DE2910526A1 - Dry stacked wall building blocks - have stepped sections with different overlap for two wall thicknesses - Google Patents

Abstract

Artifical stones, with double I or T plan shape and vertical hollows, and/or half hollows, inside, are used as building blocks. they are piled dry on top of each other for rapid building. When stacked the stepped cross-section of the blocks provides full wall thicknesses with partial overlap, or 60% wall thickness with full overlap. The serrated edges of the blocks permit sacking without mortar while retaining adequate structural stability. Load bearing columns can be filled with concrete as required for bonding.

Description

Stacking block as a quick building block

The invention relates to a dry stackable quick-release building block.

The purpose of the invention is to create walls using the rapid construction method with the help of a time-saving dry stackable quick-release building block.

It is known to dry stone walling from simple natural or man-made To produce stones that are either made of solid blocks (Siporex or Ytong), or from hollow bodies (e.g. Isospan), which are poured with concrete after being moved will.

Walls are made of solid stone using the stacking method statically weak against horizontal force attacks (earth pressure, etc.). Those from hollow bodies that are filled with concrete, in turn, solutions result that do not meet modern thermal engineering standards.

z B: 11k = 0.2 + o, o5 / o, oT x 2 + 0.14 / 1.5 = 1.72; so k = 0.58 at 24 cm walls for Ytong = 0.2 + 0.214 / 0.17 = 1.61; k = 0.62 fl "" to 1? Furthermore Due to existing formats, only walls in stone thickness, i.e. 30 or 24 'can be used -of walls are made.

The purpose of the invention is to develop a stone that is dry stackable with one and the same format thanks to its structural design, Execute two different wall thicknesses, using steel inserts for concrete filling in economy construction partly for example resists earth pressure, partly large vertical loads can take over, as well as in its basic version or in large format for Edging of concrete floor plsts can be used, as well as for creation of concrete wreaths in the area of the slab support of concrete or concrete slab ceilings.

In 'giant format', this stone is intended to be used as a concrete element for Can find retaining walls against high earth pressure.

This goal is achieved according to the invention in that artificially Bricks made from any material are used in their floor plan Zwelfach -I- (double-T) - shaped inside vertically continuous cavities or have hollow halves, which thanks to their step-shaped cross-section either with partial coverage full wall thickness, or with full coverage 60% Solid wall thickness, and thanks to their interlocking, mortar-free in the bond, i.e. dry Can be stacked, with the final composite, if necessary, through Filling in part or all of the wall created by the right bandage vertical hollow columns with optional reinforcements that meet the requirements Concrete grades takes place.

Giant formats are used as a concrete element for retaining walls of the same stone used.

An example of the invention is shown in the drawings, and is described in more detail below. It shows fig la the stone (l) in the soffit, fig lb in the view half from the front, half from the back, fig lc in the Top view, fig ld in section for normal format, fig le in section for large format as well as matching liver elevation lining pieces (2) in fig. lf u Ig with half the height of rise.

The fig Ih u 11 represent cover plates for the production of concrete wreaths and / or lintels, etc.

fig 2 a, b, c and d show the approximately 60% wall with its stone associations.

fig 3 a and b show the solid wall with its stone associations.

fig 4 shows a single foundation with a frame (formwork) Stones with a thickness of 60% wall fig 5 a, b, and c show the application of the Stones (l) and the lining pieces (2) for the production of strip foundations and as an edging (Schalun) for concrete floor slabs.

fig 6 shows the transition from the solid wall to the 60% wall in the area the lower edge of the basement ceiling (3) with insulation (4), air layer (5) and facade brick (6).

Fig. 7 shows the use in giant format as a retaining wall in section.

Description: A double double T-shaped artificial stone (l) according to the required requirements of optional material with external carrying and viewing surfaces (7), intermediate webs (8), cavities (9) and connecting slits Oì is in the The cross-section is stepped with a height ratio of 1: 2 and is groove-like Serrations (ll) provided so that this stone is reversed with its peers Location in 2 different ways (see fig ld and le) once to a so-called Solid wall (fig le) and once can be put together to form a 6o show wall.

Links made of e.g. plastic or A allow immovability if necessary of stones in connection with a high offset accuracy between different Layers just like them - the connecting links (14) - the spatial separation of the vertical Hollow columns (9) guarantee each other when the tongues (15) on the webs (8) of the Stones (l) are missing. Notches (12) in conjunction with the slots (10) make it easier dividing these stones into exact quarters, half and three quarters. The fig 2 makes in connection with fig. 4, 5 and 6 it is clear that every complete stone layer is always formed from 2 rows of stones coupled to one another. A row of stones alone is imperfect, i.e. half. In fig 2 is the position of the associated rule stone the 2nd row of a stone layer shown hatched. In fig 3 a and b is this information is not necessary because the stone layers of both rows of one layer are clearly visible become visible side by side. The associated dressing of the layer above the fig 3 a is shown in fig 3 b. Fig. 4 shows 2 individual foundations of different heights each half in section with a 'formwork' made of stacked stones (l) and Lining stones (2).

