WO2002070830A1

WO2002070830A1 - Block plank and method for the production thereof

Info

Publication number: WO2002070830A1
Application number: PCT/EP2002/000679
Authority: WO
Inventors: Alexandra Duffner
Original assignee: Alexandra Duffner
Priority date: 2001-02-17
Filing date: 2002-01-24
Publication date: 2002-09-12
Also published as: CA2434310A1; US20040079037A1; CA2434310C; EP1360383A1; EP1360383B1; ATE405712T1; WO2002070830A8; DE50212670D1

Abstract

The invention relates to a block plank for the construction of wooden walls for houses and other buildings consisting of several such block planks (6, 7) placed on top of each other in a horizontal position. Said plank has a wedge-shaped longitudinal slit (3), which is tapered towards the core (2) of the plank (6, 7), on the lower bearing surface thereof (8). According to the inventive method, said planks (6, 7) can be produced with less wood humidity, whereby the used logs(1), are provided with at least one longitudinal slot (3) extending as far as the core (2) of the respective log (1) before drying. The logs (1) are then dried in a drying chamber in order to produce a humidity content of less than 15 %, preferably 11 %, and then the logs (1) are sawn to produce planks of a desired size.

Description

description

Log and method of making it

The invention relates to a block plank for the construction of wooden walls according to the preamble of claim 1 and a method for their production.

For the construction of wooden houses and other buildings, logs are used, which can have an essentially rectangular or else a rounded cross-section with flats. The problem with the walls made of block planks is that the walls settle due to shrinkage and that warping can also occur in the wood. This can cause the wooden walls built up with conventional logs to leak.

The invention has for its object to provide a block plank for the construction of wooden walls, which maintains high dimensional accuracy even after a long time.

The solution to this problem is obtained by the features specified in claim 1. The log according to the invention has, at least on its lower support surface, a wedge-shaped longitudinal slot tapering towards the heart of the log. An elastic insulation material can be used in this longitudinal slot, with which the logs stacked one above the other to form a wall lie sealingly on top of each other.

The wedge shape of the longitudinal slot arises on the one hand during the drying process, because the previously slotted trunk log is so pulls together that a longitudinal slit initially just widened V-shaped. If further longitudinal incisions are provided in the region of the later upper side of the log before the drying process, it is particularly advantageous to position them so that they are located in the area of tongue and groove connections which are formed between the bearing surfaces of the logs. A development of the invention therefore provides that longitudinal incisions are made in the webs formed on the top of the logs, these webs being part of the tongue and groove connections mentioned. The fact that the additional longitudinal incisions are in the upper webs practically does not affect the properties of the finished wooden wall.

The longitudinal cut leading to the heart of the log and the other upper longitudinal cuts have the great advantage that uncontrolled crack formation is avoided during the subsequent drying process. The logs sawn after the drying process result in logs with crack-free side surfaces, which means that high-quality log walls can be built accordingly.

The invention is also based on the object of providing a method for producing high-quality logs for the construction of wooden walls.

This object is achieved with the features of method claim 7. The logs used can be dried with or without a bark, preferably in a vacuum drying process, to a wood moisture content of, for example, 11%, the longitudinal cuts previously made avoiding uncontrolled other crack formation on the logs. After the drying process, the logs can be cut to the finished size of the logs, and the longitudinal cut to the heart of the log can also be milled to a specified size. This gives block planks that have a high degree of dimensional accuracy and with which sealing problems are certain can be avoided. Optimal sealing of the finished log wall is achieved by the insulation materials introduced into the V-shaped longitudinal section, whereby ecologically harmless insulation materials can be used.

The invention is explained in more detail below with reference to an embodiment shown in the drawing.

Show it:

FIG. 1 shows a log with a longitudinal section leading to the heart before drying,

FIG. 2 shows the log from FIG. 1 after drying,

FIG. 3 several logs stacked for drying,

FIG. 4 completely cut logs as part of a log wall,

FIG. 5 shows a log wall from above in the area of an end face,

FIG. 6 sawn-in log as a model before drying,

FIG. 7 joints of feathered logs sealed with feather keys,

Figure 8 is a perspective view and Figure 9 is a plan view of a corner plating on a log house.

