SE525536C2 - Building blocks - Google Patents

Abstract

A building block (10) for the erection of walls, said building block being formed substantially as a rectangular parallelepiped having a top side (11), a bottom side (12) opposite the top side, a first gable side and a second gable side opposite the first gable side, wherein said top side is provided with a longitudinal recess (16) and said bottom side is provided with a longitudinal ridge (13, 14) corresponding to the recess. The width of the ridge (13, 14) corresponds to the width of the recess (16). Additionally, the ridge is divided into a first ridge portion (13) extending from the first gable side, and a second ridge portion (14) arranged at a distance from the first ridge portion and at a distance from the second gable side, wherein the length of the second ridge portion corresponds to the width of the recess so that the second ridge portion of an upper building block totally can be received in a lower building block arranged at least perpendicular to the upper building block.

Description

A disadvantage of the building blocks described in SE508736 is that mobility is allowed between the building blocks in the transverse direction. For this reason, among other things, it is therefore necessary to utilize the use gutters and achieve a permanent position between the building blocks.

THE INVENTION l SUMMARY An object of the invention is to eliminate the above-mentioned shortcomings and disadvantages. The purpose is achieved by the building block being made with a ridge and opposite spamming, whereby the width of the ridge is adapted to the width of the spamming. In addition, the ridge is interrupted in at least one first ridge portion emanating from the first gable side and a second ridge portion arranged at a distance from the first ridge portion and at a distance from the second gable side, the length and location of the second ridge portion being adapted to the width of the spamming, so that the second the ridge portion of an upper building block can be completely accommodated in a lower building block arranged at a right angle to the upper building block.

When stacking the building blocks on top of each other, locking in the transverse direction is achieved completely without joint compound or other joining material. Wd stacking in a corner, the building blocks will completely lock each other. Building blocks of different widths may occur. Due to the fact that joining materials do not need to be used, building structures can be erected and dismantled very quickly. This possibility can be used e.g. as emergency housing or other types of simpler housing need to become available quickly.

Suitably, both ridge and spasm run centrally in the upper side and lower side between the gable sides. An advantage of such an embodiment is that the building blocks can be turned 180 ° and still be stacked while maintaining the correct lateral position. in the lead version according to the invention, the spamming is performed with a depth that exceeds the height of the ridge. This leaves a free space between the bottom of the spamming and the ridge, when two building blocks are stacked on top of each other. The free space can be used for laying conduits and other types of connections. In applications where cohesive material 10 15 20 25 30 525 536 3 is used, this can also be arranged together with any arrangement in the free space.

The length of the first ridge portion and the second ridge portion can be selected in different combinations to achieve different construction forms. In one embodiment, the lengths are selected so that the sum of the distance between the first ridge portion and the second ridge portion, the length of the second ridge portion and the distance between the second ridge portion and the adjacent end face is constant, independent of the building block width. In this embodiment, building blocks of other widths can be stacked at right angles from a wall of standard building blocks while maintaining an effective locking. In another embodiment, the lengths are selected so that a sum of the distance between the first ridge portion and the second ridge portion, the length of the second ridge portion and the distance between the second ridge portion and the adjacent gable side is equal to the width of the building block. In this embodiment, building blocks of a certain width can be stacked in different configurations while maintaining an effective locking.

It happens that building blocks for walls and other building structures are stacked mechanically. To facilitate such mechanical stacking, at least one end side can be made with a recess or recess, which runs in the direction from the top to the bottom. By making only one end face in this way, the sides in a corner of stacked building blocks can become completely smooth. The ridge can be designed to taper slightly in the direction from the underside of the building block. This facilitates the positioning of one building block on another, as the axis will be guided into the recess. In some applications, it may be desirable for the bottom layer of a building structure to be flat. This can be achieved by making building blocks intended for the bottom layer completely without a ridge and thereby having a flat underside.

Within the framework of the invention, the building blocks can be made of different materials with different prominent properties. A suitable material is lightweight clinker concrete, which includes balls of lightweight clinker material. The balls are bonded together of cement or similar material. With lightweight tiles, walls can be built that are both load-bearing and insulating. Even so-called lightweight concrete can be used as a construction material.

Lightweight concrete has a good load-bearing function, but under certain conditions has a poorer insulating function. If good insulating function is to be achieved, without requirements for load-bearing capacity, different types of cellular plastic can be used. All the materials listed above can be cast or machined to the desired shape.

Other embodiments appear from the following detailed description, patent claims and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in more detail in various embodiments with reference to the accompanying drawings. The following drawings are included in the application.

Fig. 1 is a perspective view obliquely from below of an embodiment of a building block in accordance with the invention.

Fig. 2 is a perspective view obliquely from below of the building block in Figs. 1 from an alternative angle.

