CS219154B1 - Stoking deformationmeter - Google Patents

Description

The present invention relates to a surface deformometer for measuring deformations, respectively. long-distance changes.

Until now, the measurement of deformations, respectively. long-term changes are used by a variety of mechanical, optical, pneumatic, electrical and combined instruments. For long-term monitoring of deformations and the need to measure a large number of sites, the applicability radius of the devices or the measuring range is not limited. this narrows considerably. For such measurements are suitable surface deformometers constructed on a mechanical principle, the accuracy and reliability of which depend largely on the design of the mechanism ensuring the transmission of the measured distance change to the indicator. The disadvantage of most of these deformometers is that they are not linear over the entire measurement range, do not sufficiently eliminate the effect of temperature, cause accidental errors and have a small measurement range. Attachment deformometers, in which the transmission of the measured length is provided by elastic elements, are susceptible to contamination and mechanical damage, especially in construction research, a considerable disadvantage.

The above deficiencies are overcome by an exemplary defmeter according to the invention, which is based on the fact that the measured change of length is transmitted in a straight line by means of a slide to the length indicator, so that the slide is guided in three pairs of rolling bearings. the radial planes are perpendicular to each other. The intersection of the radial planes of the two bearing pairs is identical to the axis of the main guide of the link and the intersection of the third pair of radial planes of the roller bearings is identical to the axis of the auxiliary guide of the link. Both guides are rigidly connected to the gate and have a circular cross-section. Two pairs of roller bearings of the main guide plate are fixed by means of a bridge in the frame of the contact deformometer. The third pair of antifriction bearings is pressed onto the auxiliary guide of the slide by a spring which, by means of an adjusting screw, presses on the swinging arm in which this pair of antifriction bearings is fixed by means of an upper bridge. The roller bearings of the main guide slide are opposed to the roller bearings of the guide slide guide, as a result of which all the rolling bearings are constantly pressed against the guides, thereby eliminating all of the backlashes of the guide which can only perform a linear movement in a guide that is identical to the direction measured by the base. The auxiliary guide in the vertical plane can be tilted with respect to the main guide so as to form a horizontal force component that permanently acts on the sliding member in the direction of the main guide of the slider and thus acts against the contact force of the deviation indicator tip.

The invention of the surface deformometer allows for more accurate measurements, longer-lasting reliability, greater measuring range and is more resistant to mechanical damage.

FIG. 1 is a view and a longitudinal cross-sectional view of the surface deformometer mechanism; and FIG. 2 shows a cross-section A-A of FIG. First

For the exchange of the placing part 18 of the deformation meter is fixed frame 1, which is ^one of the top of the closed upper cover 2 and the bottom side and the lower lid 3 to the side walls of the frame 1 are fixed right and 1'avý lower bridge 4 and S ₉ and 1, a pivot 11 on which a pivot arm 12 is mounted rotatably, in which an upper bridge 6 is mounted. In all three bridges, pairs of rolling bearings 7 are inserted so that their radial planes are perpendicular to each other. The main guide 8 as well as the auxiliary guide 9 are fixedly mounted in the gate 10, both of which have a circular cross-section. The ends of the main guide 8 protrude from the slide 10 and form guide surfaces on which rolling bearings 7 located in the right and the lower bridge 4 and 5 roll off from the upper side. The auxiliary guide 9 has a guide surface accessible in the middle so that the slide 10 is in the middle of the made hole through which the upper bridge 6, mounted on the pivot arm 12 and the roller bearings 7 are saved in comparison with the bearings of the lower bridge 4 and 5 of the opposite, with the auxiliary fence _(the roller bearing 7 disposed in the upper bridge The pivoting arm 12 is rotatably mounted on the pin 11, the adjusting screw 13 being screwed on the end of the pivoting arm 12 and is supported by a spring 14 mounted on the right lower bridge 4. The upper bridge 6 is formed according to the law of action and the reaction of the thrust force on all the rolling bearings 7 and thus allows only a linear movement in the direction of the axis of the main guide 8. Since the slider 10 projects into the tip 15 at the bottom and the tip of the deflection indicator 17 rests on the slider 10 in the upper part, it is clear that the indicated rectilinear movement or movement of the deflection indicator, respectively. the measured distance change on the base delimited by the targets 16 is directly transmitted to the deviation indicator 17, which is adjustable in the frame 1. i By suitable selection of the inclination angle α (from 1 to 10 °); which clamp between the axes of the auxiliary guide 9 and the main guide 8 in the vertical plane, respectively. the preload sizes of the spring 14 as well as the spring constant, and combinations thereof, can produce the same force on the blade 10 as the contact force of the tip; Deflect the deviation indicator 17 but reverse it. This also eliminates all the clearances of the loading deformometer mechanism and the tip of the deviation indicator 17 follows the movement of the slider 10 in its entirety.

In order to increase the productivity and efficiency of the measurement work, the rhythm meter can be supplemented with an vys electric transmitter of indicated length changes or even more preferably with a one hundredth or one thousandth error gauge with a semiconductor position transmitter (eg CS AO No. 209 345). In this way, it is possible to directly measure the measured values visually and register them via the measuring centers and record them on a paper strip, a hole tape or a magnetic tape, and the like. In such an application of a surface deformometer, it is required that, in addition to the electrical position transmitter, it also has a starter or a starter. microswitch, by which impulses of individual measured values are given.

The invention can be used in all laboratories and testing rooms where the effects of deformations and other length changes are monitored for a long time.

Claims (3)

SUBJECT INVENTION Clamping deformometer, characterized in that on the side walls of the frame (1), a right and a left lower bridge (4 and 5) and an intermediate pin (11) on which the pivoting arm (12) is mounted a fixed upper bridge (6) and in all three bridges (4, 5 and 6) are inserted pairs of antifriction bearings (7) so that their radial planes intersect perpendicularly, where the intersection of the radial planes of pairs of antifriction bearings (7) 4 and 5) is identical to the axis of the main, guide (8) of the guide (10) and axis of the auxiliary guide (9) i is identical to the intersection of the radial planes of the pair of rolling bearings (7) mounted in the upper bridge * an opening in the central part of the gate (10) and is fixed to the swing arm (12) so that it is placed from the underside with respect to the auxiliary guide (9) and both guides (8 and 9) have a circular cross-section. at the end of the adjusting screw (13), which * is supported by a spring (14) located on the right lower bridge (4) and the link (10) passes in the lower part to the tip (15) and in the upper part is the tip of the deviation indicator ( 17), the frame (1) being closed from the upper side by the upper lid (2) and on the lower side by the lower lid (3). < 2. The surface deformometer according to claim 1, characterized in that the main guide (8) and the auxiliary guide (9) are parallel or form an angle ([alpha]) in the vertical plane between 1 and 10 [deg.]. 3. A surface deformometer according to claim 1 or 2, characterized in that the deflection indicator (17) is formed by an electric distance transducer or a transducer with a semiconductor position transmitter, with a microswitch mounted on the upper lid (2) or on the handle (19). or a starter for recording measured data.