CZ2004211A3 - Style, particularly for dry walling and anchor system for such a style - Google Patents

Abstract

The solution relates to the building system, especially to the dry system brickwork, where the building system contains building blocks vertical holes forming vertical channels in the wall, and through-folded anchoring elements fixed to the base buildings and passing through vertical channels. The essence is that that the building blocks (10) have on the horizontal interfaces surfaces formed in the longitudinal direction on its underside at least one prismatic groove (103) and at its upper side at least one prismatic tongue (104), wherein the contact surface is at least one prism surfaces only have horizontal and vertical surfaces, and simultaneously vertical openings (100) in the building blocks (10) are formed with a rectangular cross section, where at least one channel per two horizontally measured the wall, but at least one a vertical channel on one wall (1), an anchor is supported, supported on biasing at the top of this wall (1), at least one the anchor in each wall (1) always rests in the vertical channels at least the sides of the vertical channel, with the direction of abutment with the longitudinal direction of the wall (1). Next, the solution relates to anchor systems for this building system, where the essence lies in that the system consists of anchors in the form of at least vertical anchors anchor strings (2), where each vertical anchor string (2) consists of a base part (21), continuous parts (21) and an upper fixing part (21), wherein said parts (21) are formed from a blank, wherein the base (21) and the upper the fusing part (21) has continuous parts (21) at one end their surfaces are provided with teeth (211) s at both ends serrated profile, where the teeth of this sawtooth profile extending perpendicular to the longitudinal axis of the parts (21).

Description

Building system, especially for dry walling and anchoring system for this system

Technical field

The invention relates to drywall systems, wherein the individual building blocks consist without bonding with mortar or similar material, or where the wet bonding material is not the basic or predominant bonding element. It is also an anchoring system for fastening building blocks to one another and in particular for fastening to the foundation.

BACKGROUND OF THE INVENTION

At present, a large number of building systems are known in which building blocks are stacked together, provided with formations to improve the bond between the blocks and at the same time to precisely position the blocks to each other. Anchoring systems are also known in which the blocks are bound together horizontally, vertically, or even at an angle, by means of rods, ropes, or the like. These systems mainly solve the problem of strength, stability, easy and accurate assembly. However, the shape blocks used are either too complex and expensive, or at least relatively difficult to manufacture. Also, conventional anchoring systems either require special mounting conditions or tools, or the anchoring result is too dependent on the skill and care of the construction worker, or in other cases, such as connecting anchoring elements with threaded connections, the sensitivity of such anchors is disadvantageous. · ··· · · · · * · · · · · · · · «·« «« «« «« « • connections to pollution that cannot be prevented under construction and terrain conditions. There are even known joints where the parts to be joined weigh through their toothed parts, but such joints are formed, respectively. the toothed parts are housed in pre-fabricated bushings, such as the solution according to DE 10056887 or EP 0305198. However, such solutions are already more complex and therefore more expensive to manufacture. In addition, in the construction environment, especially under more temporary conditions, there is a risk of contamination of the sleeves with subsequent assembly difficulties.

SUMMARY OF THE INVENTION

These disadvantages are solved to a large extent by the drywall building system and anchoring system therein, wherein the building system comprises building blocks with vertical openings forming vertical channels in the wall after assembly, and through pleated anchors fixedly mounted in the foundation and passing vertical channels, the nature of which is that the building blocks have at least one prismatic groove in their longitudinal side on the horizontal contact surfaces and at least one prismatic tongue on their upper side, where the surface of the contact surfaces has only horizontal and vertical surfaces, and at the same time the vertical openings in the building blocks are formed with a rectangular cross-section, wherein in at least one vertical channel per two horizontally measured walls of the wall, but at least one vertical channel per wall, an anchor is supported. ales each of the anchors in each wall in the vertical channels is supported at least on the sides of the vertical channel, with a bearing direction coinciding with the longitudinal direction of the wall. It is preferred that the groove depth and tongue height are between 5 and 40% of the height of the building block. It is also advantageous if the height of the building block is in the ratio to its width in the ratio from 0.7: 1 to 1.4: 1. At the same time, it is advantageous if the cross-section of the vertical holes in the building block is square. Preferably, the width of the vertical apertures in the building block is in the range of 10 to 70% of the width of the building block. It is also advantageous if the vertical openings in the building block are aligned along the longitudinal axis of the building block and are formed from two to four in each block. It is particularly advantageous if the building blocks are made of two types of material, wherein the core of the building block is made of a lighter and / or cheaper material with less strength and at least a portion of the surface including the corners of the building block are: 44 44 44 4444

