RU124282U1 - SUPPORT ELEMENT - Google Patents

Abstract

Supporting corrugated element in the form of a rod, intended for gluing into the walls of building structures with a hardening adhesive, characterized in that the rod is made of a concrete cylinder having longitudinal corrugations on the outer surface for better spreading of the injection composition with a depth of 0.1-0.5 cm and two transverse corrugations for installing fixing rings 0.1-0.5 cm deep, a through hole for injecting chemical composition is made in the center of the concrete cylinder, the inner fixing ring has the shape of asterisks And the outer continuous ring has the control opening in the upper portion, the cylinder is introduced into the concrete reinforcing bars.

Description

The utility model relates to the field of construction, and in particular to methods of repair and restoration work on objects with brickwork of bearing external and internal walls, in particular to nodes supporting floor slabs, both for hard and free support of floor slabs of various types on bearing walls made of solid and hollow bricks.

Most modern methods of joining ceilings consists in arranging the gate in an existing load-bearing wall with subsequent support of the plate, which leads to a decrease in the cross-sectional area of the wall and, as a result, to a decrease in load-bearing capacity.

Known reinforcing anchor element containing a fiberglass rod enclosed in a shell in the form of a spiral winding from a tape of steel foil, wound with an overlap of its coils. USSR author's certificate No. 1325152, IPC: E04C 5/07, 1987. A disadvantage of the known element is the inability to use it to connect layers of reinforced concrete panels or brick walls.

A known connecting element consisting of a central rod and end anchor parts made of unidirectional fibers impregnated with a curable polymer binder, and the anchor parts are provided with a liner, while the number of continuous fibers in any cross section along the entire length of the element is constantly and in the end anchor parts of the fiber on the periphery of the insert Patent of the Russian Federation No.2002009, IPC: E04C 5/12, 1993.

The disadvantage of the connecting element is the inability to use it to connect the layers of reinforced concrete panels or masonry walls due to reduced alkali resistance.

Known support element in the form of a corrugated rod connected to the supporting structures of concrete with a hardening adhesive. Hilti Anchor Guide, Glued Fittings. Issue 2008, p. 320, 321, 323-325. Prototype.

The disadvantage of the prototype is the local deformation of the supporting structures at the installation sites of corrugated metal rods of small diameter when installing floor slabs on them. These deformations reduce the strength and durability of masonry walls.

The objective of the utility model is to preserve the existing brick walls of reconstructed and restored buildings; use of old structures as load-bearing.

The technical result of the utility model is to increase the strength and durability of the walls, maintaining the structural integrity of the structures made of masonry.

The technical result is achieved by the fact that in the supporting corrugated element in the form of a rod intended for gluing into the walls of building structures with a hardening adhesive composition, the rod is made of a concrete cylinder having longitudinal corrugations on the outer surface for better spreading of the injection composition with a depth of 0.1-0.5 cm and two transverse corrugations for installing fixing rings 0.1-0.5 cm deep, a through hole for injecting the chemical composition is made in the center of the concrete cylinder, an internal fixing ring tso has the shape of an asterisk, and the outer continuous ring has a control hole in the upper part, while reinforcing bars are introduced into the supporting element.

Hilti reinforcing bar gluing technology mainly involves installing the rods in a concrete base, parallel to existing reinforcing bars. The fittings installed using the Hilti reinforcing bar gluing technology have diameter limits of a maximum of 39 mm. Such an anchor glued directly to the brickwork cannot bear a large load. the brick under the anchor is being pressed.

The invention is illustrated in figure 1-2.

Figure 1 shows a side view of a support element glued into a brick wall.

As an option, the unit for supporting the floor slab is shown using reinforcing bars glued into the support element:

where: 1 - hardening adhesive composition, 2 - concrete cylinder (supporting element), 3 - injection hole, 4 - sprocket ring, 5 - solid ring with a control hole, 6 - reinforcing bars, 7 - floor slab, 8 - brick wall.

Figure 2 - shows a front view of the supporting elements, where: 1 - hardening adhesive composition, 2 - concrete cylinder (supporting element), 3 - hole for injection, 8 - brick wall.

The supporting element 2 allows you to evenly and over a large surface area to transfer the reduced load from the floor slabs 7 to the brick wall 8.