In Figure 2, the front view of a log 1 is shown, which has a longitudinal slot 3 leading to the heart 2. If this log is dried to, for example, less than 15% wood moisture, the wood shrinks in such a way that the cross section or the end view changes as shown in FIG. The Longitudinal slot 3 tapers in a wedge shape to the heart 2, so that one can speak of a now V-shaped longitudinal slot 3.

So that several logs 1 can be stacked on top of one another to save space in a vacuum drying chamber, the logs 1, as shown in FIG. 3, are flattened on their lower contact surface, where the longitudinal slot 3 is located. The logs 1 shown in FIG. 3 are additionally provided with longitudinal incisions 4, 5 in the upper area to ensure that no uncontrolled cracking occurs in the log during the drying process.

In Figure 3 and in Figure 4, the annual rings are not shown for the sake of simplicity from Figure 1 and Figure 2.

After the drying process, the logs 1 of FIG. 3 are cut to the finished log size, for example logs as partially shown in FIG. The logs 6, 7 have an essentially square cross section and are provided on their lower bearing surface 8 and on their surfaces 9 with longitudinal grooves 10 and corresponding webs 11 running parallel to them. On the adjacent sides of the two logs 7, 8, the longitudinal grooves 10 and the webs 11 form tongue and groove connections 12.

As can also be seen in FIG. 4, the longitudinal slot 3 is widened in a V-shape after the drying process, as shown in FIG. The V-shaped longitudinal slots 3 are milled to a uniform dimension on the logs 6, 7, so that insulating material 13 can be used equally in each of the longitudinal slots 3.

The longitudinal slots 3 can also be milled to another cross-sectional shape, not shown here. Their cross-section can be rectangular or semi-oval, for example. On the lower block plank 6 it can be seen that the insulation material 13 slightly protrudes from the lower support surface 8 in the unloaded state, while it is elastically compressed between the tongue and groove connections 12 from the top of the block plank 6 and thus a secure seal between the two block planks 6 , 7 guaranteed.

The longitudinal incisions 4, 5 provided in FIG. 3 are positioned in the area of the webs 11 in the finished block planks 6, 7. In principle, further longitudinal slots or longitudinal incisions could be made on the upper side 9 and on the lower contact surface 8 if this is expedient due to the nature of the wood or due to other requirements.

In Figure 5, the front cover 14 of a log wall 15 can be seen. The cover 14 consists of two glued solid planks 16, 17, shown hatched here, which are connected to the block planks 6, 7 by means of screw or nail fastenings 18, 19. The end faces 20 of the logs 6, 7 are cut in a wedge shape. In the free space between the cover 14 and the end face 20 there is a threaded rod 21 with which the logs are braced. In the exemplary embodiment, the wall thickness is 36 cm.

Figure 6 shows the preferred form of a log provided for drying, since such models are optimally stackable.

The block planks 6, 7 used in FIG. 7 have on the upper side 9 opposite the lower support surface 8 parallel longitudinal grooves 21 which correspond to the longitudinal grooves 10 formed on the lower support surface 8. Strongly pre-dried feather keys 22 made of wood are inserted in each of two longitudinal grooves lying directly one above the other, so that press fits between the stacked logs 6, 7 on the feather keys 22 with increasing moisture arise. The feather keys 22 have a degree of drying of preferably less than 10% moisture before insertion into the longitudinal grooves.

For the corner plating of outer walls of a log house shown in FIGS. 8 and 9, a tension spring 23, which penetrates the log plank vertically and transversely to the longitudinal direction of the log, is inserted into the logs in the area of the corner plating. From their outward-facing end face 25, the log screed has a keyway 24 directed towards the tension spring 23, into which a wedge 26 which can be driven at the end is inserted on the end face of the screed. If shrinkage occurs, the wedge can be driven and the corner cladding retightened and made windproof. For optical reasons, the wedge 26 can be covered by a removable cover plate.

