SU896420A1 - Electromechanical platform balance (its versions) - Google Patents

Description

(54) ELECTROMECHANICAL PLATFORM SCALES The invention relates to a weight technique of thermal engineering. A weight-measuring device is known that contains sensors in the form of lance-like elastic beams. Til The disadvantage of this device is parasitic torsional deformation caused by the annular shape of baiques, which reduces the accuracy of measurement. Most closely related to the technical dryness of the invention are ppat shaped electromechanical scales containing sensors for cannonically attached to the base of the bag, receiving the load from the load-receiving platform through contacting elements 12. Sensors with bending elastic elements are used to increase the sensitivity of such scales. in the form of cantilever beams, a significant disadvantage of which is the change in the length of the cantilever as a result of the deformation. As a result of loading, parai.t (THEIR VARIANTS) arise, tangential treatment at the points of contact of the beams with the path and, as a result, friction results in the deterioration of the metrological characteristics of the scales. The aim of the invention is to improve the measurement accuracy. To achieve the goal, in the weights, the axes of the cans are located but tangent to the circle passing through the centers of the contacting elements, so that the beams are placed one behind the npffCM in one direction along the circumference. In the all-round version of the scale, the same aim of the invention is achieved by the fact that the banks are separated by a pair of peyno mesyu) in oRnoM nfavfennn from konrsHTUpyvsmx. items. FIG. 1 shows a longitudinal section; on r. 2 - the same, top view; 3 - the second embodiment of the scales, a longitudinal section; on 4ig. 4 iTO same, top view.

Scales contain a cargo-receiving platform- form 1, force-measuring sensors in the form of cantilever beams 2 with contacting elements 3 and a base 4,

Scales work as follows.

The measured force applied to the load-receiving platform 1 is transmitted through the contacting elements 3 to the measuring sensors, causing deformation of the cantilever beams 2, which contribute to the output of an electrical signal in proportion to the measured force.

Due to the fact that during the deformation of the beams 2, the movement of the bats that are in contact with the platform will always be directed along the axis of the beam in the direction of embedding, the platform freely rotates towards the embedding of the caps, and in the variant there will be a translational displacement of the platform towards the embedding of the beams.

These movements of the platform virtually eliminate the parasitic movements of the contacting elements with the platform and thereby increase the measurement accuracy of the scales.

The use of the proposed electromechanical platform scales can significantly improve the accuracy of the injection.

Claims (2)

1. Scales platform electromechanical, containing load sensors in the form of cantilever attached to the base of the beams, which take the load from the load-receiving platform through the contacting elements, characterized in that, in order to increase the accuracy of measurement, the axes of the beams in them are located tangentially to the circumference passing through the centers of the contacting elements, and the beams are placed one behind the other in one direction around this circle 2. Platform electromechanical scales, containing load-measuring sensors in the form of cantilever arms attached to the base, perceived loads from the load-receiving platform through contacting elements, characterized in that, in order to improve measurement accuracy, the bagasse are parallel to each other and in one direction from the contacting elements. Sources of information taken into account in the examination 1. The author's certificate number 381926, cl. G OIL 1/22, 1970. 2. US patent number 4150729, cl. 177-211, pub. 1979 (prototype)   XXY UHHUU U Y jf. z FIG.  . Af FIG. 2