DE4416648B4 - Spacer bar - Google Patents

Abstract

The spacer strip (L) has an undulating foot edge (1) and an upper top area (3) for supporting the mat. The upper narrow edge of the walls of the wavy sections (I,II) runs into the head area (3). The walls start from this point go through pointed roof type alternate angles on opposite sides of the head area form the undulating path of the foot edge. The spacer is formed from the flat band strip which is deformed through plastics extrusion into the undulating individual sections. In the area of one long edge the wavy sections are folded from a web (5) and then angled into opposite wavy sections. <IMAGE>

Description

The The invention relates to a spacer bar according to the features of the preamble of claim 1.

The state of the art is first on the DE 90 13 975 U1 to refer. In the spacer strip known therefrom, the walls are straight in a vertical cross-section when viewed with respect to the head region. A separate foot edge is not provided. Next is on the DE 20 62 960 A1 to refer. From this, a spacer in the form of a buckling flat ribbon with openings is known. The foot edge is rectilinear and is formed by merely kinking the band part.

outgoing from the first the prior art, the invention is based on the object specify a spacer bar, the structurally simple and stable is.

These The object is achieved in the subject matter of claim 1, with it being turned off is that the mutual projection of the walls to the opposite Pages of the head area - in one seen vertical cross-section - each obliquely and the foot edge designed as angling. With favorable manufacturability is a stable spacer bar indicated. The undulating foot edge brings a good setup base, with the head one on the shortest Path lying course of the local edge is realized. The transition areas the bar lie on a common longitudinal line of the as continuous Bridge shaped head area and the shaft sections of the ledge collar from there mutually to opposite Pages out. The corresponding structure is similar to a flag, the mast side is taken in a linear manner and deflects towards the free end. Such a spacer proves to be highly stable despite relatively thin-walled Afford material. The load acceptance takes place on the basis of one common longitudinal line limited Head area completely tilt-. The wave structure can be blocked by a locking action a grid structure to be stabilized. The zones between the waves act as integrated, practically transversely clamping fixture between the wave mountains. Such spacers not only take the intended Weight of Reinforcing Bars / Mats Safe on, but tolerate due to the far-reaching side projections even a visit. Especially for reasons a material savings and weight reduction proves it It continues to be advantageous if the shaft sections with Breakthroughs are equipped. This may be holes, also punch outs. These bring a connection of the Concrete across the bar, but are specifically made of these establish Not required, as concrete is virtually unbreakable on train. The breakthroughs can lie in the area of the wave crests of the wave sections. An alternative, equally advantageous solution is that the openings in the corrugation edges of the Wellenab sections are arranged. Next, it proves to be advantageous that the common longitudinal line a straight line is. Cheap is it that the Longitudinal line with the Edge of the continuous web covers. Such a strip profile is mainly reserved for lighter constructions. Here it is enough, if the thickness of the web corresponds approximately to the material thickness of the strip. For larger too expected load pickups is structurally done in a simple manner, that the continuous bridge with a thigh partially on one side Overlying side shaft sections. This practically leads to an L-profile. The so enlarged head area bringing L-thighs could be upper side go through smoothly; On the other hand, however, there would also be a run-up, if the ondulation of the strip uniformly discarding even up to enter the leg-forming portion, e.g. in the form of smaller vertical wrinkles. Furthermore It is suggested that the Bridge with a second leg partially on the other side overlying shaft sections. The leads with respect to the bar to a T-profile. About that In addition, the invention proposes that the or the legs of the Bridge on the whole length has the same width or possess. Next, there is an advantageous Embodiment to the effect that the Bars are nestable (Wellenberg in Wellental). at from the webs outgoing legs that happens in a grip position this thigh. It is advantageous then that the web in symmetrical T-profiling is arranged to the waveform of the bar. This is on both sides the corresponding symmetry plane before the same support conditions and consequently a balanced load introduction.