The hole for gluing the concrete cylinder 2 in the brick wall 8 is made using a diamond core of the corresponding diameter.

The installation of the concrete cylinder 2 in the hole is done manually, the concrete cylinder 2 is fixed in the brick wall 8 with a continuous plastic ring 5 with a control hole. The control hole of the ring 5 is installed at the upper point.

The installation of the concrete cylinder 2 in the brick wall 8 is done manually, the concrete cylinder 2 is fixed in the brick wall 8 with a plastic star ring 4 and a continuous plastic ring 5 with a control hole. The control hole of the ring 5 is installed at the upper point.

On the outer surface of the concrete cylinder 2, longitudinal corrugations are made for better spreading of the injection composition 1 with a depth of 0.1-0.5 cm and two transverse corrugations at the opposite ends of the concrete cylinder 2 for installing retaining rings with a depth of 0.1-0.5 cm.

For alignment in the drilled hole of the brick wall 8 of the concrete cylinder 2, a ring (inner) in the form of an “asterisk” 4 is used.

Then, in the annular gap between the brick wall 8 and the lateral surface of the concrete cylinder 2, the hardening adhesive 1 is pumped through the nozzle 3 through the injection hole 3.

After the appearance in the control hole of the continuous ring 5 of a hardening adhesive composition 1, the injection is stopped.

After a set of strengths, the floor slabs 7 are laid on the support element 2. For increasing the supporting forces, the support element 2 is equipped with reinforcing rods 6.

Plastic rings 4 "asterisk" and a solid ring 5 (with a control hole) located in the transverse corrugations, allow the support element 2 to be fixed in the hole for gluing the concrete cylinder 2 in the brick wall 8 immediately before injection.

And during the injection process, when the hardening adhesive 1 passes from the injection hole 3 through the rays of the "sprocket" of the ring 4 and along the longitudinal corrugations of the support element 2 to the control hole in the continuous ring 5, the support element 2 is not extruded from this hole.

The hardening adhesive composition 1 is injected with a dispenser. Mixing of the components is carried out in the nozzle mixer of the dispenser.

After the hardening adhesive 1 appears in the control hole of the ring 5, the injection is stopped.

After the chemical composition of the strength is gained, the support element 2 is used to support the floor slabs 7 by installing both expansion anchors and chemical anchors.

It is possible to manufacture supporting elements 2 with embedded parts.

The hardening adhesive composition 1 is injected with a dispenser. Mixing of the components is carried out in a spout mixer.

Injection is stopped when hardening adhesive 1 appears in the control hole of the ring 5.

After the chemical composition of strength increases, the section of the brick wall 8 with the supporting element 2 installed in it can be used both for installing chemical anchors in the supporting element 2, and for gluing threaded rods and reinforcing bars into the supporting element 2 to create a unit for supporting the floor slabs 7 during reconstruction civil buildings.

Concrete cylinder 2, glued into the brick wall 8, being a fairly strong element, is able to absorb loads and transfer them, in turn, over the entire surface of the wall opening through the adhesive composition 1 to the brick wall 8.

Since the surface area of the hardening adhesive 1 is quite large, the load is distributed evenly, which allows the use of existing brick walls 8 as load-bearing elements.

The hardening adhesive composition 1, penetrating into the pores and cracks of the existing brickwork of the wall 8, produces its volumetric hardening in the contact layer to a depth of 20-40 mm.

Gluing is carried out by installing the supporting element 2 in a pre-prepared hole and pumping the chemical composition of Hilti HIT RE 500.

Apply and compositions based on injectable microcements, injection materials based on silicates, isocyanates, acrylic gels.

Claims (1)

Supporting corrugated element in the form of a rod, intended for gluing into the walls of building structures with a hardening adhesive composition, characterized in that the rod is made of a concrete cylinder having longitudinal corrugations on the outer surface for better spreading of the injection composition with a depth of 0.1-0.5 cm and two transverse corrugations for installing retaining rings with a depth of 0.1-0.5 cm, a through hole for injecting chemical composition is made in the center of the concrete cylinder, the inner retaining ring has the shape of asterisks And the outer continuous ring has the control opening in the upper portion, the cylinder is introduced into the concrete reinforcing bars.

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