FI126281B - Miter joint - Google Patents

Description

CORNER CONNECTION

ENGINEERING

The invention relates to corner joints in a log building. In particular, the invention relates to a corner joint structure as defined in the preamble of claim 1, by means of which a massive corner log can be joined to a thinner wall log. The invention also relates to a method for joining building logs of different thicknesses to form said corner joint.

BACKGROUND OF THE INVENTION

The log building is characterized by environmentally friendly and energy efficient. Log buildings have traditionally been implemented using corner joints, which are corner joints between logs. The corner joining structure is implemented from superimposed logs whose ends intersect at the corner. The popularity of traditional long-angle or cross-corner solutions with log ends extending out of the corner beyond the wall line is still gaining in popularity due to the traditional and handsome appearance of these solutions, as well as their durability and non-warping.

However, there is an increasing desire to make a building look like it was made of solid logs, even if the house solution itself was made of thinner logs or tiles. Such a solution is more economical and allows the installation of additional thermal insulation inside the building.

From the Finnish Patent Publication No. 104197 (Hautala) is known a corner connection to a wooden building, by means of which an insulated double wall can be connected to a massive outdoor corner. These outer corners are made of separate cross-arranged corner elements and lock the inner walls by means of a notch arrangement. The solution is dimensioned for joining insulated double walls, so it is not applicable when it is desired to insulate the building in some other way, for example with an additional insulation frame.

Finnish Patent Publication No. 60900 (Mårtenson) discloses a house structure solution whereby a house made of thinner wood tiles is made to look like it is made of solid wood logs. According to the solution, the thicker log corners can be carved so as to form a joint with a corner post, from which a thinner wood slab is joined with an insulating layer between them. The solution is not feasible without a corner post.

U.S. Pat. No. 4,503,647 (Post) discloses a corner joint solution for connecting thinner wall tiles to thicker corner elements. Ko. the corner elements consist of separate intersecting corner elements. The fixing of the wall tiles to the corner elements takes place along the grooved edge inside the corner element, so that the wall tiles themselves do not intersect. Said corner assembly is reinforced with steel wire, for example, because without reinforcement it can be unstable and weak. The solution for corner mounting is complicated and requires special dimensions for both corner and wall logs. However, the use of said corner joint solution, for example in single-family homes, is still questionable due to insufficient rigidity.

A problem with known solutions is the complexity of the aforementioned, which results in additional costs for the manufacture of the corner and wall parts, such as those disclosed in FI 104197 and US 4,503,657. Another disadvantage of the solutions according to FI 104197 and FI 60900 is that solutions do not support single wall construction, making it necessary to use insulated double walls.

To build a traditional log house from thinner wall tiles and bring it to the market. A log house that looks made of solid logs still needs an easy, functional and affordable solution for corner joints, which allows thicker log beams to be joined to thinner slabs. It is still desirable that such a corner joint be rigid and durable even without iron fasteners.

SUMMARY OF THE INVENTION

It is an object of the present invention to solve the aforementioned problems associated with constructing a solid log building from thinner wall tiles while preserving traditional solid corners.

The object of the invention is thus to provide a corner joint for a log building which is rigid, durable and simple to manufacture. It is another object of the invention to provide a method of joining building logs of different thicknesses to form a corner joint. The objects of the invention are achieved by the features of the independent claims.

The corner joint according to the invention is characterized by what is disclosed in the characterizing part of independent claim 1. The corner joint according to the invention is mainly characterized in that said corner joint consists of superimposed, thinner wall elements which intersect in a corner of a building, and massive corner elements, each corner element being arranged to connect two overlapping, stacked, interlocking elements; according to the invention, the thickness of said corner elements is at least one and a half times the thickness of the corresponding wall elements.

The method according to the invention is characterized by what is disclosed in the characterizing part of independent claim 9.

Various preferred embodiments of the invention are also disclosed in the dependent claims.

Each corner element of the corner joint according to one embodiment is arranged as an extension of a parallel wall element, so that the combination of one corner element and one wall element forms a continuous composite structure along the building wall line. It is preferable that the corner element connected to the wall element (s) extends outside the building line to form a so-called. long corner.