With regard to the foot edge as an angling, initially angling of the oblique fold course oriented perpendicular to the mounting plane or footprint is intended. In order to arrive at the smallest possible contact surfaces of the spacer, the invention further proposes that the foot edge is interrupted to individual sections, each extending only over the short areas of the crest zone of the shaft sections and between these areas arcuate grooves in the course of groin Leave lower edge. The support surfaces are thus in maximum transverse spacing to the course of the bar. If, on the other hand, the specific surface pressure is to be reduced here, it is advantageous to use a solution such that the bend in the region of the foot edge forms open pockets towards the interior of the wave arc. Here, the material wall is enlarged with marginal retraction of the wall material of the waves. Such an enlarged contact surface can not or hardly be pressed into, for example, underlaid insulation material under load. An advantageous method for producing a spacer in particular according to claim 1 results from the steps that, starting from a flat strip this is deformed into undulating individual sections such that in the region of one longitudinal edge of the strip, the shaft portions of a longitudinally extending web starting in a drapery be brought and protrude from there to opposite shaft sections. Here, it is favorable that the deformation takes place on an extruding flat strip strip by means of transversely to the longitudinal line back and forth, intermittent mitgehender ram or prongs edges. This can be done with respect to the ram rake so running ahead of the stage of the hardening phase or in terms of the jagged edges in the extrusion-continuous process.

Of the The invention is based on several embodiments explained in more detail. It shows:

1 a section of a strip-shaped spacer in a perspective view, according to the first embodiment,

2 a cross-section of this,

3 a section of a strip-shaped spacer in perspective view, according to the second embodiment,

4 a cross-section of this,

5 a section of a strip-shaped spacer in a perspective view, according to the third embodiment and

6 a cross section on this.

Basic body of all shown spacer A is a strip L in the form of a ribbon strip.

The lower edge of the strip L forms a foot edge on the finished product 1 , It has meandered to achieve a workability. The footprint is called 2 , This may be an upper side of a formwork or an applied insulation layer.

The upper edge of said bar L forms a head area 3 , The extends along the shortest path in the longitudinal direction of the spacer A.

Said head area 3 serves as a support for reinforcing bars / mats 4 , for known reasons in an almost equal distance x to the footprint 2 should / have to be kept. The footprint 2 or the back of the insulation form the later visible surface of the object. From this visible surface, the reinforcement material consisting mostly of corrodible structural steel is sufficiently widely spaced so that, for example, there are no rust spots.

The transition areas header area 3 to strip L lie on a common longitudinal line yy of the continuous web 5 designed header area 3 ,

The relatively short jetty 5 extends perpendicular to the shelf 2 ,

The breakthroughs 7 lie according to the first embodiment of the spacer A in the region of the wave flanks of the shaft sections I, II.

In the second embodiment, the openings are 7 in the area of the wave crests respectively zigzag peaks or capped zig-zag peaks of the wave sections I, II. But how 3 Removable, grab the positioned in the area of the wave crests openings 7 There, too, a little into the ripples over.

The head area 3 is linearly reinforced or stiffened. This goes from the top of the bridge 5 the bar L a parallel to the level of the foot edge 1 lying thigh 8th out. It is of such length that on one side, on the left side of the drawing, it oversees the wave sections II there. The vertical coverage occupies about a quarter of the overhang length of the local shaft sections II.

In a further development can be provided, one in the opposite direction to the leg 8th pointing second leg 9 provided. Also this second, in the common footbridge 5 rooting thighs 9 partly overlaps the shaft sections I on the other, right side.

The Lleiste L can cross-sectionally to a Lead L-profile, if necessary, one can speak of a T-profile.

The thigh 8th respectively. 8th . 9 can maintain the same width along their entire length. In any case, then as the support surface for the reinforcing bars / mats 4 functioning end edge 6 significantly widened. Both the thickness of the bridge 5 as well as the thickness of the horizontal legs rooted therein 8th . 9 the bar L are the same. They are between 1.5 and 3 mm, depending on the material used (plastic, steel).

The spacer A according to the first and second embodiments has the foot edge 1 at the end of the bend 10 the bar L on. The bend 10 extends substantially vertically to the footprint 2 , It interrupts obtusely the continuous in the other embodiments, skew curve of the issued wave back. On the bend 10 About one-third to one-fifth of the length of the sloping wave ridges is required. The transaction 10 has stiffening effect, especially in the installation area. Such is welcome, because according to the first and second embodiments, the mounting surfaces against a continuous edge of the foot 1 are clearly reduced, just to the areas of the settlements 10 , This is achieved by the fact that the foot edge 1 is interrupted to individual sections, which extend only over the shorter regions of the crest zones respectively wave back of the shaft sections I, II. Like that 1 and 2 such as 3 and 4 removable, lie between these shorter, fitting areas of the foot edge 1 bridge-arched grooves 11 , The latter have one on the tendon 12 measured length, which is reduced by about six to eight times. As a result, only very small Aufstellflä surfaces on the visible surface can be seen; Therefore, using such spacers A, exposed concrete surfaces can be produced. The arch-shaped sections run over a facett edge 13 in there the breakthroughs 7 having wave flanks.