In this case, as with the foundations in fig 5, the Cavities (93 of the 'formwork' are first filled with concrete so that the 'formwork' is sufficient To give imprisonment. A reinforcement of the foundations is shown schematically for clarification to show that the formwork ring is also used to transfer the load can be. The fig 5 shows in section the applicability of the Ste.netll for the easy creation of strip foundations under e.g. concrete floor slabs (13, as well as the lateral edging of base plates (13) by stones (i) here in large format. Above that is the example of a basement exterior wall in connection with the foundation ascending connecting iron to any necessary reinforcement of the walls. The fig 6 shows the transition from the solid wall to a wall in the area of the lower edge Basement ceiling (3) with insulation (14) 'LuStschicht (51 and facade brick (6). Pipes (16) For lines of all kinds, the cavities (9) of the stones (l) and these can be used associated rule associations according to fig. 2 and fig. 3 stacked in the walls with advantage therefore make the creation of slots superfluous. For the production of concrete wreaths as a ceiling support, the last layer is under a ceiling with Filled with concrete, hollow columns (9) not to be filled with thin plates of the specified Formats according to fig 1 h and 1 i covered. Window lintels are fixed with the help of lining (2l with recesses (17) incorporated into the walls for lintel reinforcement. (These Falls must be supported while the concrete is setting). The fig 7 shows an embodiment of the stones (1) in giant format as a retaining wall. The great Weight of the filled earth masses (193 prevents shifting or sliding.

Drainage pipes (20) in the foot of the bluer ensure drainage. Brick (6) with an air layer (5) serve as an example of a facade treatment. Fill concrete (21) is shown with hatching.

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Claims (1)

Patent claims: `` .tackste. r as a dry stackable quick-release building block, characterized in that artificial from optional according to the requirements The stones made of the material are used twice in their C-round crack I- (double-T) -shaped in their interior vertically continuous cavities and / or egg cavity halves show which, thanks to their stepped cross-section, are stacked with their own kind in the opposite direction either with partial coverage of full wall thicknesses, or with full coverage, wall thicknesses in stone thickness equal to about 60% of the solid wall thickness and thanks to their interlocking in the association mortar-free, i.e. dry, stacked the final composite, if necessary, by filling in a part or all vertical hollow columns created in the wall by the standard bracing takes place with optional reinforced concrete qualities that meet the requirements; 2) stacking stone according to claim 1, characterized in that to achieve a Stone layer according to the rules of architecture with stones basically two Rows of stones used coupled with one another belong to one another in a stone bond lying in cross-section form a rectangle, the width of the wall thickness, and the Height corresponding to a layer of stone; 3) stacking stone according to claim 1 - 2, characterized characterized in that to improve the association between dry superimposed Layers of stone as well as to increase the accuracy when stacking links out For example, plastic can be used that is incorporated into the between the webs of the stones Slots are inserted; 4) stacking stone according to claim 1 - 3, characterized in that that for the purpose of achieving a constructive stone bond as well as increasing it the load-bearing capacity of the walls in a solid wall is only every second, third or fourth HohlsälSe needs to be filled with load-bearing concrete material, thereby simultaneously a high thermal insulation is maintained; this also applies in a figurative sense to the stone-thick wall with a thickness of around 60% of a solid wall, its thermal insulation however, it is constructed differently; 5) stacking stone according to claim 1 -characterized that in the area of residential floors at the latest from the ceiling support below to a general tapering of the outer walls to stone thickness equal to about 60% of the Solid wall thickness can be done by changing the way the stones are stacked, thus constructive, since the inner wall surfaces of both wall thicknesses are perpendicular to each other stand, on the outside above the solid wall space becomes free for e.g. a brick facade plus air layer plus thermal insulation made of high-quality insulating materials, so that the k-value can be lowered to 0.3 for a 30 cm outer wall; 6) stacking stone according to claim 1 - 5, characterized in that in the area of the ceiling support with the help of thin cover plates made of e.g. plastic for the vertical hollow columns, which should not be filled, concrete wreaths worked into the stone layers can be, in the case of a desired reinforcement on the use of Stones (l) or lining stones (2) with incorporated grooves according to fig 1 d, e, f, g, h, i is referred; 7) stacking stone according to claim 1 - 6, characterized in that for the production of window lintels the stones (1) and lining stones (2) with grooves should be used for reinforcement. The underside of the stones to be filled in must be switched on in this case; 8) stacking stone according to claim 1 - 7, characterized characterized that Rog pipes of all kinds are set in the vertical hollow columns and, depending on requirements, can be isolated or set in concrete. Horizontal lines are advantageously incorporated with the help of lining stones (2) or stones (l) Grooves laid; 9) stacking stone according to claim 1 - 8, characterized in that Stones precisely offset for the production of the edging of concrete floor slabs (l) especially in large format applications, and filled with concrete, a strong one in the construction stage Surrender. The concrete slabs can then be placed on the upper edges the stones (l) are removed; 10) stacking stone according to claim. 1 - 9, characterized in that that strip fundan duck can easily be moved with the help of stones (1) at large widths, can be made with lining stones (2) for small widths under concrete floor slabs; see fig 5 a and b; u) stacking stone according to claim 1 - 10, characterized in that that single foundations easily with Eilfe of stacking stones, which after stacking with Concrete can be filled, manufactured; 12) stacking stone according to claim 1 - 11, characterized in that giant-sized stones are stacked in a bond Excellent for the construction of retaining walls. The filled big ones Thanks to their weight, earth masses generate sufficient supporting force for many purposes. Drainage pipes laid over the floor slabs prevent the accumulation of large amounts of water. The visible surfaces of such retaining walls can be covered with any facade material Enclosure of a layer of air can be disguised.