Each corner element and each wall element of the corner joint according to one embodiment preferably comprises locking means, such as a protrusion and a recess, such that the recess of each corner element is arranged to conform to a protrusion in a parallel and parallel wall element.

The cavity and the protrusion of each of the corner elements of the corner joint according to one embodiment are arranged in that embodiment. a corner element on a surface facing the interior of the building; and wherein the cavity and protrusion of each wall element are arranged in the respective wall. the surface of the wall element facing the outside of the building so that the projection is located in the said wall. at the end of the wall element, and the cavity is located in that wall. on the outside of the wall element facing the building.

Each wall element of the corner joint according to one embodiment is dimensioned to form a mirror image of the intersecting wall element in the longitudinal section direction, and each corner element to be attached to the above wall elements is dimensioned to form a mirror image of a corner element to be connected to the intersecting wall element.

Each corner element of the corner joint according to one embodiment comprises a notch cut from the surface facing the interior of the building so that said cavity passes through most of the corner element in the transverse sectional direction, terminating near its upper surface and forming a closed end.

In a corner embodiment, each cavity of a corner element passes in a transverse sectional direction through an entire corner element, passing through its top and bottom surfaces.

The angular connection according to various embodiments offers several advantages. First of all, by using the corner joint according to the invention, a thinner wall log can be connected to a thicker corner log, so by these solutions a double joint is obtained and the log joint becomes dense, rigid and dimensionally accurate. Thus, in one of the log walls, the log can be bonded to the lower or upper crossing wall log and the log corner, whereby the log structure becomes extremely rigid and stable. The corner joint according to the invention thus provides rigidity and durability to the log lining, since the parts intersecting in that lining are just wall logs, provided that in one prior art solution the intersecting parts are corner beams. The rigid corner construction facilitates and speeds the installation of an additional insulation frame inside the building. The solution according to the invention provides an opportunity to build a log house from thinner wall logs so that the outward wall structure appears to be made of massive logs. Thus, a general frame structure and / or additional insulation layer (so-called LES structure) can be installed inside the log house. Said additional insulation and / or insulating frames may be selected according to the building regulations and / or the needs of the builder / customer.

In addition, the solution of the invention supports energy efficient construction. It is more advantageous to construct the wall structure with a thinner log to which is added said general insulating body and / or an additional insulating layer (LES structure) and with a massive log corner than with a massive log only. The solution of the invention provides a very tight and stable wall and corner structure without additional fasteners and / or corner columns. The corner joint according to the invention enables a highly energy efficient wall structure together with an additional insulating body and meets the very tightening requirements for heat insulation and tightness.

Said corner joint is realized in a plurality of corner and wall sections which are simple to manufacture, for example by machining, so that the cost of manufacturing such corner joint can be relatively low. The attachment of these corner and wall sections to each other does not require iron clamps or a complex groove arrangement.

The corner joint structure according to the invention is applicable to wood construction, especially to log construction. This corner joint is particularly well suited for the construction of a detached house, such as a detached house or a holiday home.

BRIEF DESCRIPTION OF THE IMAGES

Preferred embodiments of the invention will now be described in more detail with reference to the accompanying drawings, in which Figure 1a schematically illustrates a top view of a corner joint 10 according to a preferred embodiment of the present invention, Figure Ib illustrates some composite portions of the above corner joint 10 wherein (ii), (iv) ), (iii) - viewed from the side; a plus sign indicates the inside of the building; a minus sign indicates the exterior of the building, Fig. 1e shows discrete sections of a corner joint 10 according to a preferred embodiment, with (ii), (iv) - viewed from above and (i), (iii) - viewed from the side; a plus sign indicates the inside of the building; Fig. 2a shows a corner joint 10 according to a preferred embodiment assembled, Fig. 2b shows a corner joint 10 according to Fig. 2a, fig. Figures 2c and 2d show an assembly of the corner joint 10 of Figures 2a, 2b, obliquely viewed from above (Figure 2c) and from above (Figure 2d), Figure 3a is a schematic view of a corner joint 10 according to another embodiment of the present invention, 3b shows some composite portions of the corner joint 10 of Fig. 3a, with (ii), (iv) - viewed from above and (i), (iii) - viewed from the side; a plus sign indicates the inside of the building; the minus sign shows the exterior of the building, Fig. 4a shows a corner joint 10 according to another embodiment of the present invention, Fig. 4b shows a corner joint 10 according to Fig. 4a, fig. Figure 4c shows an assembly of a corner joint 10 according to another embodiment, viewed obliquely from above, Figures 5a and 5b show the top elements (upper row) and obliquely top view (lower row) of the corner joints 10 according to different embodiments.

