DE3436219C2 - - Google Patents

Description

The invention relates to a formwork element in the manner of a hollow block building block with end lying at an angle of 45 ° to each other surfaces for use in conjunction with essentially cuboids shaped formwork elements, the lengths of which are integer multiples of a certain grid dimension.

Such formwork elements are such. B. from US-PS 44 39 967 known, the end walls and intermediate webs of the formwork elements also in accordance with EP 00 88 875 A1 can be trained.

Build a building with only perpendicular to each other Walls with rectangular blocks or formwork elements, see above you can ent a grid with the grid dimension on the blueprint speaking grid length and will then find that all Joints between the building blocks or formwork elements under the Threads of the network lie. Difficulties only arise if built with sloping walls and also set the grid dimension should be kept. The latter is particularly important for formwork elements on their upper and lower surfaces with each other matching grooves and projections are provided so that they become one tight wall formwork can be plugged together. The size and arrangement of the grooves and protrusions is the grid size customized. The same applies to the webs of the formwork elements between their hollow chambers. The formwork elements can be attached to these webs be separated in the grid dimension, and the divided webs are then correct again match the end walls of the formwork elements, too just like these upper and lower recesses and can be optional above open to hollow chambers in neighboring formwork elements remain or be closed with suitable locking pieces. For systematic reasons, the formwork elements used for sloping walls are used, as far as possible with those match for the longitudinal and transverse walls.

In from US-PS 44 39 967 known execution had those formwork elements with which the transitions between - usually at an angle of 45 ° - walls that meet at an angle, one  length matching the grid size, with one end Elbow piece connected, which are divided at the desired angle could, so that z. B. resulted in an end surface with the the end face of which formed an angle of 45 °.

The known formwork elements for the production of angled over corridors between diagonally abutting walls have the after part that when using formwork elements with lengths in grid dimensions for both the longitudinal and transverse walls as well as for the result in sloping walls in one or the other gaps, d. H. you can't get the corners of the sloping walls into that Grid of the grid dimension falling vertices of the longitudinal and transverse walls. The gaps have to be makeshift and time-consuming work to be sealed so that you have a wall that is sealed on both sides receives formwork. Another disadvantage is that continuous joints at the corners from top to bottom. He However, it is desirable to lay the composite, i.e. H. with from row to row Row offset joints.

Finally, led to stairwells with bevelled corners lack of coordination between the sloping wall piece and the Bounding walls that the stairs in the area of the turn must have different dimensions to the wall course fits to be.

The invention has for its object a formwork element to create the type mentioned by which the above mentioned disadvantages are eliminated, so that longitudinal and transverse walls in conjunction with walls that are inclined at 45 ° that can, and as a result of the smooth transitions, also delte stairs can be simplified.

The above object is achieved by a formwork element ment with two differences enclosing an angle of 135 ° Lich long legs loosened, their lengths on the outside facing the angle of 45 ° page Products from a whole number and the grid dimension are closed  regarding a length allowance, which is equal to the multiple grid measured the longer leg, multiplied by the factor 0.036 is.

The new formwork element with its two legs extends a piece from the longitudinal and transverse wall into the oblique Wall into it. It therefore only requires two different Scha elements with legs of equal length, but with a kink once to the right and in the other case to the left to go over the Corners between the longitudinal wall and the inclined wall and between the transverse wall and sloping wall the formwork elements placed one above the other Rows with staggered joints, d. H. to be able to put together. The prerequisite for this success is that both the longer and also the shorter leg of the angular new formwork elements are formed with the same length allowance. Under Be taking into account the well-known grooves and protrusions on the other engaging top and bottom sides of the formwork elements should be the normal pattern of the grooves, based on the grid dimension and projections from the free ends of the legs of the formwork elements up to a distance according to the length allowance the kink of the formwork element can be brought up. In the area The length allowances on both sides of the kink can then be further Grooves and projections are present, which ge from the break point see, like the normal grooves and protrusions, in both Legs must match.

The stated proportionality factor of 0.036 for dimensioning the Length allowance relative to the length of the larger leg of the Scha lungselements assumes that a proportionate short sloping wall, as often used to chamfer the corners of stairwells and for bay windows, the double Length of the larger leg of the new angular formwork elements. The sloping wall can be used in every second Row of formwork elements from two with their larger legs adjacent formwork elements are manufactured. In the rows of formwork above and below  In this case, the sloping wall at the ends is used as an element through the short legs of angular formwork elements and cuboid formwork elements arranged between them in a grid made. Of course there is also the possibility short and long on the length of the sloping wall towards the leg and in between a cuboid formwork element to be arranged in grid dimensions.

The specified factor of 0.036 can be calculated using the Pythagoras Equation of an isosceles, right triangle with the calculate sloping wall as hypotenuse. The exact amount is

In practice, the accuracy requirements don't need to go too far be driven, especially not when the formwork elements made of a resilient material such as rigid foam. Then you can round off the length allowance to one millimeter information from.

Have the known formwork elements of the type mentioned with a pitch of 125 mm of the grooves and projections on the The top and bottom sides have a grid dimension of 250 mm for the division of the hollow chambers, intermediate webs and end walls. For the invention can to the smaller pitch of the grooves and protrusions the. However, it brings the relatively large grid of 250 mm for the inner hollow chambers and webs with itself that one nor sometimes a relatively large distance with bay windows from the corners of the bay window. However, that is desirable Reduction of the bay wall to a narrow corner pillar. To this To achieve the goal is to use formwork elements with and arranged between vertical hollow chambers Double webs, the halves of which coincide with the end walls, which upper and lower, through form-fitting insert pieces Recesses to be closed have provided that the length ren leg of the formwork element next to its kink lying hollow chamber through one of the end wall of the longer leg  the footbridge is divided. If necessary, the longer pigeon can angle of the angular formwork element up to this additional separated intermediate bridge and the intermediate bridge to the end wall which are then made relatively close to the corner forms the window reveal.

In a further preferred embodiment of the invention has in one Buildings manufactured with formwork elements according to the invention with a spiral staircase in a sloping corner of the Ge the stairs in the 90 ° area of the corner two identical and two with these mirror-symmetrical steps, their width at the 45 ° angle Outer edge equal to the length of the longer leg of the Formwork element and its plan view is a right-angled three represents the corner with the outer edge as a cathete. If the stairs steps with the top and bottom are the same, suffice in this case, a single shape for this stair step to all to produce steps in the spiral area. Usually In this area the levels have several different closings cuts.

The invention is explained in more detail below with reference to the drawing tert. It shows

Fig. 1 shows a cross section through a built with formwork elements staircase according to the invention with beveled corner and

Fig. 2 is a plan view of a formwork element, which is used in the manufacture of bay windows and sloping walls according to FIG. 1.

The building shown in Fig. 1 in a partial section has an outer longitudinal wall 10 and transverse wall 12 and an inner longitudinal wall 14 and transverse wall 16th While the two inner walls 14, 16 abut each other at right angles, an inclined wall 18 extends between the outer walls 10 and 12 , through which the corner formed by the walls 10, 12 is chamfered. The walls mentioned carry steps which are indicated by dashed lines in the 90 ° region of the corner and are designated by 20, 22, 24 and 26 . As can be seen, the steps 20 and 24 and the steps 22 and 26 each have the same area in the top view. The steps 20 and 24 on the one hand and 22 and 26 on the other hand are mirror-symmetrical.

In the example, the staircase has a width of one meter between the parallel walls 10 and 14 and between the parallel walls 12 and 16 . The outer walls 10, 12 consist of known formwork elements made of insulating foam, which are stacked in rows in the United covenant and then poured out with concrete. The formwork elements, one on top of the other, engage with one another over their entire length with matching grooves and rib-shaped projections on their top and bottom sides. The usual length of the formwork elements used for the outer walls 10, 12 can e.g. B. be one meter, the division into inner cavities and intermediate webs offers the opportunity to sever the cuboid formwork elements in a grid dimension of 250 mm in order to obtain shorter formwork bodies, which are also stable and can be completed at each end .

For the production of the inclined wall 18 two new angular formwork elements 28 and 30 are used, each having a long leg 32 and a short leg 34 and differ only in that the short leg 34 in one case to the right and in the other case is angled to the left of the long leg 32 . Because of the agreement otherwise, it is sufficient to describe the formwork element 30 with reference to FIG. 22.

The formwork element 30 consists in a known manner of two parallel side walls 36 and 38 , which are connected by end walls 40, 42 , a double intermediate web 44 and a simple intermediate web 46 in the long leg 32 and a double intermediate web 48 in a bend. The end walls and intermediate webs have upper and lower recesses in a known manner, so that concrete can flow from one hollow chamber to the next and from one formwork element to another. The recesses in the end walls 40, 42 can be closed in a known manner by closure pieces, not shown, which are to be brought into engagement with the end walls.

