RU197270U1 - EIGHT ARCH - Google Patents

Abstract

The utility model relates to the field of construction, namely to rod structures for construction purposes. The proposed eight-rod arch is made symmetrical in the vertical plane, each supporting rod of which is made in the form of a kinematic chain, interconnected by two three-hinged links with two arched two-hinged links with the formation of a closed four-link contour, and the geometric axes of the free hinges of the three-hinged links lie on a straight line passing through the intersection point for longer directions of double-hinged links. The technical result obtained by using the utility model is to increase the rigidity of the arch structure. 1 ill.

Description

The utility model relates to the field of construction, namely to bar structures for construction purposes.

Known three-hinged building arch [Darkov A.V. Building mechanics: textbook. for building, special universities / A.V. Darkov, N.N. Shaposhnikov. - 8th ed., Revised. and add. - M., Higher. School, 1986. 73, fig. 3.3], which consists of two rods connected in three hinges, with one hinge the rods are connected to each other, and with two hinges with a stand (fixed support). The disadvantage of such an arch is that with significant loads acting on it, its geometric variability and loss of stability can occur.

The five-rod arch is also known [RU 192660 IPC Е04В 1/32, publ. September 25, 2019], one of the supporting rods of which is made in the form of a kinematic chain of two three-hinged links connected by two arched two-hinged links with the formation of a closed four-link contour, while the geometric axes of the free hinges of the three-hinged links lie on a straight line passing through the intersection of the extensions directions of double-hinged links.

A disadvantage of the known arch is the lack of rigidity.

The technical problem solved by this utility model is to increase the stiffness of the arch compared to the five-rod, by changing the design of the second arc-shaped support rod, by replacing it with a kinematic chain of links connected in a certain way.

The essence of the claimed device lies in the fact that in the known arch, including pivotally connected supporting arc rods, one of which is made in the form of a kinematic chain of interconnected two three-hinged links with two arched two-hinged links with the formation of a closed four-link contour, and the geometric axis of the free hinges of three-hinged links lie on a straight line passing through the intersection point of the extensions of the directions of the two-hinged links, according to a useful model, the arch is made symmetric in the vertical plane, while the other supporting rod is also made in the form of a kinematic chain, interconnected by two three-hinged links with two arched two-hinged links with the formation of a closed four-link contour, and the geometric axis of the free hinges of the three-hinged links lie on a straight line passing through the intersection point of the extensions directions of double-hinged links.

The technical result obtained by using the utility model is to increase the rigidity of the arch design by performing an arch symmetrical in the vertical plane, as well as by making each of the support rods in the form of a kinematic chain of two three-hinged links connected by two arched two-hinged links with the formation of a closed four-link contour while the geometric axis of the free hinges of the three-hinged links are located on a straight line passing through the intersection point of directions report has to double-hinged links.

The drawing shows a General view of the proposed eight-rod arch.

The eight-rod arch contains pivotally connected supporting arc rods, each of which is made in the form of a kinematic chain of two three-hinged links 1, 2 and 3, 4 connected by two two-hinged two-hinged links 5, 6 and 7, 8 with the formation of a closed four-link contour. So the three-hinged link 1 is fixed at point C, at point A it is connected to the arcuate double-hinged link 6, which at point A 'is connected to the three-hinged link 2, at point B, the three-hinged link 1 is connected to the arcuate double-hinged link 5, which in turn is at point B 'connected to the three-hinged link 2. The links 1, 2, 5, 6 together form a closed four-link circuit in which the continuation of the links AA', BB ', and CC' intersect at point O. The three-hinged link 4 is fixed at point C1, at point A1 connected to the arcuate double-hinged link 7, to at the point A1 'is connected to the three-hinged link 3, and at point B1 the three-hinged link 4 is connected to the arc-shaped two-hinged link 8, which in turn at the point B1' is connected to the three-hinged link 3. The links 3.4, 7.8 together form a closed a four-link circuit in which the continuation of the links A1A1 ', B1B1', and C1C1 'intersect at point O1.

Three-hinged links 1 and 4 are fixed at points C and C1. Three-hinged links 2 and 3 at point C 'are interconnected. The arched design of the links does not change the relative positions of the lines connecting the geometric axis of the hinges.

The proposed utility model has a more rigid arch design compared to the prototype.

Claims (1)

An eight-rod arch, including pivotally connected supporting arc rods, one of which is made in the form of a kinematic chain of two three-hinged links connected together by two arched two-hinged links with the formation of a closed four-link contour, with the geometric axis of the free hinges of the three-hinged links lying at a straight point passing through the directions of the two-hinged links, characterized in that the arch is made symmetrical in the vertical plane, while second support rod is also formed as a kinematic chain of interconnected links two trehsharnirnyh two arcuate double-hinge functioning to form a closed four-link circuit, and the geometric axis of the hinge free trehsharnirnyh units lie on a straight line passing through the intersection point of extensions of the double-hinged units directions.

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