DETAILED DESCRIPTION OF THE IMAGES

The numbering of the parts of the corner joint according to the present invention is the same in all figures shown in this document and corresponds to the following references: 10 - corner joint; 1- 1, 1-2 - corner elements; 2- 1, 2-2 - wall elements; 1, 2 - pair of angular and wall elements / composite structure; 3, 4, 5 - sealing and / or locking means; 31.3a, 32, 41, 42 - locking means, of which: 31.31a - notch of corner element; 41 - protrusion of corner element; 32 - recess in the wall element; 42 - projection of the wall element.

Fig. 1a is a schematic top view of a corner joint 10 according to a preferred embodiment. Said corner joint 10 consists of superimposed wall elements 2-1 and 2-2, and corner elements 1-1 and 1-2, which intersect in the corner of the building.

Since the corner joint 10 is made up of several parts, the term "corner joint assembly" is also applicable to the corner joint 10. The terms "corner joint" and "corner joint configuration" are used interchangeably throughout this document.

The corner joint 10 is preferably applicable to wood construction, especially log construction. In a preferred embodiment, the corner elements 1-1, 1-2 consist of solid logs 120 to 300 mm thick, and the wall elements 2-1, 2-2 consist of thinner logs 45 to 180 mm thick. Said wall log may be a thinner lamellar log or planed log as long as massive logs can be used as corner logs. However, the outer free end of the corner element can be of any thickness, depending on how massive the appearance is desired. According to the invention, the thickness of the corner elements 1-1, 1-2 is at least one and a half times the thickness of the corresponding wall elements 2-1, 2-2.

Figure 1a also shows the outer ends of the corner elements 1-1, 1-2 in cross section along line A-A. Line B-B indicates the transverse section of the wall elements 2-1, 2-2 at a non-intersecting point of the walls of the building, for example the center of the wall of the building. According to one embodiment, the cross-sectional profiles A-A 'of the corner elements 1-1 and 1-2 of the corner joint 10 are identical; the cross-sectional profiles B-B 'of walls 2-1 and 2-2 are also identical. However, dimensioning and tailoring of certain portions of said corner joint 10 to form cross sections of different thickness and / or corner elements associated with the cross walls in the same building is not excluded. Then the cross-sectional profiles of the corner and / or wall elements in the same building may vary.

The wall log may have a substantially rectangular cross-section, wherein the corner log may be a rectangle, a circle or a near circle. However, it will be apparent to those skilled in the art that both the wall and the shape of the corner logs can vary from one another to the other, from rectangular to near circular. In this document, all elements 1-1, 1-2, 2-1, 2-2 included in the corner joint 10 are shown substantially rectangular (Figures 1-5).

Corner joint assembly 10 (Figures 1a, Ib) is assembled by joining two superimposed wall elements 2-1, 2-2 which intersect in a corner of a building, each wall element preferably being prefixed to a corresponding, parallel plane and parallel corner element 1-1, 1-2, the composite structure (1-1, 2-1), (1-2, 2-2). Corner joint 10 thus consists of the two above-mentioned composite structures, each of which comprises a corner element and a corresponding element. a wall element parallel to the corner element. Such composite structures, or pairs of corner and wall elements, are indicated by reference numerals 1 and 2 in Figures Ib. The term "composite structure" is used herein to indicate the combination of one corner element with one wall element (Figs. 1, 2). Said superimposed composite structures form a corner joint assembly 10 according to the invention.

