction 11 and the second longitudinal bevelled side edge fraction 17 show preferably, but not necessarily, substantially the same dimensions and substantially the same cross section form as shown in the figures.
- the first longitudinal contact surface 10 and the second longitudinal contact surface 16 show preferably, but not necessarily, substantially the same dimensions and substantially the same cross section form.
- the first longitudinal contact surface 10 shows a first tongue 20 and a first groove 21 and the second longitudinal contact surface 16 shows a second tongue 22 for interaction with the first groove 21 of the first longitudinal contact surface 10 and a second groove 23 for interaction with the first tongue 20 of the first longitudinal contact surface 10.
- the first tongue 20 and the first groove 21 form preferably, but not necessarily, a formatting joint.
- the second tongue 22 and the second groove 23 form preferably, but not necessarily, a formatting joint.
- first longitudinal contact surface 10 can be provided with a first tongue and a second tongue 22 and the second longitudinal contact surface 16 can be provided with a first groove 21 for interaction with the first tongue 20 of the first contact surface 10 and a second groove 23 for interaction with the second tongue 22 of the first longitudinal contact surface 10.
- the first board 1 shows two first longitudinal contact surfaces 10 in such a way that a first longitudinal contact surface 10 shows a first tongue 20 and a first longitudinal contact surface 10 shows a first groove 21 in such a way that the first longitudinal bevelled side edge fraction 11 is situated between the first tongue 20 and the first groove 21.
- the second board 2 shows two other longitudinal contact surfaces in such a way that a second longitudinal contact surface 16 shows a second tongue 22 and a second longitudinal contact surface 16 shows a second groove 23 in such a way that the second longitudinal side edge fraction 17 is situated between the second tongue 22 and the second groove 23.
- the first board 1 may show two first longitudinal contact surfaces in such a way that a first longitudinal contact surface 10 shows a first tongue 20 and a first longitudinal contact surface 10 shows a second tongue 22 in such a way that the first longitudinal bevelled side edge fraction 11 is situated between the first tongue 20 and the second tongue 22 and the second board 2 can show two other longitudinal contact surfaces 16 in such a way that a second longitudinal contact surface 16 shows a first groove 21 and a second longitudinal contact surface 16 shows a second groove 23 in such a way that the second longitudinal bevelled side edge fraction 17 is situated between the first groove 21 and the second groove 23.
- the first side edge 6 of the first board 1 shows preferably, but not necessarily, on both sides of the first tongue 20 a first even edge area 32, which is orthogonal in relation to the first even face 4 and the second even face 5.
- the first side edge 6 of the first board 1 shows preferably, but not necessarily, on both sides of the first groove 21 a second even edge area 33, which is orthogonal in relation to the first even face 4 and the second face 5.
- the second side edge 14 of the second board 2 shows preferably, but not necessarily, on both sides of the second tongue 22 a third even edge area 34, which is orthogonal in relation to the first even face 4 and the second even face 5.
- the other side edge 14 of the second board 2 shows preferably, but necessarily, on both sides of the second groove 23 a fourth even edge area 35, which is orthogonal in relation to the first even face 4 and the other even face 5.
- the second side edge 7 of the first board 1 is substantially even and stretches substantially perpendicularly in relation to the first even face 4 and the second even face 5.
- the fourth side edge 15 of the second board 2 is substantially even and stretches substantially perpendicularly in relation to the third even face 12 and the fourth even face 13.
- edge between the first even face 4 of the first board 1 and the first side edge 6 of the first board 1 and the edge between the third even face 12 of the second board 2 and the third side edge 14 of the second board 2 touch.
- edge between the second even face 5 of the first board 1 and the first side edge 6 of the first board 1 and the edge between the fourth even face 13 of the second board 2 and the third side edge 14 of the second board 2 also touch.
- the first longitudinal bevelled side edge fraction 11 of the first board 1 and/or the second longitudinal bevelled side edge fraction 17 of the second board 2 are preferably, but not necessarily, formed and dimensioned in such a way that when the first board 1 and the second board 2 are jointed, there has been formed a space for glue between the first longitudinal bevelled side edge fraction 11 of board 1 and the second longitudinal bevelled side edge fraction 17 of the second board 2.
- the figures 15 and 16 show a wood composite product comprising a first board 1, a second board 2 and a third board 3.
- the second board 2 is sawn out of a round log 8 in such a way that even the fourth side edge 15 originally has been a wane edge 9.
- the fourth side edge 15 in the second board 2 has been machined in such a way that the fourth side edge 15 shows a third longitudinal bevelled side edge fraction 24 and in such a way that the fourth side edge 15 shows a third longitudinal contact surface 25.
- the third board 3 shows a fifth even face 26 on one side of the third board 3 and a sixth even face 27 on the opposite side of the third board 3.
- the fifth even face 26 and the sixth even face 27 are substantially parallel.
- the third board 3 shows also a fifth side edge 28 between the fifth even face 26 and the sixth even face 27 and a sixth side edge 29 on the opposite side of the third board 3 between the fifth even face 26 and the sixth even face 27.
