RU179265U1 - ANCHOR FOR FASTENING THE FACING WALL TO THE WALL FROM CELLULAR CONCRETE - Google Patents

Abstract

The utility model relates to construction, in particular to an anchor for attaching a facing wall to a wall of aerated concrete (aerated concrete). The technical result of the proposed technical solution is the creation of an improved lightweight anchor for attaching the facing wall to the wall of aerated concrete. The technical result is achieved by the fact that the anchor for attaching the facing wall to the cellular concrete wall contains a rod of composite material, at one end of which there is a screw part provided with a hexagon on the side of the rod, and the other end of the rod is made in the form of a curved part of composite material. In this case, glass-filled polyamide, polyimide or polypropylene are used as a composite material of the screw part.

Description

The utility model relates to construction, in particular to an anchor for attaching a facing wall to a wall of aerated concrete (aerated concrete).

Three types of anchors serve this purpose: driven, glued and screwed.

An example is US application No. 2008181746, F16B 37/04, publ. 07/31/2008, in which an anchor for solid concrete is declared. The anchoring part is in the form of a spiral. A spiral spring is inserted into a hole pre-drilled in hard concrete, acting as a fixing element. Due to the rotation of the anchor, the spring is screwed onto the anchor, fixing it. However, in the case of cellular concrete, due to its low strength, the installation of driven anchors results in the destruction of the concrete structure, which leads to its loss from it.

As for the adhesive anchor, in the case of cellular concrete, the following problems exist: the inability to work in the winter period of time due to the low speed of the chemical reaction; the high cost of adhesive anchors containing polyester resin and highly reactive hardeners (for example, cobalt solution); the complexity of installing an adhesive anchor, containing the following operations: drilling a hole, stripping and purging it, injecting the adhesive composition, installing the anchor, it also takes time to polymerize the anchor. An example of a glue anchor is the application for the invention of the Russian Federation No. 2010118310, E04F 13/22, publ. 11/10/2011. In it, the anchor is made of composite material and coated with an abrasive layer. The disadvantages of adhesive anchors are their high cost, the complexity of installation, the inability to install in the winter due to the low speed of the chemical reaction.

The closest technical solution to the claimed is screw-in composite anchor according to the Eurasian patent No. 023312, E04F 13/22, publ. 03/31/2014. It contains a rod of composite material having an abrasive coating, on one end of which there is a screw part, the end of which on the side of the rod has the shape of a hexagon.

Advantages of this anchor:

high anchoring ability due to its screwing;

the possibility of installation in the winter.

The main disadvantage of this anchor is the large diameter of the anchoring rod (at least 6 mm), which is associated with the requirement of a burst load from the mortar seam, as anchoring ability depends on the area of adhesion of the mortar to the surface of the rod.

The large diameter of the rod in the prototype determines the remaining increased weight and dimensions of the anchor: the diameter of the screw part, the size of the hexagon, the total weight of the anchor, which increases its cost. The large diameter of the screw part requires increased torque during installation.

In addition, since the anchoring rod has a diameter of 6 mm and more, it has high rigidity and requires the exact entry of the anchoring rod into the mortar joint, which complicates its installation. Another disadvantage is the material of the screw part of the rod (plastic), because when screwed in, it acts as a self-tapping screw, and aerated concrete material acts as an abrasive, grinding away plastic, as unstable to abrasive effects. In addition, due to the use of plastic for the hex head, it is necessary to increase its size to provide a large torsion moment.

The objective is to reduce the weight and size characteristics of the anchor, reduce the cost of its manufacture, simplify installation, reduce torque and increase labor productivity.

The technical result of the proposed technical solution is the creation of an improved lightweight anchor for attaching the facing wall to the wall of aerated concrete.

The technical result is achieved by the fact that the anchor for attaching the facing wall to the cellular concrete wall contains a rod of composite material, at one end of which there is a screw part provided with a hexagon on the side of the rod, and the other end of the rod is made in the form of a curved part of composite material. In this case, glass-filled polyamide, polyimide or polypropylene are used as a composite material of the screw part.

The essence of the technical solution is illustrated by drawings.

FIG. 1 - anchor with a cylindrical screw part.

FIG. 2 - anchor with a conical screw part.

An anchor is a rod 1 with a diameter of 3 mm made of a composite material (for example, basalt plastic, fiberglass, etc.), at one end of which there is a curved part 2, and at the other end - a screw part 3 made of glass-filled plastic, which can be cylindrical (Fig. 1), and conical (Fig. 2) At the end of the screw part facing the rod, there is a hexagonal tip 4 of the same material.

The conical screw part is more versatile and applicable in the case of a low-strength aerated concrete wall: the lower the grade of aerated concrete, the greater the angle β. The extreme case of a tapered screw thread is when the angle β is minimal.

The cylindrical helical part is an extreme case of a conical screw thread with an angle β close to zero and is suitable only for high-strength cellular concrete, otherwise, when the anchor is screwed, it is destroyed

The use of a rod of small diameter and a stronger and wear-resistant composite material for the screw part allows 2-3 times to lighten the overall dimensions of the anchor (to lighten the weight and reduce the diameter of the rod and screw part) for aerated concrete.

Reducing the diameter of the rod and its screw part can also reduce torque when screwing the anchor into aerated concrete, which increases labor productivity.

Such an anchor is easier to lay in the mortar joint due to the small cross section of the rod and the presence of a curved part at the end. The latter has a greater value of the rate of breakout from the mortar than the prototype.

In addition, the small diameter rod has greater flexibility compared to the prototype, which simplifies the laying of the facing wall, because it can be bent or raised to the level of the mortar seam.

Anchor is made as follows.

At one end of the uncured composite rod with a nominal diameter of 2.5-3 mm of the required length with transverse winding (not shown) form a curved part on the molding panel.

The molding panel comprises a roller with a radius equal to the bending radius of the curved part of the anchor and a bending angle of less than 80 degrees. Next, the formed core is cured in the furnace and on its straight section on the injection molding machine, the screw part is formed from a composite, for example, glass-filled plastic (polyamide, polypropylene, polyimide, etc.) on an injection molding machine.

An uncured composite rod is fixed in tension (for example, by means of a spring) and placed in a curing oven.

The manufacture of prototypes of anchors for aerated concrete compared to the prototype showed improved performance while reducing weight and dimensions by 2.5-3 times.

From the table it follows that the inventive anchor is 2.8 times lighter and at the same time has an increased pull-out force from aerated concrete and mortar.

Thus, the claimed technical result has been achieved: an improved lightweight anchor has been created for attaching the facing wall to the cellular concrete wall.

Claims (3)

1. Anchor for attaching the facing wall to the wall of cellular concrete, containing a rod of composite material, at one end of which there is a screw part, provided with a hexagon on the side of the rod, characterized in that the other end of the rod is made in the form of a curved part. 2. Anchor according to claim 1, characterized in that the screw part is made of composite material. 3. Anchor according to claim 2, characterized in that glass-filled polyamide, polyimide or polypropylene are used as the composite material of the screw part.

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