Fig. 1b shows the top view (ii, iv) and the side view (i, iii) of the composite structures of the corner joint 10 according to the preferred embodiment. Each corner element 1-1, 1-2 is thus arranged as an extension of the corresponding parallel wall element 2-1, 2-2 such that the combination of one corner element and one wall element forms the above continuous wall structure corresponding to one log beam 1, 2.

The plus sign thus indicates the inside of the building and the minus sign indicates the outside of the building. The wall elements 2-1 and 2-2 thus form the intersecting walls of the building. The corner element connected to the corresponding wall element extends outside the building line / wall line. The corner elements 1-1, 1-2 themselves do not intersect.

With reference to Fig. 1A, all sections comprising a corner joint 10 according to a preferred embodiment will be described in more detail.

In the corner joint 10, the sections, called even corner elements 1-1 and 1-2, and even wall elements 2-1, 2-2, are joined and locked together by means of locking means which are included in each corner and wall element. The locking means refer to the protrusions 41, 42 and cavities 31, 32 in the figure. Each corner element 1-1 and 1-2 of the preferred embodiment of the corner joint 10 comprises a plurality of locking means, such as recess 31 and protrusion 41. Each wall element 2-1 and 2 -2 comprises corresponding locking means, such as recess 32 and protrusion 42.

In addition, to form a corner joint 10, said corner and wall elements are shaped such that each corner and each wall element forms a mirror image of an even corner or wall element, along a longitudinal section line. In Fig. Le, the longitudinal section line is indicated by a horizontal dashed line. Figure le shows that the corner element 1-1 forms a mirror image of the even corner element 1-2, and the wall element 2-1 forms a play image of the even wall element 2-2.

According to one embodiment, the even corner elements 1-1 and 2-1 are substantially the same size. According to one embodiment, the thickness and width of the even wall elements 2-1, 2-2 are substantially equivalent; however, such wall elements may vary in length.

The details by which the corner joint 10 is assembled will now be described with reference to Figures 2a-d.

2a, when assembling the corner joint assembly 10 of FIG. 2a, parallel corner and wall elements such as 1-1 and 2-1 (pair 1), and 1-2 and 2-2 (pair 2) are joined to form the aforementioned composite structures 1, 2. Wall elements 2-1 and 2-2 are dimensioned to form the intersecting walls of a building based on the above mirror image symmetry. Thus, joining pairs of corner and wall elements 1 and 2 together provides a corner joint 10 as shown in Figure 2a. The composite structures 1 and 2 are joined at the outer ends of the intersecting wall elements 2-1, 2-2, wherein each corner element 1-1, 1 has mirror image symmetry. -2 combines with two overlapping and intersecting wall elements, and each wall element 2-1, 2-2 combines with the two above-mentioned corner elements. For example, the corner element 1-1 (Figures 2a, 2b) connects to both the plane plane and the parallel wall element 2-1 to form a pair 1 and to the underlying crossing wall element 2-2. All sections 1-1, 1-2, 2-1, 2-2 of the resulting corner joint assembly 10 are in the same plane, forming a single log layer of intersecting walls at the corner of the log building.

The above description applies only to forming one corner of the building. It is quite obvious that, for example, for the construction of a rectangular house, the above composite structure may consist, in addition to the wall element, of a plurality of corner elements such that the corner elements are attached to each end of the wall element.

It will also be apparent to those skilled in the art that the terms "below" and / or "above" are exemplary in this context. associating attributes with reference numbers is random. However, it is preferred that when stacking the logs, a particular corner and wall element combination structure overlaps with the corner and wall element combination structure below.

