RU79336U1 - DEVICE FOR DETERMINING THE STRENGTH OF CONCRETE AND MORTAR - Google Patents

Abstract

A device for determining the strength of concrete and mortar includes a bed, a screw device, a moving rod, a cone indenter, a movement indicator of a cone type indenter, an exemplary portable dynamometer. The housing includes at least two rods for connecting the base and the guide, and a carriage moving along the rods of the frame. The conical indenter is detachably mounted in the sleeve using at least one locking screw. The proposed technical solution will improve the accuracy of determining the strength characteristics of concrete. 1 ill.

Description

The proposed utility model relates to measuring equipment, namely, devices for determining the strength characteristics of materials used in construction: concrete and reinforced concrete products, mortars.

Known measuring devices of various designs used in the quality control of building materials, the action of which is based on the use of mechanical methods of non-destructive testing. One of such measuring devices: a device for determining the strength of a material by its hardness, described in patent RU 2058543, is selected as the closest analogue of the proposed technical solution. The device known from RU 2058543 includes a loading device fixed on a housing containing a guide and a base, a moving rod with a spring fixed on it, a cone indenter detachably fixed in the sleeve at the end of the rod, and a dial type indicator of the cone indenter movement connected to the rod.

The known device is intended for use in "manual mode", that is, when using the device, the specialist sets the device on the sample, and by pressing the handle of the device (loading device) implements the indenter in the concrete sample, by the penetration depth of the indenter, which is determined by the hour indicator and known calibration characteristics determine the strength of concrete. Obviously, with such a measurement procedure, the accuracy of the measurement will very much depend on the quality of the location of the sample or the installation of the device on a building structure, the pressure applied to the handle of the device, and the accuracy of visual recording of the indicator. In addition, when using the known device, the fixing of the indenter in the sample of material is possible only manually, that is, with insufficient pressure, you will have to perform repeated

measurements. All the above disadvantages as a whole, both reduce the accuracy of the readings of the device, and complicates the measurement process.

The proposed technical solution will eliminate the disadvantages of the known technical solution, which will generally increase the accuracy of measurements of various materials, will expand the range of testing of materials with ease of use.

The technical result expected from the use of the proposed utility model is achieved by the fact that a device is proposed for determining the strength of concrete and mortar, including a loading device mounted on a housing containing a guide and a base, a load meter in the form of a portable dynamometer, a moving rod connected to a loading device, cone indenter detachably fixed in the sleeve at the end of the rod, as well as a dial indicator connected to the rod, measuring the amount of movement of the cone of the indenter. In contrast to the known technical solution, the loading device is a screw device that is mounted on the guide of the housing. In this case, the housing includes at least two rods, providing a connection between the base and the guide. The rod is connected to a carriage moving along the body rods. On the stock is an exemplary portable dynamometer. The cone indenter is mounted in the sleeve with at least one locking screw.

The design of the proposed technical solution is illustrated by the drawing.

The proposed device for determining the strength of concrete and mortar includes a loading device. The loading device is a screw device (screw) 1, rotated by the handle 9, the position of which is fixed by the locking screws 8. The loading device is fixed on the housing, which includes a guide 2, the base 15 and the rods 14 connecting the base and the housing guide. The number of rods 14 is selected depending on the expected operating conditions of the device, it is obvious that the number of rods should be at least two.

The screw device 1 is fixed on the guide 2 of the case. A moving rod 5 is connected to the screw device, on which the conical indenter 4 and measuring instruments are fixed: indicator of movement of the conical indenter of the sentry type 12

(optimum measurement accuracy up to 0.01 mm) and exemplary portable dynamometer 13 (for example, 100 or 200 kgf). A spring 10 is included in the stem design. A conical indenter 4 is mounted on the end of the stem 5 in the sleeve 6 using a detachable connection, a locking screw 11 is used to fix the indenter and replace them, fixing the indenter in the sleeve 6 of the rod 5. The rod 5 is connected to the rods 14 by carriage 3 , which during operation of the device moves along the rods 14 and together with the guide does not allow the rod 5 with indenter 4 to deviate from the vertical and ensures the application of axial force to the sample at right angles.

When the device is selected and installed in the sleeve b of the rod 5 indenter 4 with the required angle of sharpening the cone. Samples of material are selected from the structures, the sample is monolithic in a steel holder. The screw device 1 rotates the screw device 1 and the conical indenter 4 is brought in contact with the surface of the sample. The screw device 1 smoothly transfers the load to the conical indenter 4, the speed of rotation of the handle controls the speed of loading. By rotating the handle 9, a load of 10 ÷ 30 kgf is set on the dynamometer 13 and the movement indicator 12 is reset to zero (the scale is set to 0). After that, depending on the schedule used, a load of 30 ÷ 100 kgf is smoothly set by a screw loading device 1 and a count is taken on the displacement indicator 12, which is an indirect indicator of the strength of concrete or mortar. The true value of the strength of the material is determined by the previously obtained calibration dependence between the indirect result and the result of testing control samples in the press. If necessary, for example, when testing on uneven surfaces, prior loading can be performed preloading to compact the surface under the indenter cone 4 and compress the entire measuring system.

Thus, the magnitude of the load applied to the sample can be accurately set, and ensuring high quality measurements with high reliability of the measuring equipment.

Claims (1)

A device for determining the strength of concrete and mortar, including a loading device mounted on a housing containing a guide and a base, a load meter in the form of a portable dynamometer, a moving rod connected to a loading device, a cone indenter detachably fixed in a sleeve at the end of the rod, and also connected to rod gauge type indicator configured to measure the movement of the cone indenter, characterized in that the loading device is a screw device thy, mounted on the housing guide and made with the possibility of smoothly achieving the required load, moreover, the housing includes at least two rods for connecting the base and the housing guide, the rod is connected to the carriage moving along the housing rods, and the conical indenter is mounted in the sleeve with at least one locking screw.