RU141517U1 - STAND FOR DETERMINING FORCES TAKING INTO ACCOUNT OF FRICTION OF Tranquility in Pointed Compounds - Google Patents

Abstract

A stand for determining forces taking into account rest friction in spiky joints, consisting of a semicircular rod, whose right upper end is rigidly embedded in the bed, the left end of the semicircular rod is cantilevered and bent to its horizontal position, a rectangular beam is located inside the semicircular rod, touching the semicircular of the rod with pointed edges, the lower of which is located at the intersection of the vertical radial line with the semicircular rod, the upper point of contact is located on the intersection of the bent horizontal end with a semicircular rod, characterized in that the inner part of the semicircular rod and the lower edge of the beam are equipped with a set of plates with the possibility of hard fixing and removing them from the semi-ring rod and beam, and each pair of plates has its own coefficient of rest friction.

Description

The utility model relates to laboratory equipment and can be applied in educational laboratories in theoretical and applied mechanics of technical universities, technical schools and technical schools.

There is a well-known stand for considering forces taking into account rest friction with external forces applied to it (Collection of tasks for term papers in theoretical mechanics: A manual for technical universities. - 7th ed., Revised. - M .: Integral-Press, 2001, p. 37, Fig. 34, Var. 26) the initial position of the supports and the lengths of the links of which are determined by the corresponding dimensions a , consisting of a semicircular rod, whose right upper end is rigidly embedded in the bed, the left end of the rod is cantilevered and bent to its horizontal position , inside and the rod is rectangular timber, referring to the pointed edges of the rod, the bottom of which is located at the intersection of vertical radial line with the rod, the upper point of tangency is located at the intersection with the folded end of the horizontal rod.

The main disadvantage of the known stand is that it has a constant coefficient of rest friction in pointed joints, which does not allow students (students) to conduct educational research, both theoretical and experimental, to identify the dependence of the support reaction values on changes in the rest friction coefficient.

The problem the utility model aims to solve is that in the inner part of a semicircular rod it is possible to change the static friction coefficients and provide students with scientific research, both theoretical and experimental, to identify the dependence of the support reaction values on the change in the static friction coefficient.

The technical result is achieved by the fact that in the stand for determining forces taking into account rest friction in pointed joints, consisting of a semicircular rod, in which the right upper end is rigidly embedded in the bed, the left end of the semicircular rod is cantilevered and bent to its horizontal position, inside the semicircular rod a squared beam is located, touching the semicircular rod with pointed edges, the lower of which is located at the intersection of the vertical radial line with the semicircular by the rod, the upper point of contact is located at the intersection of the bent horizontal end with the semicircular rod, according to our proposal, the inner part of the semicircular rod and the lower edge of the beam is equipped with a set of plates with the possibility of rigid fixing and removing them from the semi-ring rod and timber, and each pair of plates has its own coefficient of friction of rest.

This design of the stand allows you to change the lining with the appropriate coefficients of rest friction on the inner part of the semicircular rod and at the beam and to determine the reaction of the pointed supports, which ensures scientific research.

In FIG. The scheme of the stand is presented.

The stand for determining the forces, taking into account the rest friction in the pointed joints, consists of a semicircular rod ABC, in which the upper right end A is rigidly embedded in the bed. The left end C of the semicircular rod is located cantilever and bent to its horizontal position. A squared beam BD is located inside the semicircular rod, touching the rod with pointed edges, the lower of which is located at the point B of the intersection of the vertical radial line OB with the rod.

The highest point C of contact is located at the intersection of the bent horizontal end with a semicircular rod. The inner part of the semicircular rod ABC and the lower edge of the beam BD is equipped with a set of plates 1 and 2 with the possibility of hard fixing and removing them from the rod and beam, and each pair of plates has its own coefficient of rest friction.

The stand works as follows.

With constant given parameters (adhesion coefficient), bond reactions can be determined only for these parameters. The methodology of theoretical calculations is given in the above literature (see an example of the assignment, p. 39-41). In this case, research is not possible.

In the proposed stand to the inner surface of the semicircular rod, you can attach the lining 1 and on the edge of the timber - lining 2 of constant thickness with the possibility of hard fixing and removing them from the rod and timber. There is a set of pads with different adhesion factors. Each pair of pads has its own same coefficient of rest friction (clutch), for example, 0.10, 0.20, 0.30, 0.40, 0.45, etc. The alternate installation of pairs of linings with different adhesion coefficients on the inner part of the rod and the beam helps to determine the corresponding bond reactions. This ensures the conduct of scientific research, both theoretical and experimental, to find the dependence of the magnitude of the reactions of bonds on the values of the coefficient of adhesion.

Thus, the proposed stand ensures the fulfillment of the task posed by the utility model.

Claims (1)

A stand for determining forces taking into account rest friction in spiky joints, consisting of a semicircular rod, whose right upper end is rigidly embedded in the bed, the left end of the semicircular rod is cantilevered and bent to its horizontal position, a rectangular beam is located inside the semicircular rod, touching the semicircular of the rod with pointed edges, the lower of which is located at the intersection of the vertical radial line with the semicircular rod, the upper point of contact is located on the intersection of the bent horizontal end with a semicircular rod, characterized in that the inner part of the semicircular rod and the lower edge of the beam are equipped with a set of plates with the possibility of hard fixing and removing them from the semi-ring rod and beam, and each pair of plates has its own coefficient of rest friction.

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