RU2706390C1 - Method of determining the strength of the tested concrete by the dowel-nail dipping depth and the dowel-nail - Google Patents

Abstract

FIELD: defectoscopy.

SUBSTANCE: invention relates to investigation of strength properties of concrete and can be used to control strength of concrete structures. Concrete strength is determined from the dipping depth of the dowel-nail into the tested concrete from the construction-and-mounting gun. On the dowel-nail cylindrical surface a scale is applied with the division price corresponding to strength of the known concrete types.

EFFECT: high information value when determining strength of concrete and reduced time (labor costs) for determining strength of concrete.

8 cl

Description

Technical field

The invention relates to the study of the strength properties of concrete and can be used to control the strength of concrete structures.

State of the art

The technical essence is similar to the method implemented using the device for determining the strength of concrete in structures according to the USSR author's certificate for invention No. 1575101, which was published on September 30, 1990, according to IPC G01N 3/58, including immersion of the working body in concrete of the studied structure and comparison of information with reference samples.

The disadvantages of the above method include low information content in determining strength.

Close in technical essence is the method for determining the strength of concrete according to the USSR author's certificate for invention No. 1573360, which was published on 08/07/1992, according to IPC G01N 3/48, including immersion of the working body in concrete of the test structure and on the print on the information carrier (copy paper ) determine the strength of concrete in comparison with reference samples.

The disadvantages of the above method include low information content in determining strength.

The closest in technical essence is the method implemented when using the device according to the USSR patent for invention No. 50279, which was published on January 31, 1937, according to class 42k, 29, 28, including immersion of the working body in the concrete of the test structure and left in size by the working body funnels determine the strength of concrete compared to reference samples.

The disadvantages of the above method include low information content in determining strength.

Close in technical essence is the shot anchor according to the USSR copyright certificate for invention No. 716900, which was published on 02.25.1980, according to IPC B63B 21/28, containing a housing with limiters.

The disadvantages of the above device include low information content in determining strength.

The closest in technical essence is a nail dowel according to TU 14-4-1731-92, put into effect in 1992, containing a body with a head and a washer.

The disadvantages of the above device can be attributed to low information content in determining the strength of concrete.

Disclosure of inventions

The objective of the invention is to increase the information content in determining the strength of concrete.

The technical results of the inventions are an increase in information content in determining the strength of concrete and a decrease in time (labor) to determine the strength of concrete.

Technical results are achieved in that the strength is determined by the depth of immersion of the dowel-nail in the test concrete when it is shot from the construction and assembly gun, while a scale with a division price corresponding to the strength of well-known concrete is applied to the cylindrical surface of the dowel-nail.

In the method for determining the strength, the dependence, or in another formulation of the graph, of the depth of immersion of the dowel-nail in the reference samples of concrete of different strengths can be predetermined.

In the method for determining strength, an immersion dowel-nail can be made of steel with a hardness of at least 51.5 HRC.

In the method for determining the strength when diving a dowel-nail, mounting and construction cartridges with an energy output of 300 to 700 J can be used.

In the method for determining strength, a scale with a division price of 1 mm can be applied to the surface of the dowel-nail before immersion.

Technical results are achieved by the fact that the dowel-nail for determining the strength of concrete is made with a scale on a cylindrical side surface.

In a dowel-nail, the division of the scale applied to the lateral cylindrical surface may correspond to the strength of concrete of known grades.

In a dowel-nail, the division of the scale applied to the lateral cylindrical surface can correspond to 1 mm.

In a dowel-nail, the scale can start from the dowel-nail head.

The implementation of the invention

Twin samples of various strengths are made and tested by the proposed method and reference. Dependences of concrete strength are built using assembly and construction cartridges with a certain energy efficiency and overall mass characteristics of dowels and nails.

Immersed dowel-nail is made, for example, of steel with a hardness of at least 51.5 HRC, standard diameter and length.

Prior to immersion, a scale with a standard division price or with a division price of the corresponding concrete strength is applied to the cylindrical surface of the nail dowel-nail, the step of which can correspond to the step of the standard concrete strength (or concrete grade). It is reasonable to start the scale from the head of the dowel-nail.

When diving a dowel-nail, mounting and construction cartridges are used with an energy output of 300 to 700 J.

The strength is determined by the depth of immersion of the dowel-nail in the test concrete when it is fired from a construction gun.

The implementation of the method for determining the strength of concrete can be performed using, among other things, manufactured devices and dowels-nails.

The nail dowel can be made of known materials using known technologies.

Claims (8)

1. The method of determining the strength by the depth of immersion of the dowel-nail in the test concrete from a construction gun, characterized in that a scale with a division price corresponding to the strength of concrete of known grades is applied to the cylindrical surface of the dowel-nail. 2. The method according to p. 1, characterized in that they pre-build the dependence of the immersion depth of the dowel-nail into concrete samples of various strengths. 3. The method according to p. 1, characterized in that the immersed dowel-nail is made of steel with a hardness of at least 51.5 HRC. 4. The method according to p. 1, characterized in that when immersing the dowel-nail, construction and mounting cartridges are used with an energy output of 300 to 700 J. 5. The method according to p. 1, characterized in that on the surface of the dowel-nail prior to immersion, a scale with a division price of 1 mm is applied. 6. Dowel-nail for determining the strength by the depth of immersion of the dowel-nail in the test concrete from a construction gun, characterized in that a scale with a division price corresponding to the strength of concrete of known grades is applied to the cylindrical surface of the dowel-nail. 7. The dowel-nail according to claim 6, characterized in that a scale is applied with a division price of 1 mm. 8. The dowel-nail according to claim 6, characterized in that the scale starts from the head of the dowel-nail.