DE1659120A1 - Hollow formwork blocks - Google Patents

Description

"Hollow shuttering block" The invention relates to a hollow shuttering block, the one on a support surface with a central and wide and flat groove and on its other support surface with a complementary spring and on one or on both end faces with an essentially symmetrical to the center line, vertically extending tongue and groove arrangement is provided, such that each end face Groove on the adjoining face of a directly adjacent stone on each side a spring is opposite. Formwork blocks are known per se and are mostly made of pumice concrete or other lightweight construction material. When erecting structures the shuttering blocks are placed on top of each other dry and filled with gravel concrete, which gives the actual strength of the masonry. The invention is based on the task of creating a formwork hollow block, which opposite the known formwork hollow blocks has improved properties. Included are in particular the following subtasks to be considered individually and in their entirety to solve: a) The stones should be created so that when creating the masonry inevitably a toothing is formed, so that even the non-specialist in horizontal and can build walls that are precisely aligned in the vertical direction; b) it should be continuous vertical filling shafts are formed, which are laterally connected to each other, so that it is no longer necessary to fill up each vertical hopper individually, but the filling of the cavities in the masonry formed by the filling shafts only needs to be done at a few positions, with a distribution of the Concrete in a lateral direction from hopper to hopper is possible; c) a Slipping of the stones when filling the shafts should be prevented; your Squeezing out of poured concrete on the face of colliding stones should be prevented; e) the cross bracing of neighboring stones in the horizontal direction after filling should be improved; f) the aspect ratio between the cavity and the space occupied by the walls of each stone is said to favor of the cavity can be improved after filling with concrete a firmer To preserve wall bond; g) the finished wall should have improved thermal insulation properties and have an increased pressure resistance.

To achieve the object on which the invention is based, a hollow block for formwork is used proposed, which is characterized in that the front wall and rear wall each Steines are connected to one another by at least one vertical transverse wall, the with a channel connecting the shafts on both sides of the transverse wall is provided, with each face of the stone that is in the finished wall bond another, facing stone comes, is open. Through the open front of the stone, the horizontal concrete connection between neighboring stones is opposite known designs with closed end faces significantly enlarged, whereby the stones are better connected to each other in a horizontal position. Since now the side walls closing off the end faces are omitted, a better one is also obtained Filling achieved with concrete, thereby increasing the strength properties of the masonry can be significantly improved. The stone according to the invention can be used overall the individual subtasks listed above in a simple and reliable manner to solve.

The invention is also based on the object of better adaptability the compressive stresses and heat transfer properties required for a roughing project to accomplish. The ones previously used for hollow blocks, for example relatively thick transverse walls or central webs have the compressive stresses and Thermal insulation values adversely affected. With the hollow blocks for formwork improved according to the invention larger concrete cross-sections can be achieved in the finished wall bond, which means higher compressive stresses can be absorbed. At the same time, for example make the outer shells thicker in lightweight concrete in order to achieve a high level of thermal resistance to reach. The invention is also based on the object of hollow formwork blocks Simplify production, warehousing, shipping and processing. For example, the formwork blocks used up to now have shortened corner connection blocks and half stones used. This resulted in production, storage and when shipping at higher costs, because of the different dimensions of each necessary stones each face different problems, for example with the Storage and shipping. So, for example, had to be the ones used so far Stones of different dimensions are stored separately in order to keep them in the further Processing always to hand. While stones are of the same dimensions or the same lengths after binding in a simple way of packaging and up to For example, having shipping treated mechanically requires different formwork blocks Length and size still relatively much manual work. To the thereby occurred Eliminating difficulties and increased costs, shuttering blocks according to the invention suggested that essentially only have a single length and which are integrated into the individual have the necessary partial stones split up.

As a result of the now given possibility, the formwork hollow blocks to subdivide to the required extent by means of the separating notches, can be a achieve better adaptation to given dimensions. Formwork blocks used so far assume that the building project is planned, for example, in a 25 grid. is if this is not the case, then this is a cumbersome process at the construction site Stones necessary. In contrast, the formwork blocks according to the invention are hollow divided in such a way that planning in the 25 grid, for example, is no longer uncontested necessary is. Rather, the stones according to the invention can be divided in such a way that that an adaptation to the construction grid is possible.

