RU137111U1 - COMPOUND DESIGN WITH TWO FIXED ROTARY HINGES AND TWO OVAL LAMPS - Google Patents

Abstract

The utility model relates to laboratory equipment and can be applied in educational laboratories in the theoretical mechanics of technical universities, technical schools and technical schools. Known composite design consists of rods of constant size. This makes it difficult for students to organize educational and research work to identify the dependencies of the magnitudes of the reactions of bonds and the forces of interaction of the parts of the structure on the dimensions of the rods. In the proposed composite structure, the rods are made telescopic with the corresponding displacements of the supports. This allowed students to organize educational research to identify the dependencies of the magnitude of the reactions of bonds and the forces of interaction of the parts of the structure on the size of the rods.

Description

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

A composite structure is known with external forces and moments applied to it and the corresponding dimensions l ₁ , 2l ₁ , 3l ₁ , 5l ₁ (Collection of tasks for term papers in theoretical mechanics: Textbook for technical universities. - 7th ed., