NL1015984C2 - Block with arms, used for erecting concrete formwork structures, contains recesses where its arms meet - Google Patents

Abstract

The block (9) has a recess (12) extending in its thickness direction in at least one point where two of its arms (13, 14) meet. The block has two or more arms arranged at an angle to each other, in a T-shape or in a cross. At least one of the arms has dimensions corresponding to the thickness of the wall, floor or roof being formed.

Description

-listen for use in setting formwork in concrete construction.

The present application relates to a brick 5 for use in setting formworks in concrete construction with two or more legs in an angular shape, T-shape or a cross shape and of which at least one leg has a dimension corresponding to the thickness in one direction of the wall, floor or roof plate to be set.

10

Such a brick is generally known in concrete construction and is used to have a pure reference measure for the thickness of the poured wall when setting a wall enclosure. In addition, it is also at the same time a reference for applying a casing casing for the kim to be poured simultaneously with the wall, and the horizontal legs of the stone form a reference for the floor that is generally also to be poured simultaneously.

20 In concrete construction, frequent use is made of tunnel formworks, whereby a distinction can be made between half-tunnel and full-tunnel formworks. When applying such formworks, the described brick has proven to be an effective aid in adjusting the various parts of the tunnel formwork. Particularly in the case of the full tunnel formwork, in which different types can still be distinguished, it sometimes happens that too great a force is exerted on the bricks when setting the walls and / or positioning the entire tunnel. As a result, the stones break and the force can even be so great that broken parts can jump away over considerable distances. Apart from the fact that this poses a direct danger for the workers, time and material are also lost and an important part of the adjusting system has to be carried out again.

101 RQfl * "" "-2-

The object of the invention is to provide a brick that can be used with all types of formworks and in which there is no danger that it can be placed under too great a load when a tuning formwork is set. Accordingly, according to the invention, it is provided that the stone is provided in at least one corner point between two successive legs with a recess extending in that direction over the entire thickness of the stone.

10

The invention is based on the insight that, in particular for the full-tunnel formworks with vertical and horizontal panels which can be adjusted relative to each other, when an angle of less than 90 ° is enclosed between the panels, the casing at the pivot point between the panels, along a line can exert a great force on the stone. Since the bricks have already been inserted between panels of successive tunnel elements prior to setting, the intended load will also always occur near the angle between two adjacent legs of a brick.

To achieve the desired effect, it is only necessary that an angular brick has one recess between the two consecutive legs and a T-shaped brick or a cross brick has two recesses between two successive pairs of legs, the recesses being arranged between a leg which is intended to lie in a vertically downward pointing position and the or the two adjacent legs intended to lie in a horizontal position.

In a first embodiment, the shape of the recess can only have straight sides, so that a substantially rectangular recess is obtained. However, since such a transition between successive sides of a recess under load may be a starting point for a break, it is preferable to make such transitions arcuate. According to a further embodiment, the recess can also be entirely an arc shape or circle arc shape.

5

According to a still further elaboration, it can be provided that the recess extends into the leg which is intended to assume a horizontal position. This also increases the free space in the corner point upwards. By thereby also providing that this further expansion is provided with rounding off, breaking of the stone is virtually impossible.

The advantage of the brick according to the invention lies in the fact that sufficient space is provided in the relevant corners to be able to accommodate shifts and sharp angles between the panels during the forming of the formworks, while the reference thickness of the formwork stone for the wall to be cast is preserved. The latter is of great importance in order to be able to precisely maintain the calculated thicknesses of the construction and thus also to be able to come out exactly with the calculated quantities of concrete mortar.

Finally, it is also provided that the depth of the recess in the leg which is intended to come into a vertical position depends on the width of the total span of the formwork and / or the height of the formwork. Since the width that can be spanned with a tunnel formwork nowadays lies in a range of up to 7 meters and more, the deviations to be expected during the setting of the final position of the formwork are also within a range that is proportional to the width of the span.

35

The invention is further elucidated hereinbelow on the basis of the example given in the drawing, in which:

Fig. 1 schematically shows a view of a set of tunnel formwork; Fig. 2 schematically shows a view of a set of tunnel formwork using a brick as proposed;

Fig. 3 schematically shows a set tunnel formwork, and Fig. 4 shows an embodiment of a brick.

Fig. 1 shows diagrammatically the situation in which the tunnel formworks 1,2 have already been brought into position but have not yet been set. The tunnel formworks 1,2 consist essentially of a top panel 3 and side panels 4.5, wherein the top panel can be assembled from a number of sub panels to enable the desired span to be set. In the example shown, the top panel 3 is 20. not yet brought into the final position, in which it forms an entirely horizontal plane or a slightly pre-bent plane. This latter form is especially important in the case of large spans, with which it is possible to compensate in advance for bending under the weight of the floor to be poured.