The shuttering blocks according to the invention can also be used in Manufacture heavy concrete and can be used in round and square designs for silos, Slurry pits and sewerage purposes are used.

Since the shuttering blocks in the finished masonry are now also in horizontal Direction connected by concrete is no leakage from for example More to fear liquid in the area of the butt joints of two neighboring stones. the Inhalation hollow blocks are preferably also equipped with air interlayers, which act as insulating layers in a heavy concrete construction. These air layers can also be filled with high-quality insulation material, which means that even heavy concrete blocks can achieve a high thermal resistance. Such 'training hollow blocks can be used, for example, for high-rise buildings with high compressive stresses are required, which can only be achieved with heavy concrete formwork.

According to a further advantageous embodiment of the invention is it is possible to clad the hollow blocks directly with curtain panels, both on the outside and on the inside. This allows the conventional Those who plastered would no longer find it.

Further features and advantages of the invention emerge from the subclaims as well as from the following description, in which various with reference to the accompanying figures Embodiments of the invention are described in an exemplary manner.

1 shows a plan view of a normal brick; Fig. 2 the Normal brick according to FIG. 1 in a perspective view; Fig. 3 is a sectional view according to line III-III in Figure 1; Fig. 4 is a plan view of a corner stone or keystone; Fip-. 5 shows a perspective view of the stone shown in FIG. 4; Fig. 6 a plan view of a modified embodiment of a keystone or a multi-purpose stone; Fir. 7 is a perspective view of that shown in FIG Stone; Fig. 8 different embodiments of hollow blocks with up to 11 air zones: mixed layers or channels; FIG. 12 is a perspective view of that shown in FIG Stone; 13 shows a plan view of a further embodiment of a hollow block, which is provided with cutouts or recesses for attaching curtain panels is; Fig. 14 is a perspective view of the stone shown in Fig. 13; Fig. 15 different ways of making masonry using up to 18a of the stones according to the invention.

The normal block 10 shown in Figures 1 to 3 has on the Upper side a horizontal one that extends over the entire length of the stone extending, continuous wide and flat groove 11 on, and on its underside a corresponding spring 12. The vertical edges of the front wall 1 and the rear wall 2 are either provided with grooves 9 or tongues 8 on their abutment edges, namely in such an arrangement that the grooves 9 and the tongues 8 are diagonally opposite one another, and on the same stone side one groove and one at each end Spring are present. The tongue and groove teeth are attached in such a way that the stones can be joined together in any position, so that they cannot be used during processing first have to be rotated or turned in a corresponding manner. The tongue and groove teeth 8, 9 and 11, 12. have the task of providing the dry offset structure with a better one . To give stability and to align the structure. If the teeth are interlocked, it determines the horizontal and vertical building alignment. That way is the possibility given that even a non-specialist can build a structure. Leaning walls can do not arise. Another task of this toothing is to create the offset joints to close, which increases the thermal insulation value and provides protection against cold bridges and sweat water is obtained.

The front wall 1 and the rear wall 2 are connected by means of two transverse walls 3 connected to each other, which are arranged such that a central hopper 6 and two lateral partial filling chutes 4 are formed, each of the partial filling chutes 4 is essentially half the size of the central filling chute 6. Each transverse wall 3 is provided with a channel 7, so that each partial hopper 4 with the hopper 6 communicates.