The cavity 31 and the protrusion 41 of each corner cavity 1-1, 1-2 of the corner joint assembly 10 and the protuberance 41 are provided in this embodiment. in a corner element adjacent to one another, facing a surface facing the interior of the building (Figure 2b). The projection 42 of each of the wall elements 2-1, 2-2 is arranged in the respective wall element. as opposed to a recess 31 of a corner element corresponding to the outer end of the wall element, parallel and parallel. The cavity 32 (Fig. 2b) of each wall element is located in the respective wall element. on the exterior surface of the wall element of the building. In this way, the cavity 32 of the wall element acts as opposed to the corner element of the intersecting wall, receiving the corresponding element. a cavity 31 of each corner element 1-1, 1-2 in the corner joint 10 is arranged to be compatible with a protrusion 42 in a parallel and planar wall element 2-1, 2-2; and the projection 41 of each corner element is arranged to be compatible with the recess 32 of the intersecting overlapping wall element.

Referring to Figures 2a-d, both the corner elements 1-1, 1-2 and the wall elements 2-1, 2- 2 have an upper surface 3 opposed to a lower surface. The upper surface 3 of each of the above-mentioned elements is preferably dimensioned to comprise sealing or auxiliary locking means, such as raised edge areas 4 on the upper surface 3 of each of said elements, at least two relative to each upper surface 3 of the corner and / or wall elements. It will be apparent to one skilled in the art that to form a log wall, the logs are stacked in layers so that the lower surface of the upper log in the wall is positioned against the upper surface of the lower log. Therefore, for example, sealing grooves (not shown), which are dimensioned to receive edge regions 4 of the corner joint portions of the lower layer, are preferably provided on the underside of said corner and wall elements. The terms "upper" and "lower" are used herein to indicate surfaces of both corner and wall elements. which surfaces are in direct contact with each other when stacking log layers.

The end of each wall element 2-1, 2-2 of the corner joint 10 is further dimensioned to receive the transverse end of the cross element, so that, viewed from above, these elements also include a recess 5 (Figures 2a-2d). By means of said sealing / auxiliary locking means 3, 4 and 5, the corner and wall elements included in the corner joint are held together when assembling the corner joint assembly 10. Corner and wall elements in the lower log layer receive corner and wall elements of the upper log layer by means of said locking means 31, 32, 41, 42 and sealing means 3, 4, 5.

Figures 2c and 2d illustrate, by way of example, a pair of matching and wall elements (1-1, 2-1; pair 1) for another pair (1-2, 2-2; pair 2) of corner and intersecting wall elements, forming a corner joint 10. The upper pair 1 (1-1, 2-1) is slid onto the lower pair 2 (1-2, 2-2) so that the recesses 31, 32 and the projections 41, 42 are joined and locked together as described above. thus forming a corner joint 10. Said locking can be, for example, a lock known as salmon tail, whereby the protrusions 41, 42 of both corner and wall elements expand outwards. The locking can be implemented and the locking elements accordingly dimensioned according to any other suitable locking method.

In the assembly of the corner joints 10, the recesses 31 and the projection 41 of each corner element 1-1, 1-2 are arranged in the respective corner. a corner element on the surface facing the inside of the building (plus sign, Figures 2a-d), whereby a cavity 32 and a projection 42 of each wall element 2-1, 2-2 are arranged in said housing. surfaces of the wall element facing the outside of the building (minus sign, Figures 2a-d), such that the projection 42 of each wall element 2-1, 2-2 is located in said wall element. a wall element at a perpendicular end, and a cavity 32 of each wall element is located at said end. on the outside of the wall element (minus sign, Figures 2a-d).

Referring now to Figure 5a, the corner elements 1-1, 1-2 of the preferred embodiment of the joint 10 are illustrated. Each corner element 1-1, 1-2 of said corner joint 10 thus comprises, in addition to a protrusion 41, a recess 31 formed by a cut surface facing the interior of the building of the block corner element 1-1, 1-2. The section 31 extends in the transverse section direction through most of the corner elements 1-1, 1-2, terminating near the top surface 3 and forming a closed end. Fig. 5a also shows the angular element 1-1, 1-2 of the preferred embodiment 10 in a three-dimensional form (lower row), in detail. In such a way that the recess 31 of each corner element 1-1, 1-2 is arranged in this manner. without piercing the upper surface 3, the corner element 1-1, 1-2 appears from above as an intact piece (Figures le, 2b, 5a). The cavity 31, as well as the receiving of the protrusion 42 into that cavity, are indicated by dashed lines in said figures.

