CS233246B1 - Semi-automated measuring device for deflection of long-drawn strophic panels - Google Patents

Abstract

The semi-automated measuring device is intended for measuring the deflection of long-term suspended ceiling panels. The essence of the device is that the attached measuring bar has deflection sensors mounted in its central part, the tips of which touch the measured surface through glasses glued to the panels, and in the lower part a conical tip, which is fitted in one of the reference circular holes made in the beam, which is part of the tensioning frame, and in the upper part, an arm, while the arm rests on one end through the contact surface, on the other end through a cut-out of the shape In one pair of reference pins, pressed into the beam, which is part of the retractable frame, while the adjacent measuring bar is fixed by a locking eccentric, controlled by linear and rotary movement through the lever and pressed to the beam by a spring. The semi-automated deflection measuring device of long-term suspended ceiling panels can be used to measure panel deflections in the construction industry.

Description

BACKGROUND OF THE INVENTION The present invention relates to a semi-automated measuring device for the construction of long-termly exposed heating panels in the construction industry.

Until now, the deflection of the panels was measured predominantly by mechanical instruments, the data of which were read visually. Ceiling panels are a very often occurring element in the construction industry, where the course of deflection is monitored under long-term load conditions. With the leg dimension of the panel to monitor its deflection, it is necessary to create a measuring field from about 50 sensors.

To enable Statistical evaluation, a set of eca 40 elements is usually tested at once; the required number of sensors is then 2,000 pieces. Even when choosing the most inexpensive sensor types, they incur large investment costs, and these sensors only allow for visual readings. The disadvantage of these aeration devices is that for machine processing of the results, the measured values need to be plotted, which usually together with visual reading is often a source of subjective deflections.

The above-mentioned drawbacks are eliminated by the semi-automated deflection measuring device of the longitudinally retracted ceiling panels according to the invention, which consists in the fact that in the middle part of the measuring strip has deflection sensors fitted. which is mounted in one of the reference circular openings provided in a beam which is part of the load frame and in the upper part of the arm, the arm abutting on one horse through the contact surface, on the other end through a V-shaped cutout The clamping bar is fixed by a locking eccentric, controlled by a straightforward and rotary movement _from the lever and pressed against the beam by a spring.

The semi-automated deflection measuring device of the longitudinally retracted ceiling panels according to the invention makes it possible, at low cost, with a conventional measuring technique, to measure and register the deflection values in a semi-automatic manner, thus enabling further machine processing on the automatic computer. The device at first is shown in FIG. 1 and in plan view in FIG. Second

The ceiling panels 2 have long been loaded in a double stroke in the load frame X, in which they are placed on the pads 2. Between the ceiling panels 2 3 * a cushion 1 made of PVC foil is placed. load evenly. The deflection of the panels aa is measured successively in selected cut-off positions, from one end of the panel to the other, by attaching a measuring strip 2 ' ^{7 with} which the deflection sensors 11 are fitted.

For its reproducible fixation, beams 2 and XI are attached to the load frame X, on which reference points are made so that the measuring bar is easily fitted

Z y i in three points. In the upper part, along the axis of the nose 17, reference pins 16 are attached. These reference pins 15 are used to measure the perimeter of the panel panels - right and left.

In the lower part, along the beams 2, reference circular openings X are made. Slides 2 are glued to the panels, which generally have a rough surface, at the measuring points, thus ensuring good reproducibility of the contact of the sensor tips with the panel surface. The measuring strip 2, provided with a conical tip 2 at its bottom part, is firstly inclined into the corresponding reference, circular opening X, then tilted successively on the panel 2i, with the probe tips 11 resting on the slides 2.

The arm 14, on the one hand through the machined contact surface 18, on the other hand, through the V-shaped cut-out 19 bears on a pair of reference pins 12 · The position of the clamp 2, thus defined by three points for one measuring cut, is finally secured by turning the lever 12 In this position, the measuring bar 2 fixes the spring 13 in the pre-tensioned position. By pressing the button 10, the measuring center is actuated, to which inputs the deflection sensors 11 are connected. successively measures and numerically registers the deflection values of individual points of the selected section on a suitable medium.

By reversing the lever 12, the measuring bar 2 is released and folded into another reference circular opening X, which corresponds to the next measured cut. In this way, the deflections of all selected sections of both panels are measured successively.

Semi-automatic measuring equipment for long-termly retracted ceiling panels can be used! when measuring deflections of panels in construction.

Claims (1)

OBJECT OF THE INVENTION Semi-automated deflection measuring device of long-termly retracted ceiling panels is characterized in that the contact measuring bar (9) has in its middle part fitted deflection sensors (11), the tips of which are glued to the measured surface over the slides (5). a tapered tip (8), which is mounted in one of the reference circular openings (7), provided in the beam (6), which is part of the retracting frame (crowd of the upper part of the arm (14), a surface (18), at the other end via a V-shaped expression (19) to one pair of reference pins (15) mounted in a beam (17) which is part of the retracting frame (1), the contact measuring bar (9) being fixed by a locking an eccentric (16) controlled by a linear and rotary movement through a lever (12) and pressed against the beam (17) by a spring (13).