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44 44 4444 44 4 made of a more rigid material in relation to the core material. The building block is preferably made by a two-phase centrifugal casting method, with an axis of rotation at least in a direction coincident with the longitudinal axis of the building block. The essence of the anchoring system consists of anchors in the form of at least vertical anchoring chains, wherein each vertical anchoring chain consists of a base part, continuous parts and an upper fixation part, which parts are made of a strip blank, the base part and the upper fixing part They have at one end and the running parts have their surfaces at both ends treated with a sawtooth profile, where the teeth of this sawtooth profile extend perpendicular to the longitudinal axis of the parts. Preferably, each vertical anchoring chain is composed of a base part, a continuous part and an upper fixing part, such that the base part, with its lower part which is articulated, is fixed in the foundation of the building, the upper fixing part is fixed to the upper a plurality of building blocks, and / or to the building rim, and / or to the roof structure, the base part, the running parts and the upper fixation part being interconnected by lap and bent joints, where the sawtooth profiles fit each other within each finished joint. In the described anchor system, it is also preferred that at least four vertical anchor chains are prestressed in the mounted state by twisting at least one of the parts in each prestressed vertical anchor chain. Alternatively, it may be advantageous if at least four vertical anchor chains are pre-tensioned in the mounted state, always by means of a tensioning nut screwed onto a screw welded to the upper fixation part, in which the screw of the upper fixation part exceeds the tensioning nut by 0.5 to 2 times the height of this tension nut. Furthermore, it is advantageous if the anchor system comprises at least one horizontal anchoring chain in each wall, each horizontal anchoring chain consisting of two outer fixation parts and continuous parts, so that the first and second outer fixation parts are each an outer part provided with an anchoring head supported on the outer edge of the outer building block by this horizontal anchoring chain of the horizontal row of building blocks contracted, both of these outer fixation parts and other continuous parts of the horizontal anchoring chain interconnected by overlapping and folded joints saw-toothed profiles abut one another with their teeth. Alternatively, it may be advantageous if at least one horizontal anchor chain is prestressed in the mounted state by twisting at least one of the parts in each prestressed anchor chain. Finally, alternatively, it may be advantageous if at least one horizontal anchor chain is pre-tensioned in the mounted state, always by means of a tensioning nut. screwed onto the bolt welded to the end fixture, wherein in the retracted state the bolt of the end fixture overhangs the tension nut by 0.5 to 2 times the height of the tension nut.

This achieves the creation of a construction system that is inexpensive, technologically undemanding, both in terms of production and assembly. This makes it possible to build in makeshift conditions, mostly from the possibility to produce the blocks themselves on the spot, even with the saving of more expensive material. building blocks can be made with a lighter and cheaper core, but with a more durable surface, at least in the area of the corners, respectively. edges that are most vulnerable during assembly. The blocks are connected, or at least the gravity connection is supported, strengthened and secured by means of preferably vertical but also horizontal anchors, which can additionally be prepared, assembled and prestressed in place using the simplest tools such as pliers, sheet bender, vice, and so on. In primary gravity stacking blocks, taperless grooves and grooves are used, allowing less accurate manufacturing of these surfaces, with longitudinal displacements being achieved by pins and anchors. Depending on the height of the building and the seismic situation at the building site, the number of vertical or horizontal anchors can then be chosen in a wide range.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is further described and explained in more detail with the aid of the accompanying drawings, in which Fig. 1 is a vertical cross-section of a garage wall, Fig. 2 is the same wall, this time in side view with partial section, revealing a longitudinal anchor. 4 shows a detail of the connection of two parts of the anchor chain and finally FIG. 5 shows a side view of a building block in a vertical cross-section showing the position of the various materials from which it is formed; vertical anchor chain assembly.

