RU167993U1 - Multi Hollow Plate Reinforcement Design - Google Patents

Abstract

The invention relates to the construction, in particular, to reinforcement structures for reinforced concrete multi-hollow floor slabs that cannot be accessed from above, for example, floor slabs used primarily in buildings with combined roofing. The purpose of the utility model is to develop a reinforced multi-hollow slab structure that allows reinforcing slabs with a low class of concrete in strength. The essence of the utility model is that the reinforcement design of a multi-hollow slab, including additional reinforcement, is The other is placed in the grooves made in the stretched zone of the plate below the voids of the plate, the grooves are connected to the indicated voids, the additional reinforcement is provided with at least two anchors, which are located at the end sections of the additional reinforcement and are installed in the holes made in the locations of the indicated anchors, dowels are made at the end and central sections of the additional reinforcement in the holes, groove and void of the plate, the end and central sections of the additional reinforcement and anchor are monolithic in these keys, at A trapezoidal slot is made between the groove and the hole, in which additional reinforcement is monolithic. The lateral sides of the trapezoidal slot are made at an angle of 15 ° ≤ φ <75 ° to the axis of the groove. Dowels are made in the trapezoidal slot and the void of the plate.

Description

The utility model relates to construction, in particular, to reinforcement structures for multi-hollow reinforced concrete floor slabs, access to which is not possible from above, for example, floor slabs, used mainly in buildings with combined roofing.

A known reinforcement design of the stretched zone of a precast multi-hollow concrete slab, including additional reinforcement in the frame, which is placed and monolithic in the void and groove punched in a compressed shelf along the void channel. (see. "Recommendations for the reinforcement and repair of building structures of engineering structures." M: TsNIIpromzdaniy. 1997, p. 32, Fig. 4.6 (a).

Despite the fact that the design chosen as an analogue provides effective reinforcement of the stretched zone of precast reinforced concrete multi-hollow slabs, it is nevertheless not suitable for reinforcing similar slabs located on the top floor of the building and combined with the roof, due to the inability to access these slabs from above , which is necessary during the installation of this design. Also, this design has a high material consumption and significantly increases the weight of the slab due to the fact that the emptiness of the slab is completely filled with concrete.

The closest analogue is the reinforcement structure of a reinforced concrete multi-hollow floor slab, including a groove made in the stretched zone of the slab below the hollow of the slab, additional reinforcement that is placed in the stretched zone of the slab in the zone of the hollow of the slab or the zone below the hollow of the slab, the additional reinforcement is provided with at least two anchors, which are located at the end sections of the additional fittings and are installed in the holes made in the locations of the indicated anchors, at the end sections of the additional th fittings in the holes, the groove and plates made void key, end portions of the additional reinforcement and the anchor is hardwired in the data key. The dowels are made in the central sections of the additional reinforcement in the groove and void of the plate, the central sections of the additional reinforcement are monolithic in these keys. (see patent RU No. 153650, IPC E04G 23/02, publ. 07.27.2015)

Despite the fact that the design chosen as the closest analogue provides effective reinforcement of the stretched zone of most precast multi-hollow concrete slabs, it cannot be used in slabs with a low concrete class in terms of strength due to the loss of anchoring of additional reinforcement due to crushing of the slab concrete between the hole and the groove.

 The objective of the utility model is to develop a reinforcement design for a multi-hollow slab, which allows reinforcing slabs with a low concrete class in strength.

The essence of the utility model is that the reinforcement design of a multi-hollow slab, including additional reinforcement, which is placed in grooves made in the stretched zone of the plate below the voids of the plate, the grooves are connected to these voids, the additional reinforcement is equipped with at least two anchors, which are located at the end sections of the additional reinforcement and installed in the holes made in the locations of the indicated anchors, at the end and central sections of the additional reinforcement in the holes, groove and p The keys are made in the mouth of the slab, the end and central sections of the additional reinforcement and anchor are monolithic in these keys, and a trapezoidal slot is made between the groove and the hole in which the additional reinforcement is monolithic. The lateral sides of the trapezoidal slot are made at an angle of 15 ° ≤ φ <75^°to the axis of the groove.

Dowels are made in the trapezoidal slot and the void of the plate.

Effect: the proposed design allows you to strengthen slabs with a low class of concrete in strength.

The utility model is illustrated by drawings, where in FIG. 1 shows a cross-sectional reinforcement structure of a reinforced concrete multi-hollow floor slab, in FIG. 2 - view A.

The reinforcement design of the multi-hollow slab 1 includes additional reinforcement 2, which is placed in the grooves 3 made in the stretched zone of the plate below the voids 4 of the plate 1, the grooves 3 are connected to the indicated voids 4. The additional reinforcement 2 is provided with at least two anchors 5, which are located at the end sections of the additional reinforcement 2 and installed in the holes 6 made in the locations of the indicated anchors 5. At the end and central sections of the additional reinforcement 2 in the holes 6, the groove 3 and the void 4 of the plate 1, dowels 7 are made. K The front and central sections of the additional reinforcement 2 and anchor 5 are monolithic in these dowels 7. A trapezoidal slot 8 is made between the groove 3 and the hole 6 - this can be a slot, a slit, a notch, a fold, a trapezoidal insert in which additional reinforcement is monolithic 2. The lateral sides of the trapezoidal slot 8 are made at an angle of 15 ° ≤ φ <75^°to the axis of the groove. In the trapezoidal slot 8 and the emptiness of the plate 4, the keys 7 are made.

To carry out the reinforcement design, a groove 3, holes 6 and a trapezoidal slot 8 in the form of a slot, a slot, a recess, a fold, a trapezoidal insert connecting to the void 4 are punched into the reinforced concrete multi-hollow slab 1 from the side of the stretched zone 4. Anchor 5 is attached to the additional reinforcement 2, which placed at the ends of the reinforcement 2. Additional reinforcement 2 with anchors 5 is installed in the groove 3 and the holes 6 using latches (not shown in the drawing). At the bottom surface of the plate 1 in the areas of execution of the keys 7 mounted formwork. In the groove 3 between the additional reinforcement 2 and the slab 1, the nozzle of the concrete pump is installed and the keys are concreted 7. The keys 7 can be concreted by hand.

Claims (3)

1. The reinforcement design of a multi-hollow slab, including additional reinforcement, which is placed in grooves made in the stretched zone of the plate below the voids of the plate, the grooves are connected to these voids, the additional reinforcement is provided with at least two anchors that are located at the end sections of the additional reinforcement and installed in the holes made in the locations of the indicated anchors, at the end and central sections of the additional reinforcement in the holes, groove and emptiness of the plate, dowels, end and cent are made The integral sections of the additional reinforcement and anchor are monolithic in these keys, characterized in that a trapezoidal slot is made between the groove and the hole in which the additional reinforcement is monolithic. 2. The construction according to claim 1, characterized in that the lateral faces of the trapezoidal slot are made at an angle of 15 ° ≤

<75 ° to the axis of the groove. 3. The construction according to paragraphs. 1 and 2, characterized in that the dowels are made in the trapezoidal slot and the void of the plate.

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