EP0176815A2 - Spreader for reinforced concrete constructions - Google Patents

Abstract

The spreader (1) is composed of bow-shaped supports (2) and of longitudinal members (3, 4). At least one longitudinal member (3) is arranged on the bow crosspiece (5) of the supports (2). A further longitudinal member (4) is arranged at the end (6) of the bow legs (7) of the supports (2). The spreader (1), laid in a reinforced concrete construction, supports a second reinforcing layer (II) having bottom bars (9), which is thus positioned at a fixed distance from a first reinforcing layer (I) which supports the spreader (1). By forming equally spaced indentations (16) in the longitudinal members (3) on the side of the bow crosspiece, a grid arrangement is produced which permits an accurate local positioning and a provisional fixing of the second reinforcing layer (II) without the need for complicated measurement. <IMAGE>

Description

The invention relates to a spacer for reinforced concrete constructions, which can be used as an aid for the precise arrangement of a second single-bar or mesh reinforcement layer with respect to a first reinforcement layer and is provided with at least one longitudinal beam which is firmly connected to bow-shaped holders, at least one longitudinal beam the bracket web of the holder is arranged and forms the support for the second reinforcement layer.

Spacers, also known as spacer baskets, support baskets or spacer strips, are used for the precise spacing of reinforcement layers in reinforced concrete structures. With reinforced concrete ceilings and slabs, they have to keep the upper reinforcement layer at the required height, while they have to fix the inner and outer reinforcement layers in reinforced concrete walls. Furthermore, they can also be used to attach various types of insoles. The spacers can be used for laying single-bar as well as mesh reinforcement layers. It is essential that spacers can be used to maintain a precisely defined height between two reinforcement layers.

Spacers with bow-shaped holders are known, the bow legs of which are equipped at their end with or without a covering. Spacers with longitudinal members in the crown and leg area are placed on this layer, for example when creating ceiling reinforcements after laying the first reinforcement layer and the installations, and form the supporting structure for the second reinforcement layer. Due to their construction with continuous side members both in the apex area and in the base area, the spacers are also suitable for use in reinforced concrete walls, where they are preferably arranged vertically to facilitate the placing of the concrete.

Spacers whose bow-shaped holders with coverings, e.g. are usually provided with feet made of plastic, but they do not have any side members on their thighs, however, can be placed directly on the formwork when creating ceiling reinforcements after laying the first reinforcement layer, if other installations (e.g. electrical pipes and sanitary lines) have already been installed have been relocated. Spacers of this type also form the supporting framework for the second reinforcement system. The casing made of a stainless material, e.g. Plastic, prevents rusting in the area of the support points of the formwork.

Since the spacers are generally arranged in reinforced concrete structures regardless of the course of the tensile stresses, they do not form a load-bearing element. However, their function is essential so that the multi-layer reinforcement in walls, slabs and ceilings is reliably fixed.

In a known embodiment (CH-PS 486 617) be are the spacers made of bow-shaped holders with support feet, for example made of plastic or concrete, while only a single longitudinal beam arranged on the bracket web of the holder is used. The longitudinal member is fastened to the stirrup by welding, the supporting point being concave, but the surface of the longitudinal member has no indentations for the purpose of fixing.

The known spacers, whether they are designed with or without a supporting foot, have the following disadvantage, however: since the previous side members have an almost smooth surface, reinforcement bars placed loosely on them move out of position due to unintentional, minor impacts. This means that time-consuming, realignment is required before the final setting. Technically, there are no precautions that allow the specified distances between the reinforcing bars (e.g. 10, 15, 20 cm) to be exactly observed. The time required for determining the position of the individual reinforcement bars is therefore correspondingly large.

This is where the invention comes in, which is based on the object of designing a spacer of the type described at the outset in such a way that the spacer itself achieves the exact location of the reinforcement layer without additional measurement effort, and at the same time a provisional fixation of the reinforcement webs can be ensured.

This object is achieved according to the invention in that the longitudinal beam arranged on the stirrup bar of the stirrup-shaped holder has a plurality of indentations on the side which are at a constant spacing from one another and which support the second reinforcement layer serves, is formed, which serve to define and fix the exact local arrangement of the second reinforcement layer.

The indentations can expediently be formed in two or more longitudinal beams arranged on the bracket web of the holder. The indentations should have such a depth that a reliable and precise location and fixation of the reinforcement position is possible.

• Fig. 1 Die Darstellung des Standes der Technik, wobei
  • a) einen Abstandhalter zeigt, dessen bügelförmige Halter im Bereich ihrer Schenkelenden auf einer Bewehrungslage abgestützt sind, und
  • b) einen Abstandhalter zeigt, dessen bügelförmige Halter endseitig eine Umhüllung tragen und auf der Schalung abgestützt sind,
• Fig. 2 eine erste Ausführungsform des erfindungsgemässen Abstandhalters,
• Fig. 3 eine zweite Ausführungsform des erfindungsgemässen Abstandhalters und
• Fig. 4 ein Detail des erfindungsgemässen Abstandhalters in vergrösserter Darstellung.

The invention is shown in the drawing in two exemplary embodiments and described below. Show it:

• Fig. 1 The representation of the prior art, wherein
  • a) shows a spacer whose bow-shaped holder is supported in the region of its leg ends on a reinforcement layer, and
  • b) shows a spacer, the bow-shaped holder at the end of which has a covering and is supported on the formwork,
• 2 shows a first embodiment of the spacer according to the invention,
• Fig. 3 shows a second embodiment of the spacer according to the invention and
• Fig. 4 shows a detail of the spacer according to the invention in an enlarged view.