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DETAILED DESCRIPTION OF THE INVENTION

A building system in this exemplary embodiment is illustrated in a garage building where a wall 1 is visible comprising building blocks 10 with vertical openings 100 forming vertical channels in the wall 1 after assembly, and in wall 1 there are visible interlocking anchoring elements 21 assembled in a row, fixed firmly at the bottom of the building, and passing through vertical channels. The building blocks 10 have one prismatic groove 103 in the longitudinal direction on their horizontal contact surfaces and a prismatic tongue 104 on their upper side, where the surface of the contact surfaces has only horizontal and vertical surfaces. The vertical openings 100 in the building blocks 10 are formed with a rectangular cross-section, where in each vertical channel on two horizontally measured wall walls, which means using three vertical channels for a wall length of 6 m, an anchor is always supported. The anchors in this and every other wall of the garage, for example, are always supported in the vertical channels by the sides of the vertical channel. The depth of the groove 103 and the height of the tongue 104 are between 5 and 40% of the height of the building block 10, and to create a horizontal channel the depth of the groove 103 is greater than the height of the tongue 104. The groove 103 is 30% of the height of the building block 10. Regarding the height of the building block 10, it is here to its width in a ratio of 1: 1. The cross-section of the vertical openings 100 in the building block 10 is square here, their width here is 20% of the width of the building block 10, and the vertical openings 100 in the building block 10 are aligned along the longitudinal axis of the building block. In some vertical openings 100 there are loosely mounted fixing pins 3 extending into two superimposed rows of building blocks 10. Building blocks 10 in this example are formed of two kinds of material, wherein the core 102 of building block 10 is made of lighter and cheaper material. of lower strength, in particular concrete of series 250 mixed with mother-of-pearl in a ratio of 1: 6, and surface-facing parts 101 comprising the corners of building block 10, are formed, in relation to the core material, 350 in a mixture of gravel and aggregate in a 4: 1 ratio. Such building blocks 10 are manufactured here by a two-phase centrifugal casting method, with an axis of rotation in a direction coincident with the longitudinal axis of these building blocks 10. The anchor system for the building system described herein is formed by anchors in the form of vertical and horizontal anchor chains 2 where each vertical anchor string 2 ·· ·· ·· ·· φφ φ · · · · · · · · · · · · · · · · · · · · · · · · · · · · Consists of a base part 21, a continuous part 21 and an upper fixing part 21, wherein these parts 21 are made of a strip blank, the base part 21, and the upper fixing portion 21 has at one end and the continuous portions 21 have their surfaces treated at both ends with a sawtooth toothing 211, wherein the teeth of this sawtooth profile extend perpendicular to the longitudinal axis of the parts 21. Each vertical joint Thus, the outer chain 2 is composed here of a base part 21, a continuous part 21 and an upper fixing part 21, so that the base part 21, with its lower part 212, which is designed as articulated, is fixed in the foundation of the building, the upper fixing part 21 is fastened to the top row of building blocks 10, but could also be fastened to the building rim and / or to the roof structure. The base part 21, the intermediate parts 21 and the upper fixing part 21 are interconnected by overlapping and folded joints 201, where, within each finished joint, sawtooth profiles rest with their teeth 211. The four vertical anchor chains 2 are prestressed here, in the assembled state, and by twisting one of the parts 21 in each of these pre-tensioned vertical anchoring chains 2. However, the vertical anchoring chains in the mounted state could also be prestressed by means of a tensioning nut screwed onto a screw welded to the upper fixing piece 213. in the retracted state, the bolt of the upper fixation piece 21 extends beyond the tension nut by 0.5 to 2 times the height of the tension nut, since some other portion, for example a roof or rim part, could be mounted on the overhanging portion of the screw. The anchoring system further comprises in each wall one horizontal anchoring chain 2, wherein each horizontal anchoring chain 2 is composed of two outer fixation parts 21 and continuous parts 21, so that the first and second outer fixation parts 21 are always their outer a horizontal row of building blocks 10 is supported on the outer edge of the outer building block 10 by the horizontal anchoring chain 2, both of the outer fixation parts 21 and the other continuous parts 21 of the horizontal anchor chain 2 are interconnected by overlapping and folded joints wherein the toothed profiles 21 abut each of the finished joints. The described horizontal anchor chain 2 is biased in the assembled state by twisting one of the parts 21 in this biased horizontal anchor chain 2. Alternatively, the at least one the straight anchoring chain 2 is pre-tensioned in the mounted state by means of a tensioning nut screwed onto the screw welded to the end fixation part 21, and in the retracted state it could advantageously extend the screw of the end fixation part 21 by 0.5 to 2 times · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · • The height of this tensioning nut. Such an overlapping bolt could again be usable for attaching other parts of the building, here on the front side for example it could be an attachment of fittings or doorframes for garage doors.