If you want to essentially on the range of bends 10 enlarge limited support surfaces, so attacks in the 5 and 6 illustrated last embodiment. Here, the bend is not made vertically, but horizontally and inward. This bend bears the reference numeral 10 ' , It creates a marginal closure of the inside troughs. This results in an even in flank-side areas of the shaft sections I, II on the inside continuing and expiring there foot area 1' , The foot surfaces 1' For example, they have a sickle shape and point in the middle area of the foot edge 1 out. In this way open pockets open towards the wave arch 14 ,

An advantageous method for producing a spacer A in particular according to claim 1 is that starting from a flat strip strip (strip L) of these flat strip is deformed into wave-shaped individual sections such that in the region of a longitudinal edge, the shaft sections I, II of a longitudinally extending web 5 starting in a drapery and from there ( 5 ) continue to project to opposite shaft sections I, II. This deformation takes place on an extruding flat strip strip by making this deformation transversely to the longitudinal line yy respectively plane EE forward and backward, intermittently mitstehende and back moving ram rake.

The happens even in the hot state of the ribbon strip just before Solidification of the material.

The working surfaces of the ram rakes take into account the desired deformation or shaping with respect to the type of angling 10 respectively. 10 ' ,

Likewise, for producing the waves, a device arranged downstream of the extruding nozzle with tooth-like intermeshing toothed wheels is conceivable, which in turn generates the desired shaping impressions. The bags 14 are here as easily realized as wall protuberances.

The linear stiffening taking into account the mentioned legs 8th ; 8th . 9 even opens the possibility of forming a double T-profile with subsequent central, horizontal longitudinal section.

The Spacers A can nest together to save space. This happens according to the first embodiment under direct nestling of the surfaces of the identically undulating strips L, in the other embodiments in effect an override position of the webs B. The stack can be delivered in meterware.

Claims (9)

Especially when laying reinforcement bars / mats ( 4 ) or the like to be used Spacer bar (L), with longitudinally undulating Fußkante ( 1 formed by lower edges of upright standing wave sections (I, II) of forming walls, and having an upper-side head area (FIG. 3 ) for supporting the reinforcing bars / mats ( 4 ), which as a longitudinal web ( 5 ), wherein the walls are mutually opposite to opposite sides of the head region ( 3 ), characterized in that the mutual projection to the opposite sides of the head region ( 3 ) - viewed in a vertical cross section - each obliquely, wherein the foot edge ( 1 ) as a bend ( 10 . 10 ' ) is designed. Spacer according to claim 1, characterized in that the bend ( 10 ) substantially vertically to a footprint ( 2 ). Spacer according to the preceding claims, characterized in that the bend ( 10 ) obtusely the gradient of the out interrupted wave ridges. Spacer according to one or more of the preceding claims, characterized in that the foot edge ( 1 ) is interrupted to individual sections, which in each case only over the shorter ranges of the bend ( 10 ) comprise crest zones of the shaft sections (I, II) and between these areas bridge-shaped recesses ( 11 ) in the course of the last lower edge. Spacer according to one or more of the preceding claims, characterized in that on the bend ( 10 ) One third to one fifth of the length of the sloping wave back is eliminated. Spacer according to one or more of the preceding claims, characterized in that a bend ( 10 ' ) in the area of the foot edge ( 1 ) open to the interior of the wave arch pockets ( 14 ). Spacer according to one or more of the preceding claims, characterized in that the bend ( 10 ' ) is directed horizontally inwards. Spacer according to claim 7, characterized in that the horizontally inwardly directed bend ( 10 ' ) yields a marginal closure of the inside wave troughs and a foot surface which continues on the inside and also runs out into the flank-side regions of the wave sections (I, II) ( 1' ). Spacer according to claim 8, characterized in that the foot surfaces have approximately sickle-shaped and in the central region of the foot edge ( 1 ).