In the area of one of the two partial shafts 4, predetermined breaking points in the form of notches 5 are provided in the front and rear walls, so that it is possible to shorten the stone, if necessary, by knocking off the ends protruding over these predetermined breaking points. The separating notches 5 thus serve to return the masonry to the building grid in a simple and quick manner. A practical example is the corner connection in the 30 he masonry. If a 50 cm long normal stone is attached to a corner stone, for example 30 cm thick, the result is 80 cm, which cannot be divided into the pauraster. This means that time-consuming adjustments are required throughout the entire structure. If the normal stone to be attached to the corner stone is also shortened by 45 cm, the dimensions are adapted to the construction grid and a lot of work on the construction site is saved. The same result is obtained when a 25 cm thick wall is integrated into a 30 cm thick trinket. As in the previous example, the 25 cm thick stone attached to the 30 cm thick wall has moved out of the structural dimension. However, if it is shortened to 45 cm, the same advantage results as explained for the integrated corner stone. The paving stone, which is integrated into the 30 mm wall in the first, third, etc. layer is now exactly on the cross-seated lower 30 mm stone and the 25 mm stone placed lengthways in the central masonry bond: It is of particular importance that the transverse walls 3 are arranged in this way are that when the shuttering blocks are moved in the middle, the filling shafts are always vertically above one another. As a result of the channels 7 on the upper side of the transverse walls 6, the filler concrete also runs in the transverse direction and connects the individual concrete columns with one another, so that a coherent concrete skeleton results within the shuttering blocks. The channels 7 can also serve to reinforce the structure horizontally if necessary, for example with ring anchors. The corner stone or keystone 1.0a shown in FIGS. 4 and 5 serves as a connecting element in corner connections, when integrating partition walls and at wall crossings. With such a stone, the necessary operations can be carried out in accordance with the building regulations in a real masonry bond. Since the corner stone is closed on one end face by means of the end wall 14, it has only one transverse wall 3. This transverse wall 3 is designed exactly like the corresponding transverse walls in the normal brick 10 according to FIGS , while the second filling chute 15 is three times as large as the partial filling chute 4. The arrangement is made because the filling chute 15 in the corner structure covers a side wall of the corner stone sitting under it. As a result of the very large filling chute 15, the side wall located below this filling chute 15 cannot interfere with the falling through of the filler concrete.

The corner stone 10a is at the points where a wall connections Connecting stone is attached to the corner stone, provided with predetermined breaking points 18. Depending on the side on which the connecting block is moved, you can use the predetermined breaking points 18 knock out a channel in a simple manner, so that the Filling shaft 15 with an adjacent shaft of the attached connecting stone in Connection stands, whereby the concrete in the Cornerstone rit the concrete can connect within the connection stone.

The corner stone according to FIGS. 4 and 5 is the longitudinal groove 11 at the top and the longitudinal spring 12 at the bottom only in the arranged on the left half of the stone, while in the right half of the stone one is perpendicular to it extending upper groove _i6 and this groove 16 opposite tongue 17 on the Stone base is present. The left open end face according to FIG. 4 has a the representation of FIG. 1 corresponding PJut-I @ 'ederanordnung 8, 9 on. At front and 1 and 2 and on the end wall 14 further grooves 13 are attached, into which the spring of an attached stone can be pushed in. This interlocking is deceptive for the further stability of the dry-set masonry and for the perfect Building line at. The grooves are attached in various numbers to formwork blocks to be able to apply the different t-: and strengths.

The end or multi-purpose stone 20 shown in FIGS. 6 and 7 can be designed with or without a door or window stop, which can be selected as an inside or outside stop. In this stone 20, the front wall 21 and the rear wall 22 are connected to one another by means of an end wall 24 closing one end face and an outer wall 23, the transverse wall 23 being provided with a channel 27. The stone 20 has a filling chute 25 delimited on four sides and a partial filling chute 26 which is open on one end face. The top and bottom of the stone are provided with a groove or a tongue which extend in the direction of the stone. The end faces of the front and rear walls have tongue-and-groove teeth in the usual old age. In the area of the filling chute 25, which is delimited on all sides, vertical predetermined breaking points 28, 28 ' , etc., located opposite one another in pairs, are provided in the front wall? 1 and the rear wall 22, preferably in the form of notches. ! If this'. 'Multi-purpose stone is separated in the center notch 28', half a keystone and half a normal stone are obtained. If this multi-purpose stone is separated at the outer left notch 28, a half keystone with door and window stop 32 or 32 'is obtained, again optionally as an inner or outer stop, depending on which of the two pins 32 or 32 'is knocked off.

Taking into account the dimensions given in connection with FIG. 6 or taking into account the graphic assigned to FIG. 6, the following result Possibilities: a = 1/1 keystone with and without stop; b = 1/2 keystone; c = 1/2 normal stone; d = 1/2 keystone with door and window stop; e = transverse wall 23, the thickness of which is preferably constant to 1 x construction grid (in Germany 6.25 @ cm) is dimensioned, and which serves as a dimensional adjustment in the masonry as follows: transverse wall alone (e) = 1 x construction grid = 6.25 cm; Transverse wall with once subdivided Connection wall = 2 x grid = 12.5 cm = f; Transverse wall with connecting wall divided into two parts = 18.75 cm = 3 x construction grid = g.