Function of the whole system, resp. it can then be assembled, also under provisional conditions, such that building blocks 10 are formed in a simple rotating device, which are manually folded into walls 1 and at the same time the pins 3 and parts 21 of the anchor chains 2 dominate. they are also easy to create on site using a simple tool or fixture. The pre-tensioning of the anchor chains 2 is also carried out, for example, by twisting the upper fixing piece 213 or the anchoring head 214. Thus, it can be carried out even in temporary conditions, virtually without the need for process water and with minimal material, tools and mechanization requirements. forces, simple buildings. At the same time, such structures will be sufficiently strong, including above-standard seismic resistance.

Economic usability

The device of the present invention is particularly useful for simpler buildings, particularly in less technologically equipped environments, such as buildings in developing countries, buildings in areas following natural disasters or war conflicts. However, it can also be used in developed countries, if at some time, place or situation it is current to carry out simpler self-help constructions, for example within the Renaissance movement, resp. style hobby, where the purpose is at the same time active leisure.

Claims (16)

PATENT CLAIMS A building system, in particular for dry walling, wherein the building system comprises building blocks with vertical openings forming vertical channels in the wall after assembly, and through pleated anchors fixed in the foundation and passing through vertical channels, characterized in that the building blocks (10) have at least one prismatic groove (103) at their underside on the horizontal contact faces and at least one prismatic tongue (104) on their upper side, wherein the contact surface has only horizontal and vertical surfaces and at the same time vertical the openings (100) in the building blocks (10) are formed with a rectangular cross-section where, in at least one vertical channel on two horizontally measured walls of the wall but in at least one vertical channel on one wall (1), at the top of said wall (1), wherein at least one anchor in each wall (1) is seamed In each case, it supports the channel at least on the sides of the vertical channel, with the bearing direction coinciding with the longitudinal direction of the wall (1). Construction system according to claim 1, characterized in that the depth of the groove (103) and the height of the tongue (104) are between 5 and 40% of the height of the building block (10). Construction system according to claim 1 and 2, characterized in that the height of the building block (10) is in a ratio of 0.7: 1 to 1.4: 1 in relation to its width. Building system according to one of Claims 1 to 3, characterized in that the cross-section of the vertical openings (100) in the building block (10) is square. · 99 99 99 9 999 9999 9 9,999 9 9 9 9 9 9 9 9,999,999 9,999 9 · 9 9 9999 999 99 99 99 99 99 99 99 Building system according to one of Claims 1 to 4, characterized in that the width of the vertical openings (100) in the building block (10) is between 10 and 70% of the width of the building block (10). Construction system according to claims 1 to 5, characterized in that the vertical openings (100) in the building block are aligned along the longitudinal axis of the building block (10) and are formed in the number of two to four in each building block (10). Building system according to one of Claims 1 to 6, characterized in that at least some of the vertical openings (100) are loosely fitted with fixing pins (3) extending into at least two superimposed rows of building blocks (10). Building system according to one of Claims 1 to 7, characterized in that the building blocks (10) are formed of two types of material, wherein the core (102) of the building block (10) consists of a