RU143491U1 - COMPOSITE REINFORCEMENT TESTING PLANT - Google Patents

Abstract

Installation for testing composite reinforcement, including a base plate with a central through hole, the hole diameter exceeding the “cone” of concrete destruction, a vertical force device equipped with an electronic dynamometer and fixed with a nut is installed on the base plate, and the composite reinforcement lifting unit is made in the form of a stud with an external thread and an internal through hole for passing composite reinforcement resting on the adapter sleeve with an internal conical hole for a collet clamp ima.

Description

The utility model relates to the field of construction and can be used to determine the optimal diameter of composite reinforcement in reinforced concrete structures, as well as to determine the bearing capacity of composite reinforcement in new structures.

A known method of testing a reinforcing bar (patent SU 881613 IPC G01N 33/38 publ. 15.11.81), which shows a diagram of a device for pulling reinforcement from a concrete sample. A concrete sample with a reinforced core centered in the center is mounted on a fixed support. A spring with a movable plate having a center and equipped with devices is placed on a concrete sample. The plate is passed into the reinforcing bar and secured with a collet grip. A welded frame is installed between the plate and the press.

A disadvantage of the known technical solution is the massiveness of the technological equipment, as the mounting complexity increases, the insecurity of working with a prestressed spring, as well as the difficulty of pulling out the reinforcing bar from a concrete sample.

A device is known for testing anchor fasteners of curtain wall systems selected by us for the prototype (patent RU 2390751 publ. 05.27.2010), which contains support rods, a gripping device for engaging anchor fasteners, a bed with a power mechanism mounted on it, and a dynamometer. The device is equipped with additional guides with compensating latches fixed on them, providing uniform application of pulling forces.

The disadvantages of the known device are its low operational and technical qualities due to the low stability of its position, because the device is supported on a concrete surface at only two points.

The technical problem, which is directed by the claimed technical solution, is to create a device with enhanced operational and technical qualities.

The technical result, which is achieved using the proposed utility model, is to obtain the exact strength parameters of the anchoring of composite reinforcement in concrete under the pulling force.

The task is achieved by the fact that the central through hole is made in the base plate, and the hole diameter exceeds the “cone” of concrete destruction, a vertical force device is installed on the base plate, equipped with an electronic dynamometer and secured with a nut, and the composite reinforcement lifting unit is made in the form of a stud with an external thread and an internal through hole for passing composite reinforcement resting on the adapter sleeve with an internal conical hole for a collet clamp.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability condition of “novelty”.

The patentability condition “industrial applicability” is proved by the example of a specific installation. The utility model is illustrated by drawings, where Fig. 1 shows a sectional view of an installation, and Fig. 2 is a general view of an installation.

On the surface of the concrete prism 1, into which the composite reinforcement 2 is buried, a support plate 3 is installed with a through central hole through which the composite reinforcement 2 passes. Above the support plate 3 is a device for creating a vertical force 4, equipped with an electronic dynamometer 5 and secured with a nut 6. The lifting assembly of the composite reinforcement 2 is made in the form of a stud 7 with an external thread and an internal through hole for passing composite reinforcement 2, which is supported in the adapter sleeve 9 with an internal a hole-shaped hole for a collet clamp 8, compressing composite reinforcement 2.

Composite reinforcement 2 is buried into the concrete prism 1 to a depth determined by the tasks of the test, at a distance from the edge of the concrete prism 1 exceeding the height of the concrete prism 1 and with a distance between the composite reinforcement 2 exceeding the double height of the concrete prism 1. On the concrete prism 1 above each bar composite reinforcement 2 alternately install the support plate 3 with a through hole. The support plate 3 serves to limit the area of action of the bending moment that occurs when pulling the composite reinforcement 2 from the concrete prism 1 and does not prevent the destruction of the concrete prism 1 along the "cone" of destruction. When the nut 6 is rotated, the device for creating the force 4 displays the force arising from the rotation of the nut 6 in a clockwise direction, which raises the lifting unit of the composite reinforcement 2, ensuring its breakout from the concrete prism 1.

Taking into account all possible fracture patterns (breaking of composite reinforcement upon reaching the tensile strength, slipping of composite reinforcement in the concrete body, tearing of composite reinforcement with a part of concrete along the fracture “cone”), the proposed solution allows obtaining exact parameters of the anchoring strength of composite reinforcement in concrete ,

A concrete prism is produced in the factory to approximate the working conditions of the composite reinforcement in the concrete sample to the real ones.

The technical tests of the claimed utility model confirm the specified technical result.

Claims (1)

Installation for testing composite reinforcement, including a base plate with a central through hole, the diameter of the hole exceeding a “cone” of concrete destruction, a device for creating vertical force, equipped with an electronic dynamometer and secured with a nut, is installed on the base plate, and the node for lifting the composite reinforcement is made in the form of a stud with an external thread and an internal through hole for passing composite reinforcement resting in the adapter sleeve with an internal conical hole for a collet clamp ima.