Fig. 3 is a bottom plan view of an alternative design of a building block in accordance with the invention.

Fig. 4 is a plan view from a short side of the building block in Fig. 1.

Fig. 5 is a perspective view of a part of a corner of stacked building blocks made in accordance with Fig. 1.

Fig. 6 is a schematic bottom view of a building block of standard width in accordance with the invention.

Fig. 7 ant of standard width in accordance with the invention. is a schematic bottom view of a building block of a first variant. Fig. 8 is a schematic bottom view of a building block of a second variant of standard width in accordance with the invention. 10 15 20 25 30 525 536 5 Fig. 9 is a schematic bottom view of an alternative configuration of a building block in accordance with the invention.

Fig. 10 is a schematic bottom view of another alternative configuration of a building block in accordance with the invention.

Fig. 11 is a plan view from above of two building blocks stacked on each other at right angles made in accordance with Fig. 1.

Fig. 12 is a plan view from below of two building blocks stacked at an oblique angle to each other in an alternative design in accordance with the invention.

THE INVENTION The embodiment of a building block 10 according to the invention shown in Fig. 1 is in the form of a straight block with a rectangular upper side 11 (not visible) and an opposite rectangular lower side 12. The upper side and the lower side are connected by two opposite short sides and two opposite long sides. The building block in Fig. 1 is shown upside down in relation to the intended use.

An elongate ridge is formed on the underside, which is divided into a first ridge portion 13 and a second ridge portion 14. The first ridge portion 13 starts from a first short side and the second ridge portion 14 lies freely between the first ridge portion 13 and the second short side. In the embodiment shown, a recess 15 is made in the first short side, which runs over the entire short side from top to bottom. In other embodiments not shown, the recess extends only over a part of the short side. The function of the recess is primarily to facilitate the mechanical stacking of the building block.

On the upper side 11, an elongate recess 16 runs between the short sides (see also Fig. 4 and Fig. 5). The original spam has a width that corresponds to the width of the ridge sections. In the embodiment shown, both ridge sections and recesses run centrally over the underside and upper side, respectively. A Fig. 2 shows the same building block as Fig. 1, but from a different angle.

The first ridge portion 13 and the second ridge portion 14 protrude from the underside 12 of the building block 12.

F ig. 3 shows an embodiment of the location of the first ridge section 13 and the second ridge section 14 on the underside 12 of the building block. Preferably, the ridge sections are arranged centrally on the underside, but other embodiments may also occur. The second ridge portion 14 is arranged at such a distance from the first ridge portion 13 and the nearest side edge, respectively, that a second building block arranged at right angles will completely occupy the second ridge portion 14 in its recess 16 (see also Fig. 11 and Fig. 12). As can be seen from Fig. 3, the recess 15 can be made with bevelled or oblique side edges. The design of the recess is suitably chosen with regard to how the machine used for stacking is designed.

Preferably, the building blocks are designed as straight blocks with length I and width w. Depending on the application and material, the dimensions can vary greatly. led design is I = 600 mm and w = 400 mm. The dimensions of the building block can be varied relatively freely within the framework of the strength of the material.

Fig. 4 clearly shows how the spamming .16 and the second ridge portion 14 are arranged centrally in the building block 10. The upper side 11 and the lower side 12 are otherwise made completely flat so that building blocks stacked on top of each other will have a good abutment against each other. The original spam has a depth d. Preferably d = 40 mm; or in the same size probe, e.g. in the range of 30 to 60 mm. The ridge sections 13, 14 have a height h. Preferably h = 15 mm, if d = 40 mm and a space is to remain between the bottom of the recess and the top of the ridge sections. The depth of the spamming and the height of the ridge may vary with the current application.

Fig. 5 shows how building blocks made in accordance with the invention can be stacked to the corner. Preferably, the building blocks that end up at the far end of the height are laid with the recess 15 facing inwards. Thereby a completely smooth outside of the wall is achieved. The recess 16 runs along the entire building block and is deep enough for wires to be drawn in it, even when the ridge portions of an overlying block are accommodated therein.

Fig. 6 - Fig. 8 shows a first system of building blocks made in accordance with the invention. F ig. 6 shows a standard dimension, where the width 10 15 20 25 30 525 536 7 w = W1 and the length I = L. Furthermore, the sum of the distance between the first ridge portion 13 and the second ridge portion 14, the length of the second ridge portion 14 and the distance between the second ridge portion 14 and adjacent short side equal to D.

The second ridge portion 14 is arranged centrally in an area between the first ridge portion 13 and the nearest short side.