lighter and / or cheaper material of lower strength and at least the surface-facing portions (103) including the corners of the building block (10) are formed, in relation to the core material (102), of a stronger material. Construction system according to claims 1 to 8, characterized in that the building block (10) is produced by a two-phase centrifugal casting method with an axis of rotation at least in a direction coincident with the longitudinal axis of the building block (10). Anchor system for a building system according to claims 1 to 9, characterized in that it comprises anchors in the form of at least vertical anchor chains (2), wherein each vertical anchor chain (2) consists of a base part (21), continuous parts (21) and an upper fixation part (21), wherein the parts (21) are made of a sheet blank, the base part (21) and the upper fixing part (21) having at one end and the continuous parts (21) having their surfaces treated at both ends sawtooth toothing (211), wherein the teeth of this sawtooth profile extend perpendicular to the longitudinal axis of the parts (21). φ φ · · φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φ φφ ΦΦΦΦ Anchor system according to claim 10, characterized in that each vertical anchor chain (2) is composed of a base part (21), a continuous part (21) and an upper fixing part (21), so that the base part (21), with its lower part (212), which is designed as articulated, is fixed to the foundation of the building, the upper fixing part (21) is fixed to the upper row of building blocks (10), and / or to the rim of the building, and / or a roof structure, the base part (21), the intermediate parts (21) and the upper fixing part (21) being interconnected by overlapping and folded joints (201), wherein sawtooth profiles (211) abut against each other within each finished joint (201) ). Anchor system according to claim 10 and 11, characterized in that at least four vertical anchor chains (2) are biased in the assembled state by twisting at least one of the parts (21) in each prestressed vertical anchor chain (2). Anchor system according to claims 10 and 11, characterized in that at least four vertical anchor chains (2) are pre-tensioned in the mounted state, in each case by means of a tensioning nut screwed onto a screw, welded to the upper fixing part (21), in the retracted condition, the bolt of the upper fixture (21) extends beyond the tension nut by 0.5 to 2 times the height of the tension nut. Anchor system according to claim 10, characterized in that it comprises at least one horizontal anchoring chain (2) in each wall (1), each horizontal anchoring chain (2) consisting of two extreme fixing parts (21) and continuous parts (21), so that the first and second end fixation parts (21) are each supported by their anchoring head (214) on the outer edge of the outer building block (10) by this horizontal anchoring chain (2) horizontal rows of building blocks (10), both of these outer fixation parts (21) and the other continuous parts (21) of the horizontal anchor chain (2) are interconnected by overlapping and folded joints (201), where within each finished joint (201) the saw-tooth profiles (211) abut one another. 49 94 44 94 ··· · - · 9 9 9 9 9 9 9 9 9 9 4 9 · · · * 9 · 9 «9 9 9 9 9 9 9 9 9 9 9 9 9 9 Anchor system according to claims 10 and 14, characterized in that the at least one horizontal anchor chain (2) is pre-tensioned in the mounted state by twisting at least one of the parts (21) in each prestressed horizontal anchor chain (2). Anchor system according to claims 10 and 14, characterized in that the at least one horizontal anchor chain (2) is pre-tensioned in the mounted state, in each case by means of a tensioning nut screwed onto a screw, welded to the extreme fixing part (21), in the retracted state, the screw of the outer fixing part (21) extends beyond the tension nut by 0.5 to 2 times the height of the tension nut.