The sealed recesses 31 of the corner elements 1-1, 1-2 of the preferred embodiment and the protrusions 42 of the wall elements 2-1, 2-2 ending in the recess may be dimensioned for the salmon tail locking method mentioned above (Figs. 1, 2). Here, the locking between the corner element cavity 31 and the wall element protrusion 42 is similar to the locking formed by the corner element protrusion 41 and the wall element cavity 32. To provide a tight, rigid and dimensionally accurate connection, the cavity 31 and the corresponding wall element projection 42 may be dimensioned, for example, in an arcuate configuration (Figs. 2c, 2d). However, the construction of the angular joint 10 according to the preferred embodiment is not limited to the locking examples described above, provided that said end shape of the cavity 31 is retained.

Figures 3 and 4 show another embodiment of a corner joint 10 according to the present invention. In another embodiment, the corner joint 10 (Figs. 3a, 3b) is substantially equivalent to the corner joint of the preferred embodiment. Ko. a corner joint consists of corner and wall elements interconnected as described above. In order to avoid repetition, the description of the details of the corner joint of Figures 3 and 4 is not provided herein.

Instead, Figures 4b and 5b illustrate only the details in which the corner joint 10 (Figures 3, 4, 5b) of another embodiment differs from the corner joint 10 (Figures 1, 2, 5a) of the preferred embodiment.

As shown in Fig. 5b, each corner element 1-1, 1-2 of the second embodiment of the embodiment 10 comprises a protrusion 41 and a cavity 31a formed by a cut surface facing the interior of the piece of corner element 1-1, 1-2. Compared to the cavity 31 of the corner elements according to Fig. 5a, said cavity 31a passes transversely through the entire corner element 1-1, 1-2, passing through its upper and lower surfaces. Thus, a notch-shaped groove 3a is formed in the upper surface 3, which can be seen from above.

The "through" recesses 31a of the corner elements 1-1, 1-2 of the corner joint according to another embodiment and the projections 42 of the wall elements 2-1, 2-2 ending in that recess may be dimensioned in the manner described above for salmon tail locking or in any other suitable manner.

The solution of Fig. 3, 4 and 5b having a "through" corner element cavity may be easier and faster to implement, for example by machining, so it is advantageously applicable, for example, to the construction of temporary residences or any advantageous buildings. The corner joint solution (Figures 1, 2, 5a) of the preferred embodiment can provide a very tight, non-torsional and rigid corner joint, making it particularly suitable for the construction of, for example, small houses and / or long-term dwellings.

It is also an object of the invention to provide a method of joining log elements of various thicknesses to form a corner joint 10. The angular joint 10 thus comprises at least the following steps: a) providing the most intersecting wall wall elements 2-1 and 2-2 and the corresponding corner elements 1-1 and 1-2; b) connecting each of the crossing wall wall elements 2-1, 2-2 to the corresponding parallel corner element 1-1, 1-2 so that the projection 42 at the end of the wall element ends in a recess 31, 31a of the corner element to form continuous composite corner walls of the building 1, 2; c) the atomic overlap of the continuous composite structures obtained in the previous step 1, 2 to form a corner joint assembly 10 of the building where the wall elements 2-1, 2-2 intersect such that recesses 31, 31a of each corner element 1-1, 1-2 receive a parallel and parallel wall wall element 42 and the projection 41 of each of the corner elements terminates in a intersecting recess 32 in the lower wall element.

It is also an object of the invention to provide a log building whose corner joints are corner joints 10 according to one embodiment. The log building may be any single-family house, such as a detached or leisure building. It is essential that the corner joint 10 according to the invention provide a log wall structure whose corners look outward as if they were made of massive logs and on which any additional insulating layer or additional insulating body can be inserted.

It will be obvious to a person skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments are thus not limited to the examples described above, but may vary within the scope of the claims.