The size adjustment 31.25 cm can be of the open as well as of the closed Reach the front end (h or i). In addition, the closed Measure 37.5 cm from the side (j).

Dar.it is practically every dimension adjustment within a construction grid achieved without the building having to be planned in the 25 grid. For this Customization is also no longer necessary, which is usually never done had at hand at the right time. The division of the multi-purpose stone also leads not to material losses, because the remaining parts are continuously fired can.

This multi-purpose stone was created from the following experiences: Beim The small partial stones of the previous version were always dispatched at the end loaded to fill in gaps in the cargo. That meant that they were the first to be unloaded. Although the recipient was repeatedly notified of this by means of a sticker on the delivery note was to set these partial stones separately, it was only in very few cases observed. When unloading these stones were in 85% with the normal stones added. They were then not tangible when the building project was being carried out. It must be grumpy Stones are adapted and that led to the fact that one later for the partial stones no Had more use and the normal formwork blocks used for adapting were missing now to complete the structure.

The multi-purpose stone is loaded as a package, like the other stones, and the, broadcast receives a certain share. When the building is progressing, it says so he is always available. The site manager can use it as it is Makes construction project necessary. When dividing up, he faces the remaining ones Pieces aside until they are needed again.

Formwork blocks according to FIGS. 13 and 14 have the purpose of a building to be created directly with exterior and interior plaster in one operation. It will be first saved the double scaffolding. The connection described later brings a better one Fixing of the curtain panel as the one known so far. The curtain panel can have larger dimensions than can be made with masonry panels. A wide variety of types of curtain panels can be used, as thermal insulation panels, even those at a distance from the wall. These curtain panels are in light plastic covers packaged to protect them from construction dirt. These shells are only at the very end of the construction project.

The shuttering blocks for curtain panels have on their side walls Cutouts 30 in which the curtain panels are hung. The curtain panels have for this purpose on their Rear wall a hook-in device, which can be tamped with concrete slabs or subsequently with other slabs is attached. This attachment can be T-shaped or as a round Ilopren be designed, which hang in the recess of the shuttering blocks. Of the Filling concrete presses the suspended panels against the inner side surfaces of the Formwork blocks and thus provides a stable connection between these two Components that are not affected by storms or temperature fluctuations can be. This connection is also r; aPi- ^ enau. It can also be done with air interlayers if necessary be worked because the fastening device with dimensionally accurate spacers can be equipped.

Formwork blocks according to FIGS. 8 to 12 with air intermediate layers 31 are suitable for use: for example in the African region. They are made from the sands that accumulate there. In order to insulate the living rooms from the Frozen temperature fluctuations between day and night, spaces 31 are made in the shuttering blocks, in which the standing layers of air have an insulating effect. These interspaces are located on both sides and are offset in such a way that continuous temperature bridges are avoided. For the round buildings that may be common, the shuttering block is worked out in a curved shape. The spaces between the shuttering blocks can also be filled with insulating material. Both during the production process of the shuttering blocks and with shuttering blocks staggered floor-to-ceiling, the building structure can be filled with foam in these spaces. Such formwork blocks are used in buildings that have high compressive stresses require. For this purpose, the formwork blocks are made Manufacture heavy concrete in order to have an extremely high compressive strength to reach in stone. Heavy concrete blocks can, however, required? - 'not meet the thermal resistance. This r @ langel repairs the surrounding material introduced into the gaps. Such heavy concrete blocks are also used in silos (including round silos), sewer structures and the like. Since such construction projects do not have any noise-related requirements, the spaces between them, such as the filling shafts, can be filled with concrete. fill in order to meet possibly even greater stresses on the compressive stress.

Figures 15 and 15a or 16 and 16a. or 17 and 17a or

18 and 18a show various possibilities in a schematic representation again, as when using the stones according to the invention in the 25er or 30 mm masonry or integrated center walls in 25 or 30 mm masonry can be.

