SU1025995A1 - Device for measuring solidifying object deformation - Google Patents

Abstract

A DEVICE FOR MEASURING DEFORMATIONS OF HARDENING OBJECTS, containing a deformation sensor, mounting elements, connected by 6 days to 1 with a strain sensor and a prednazat; read to immerse others into the hardening object, and adjust the internal screw in contact with one of the mounting elements and the corresponding end of the strain gauge, so that it is equipped with a rigid U-shaped frame, fingers with latches installed on the crossbar. U-shaped frame with the possibility of longitudinal and transverse movement in the plane of the frame and turning in a plane perpendicular to it, and an adjustable stop, placed on one of the fingers and U contacting with the second end of the strain gauge.

Description

The invention relates to measurement technology, namely to devices. for measuring the deformation of hardening objects.

A known device for measuring the deformation of hardening objects, containing a strain sensor, mounting elements connected at one end with the sensor and intended to contact the object after it has hardened l The disadvantages of this device are the complexity of zero adjustment and the low accuracy of the device due to the fact that the measurement deformations are produced for concrete that is already in a hardened state, whereas in a number of cases it is necessary to know the deformed state of reinforced concrete elements in initial stages of concrete .tverdeni In particular, the formation and opening of cracks in concrete articles in the early stages of hardening of concrete requires determining the moment of formation and measuring its .treschin disclosure, starting from the early stages of hardening of concrete and ending dismantling the forms of product /

Closest to the proposed nd. The technical essence and achievable effect is a device for measuring the deformation of a hardening volume, containing a strain sensor, mounting elements in the form of racks connected, one ends with a strain sensor, and intended to be dipped by other ends into a hardening object, and an adjusting screw in contact with one of the uprights and the corresponding end of the strain gauge G2 i

A disadvantage of the known device is the relatively low accuracy of measuring the deformation of hardening objects, due to the fact that the placement of the installation elements in the form of rods in a hardening material is possible only at the lowest stages of concrete hardening. In addition, there is always the danger that either these elements are placed in the material 1e too and the whole device is immersed in the material under the action of its own weight, or the placement of the installation elements B1 1 is completed too late and Part of the information on hardening of the concrete is irretrievably lost.

The purpose of the invention is to improve the measurement accuracy.

This goal is achieved in that the device for measuring the strain; Madium hardening objects, containing a strain gauge, mounting elements connected at one end with a strain gauge and intended to be dipped by other elements into a hardening object, and adjustment

the screw in contact with one of the mounting elements and the corresponding end of the strain gauge is equipped with a rigid U-shaped frame, fingers with latches, ycTiaHOB on the crossbar of the ft-shaped frame with the possibility of longitudinal and transverse peremen: scheni in plane and turning in perpendicular it is flat, and an adjustable thrust placed on one of the fingers and in contact with the second end of the strain gauge.

FIG. 1 shows a device for measuring deformations hardening objects, top view; in fig. 2 the same, side view.

The device contains a rigid f-shaped frame / made of rods 1 and 2 and a crossbar 3 connected by fixing nodes 4. The bars 1 and 2 are connected with free ends to the fixing elements 5 placed on the formwork 6. On the crossbar 3 fingers are placed 12 with the possibility of longitudinal and transverse movement in the plane of the frame and rotation in a perpendicular plane to it, as well as fixing with the help of fixators 13.

A device for measuring the deformation of hardening objects, also contains a deformation sensor 14, mounting elements 15 and 16, connected at one of the ends with a deformation sensor 14 and intended for immersion by the other ends in a hardening object 17, an adjusting screw 18 in contact with. the mounting element 16 and with the corresponding end of the deformation sensor 14; the g y 19 associated with the mounting element. 16 through a lug 20 and in contact with one end with an adjusting screw. 18, and the other with a corresponding end of the deformation sensor 14 through the measuring rod 21 and an adjustable stop 22 in contact with the other end of the measuring rod 21 of the deformation sensor 14 through the lug 23. Setting element 15 Through the boss 24 is connected with the housing 25 of the deformation sensor 14. The adjusting screw 18 is connected to the finger 7 through the boss 26, tons of ha 19 lies loosely on the fingers 8 and 9, and the deformation sensor 14 lies on the fingers 10 and 11.

The device works as follows.

Immediately after forming a hardening object .17, for example, a reinforced concrete product, a h-shaped frame is fixed parallel to the surface of the object in formwork 6 on the latter using fixing elements 5. using your fingers 7-12, adjusting screw 18 and adjustable stop 22. After that, deformation sensor 14 is freely placed on fingers 10 and 11, and on 1) fingers 8 and 9 - 19 with 19 mounted on them using brackets 20 and 24 with mounting elements 16 and 15, respectively, entering them into a hardening object 17.

The rotation of the adjusting screw 18, the strain sensor 14 through the tug 19 is pressed against the adjustable stop 22 tt remove the initial reading on the strain gauge 14. In the period of the appearance of the initial strength of the hardening object O 7, for example, concrete in a concrete product, by rotating the adjusting screw 18, the deformation sensor 14 and the rod 19 are released from contact with the adjustable stop 22, while the deformation sensor 14 remains at the initial reading. Unscrew the clips 13, pull the fingers 7-12 down, completely freeing the defrost sensor 14 and pull 19 from contact with the device elements placed on the frame. After that, readings are taken from the deformation sensor 14, according to which, taking into account the initial reference, the values of the deformation, the moment of crack formation and its disclosure in the process of development are judged.

The application of the invention makes it possible to increase the measurement accuracy by providing a measurement of the deformation of hardening materials .., starting from the early stages of hardening by using fingers that are acceptable in the working state.

Claims (1)

M. j Higher school, fig. 5 3 (prototype). HARD FORMATION device strain gauge, setting% FOR MEASURING DETAILS, there are several elements connected at one end with a strain gauge and designed to be immersed with the other ends in a hardening object, and an adjustable screw in contact with one of the mounting elements and the corresponding end of the strain gauge can be removed it with the fact that, in order to increase the accuracy of measurements, it is equipped with a rigid U-shaped frame, fingers with clamps installed on the crossbar of the U-shaped frame with the possibility of longitudinal and transverse movement in the plane. frame and rotation in the plane perpendicular thereto, and an adjustable stop, placed _in one of the contacting with the second deformation snip.