The block planks for the corner cladding of the outside walls of a block plank house can each have a vertical, expandable longitudinal slot from their outward-facing end face to the area of the corner cladding, which is preferably designed as a keyway 24. What is important here is the possibility of the logs being driven apart in order to compensate for any shrinkage that occurs and to drive the logs to the size sawn out in the area of the corner covering and to seal them against one another.

Claims

claims

1. Block plank for the construction of wooden walls of houses and other buildings formed from a plurality of horizontally stacked block planks (6, 7), characterized in that the block plank (6, 7) has a heart (2) on its lower support surface (8). the log (6, 7) has a tapered, wedge-shaped longitudinal slot (3)

2. Block plank according to claim 1, characterized in that in the longitudinal slot (3) an elastically compressible insulation material (13) is used, which slightly protrudes on the lower support surface (8) of the block plank (6).

3. log according to one of claims 1 or 2, characterized in that on the lower support surface (8) opposite top (9) of the log (6, 7) parallel spaced webs (1 1) are formed with longitudinal grooves (10) formed on the lower contact surface (8) correspond, so that a tongue and groove connection (12) is formed between block planks (6, 7) lying one above the other.

4. Block plank according to one of the preceding claims, characterized in that on the support surface (8) opposite

Top side (9) longitudinal incisions (4, 5) are formed.

5. log according to claim 4, characterized in that there are longitudinal incisions (4, 5) in the webs (1 1) formed on the upper side (9) are located.

6. Block plank according to one of the preceding claims, characterized in that the free end faces (20) of a plurality of block planks lying one above the other to form a block plank wall (15) are preferably cut in a wedge shape and are covered by a shape-adapted cover (14).

7. Block plank according to claim 1, characterized in that on the upper bearing surface (9) opposite the lower bearing surface (8) of the block plank (6, 7), parallel longitudinally spaced grooves (21) are formed, which are also on the lower bearing surface (8 ) formed longitudinal grooves (10) correspond, and that a strongly pre-dried feather key (22) lies in each of two directly overlapping longitudinal grooves, so that press fits are created on the feather keys (22) between stacked planks (6, 7).

8. Block plank according to claim 7, characterized in that the feather keys (22) have a degree of drying of less than 10% moisture, preferably 8% moisture, before being inserted into the longitudinal grooves.

9. log, in particular according to one of the preceding claims, for the

Corner cladding of the outer walls of a log house, characterized in that the logs each have a vertical, expandable longitudinal slot from their outward-facing end face to the area of the corner cladding.

10. Block plank according to claim 9, characterized in that in each of the block planks in the area of the corner plating a vertically penetrating tension block is inserted transversely to the longitudinal direction of the block plank.

1 1. Block plank according to one of claims 9 or 10, characterized in that the block plank has from its outward-facing end face as a longitudinal slot a wedge groove directed towards the tension spring, in which a re-drivable wedge is inserted on the end face of the screed.

12. A method for producing logs (6, 7) with low wood moisture for the construction of wooden walls, according to one of the preceding claims, characterized in that the logs used (1) before the drying process with at least one to the heart (2) of respective log (1) guided longitudinal slot (3) that the

Logs (1) are then dried in a drying chamber to a moisture content of less than 15%, preferably to 11%, and that the logs (1) are then sawn to the desired log size.

13. The method according to claim 12, characterized in that the logs

(1) before the drying process on the side where the longitudinal slot (3) is made, be flattened along its entire length.

14. The method according to claim 13, characterized in that further symmetrically arranged longitudinal incisions (4, 5) are made offset by more than 90 degrees with respect to the longitudinal slot (3) leading to the heart (2).

15. The method according to any one of claims 12 to 14, characterized in that after the drying process, the longitudinal slot (3) to a predetermined

Finished dimension is milled.