Claims (10)

1. A hammer knot (10) for timber buildings, which hammer knot consists of stacked on top of each other, in a corner of the building intersecting wall elements (2-1, 2-2), and of corner elements (1-1, 1-2), in which the hammer knot (10) wherein each of the corner elements (1-1, 1-2) is arranged to interconnect two stacked, mutually stacked wall elements (2-1, 2-2) in the building by means of locking means (31, 3a, 41, 32, 42), characterized in that the thickness of the housing elements (1-1, 1-2) is at least one and a half times the thickness of the corresponding wall elements (2-1, 2-2), and wherein each of the corner elements (1-1, 1-2) and each of the wall elements (2-1, 2-2) has a plurality of locking means, such as recesses (31, 31a, 32) and projections (41). , 42), wherein the recess (31, 3a) in both corner elements is arranged to fit with a projection (42) on a parallel and in the same plane wall element, and the projection (41) on both corner elements is arranged to fit with a recess (32) in an intersecting, stacked wall element. A corner knot (10) according to claim 1, in which each of the corner elements (1-1, 1-2) is arranged as an extension of a parallel wall element (2-1, 2-2), wherein this combination of a home elements and a wall element form a continuous combination construction (1, 2) parallel to the building's wall line. A corner knot (10) according to any one of the preceding claims, in which the corner element (1-1, 1-2), which is connected to a wall element / wall element (2-1, 2-2), extends to the outside of the building line . A hem knot (10) according to any one of the preceding claims, in which the recess (31, 31a) and the projection (41) of both hem elements (1-1, 1-2) are arranged on the surface of said hem elements facing the inside of the building; and in which the recess (32) and the projection (42) of both wall elements (2-1, 2-2) are arranged on the surfaces of the respective wall elements facing the exterior of the building so that the projection (42) is located in the the end of the wall element and the recess (32) are located in the side of the wall element in question which is directed towards the outside of the building. A corner knot (10) according to any one of the preceding claims, wherein each of the wall elements (2-1, 2-2) is dimensioned to be in the longitudinal cross-sectional direction a mirror image of the intersecting wall element (2-2, 2-1). ), and in which each of the home elements (1-1, 1-2) connected to the above-mentioned wall elements is dimensioned to be a mirror image of the home element (1-2, 1-1) in the longitudinal cross-sectional direction. which is connected to the intersecting wall element. A corner knot (10) according to any one of the preceding claims, in which each of the corner elements (1-1, 1-2) has a recess (31) cut into the surface of the corner element in question directed towards the building's interior, which recess (31) in the cross-sectional direction runs through most of the housing element (1-1, 1-2) and leads to the proximity of its upper surface and forms a closed end. A corner knot (10) according to any one of the preceding claims 1 - 6, in which each of the corner elements (1-1, 1-2) has a recess (31a) cut into the surface of said corner element which is directed. towards the building's interior, which recess (31a) in the cross-sectional direction runs through the entire housing element (1-1, 1-2) and penetrates its upper and lower surfaces. 8. A corner knot (10) according to any one of the preceding claims, whose corner element (1-1, 1-2) consists of timber with a thickness of 120 - 200 mm and whose wall element (2-1, 2-2) consists of timber with a thickness of 45 - 180 mm. 9. A method of bonding building timbers of different thicknesses to create a hem knot according to claims 1-9, characterized in that the hem knot (10) is created according to at least the following steps: - wall elements (2-1, 2-2) are produced, which are parallel to the building's intersecting walls, and corresponding corner elements (1-1, 1-2); - each of the wall elements (2-1, 2-2) is connected to its corresponding corner element (1-1, 1-2) such that a projection (42) on the end of the wall element is inserted into a recess (31, 31a) in a parallel housing element to form paired, continuous, parallel building constructions (1,2) with the intersecting walls of the building; - the paired, coherent combination constructions (1, 2) obtained in the previous step are stacked one above the other to create a hem that is in line with the intersecting walls of the building, in which heme said combination constructions (1, 2) intersect so that the projection (41 ) on the corner element (1-1, 1-2) of the respective combination structure is inserted into the recess (32) in the wall element of the intersecting combination structure below. 10. A timber building whose corner knots are made up of hem knots (10) according to any one of claims 1-9.