Claims (2)

A n p r ü c h e 1. Hollow formwork block that is attached to a support surface with a central and wide and flat groove and on its other contact surface with a complementary spring and on one or both end faces with a vertically extending one arranged essentially symmetrically to the center line Tongue and groove arrangement is provided in such a way that each end-face groove on the adjacent Front side of a directly adjacent stone on the side, each with a spring opposite, d u r c h e k e n n n z e i c h n e t that front wall (1) and rear wall (2) each Stone (10) connected to one another by at least one vertical transverse wall (3) are those with one who are on both sides. the transverse wall (3) lying filling chutes connecting channel (7) is provided, and that each end face of the stone (10), which Another stone comes to lie opposite in the finished wall bond, is open. 2. Hollow block according to claim 1, characterized in that the central, wide and flat groove (11) on the top and the correspondingly trained tongue (12) are provided on the underside of the stone. 3. fiohlblockstein according to claim 1 or 2, characterized in that it is designed as a normal stone has two OuerwKnde (7) through which a central filling shaft (6) and two laterally open partial filling shafts (4) are formed, each partial filling shaft (4) substantially is half as long as the central filling chute (6). 4. Hollow block according to claim 3, characterized in that the? Tut (11) at the top and the tongue (12) at the bottom extend over the entire length of the stone, and that the lateral tongue and groove arrangement (8, 9) is formed on the vertical end faces of the front wall (1) and the rear wall (2). 5. Hollow block according to claim 4, characterized in that the front wall (1) and the rear wall (2) are preferably provided with notches in the region of at least one partial filling chute (4) with opposite vertical predetermined breaking points (5). 6. hollow block according to claim 1 or 2, dadurchge -ke nnzeich that when trained as a keystone or corner stone (1C1 the tongue and groove arrangement on the stone top and stone bottom is divided into a longitudinal direction of the stone part (11, 12) and one perpendicular to this part (16, 17), each part essentially occupying half of the total length of the stone (10a), that the part of the tongue and groove arrangement running in the longitudinal direction is arranged in the area of the open face and the part running in the transverse direction is arranged at a substantially closed and flat end face (14) connects that in the area of the transverse tongue and groove arrangement receiving stone half on the front and Rear wall of my grooves (13) for connecting a wider one f'teines are formed with its open end face; and da3 a single wall (3) is provided through which one of the closed outer surface facing, all-round delimited filling shaft (15) and a partial filling shaft towards the rear end (21) are formed. 7. Hollow block according to claim 6, characterized in that? N of the stone half with the transverse?; Ut spring arrangement (16, 17) the front wall (1) and the rear wall (2) are provided with predetermined breaking points (18) extending from the upper edge of the ctein are. 8, Iiohlblockstein according to claim 7, characterized in that the predetermined breaking points (18) have a depth which essentially corresponds to the depth of the channel (7) of the cuer wall (3). a. Illohl block according to one of Claims 6 to 8, characterized in that the filling chute (15) partially delimited by the closed end faces (14) is three times the size of the partial filling chute (4) located in the area of the open end face. 10. Hollow block, which is provided on one support surface with a central and wide and flat groove and on its other support surface with a complementary tongue and on one or both end faces with a vertically extending llut-tongue arrangement arranged essentially symmetrically to the center line, such that, each end-face groove on the ang. at least one vertical cross-section (23) at a distance from an open end face and a closure wall (24) closing the other end face are connected to one another in such a way that through the outer wall (23) a filling chute that faces the closed end face and is delimited on all sides (25) and a partial filling chute (26) facing the open end face are formed so that the inner wall (23) is provided with a channel (27) connecting the two chutes formed by it, and that in the area of the fill chute (25) which is delimited on all sides in the front wall (21) and the back wall (22) of the stone (20), vertical predetermined breaking points (28, 281), preferably notches, which lie opposite one another in pairs, are provided. 11. Hollow block according to one of: Claims 1 to 1C, since - ü urchrekmarks that the front T: T and - and / or R, '! ckz: and of the stone to attach or attach =: nrren of Curtain strips with cutouts rz7a. Lurring out provided is or sirr. 12.: - nh! H'_ocksteir. nae b one: the Pnspr, che 1 11, characterized as? one or several of the: 'rd each stone with vertically running air schclchten or: ° .'ohirt # umen (31) is provided tzw. are,?.! elche c = ecebenenfa--? : z 77, -t, `. ' ? r. ~ edmmstoff fills out - ##, r: j- ir # i.