- the third board 3 is sawn out of a round log 8 in such a way that the fifth even face 26 of the third board 3 originally has had a larger area than the sixth even face 27 of the third board 3 and in such a way that the fifth side edge 28 originally is a wane edge 9.
- the fifth side edge 28 has been machined is such a way that the fifth side edge 28 shows a fourth longitudinal bevelled side edge fraction 30 for interaction with the third longitudinal bevelled side edge fraction 24 of the second board 2 and in such a way that the fifth even face 26 of the third board 3 has a larger area than the sixth even face 27 of the third board 3 and in such a way that the fifth side edge 28 shows a fourth longitudinal contact surface 31 for interaction with the third longitudinal contact surface 25 of the second board 2.
- the third longitudinal contact surface 25 of the second board 2 and the fourth longitudinal contact surface 31 of the third board 3 are jointed and the fourth side edge 13 of the second board 2 and the fifth side edge 28 of the third board 3 are glued together in order to form a substantially monolithic entity of the first board 1, the second board 2 and the third board 3 in such a way that the first even face 4 of the first board 1, the fourth even face 13 of the second board 2 and the fifth even face 26 of the third board 3 together form an even surface, which is substantially parallel to the even surface that the even face 5 of the first board 1, the third even face 12 of the second board 2 and the sixth even face 27 of the third board 3 form together.
- the wood composite product may be machined after jointing in order to obtain its final form.
Landscapes
- Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Wood Science & Technology (AREA)
- Forests & Forestry (AREA)
- Architecture (AREA)
- Manufacturing & Machinery (AREA)
- Mechanical Engineering (AREA)
- Civil Engineering (AREA)
- Structural Engineering (AREA)
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FI20061039A FI20061039A0 (en) | 2006-11-27 | 2006-11-27 | Method for Producing an Elongated Wood Composite Product and an Elongated Wood Composite Product |
PCT/FI2007/050621 WO2008065243A1 (en) | 2006-11-27 | 2007-11-20 | Process for producing a longitudinal wood composite product and a longitudinal wood composite product |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2086732A1 true EP2086732A1 (en) | 2009-08-12 |
EP2086732A4 EP2086732A4 (en) | 2013-05-01 |
Family
ID=37482494
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP07848154.6A Withdrawn EP2086732A4 (en) | 2006-11-27 | 2007-11-20 | Process for producing a longitudinal wood composite product and a longitudinal wood composite product |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP2086732A4 (en) |
FI (1) | FI20061039A0 (en) |
WO (1) | WO2008065243A1 (en) |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AT11958U1 (en) * | 2010-09-07 | 2011-08-15 | Hans-Peter Ing Leitinger | PROCESS FOR PROCESSING RAW ROUNDWOOD AND WEDGE-LINKED WOOD COMPOSITE PRODUCTS |
AT515171B1 (en) * | 2013-12-10 | 2016-02-15 | Hans-Peter Ing Leitinger | Sawn board from side board ware and process for its production |
AT524491A1 (en) * | 2020-12-14 | 2022-06-15 | Leitinger Hans Peter | Pair of boards, composite wood panel and method for their manufacture |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2000045006A1 (en) * | 1999-01-28 | 2000-08-03 | Karlstroem Johan Tore | Method and arrangement for wood studs |
US20040074189A1 (en) * | 2002-02-06 | 2004-04-22 | Guildo Deschenes | Panels made of interlocked wood pieces |
US20060078704A1 (en) * | 2004-10-12 | 2006-04-13 | Holzhey Michael G | Interlocking waney edge glue system |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
SE19315C1 (en) * | 1905-04-29 | |||
US781376A (en) | 1904-06-27 | 1905-01-31 | Niels Georg Soerensen | Manufacture of boards from logs of wood. |
US5870876A (en) | 1997-02-24 | 1999-02-16 | Synergy Wood Processing Inc. | Converted wood articles, composite wood products made therefrom and method of making same |
US20020160147A1 (en) * | 2001-02-27 | 2002-10-31 | Suezone Chow | Composite wood product and method of manufacture |
SE525081C2 (en) * | 2001-04-04 | 2004-11-23 | Nils-Olof Lindquist | Method for manufacturing glue boards and glue joists from square boards and planks |
-
2006
- 2006-11-27 FI FI20061039A patent/FI20061039A0/en not_active Application Discontinuation
-
2007
- 2007-11-20 EP EP07848154.6A patent/EP2086732A4/en not_active Withdrawn
- 2007-11-20 WO PCT/FI2007/050621 patent/WO2008065243A1/en active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2000045006A1 (en) * | 1999-01-28 | 2000-08-03 | Karlstroem Johan Tore | Method and arrangement for wood studs |
US20040074189A1 (en) * | 2002-02-06 | 2004-04-22 | Guildo Deschenes | Panels made of interlocked wood pieces |
US20060078704A1 (en) * | 2004-10-12 | 2006-04-13 | Holzhey Michael G | Interlocking waney edge glue system |
Non-Patent Citations (1)
Title |
---|
See also references of WO2008065243A1 * |
Also Published As
Publication number | Publication date |
---|---|
WO2008065243A1 (en) | 2008-06-05 |
FI20061039A0 (en) | 2006-11-27 |
EP2086732A4 (en) | 2013-05-01 |
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