In the two representations a) and b) of two known spacers in FIG. 1, the spacer 1 is composed of a number of bow-shaped holders 2 and at least one longitudinal member 3, 4 and forms a channel-shaped or basket-shaped structure of a certain length. This length of the spacers is chosen from a practical point of view and is e.g. 2.5 m. In the embodiment of the spacer according to a), three longitudinal members 3, 4 are used, one longitudinal member 3 being arranged on the stirrup web 5 and two further longitudinal members 4 in the region of the end 6 of the stirrup legs 7. The longitudinal beams 3, 4 are connected to the bow-shaped holders 2, for example by welding. The spacers 1 are arranged between a first and a second reinforcement layer I, II and fix the distance between them. The individual reinforcement layers I, II consist of several superimposed bars, e.g. in a) and b) from lower and upper bars 8, 9 and 10, 11.

In embodiment a), the spacer with its further longitudinal beams 4 is supported on the lower rods 11, so that the ends 6 of the stirrup legs 7 are spaced apart from a formwork wall 12. The distance between the layer 11 and the formwork wall 12 is determined by spacer blocks 13. The distance between the 5 bars 8 of the second reinforcement layer II and the second formwork wall 14 or the concrete surface, on the other hand, does not have to be determined, since this is determined by the spacers 1 in the reinforced concrete construction.

In embodiment b), the arrangement of further longitudinal beams 4 in the region of the end 6 of the stirrup legs 7 has to be dispensed with. However, a covering 15 is fastened to the end 6 of the stirrup legs 7, the spacer 1 being supported on the formwork wall 12. If necessary, further longitudinal beams can be arranged on the stirrup bar 5 or on the stirrup legs 7.

The spacer 1 according to FIG. 2 essentially corresponds to the embodiment b) in FIG. 1. The same reference numbers relate to the same features as in the embodiments a) and b).

The spacer 1 according to FIG. 2 is composed of bow-shaped holders 2 and two longitudinal beams 3, both of which are arranged on the bracket web 5 of the holder 2. It is essential that the side members 3 have indentations 16 which are arranged on the side of the side members 3 facing away from the bow-shaped holders 2. The indentations _' 16 are integrally formed in the longitudinal beams 3 at constant intervals. These distances suitably correspond to the distances between the lower bars 9 of the second reinforcement layer II.

The arrangement of the lower bars 9 of the second reinforcement layer II is shown in FIG. 3, which shows a spacer with holders 2 without sheathing, but with further longitudinal beams 4 in the region of the end 6 of the stirrup legs 7. The local arrangement of the. second reinforcement layer II compared to the first reinforcement layer I. The distance between two indentations 16 can be selected such that any second reinforcement layers II can be arranged; Depending on requirements, either all or only some of the indentations 16 are used for fixing the second reinforcement layer II. The indentations 16 thus represent a grid that the laying of the second reinforcement layer II is considerably easier and, at the same time, provisional fixation is guaranteed.

4 shows the formation of a single indentation 16 in a longitudinal beam 3. The indentations 16 should be able to reliably position the lower bars of the second reinforcement layer II. For this reason, the indentation 16 can be V-shaped or trough-shaped with V-shaped inclined flanks. The depth 18 of the indentations 16 is expediently chosen to be so large that on the one hand the effort for deforming the longitudinal beams 3 becomes a minimum, but on the other hand a secure positioning of the rods 9 is achieved until they are bound to the rod holder.

The shape of the bow-shaped holder 2 is not essential with regard to the design of the side members 3 with the indentations 16; it can be V-shaped or trapezoidal, the holders being 2 individual parts or part of a single appropriately shaped rod.

Claims (6)

1. spacer (1) for reinforced concrete constructions, which can be used as an aid for the precise arrangement of a second single-bar or mesh reinforcement layer (II) with respect to a first reinforcement layer (I) and with at least one longitudinal beam (3, 4) which is firmly connected to bow-shaped holders (2), at least one longitudinal beam (3) being arranged on the bow web (5) of the bow-shaped holder (2) and forming the support for the second reinforcement layer, characterized in that the bracket web (5 ) of the bow-shaped holder (2) arranged longitudinal beam (3) with a plurality of, at a constant distance from each other recesses (16) is formed on the side that serves to support the second reinforcement layer (II), which defines and fixes the exact local Serve arrangement of the second reinforcement layer (II). 2. Spacer according to claim 1, characterized in that two or more longitudinal beams (3) on the bracket web (5) of the holder (2) are arranged, on which the indentations (16) are molded. 3. Spacer according to claim 1 or 2, characterized in that the bow-shaped holder (2) have legs (7) in which a further longitudinal member (4) is arranged in the region of their ends (6). 4. Spacer according to claim 1 or 2, characterized in that the bow-shaped holder (2) have legs (7), in which at their ends (6) one Sheath (15), for example a cap or a foot, preferably made of plastic, is arranged. 5. Spacer according to claim 1 or 2, characterized in that the indentations (16) of the or on the bracket web (5) arranged longitudinal member or longitudinal member (3) have a depth (18) which is less than, equal to or greater than is half the strength of the side members. 6. Spacer according to claim 5, characterized in that the indentations (16) trough-shaped, e.g. with V-shaped flanks (17) are formed.

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