RU153447U1 - FITTINGS COMPOSITION - Google Patents

Abstract

Composite reinforcement, comprising a bearing rod and a winding rope, wound on the bearing rod at an angle, characterized in that the winding rope is wound on the bearing rod at an angle from 30 to 70 °, while the surface relief of the bearing rod is formed by the side surface of the bearing rod not in contact with the rope , which is made with a periodic profile, which is alternating profiles corresponding to the profile of the side surface of a parabolic barrel.

Description

The inventive utility model relates to construction, namely, reinforcement for concrete and various building structures.

An analogue of the claimed utility model is composite reinforcement containing a supporting rod and a winding bundle, while the surface profile of the reinforcement is formed by a winding bundle wound on the rod along a helical line with a winding angle from 30 ° to 70 ° (see patent RU 2287647, IPC E04C 05 / 07, 2006 g). The essential features of the analogue “supporting rod, winding strand, surface profile of the reinforcement is formed by a winding strand wound on the rod along a helical line with a winding angle of 30 ° to 70 °” coincide with the essential features of the claimed utility model.

A disadvantage of the analogue is a decrease in the reinforcing ability of the reinforcement during power actions along the axis of the bearing rod due to the general cylindrical shape of the rod, which does not contribute to mitigating external mechanical influences, such as impacts.

The closest analogue of the claimed utility model is composite reinforcement containing a supporting rod and a winding rope wound on the rod at an angle of more than 70 °, but less than 90 ° (see patent RU 94593, IPC E04C 5/07, 2010). The essential features of the closest analogue “bearing rod, winding rope, wound on the rod at an angle” coincide with the essential features of the claimed utility model.

A disadvantage of the closest analogue is also a decrease in the reinforcing ability of the reinforcement under axial impact due to its shape, which does not contribute to the depreciation of axial mechanical stresses.

The problem to which the claimed utility model is directed is to increase the reinforcing ability of the reinforcement under axial effects by increasing the spring properties of the reinforcement in the axial direction by giving the reinforcement a solid elastic body.

To achieve the specified technical result in composite reinforcement comprising a supporting rod and a winding rope, wound on the rod at an angle, the winding rope is wound on the rod at an angle from 30 ° to 70 °, while the surface relief of the bearing rod is formed by the side surface of the bearing which is not in contact with the bundle a rod made with a periodic profile, which is alternating profiles corresponding to the surface profile of a parabolic barrel.

In FIG. composite reinforcement is presented, side view.

The reinforcement includes a supporting rod 1, which may be made of a composite material, for example a glass composite, a basalt composite, etc. A winding bundle 2 is wound onto the supporting rod along a helix, which can be made of fiberglass, basalt fiber, etc. The winding angle a can be from 30 ° to 70 °. The lateral surface A of the supporting rod outside the zone of the winding bundle (that part of the side surface that does not contact the winding bundle) is made with a periodic profile. In this case, the profile is understood as the line of intersection of the surface of the bearing rod with any plane in which the axis B of the bearing rod is located. This profile is alternating profiles 3, each of which corresponds to the surface profile of the parabolic barrel (the line of intersection of the side surface of the parabolic barrel with the plane in which the axis of the parabolic barrel is located).

A concrete example of the claimed utility model is composite reinforcement ASK-10 made of a glass composite wrapped in a glass fiber bundle, the winding angle is ≈66 °.

The inventive reinforcement can be made by known methods, while the size of the winding rope and the force of compression of the supporting rod with the rope are selected so that the rod-free surface of the rod acquires a parabolic profile.

The implementation of the bearing rod of the reinforcement in the form of a solid elastic body with a convex helical surface of the specified angle gives the rod spring properties under mechanical stress along its axis, which ensures the mitigation of shock loads, that is, increases the reinforcing ability of the reinforcement.

Claims (1)

Composite reinforcement, comprising a bearing rod and a winding rope, wound on the bearing rod at an angle, characterized in that the winding rope is wound on the bearing rod at an angle from 30 to 70 °, while the surface relief of the bearing rod is formed by the side surface of the bearing rod not in contact with the rope , which is made with a periodic profile, which is alternating profiles corresponding to the profile of the side surface of a parabolic barrel.

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