SU1767365A1 - Dynamometer - Google Patents

Abstract

Use: measurement of forces in power tables and devices of aggregate machines and automatic lines. The invention: an outer annular support protrusion 1 of a diamond-shaped elastic element made of two parts 2 and 3, is located along its diagonal. In the hole of the protrusion 1 is mounted with the possibility of linear movement of the rod 5. One end of the rod 5 is located outside the protrusion 1, on the side of its free end, and the other is arranged to interact with the inner surface of the elastic element opposite the opening of the protrusion 1. The meter 6 is rigidly connected to the protrusion 1 and is associated with an end of the rod 5 interacting with an elastic element. The parts 2 and 3 of the elastic element are interconnected along the protrusions and depressions that are located along the arcs that envelope the rod 5. The working surfaces of the parts 2 and 3 are inclined to each other at an angle of 90 ° . 1 hp f-ly, 4 ill. R CL 1 VI oa o SL

Description

The invention relates to a measurement technique and can be used to measure forces in power tables and devices of aggregate machines and automatic lines.

A dynamometer is known that contains an elastic element in the form of a body of revolution composed of two truncated cones connected by a ring at the base of a larger diameter, and two support flanges connected with smaller diameters of truncated cones with four windows that divide the elastic element into power gains. and multiplication fractions, and strain gauge 1.

The disadvantage of this design is the complexity and low accuracy of the measurement.

The closest in technical essence to the proposed device is a dynamograph 2, in which four flat springs are used as a sensitive element, forming a rhombus, the large diagonal of which coincides with the direction of the measured forces causing the deformation of the spring in the direction of the small diagonal, perceived through a transmission mechanism device.

The disadvantage of the dynamograph is the inability to perceive forces from the distance from the attachment point of the elastic element smaller than the diagonal size of the elastic element, as well as the complexity of the design of the elastic element consisting of four flat springs forming an elongated rhombus (6-8 °) with a transmission mechanism , fixing the deformation of the springs in the direction of the small diagonal, and the recording device in the form of a tape mechanism.

The aim of the invention is to increase efficiency by making it possible to perceive loads that are close to the attachment point and to simplify the design.

This goal is achieved by the fact that in a Dynamometer containing a rhomboid elastic element, a rod and a gauge, the elastic element is provided with an outer annular protrusion located along one of its diagonals, in the opening of which there is a rod with a possibility of linear movement, one end of which is located outside the protrusion from the side its free end, and the other is installed with the ability to interact with the inner surface of the elastic element opposite the protrusion opening, while the meter is rigidly connected to the protrusion and

associated with the end of the stem that interacts with the elastic element.

In this case, the elastic element is made of two parts, conjugated to each other along

protrusions and depressions located along the arcs enveloping the rod, with the working surfaces of the adjacent parts inclined to each other at an angle of 90 a 180 °. Figure 1 shows the proposed dynamometer, General view, section; figure 2 - section aa in figure 1; Fig. 3 is a dynamometer, an embodiment; figure 4 - section bB in fig.Z.

The dynamometer consists of a threaded support 1, a diamond-shaped elastic element, made of two parts 2 and 3, connected by means of an outer annular protrusion 4 located along one of its diagonals. In the hole of elastic

element 5 is mounted, one end of which is located outside the protrusion 4 from its free end, and the other end is arranged to interact with the inner surface of the diamond

elastic element. The indicator b is fixed on the strap 7 with the help of a screw 8. The threaded support 1 with elastic elements 2 and 3 is a body that is milled into size c. Work surfaces are elastic

elements 2 and 3, mated by means of an annular inlet 4, are inclined at an angle of 90 ° and 180 °. The rod 5 interacts with the inner end of the composite body. Plank 7 is fixed on the milled surface of the body at the top of the elastic element 2.

The dynamometer works as follows.

When pressing the rod 5, the force is perceived by the end of the elastic element, which is deformed (straightened) and the rod 5 receives a movement, which is fixed by the indicator 6 interacting with it, previously prepared

using a reference dynamometer.

Compared to the prototype, the proposed construction of the dynamometer is simple, technologically advanced, since the elastic element — the body — represents simple parts of the class.

bodies of rotation that can be easily fabricated on machines without the use of sophisticated equipment. In addition, deformations are recorded along the direction of the applied force.

Claims (2)

1. A dynamometer containing a rhomboid elastic element, a rod and a gauge, which is characterized by the fact that, in order to increase efficiency by providing the possibility of perceiving the loads close to the attachment point and simplifying the design, the elastic element is provided with an outer annular protrusion located along one of its diagonals, in the opening of which a stem is installed with the possibility of linear movement, one end of which is located outside the protrusion from the side of its free end and the other installed with the possibility of interaction with the inner surface of the elastic element opposite the protrusion hole, while the meter is rigidly connected to the protrusion and associated with the end of the rod that interacts with the elastic element. 2. The dynamometer according to claim 1, characterized in that the elastic element is made of two parts mated to each other along the protrusions and troughs along the arcs that surround the stem, and the working surfaces of the mating parts are inclined to each other at an angle of 90 a 180 °. 7 / Aa a8 Fie.2 S  $ g tfc . one , R k v / Jr 1 I 2 .З / F; b: L R  I 1  V h I / t {I 1 V, k -: H J