CS254557B1 - Connection of a deformation indicator with a measured object - Google Patents

Abstract

The task of the solution is to develop a scalable deformation sensor joint with measured object, in particular a machine part, in which it will not be measured when assembled object to load the deformation sensor body from the torque exerted on fixing screws. For this purpose they are between the heads of the fastening screws and the housing deformation sensors and mounting heads bolts and leveling shims integrated washers.

Description

(54) 8Connection of deformation sensor and measured object

The object of the solution is to develop a detachable connection of the deformation sensor to the measured object, in particular a machine part, which during its assembly to the measured object does not load the deformation sensor body from the torque applied to the fastening screws. For this purpose, solid washers are provided between the fastening bolt heads and the deformation sensor housing and the mounting bolt heads and the alignment shims.

GIANT. 1

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a connection of a deformation sensor to a measured object subject to deformation.

The force load measurement of machine parts is based on the measurement of the dependence between the applied force and the surface deformation occurring under load in the selected part of the machine part.

For measuring deformation are used sensors, which are mechanically connected to the stress point of the machine part, which are based on sensing and mechanical amplification of the measured deformation.

The sensor is attached to the machine part in at least two locations and the force acts in the direction of the connection of these locations. The stiffness of the active part of the sensor is as low as possible and the length of this part is as short as possible.

The low stiffness of the active part of the sensor makes it possible to use relatively small fastening forces which do not exceed values of the order of 2

N. If this condition is met, the transfer of surface deformation from the machine part to the sensor can be ensured by frictional forces induced by screw connections at the fastening points. The mechanical detachable connection of the deformation sensor by screws is advantageous even in cases where the use of conventional glued resistance strain gauges is impossible for various reasons. Therefore, deformation sensors are often used to measure the force load of rolling mills, presses, steel structures and other equipment.

A drawback of the known deformation sensors of machine parts is that the low stiffness of the active part of the deformation sensor makes it difficult to handle and mount the deformation sensor. Possible overloading and permanent deformation leading to damage or deterioration shall be avoided. In particular, the final assembly phase, consisting of tightening the fastening screws with the required force, requires special attention and precautions. Assembly fixtures are used to increase the stiffness of the deformation sensor and prevent damage. Despite these necessary measures, the installation of the deformation sensor is very demanding and laborious.

These disadvantages of the existing deformation sensors of machine parts are eliminated by the connection of the deformation sensor to the measured object according to the invention, consisting of at least two mounting screws and two fixing screws for connecting the deformation sensor body to the measured object at two points. the deformation sensor body and the mounting bolts and alignment plate are a solid washer.

The advantage of the connection of the deformation sensor to the measured object according to the invention is that the influence of the friction moment occurring when tightening the fastening screws on the deformation sensor body is eliminated and thus eliminates the possibility of deformation of the active part of the deformation sensor for its mounting on the measured object. Another advantage is that it simplifies the installation of the deformation sensor and prevents damage or measurement errors. Its advantage is also in the possibility of higher values of fastening forces and achieving a reliable deformation shifting even in the most difficult operating conditions.

The connection of the deformation sensor to the measured object is shown by way of example in the attached drawing and shows the connection in vertical section and Fig. 2 is a side view of Fig. 1.

According to an exemplary embodiment, the connection of the deformation sensor to the measured object 2 is formed by two angular alignment tabs 6, each of which has two holes for the passage of the mounting screws 5 in one arm and one hole for the connecting screw 2 in the other arm. are attached to each other under deformation to be measured. A deformation sensor body 1, which is of rectangular cross-section and shape and which is provided at its ends with through holes for the passage of connecting screws 3, interconnected by means of holes in the second arms of the angle equalizing plates 6, By means of the heads of the mounting screws 5 and the connecting screws 3 and / or their nuts, solid washers 6 are provided, each having three holes.

The connection of the deformation sensor to the measured object 2 is carried out in such a way that two angular alignments 6 and the deformation sensor body 1 are fastened together to the measured object 2. By attaching the angular shims 6, the mounting bolts 5 and the deformation sensor body 1 by means of the connecting bolts 2 are made. Under the two bolts 5, the solid washers 4 are provided. First, the mounting bolts 5 and the connecting bolts 3 are tightened.

Claims (1)

SUBJECT OF THE INVENTION Deformation sensor to object to be measured, consisting of at least two mounting screws and two retaining screws for connecting the deformation sensor body to the object to be measured at two locations, characterized in that between the retaining bolt heads (3) and the deformation sensor body (1) and mounting bolt heads (5) and the shims (6) are solid washers (4).