The tunnel formworks 1,2 are placed on a floor or ground floor 6 where at a predetermined mutual distance, bays 7,8 are arranged which form the reference for walls to be cast above that. At the top between successive side panels 4,5 of the tunnel formworks 1,2 stones 9 are arranged, which in the example shown is a cross stone 9.

When setting the tunnel formwork 1,2, the side panels must be brought against a kim 7,8, in the vertical position and at the correct height, and the upper panel 3 must also be placed in section 3. be brought to the final position. When the side panels are positioned exactly vertically, large forces can be exerted on the cross stones 9 arranged between successive tunnel formworks 1.2. These forces can be large enough to break the cross stone into pieces, which has the effect of making the setting again must be carried out for the adjacent tunnel formworks and possibly also for the further established formworks.

10

Fig. 2 also schematically shows a situation prior to the pouring of the poured concrete, in which only the side panels 4,5 have yet to be precisely adjusted. In this example, the crossstone 9 arranged between the tunnel formworks 1,2 and the T-stone 11 arranged between the tunnel formwork 1 and an end-wall formwork 10 are provided with a recess 12. It has been found that the stones 9,11 can in particular break when a sharp angle is enclosed between a side panel 4,5 and a top panel 3. The formwork 1,2 then comes to lie with an edge against a stone 9,11 and with a large force exerted thereon along the tangent with the stone 9,11 a fracture surface can arise in the stone 9,11.

By providing the recesses 12 in a vertical leg 13 near the transition of a vertical leg 13 and a horizontal leg 14, space is obtained precisely where possible the formwork 1,2 on the stone 9,11 via the intended tangent force could exercise. The recesses 12 extend over only a part of the length of a vertical leg 13, so that the reference for the wall thickness is retained.

Figure 3 shows the situation immediately prior to the pouring of the walls and floors, the side panels 4,5 being positioned exactly vertically and the top panel horizontal. The spaces formed by the recesses 12 between the brick 9,11 and the side panels 4,5,11 KQ ΑΛ r -6- are large enough to be completely filled with poured concrete. Therefore, no irregularities occur in the final wall as a result of the recesses 12 provided in the brick 9, 11.

The cage casing 15 is also indicated in this figure. The further formwork parts such as, for example, edge formwork and headboard have been omitted in order to keep the drawing sufficiently manageable.

Fig. 4 shows a cross stone in more detail. The recess 12 arranged above in the vertical leg 13 has a first straight part 16 and 15 from the horizontal leg 14 and a subsequent curved part 17 which runs back to the straight part 18 of the vertical leg 13. Although it is also possible to have only straight It is preferable to work with curves so that there are as few lines as possible that can serve as the starting point for a fracture surface. For the same reason, the transition from a vertical leg 13 to a horizontal leg 14 could also be completed, for example as indicated by dotted line 19.

The crossstone 9 is furthermore provided with auxiliary recesses 20 which can serve for receiving the ends of a reinforcement or for receiving fastening means for components to be fitted later.

1015984 ^

Claims (10)

1. Stone for use in setting formwork in concrete construction with two or more legs in an angular shape, 2. Brick according to claim 1, characterized in that an angular brick has one recess between the two consecutive legs and a T-shaped or a cross brick has two recesses between two consecutive pairs of legs. 3. Stone as claimed in claim 2, characterized in that the recesses are arranged between a leg which is intended to lie in a vertically downward pointing position and the or the two adjacent legs which are intended to lie in a horizontal position. Stone according to claim 3, characterized in that the recess extends into the leg which is intended to assume a horizontal position. 5. Stone as claimed in claims 1-4, characterized in that a recess comprises one or more straight sides. 5 T-shape or a cross shape and of which at least one leg has a dimension in one direction corresponding to the thickness of the wall, floor or roof plate to be set, characterized in that the stone is provided at least one corner point between two consecutive legs of a recess extending in that direction over the entire thickness of the stone. Stone as claimed in claims 3-4, characterized in that the recess has an arc forming at least partly. 35 1 Π 1 cn o λ ^ -8- Ί Stone according to claims 1-4, characterized in that the recess has an arcuate or an arcuate shape. 8. Stone as claimed in claims 1-7, characterized in that the depth of the recess in the leg which is intended to come into a vertical position depends on the width of the total span of the formwork and / or the height of the formwork . 10 9. Stone as claimed in one or more of the foregoing claims 1-8, characterized in that one or more auxiliary recesses are arranged on an opposite side of a leg intended to come into a horizontal position. Stone according to one or more of the preceding claims 1-9, characterized in that the stone consists entirely or substantially of concrete. 1015984