The pattern of the rib-shaped projections 50 shown on the top of the side walls 36, 38 and a corresponding pattern of matching grooves on the bottom of the side walls 36, 38 are also known. The projections 50 and the corresponding grooves have a grid dimension a of z in the longitudinal direction of the formwork element. B. 125 mm. The length of the larger leg 32 is preferably 4 times the grid dimension a plus a length L genzugabe d entered next to the kink. The short leg 34 has the length of a grid dimension a plus the same length allowance d, which is also arranged next to the kink. The length allowances d have a dimension of 18 mm each for the lengths of the legs 32 and 34 mentioned in the example. The outer corner of the formwork element 30 is rounded in the manner shown over the articulation angle of 45 °, the pattern of the ribs 50 and the corresponding grooves being matched to that of the straight regions of the legs. With respect to the bisector, there is mirror symmetry with respect to the ribs and grooves.

Two dividing lines 52 and 54 are entered in FIG. 2, in which the longer leg 32 can optionally be severed. The dividing line 52 has a distance of 2 a from the end of the longer leg 32nd After severing at this point, two individual, shorter formwork elements are created, the end walls of which can optionally be closed by the closing pieces mentioned because the separation of the double intermediate web 44 in the middle results in two end walls which correspond to the end walls 40 and 42 .

When the formwork element is severed at the dividing line 54 , the intermediate web 46 becomes an end wall corresponding to the end wall 40 . The intermediate web 46 is a special feature in that it is arranged at a distance of only essentially one grid dimension from the neighboring double intermediate webs 44 and 48 , while in the normal cuboid formwork elements, the centers of the intermediate webs have a distance of 2 a. The additional one-fold intermediate web 46 offers a simple possibility, after severing at the dividing line 54 and closing the recesses in the intermediate web 46 at a relatively close distance of just a little more than the pitch a, a window reveal.

The width and height of the formwork element 30 are twice as large with the double grid dimension 2 a as in the known formwork elements. Since the rest of the design corresponds to these, further views are not necessary.

The invention and the exemplary embodiment deal with the particularly frequent case of relatively short inclined walls which meet the adjacent longitudinal and transverse walls at 45 °. It can also be seen that the invention is not limited to the fact that the two legs of the angular formwork elements without taking into account the length allowance d have a length ratio of 4: 1. The larger leg could be longer or shorter in the grid dimension and the shorter leg could be chosen longer in the grid dimension, however, if the inclined wall 18 is extended by inserting cuboid formwork elements between the two long legs of the angular formwork elements 28, 30 , the calculation The length allowance with the proportionality factor of 0.036 is half the multiple of the grid dimension of the sloping wall.

If you are willing to forego the advantage that in loading the joints in the composite are far apart at the corners, the short leg can also be shortened to dimension d.

The teaching of the invention is analogously applicable to large voluminous building blocks.

Claims (5)

1. Formwork element in the manner of a hollow block with 45 ° to each other end faces for use in conjunction with essentially cuboidal formwork elements, the lengths of which are integer multiples of a certain grid dimension, characterized in that it has an angle of two by two Including 135 °, different lengths of leg ( 32, 34 ) is formed, whose lengths on the outside facing the angle of 45 ° pro products from an integer and the grid dimension (a) are plus a length allowance (d), which are the same is the multiple grid dimension of the longer leg ( 32 ) multiplied by the factor 0.036. 2. Formwork element according to claim 1, characterized in that the length of the outside of the shorter leg ( 34 ) facing the angle of 45 ° is equal to the grid dimension (a) plus the length allowance (d). 3. Formwork element according to claim 1 or 2, characterized in that the length of the angle of 45 ° facing the outside of the longer leg ( 32 ) is equal to four times the grid size plus the length addition (d). 4. Formwork element according to one of claims 1 to 3 with double webs ( 44 ) arranged between vertical hollow chambers, the halves of which coincide with the end walls ( 40, 42 ), which have upper and lower recesses to be closed by form-fitting insert pieces, characterized in that the hollow chamber lying in the longer leg ( 32 ) of the formwork element next to its kink is divided by a web ( 46 ) corresponding to the end wall ( 40 ) of the longer leg ( 32 ). 5. With formwork elements according to one of claims 1 to 4 ago her building with a spiral staircase in a sloping corner of the building, characterized in that the stairs in the 90 ° area of the corner two identical and two with these mirror-image symmetrical steps ( 20, 22, 24, 26 ), the width of which on the outer edge facing the 45 ° angle is equal to the length of the longer leg ( 32 ) of the formwork element and the plan view of which represents a right-angled triangle with the outer edge as a catheter.