In the embodiment according to Fig. 7, the width has been reduced to W2, while the distance D remains constant. The location of the second ridge portion 14 also remains unchanged. In the embodiment according to Fig. 8, the width has been further reduced to W3, while the distance D remains constant. The location of the second ridge portion 14 also remains unchanged. The different building blocks included in the first system can all be combined with the standard dimension, when the building blocks are stacked in T-shape or L-shape with a connecting wall part at right angles to a first wall part. In all cases, L = D + the length of the first ridge section 13.

According to a second system of building blocks, shown in Fig. 9 and Fig. 10, different groups of building blocks with different widths can be combined with each other within a group. In the embodiment according to Fig. 9, the width has been reduced to W4, whereby at the same time the distance between the first ridge portion 13 and the second ridge portion 14, the length of the second ridge portion 14 and the distance between the second ridge portion 14 and the adjacent short side has been reduced to V1. In accordance with this second system, W4 = V1 is also. For this embodiment it holds that L = V1 + the length of the first ridge section 13, which length is thus constant, independent of the length of the building block.

When further reducing the width to W5, the distance between the first ridge portion 13 and the second ridge portion 14, the length of the second ridge portion 14 and the distance between the second ridge portion 14 and the adjacent short side also decreases to V2, where W5 = V2. For this embodiment it holds that L = V2 + the length of the first ridge section 13, which length thus varies with the width of the building block and increases when the width decreases.

Fig. 11 schematically shows how two building blocks can be stacked on each other at right angles to each other. The first ridge portion 13 and the second ridge portion 14 of the upper building block shown in Fig. 11 are immersed in the recess 16 of the lower building block shown in Fig. 11. The two building blocks are placed 525 536 8 so that the short sides with the recesses 15 are turned in from the corner and thus not visible. In the embodiment shown in Fig. 12, a second type of building block 17 is provided with an exposed ridge portion 18, which, in contrast to the second ridge portion 14 described above, is made eight-sided. This enables the stacking of building blocks both at a right angle to each other and at an angle of 45 °. Both angular positions are indicated in Fig. 12 with dashed lines. The first ridge portion 13 can be designed in the same way as the embodiments described above.

Claims (12)

10 15 20 25 30 52 5 536 9 PATENT REQUIREMENTS Building blocks (10) for the construction of walls and walls designed essentially as a straight block with a top side (11), a top side opposite the bottom side (12), a first gable side and a second gable side opposite the second gable side, the top side being made with a longitudinal recess (16) and the underside is formed with a longitudinal ridge (13, 14) adapted to the recess, the width of the axis (13, 14) being adapted to the width of the recess (16), characterized by a hub. that the spamming (16) runs between the first end side and the second end side for longitudinal arbitrary receiving of the ridge and that the ridge is interrupted in at least one first ridge portion (13) emanating from the first end side and a distance from the first ridge portion and at a distance second ridge portion (14) arranged from the second gable side, the length of the second ridge portion being adapted to the width of the recess, so that the second ridge portion of an upper building block can be completely accommodated in a lower building block at least at right angles to the upper building block. Building block (10) according to claim 1, wherein the ridge (1,3, 14) and the recess (16) run centrally over the underside (12) and the upper side (11), respectively, in the direction from a gable side to the opposite gable side. Building block (10) according to claim 1, wherein the spamming (16) is made with a depth (d) which exceeds the height (h) of the ridge (13, 14), so that a free space is created between the ridge and the bottom. in the original spam, when two building blocks are placed on top of each other. A building block (10) according to claim 1, wherein a sum of the distance between the first ridge portion (13) and the second ridge portion (14), the length of the second ridge portion and the distance between the second ridge portion and adjacent gable side is constant , regardless of the width of the building block. AH p fl ætlßpßà OQ-æ-OS v fl t24 10 15 20 25 525 556 10 A building block (10) according to claim 1, wherein a sum of the distance between the first ridge portion (13) and the second ridge portion (14), the length of the second ridge portion and the distance between the second ridge portion and adjacent gable side is equal to the width of the building block. Building block (10) according to claim 1, wherein the ridge is tapered outwards. Building block (10) according to claim 1, wherein a recess (15) is made in a gable side between top and bottom for cooperation with a lifting tool. Building block (10) according to claim 7, wherein the countersunk (15) is made in the end side from which the first ridge portion originates. A building block (10) according to claim 1, wherein the building block comprises lightweight clinker. in A building block (10) according to claim 1, wherein the building block comprises lightweight concrete. A building block (10) according to claim 1, wherein the building block comprises cellular plastic. A building block (10) according to claim 1, wherein the second ridge portion (18) is formed in the form of a uniform eight-corner, so that the second ridge portion of an upper building block can be completely accommodated in one at a right angle to the upper building block and i45 ° arranged lower building block. Nip fl ípl fl ic M-Ü-N VIJÅ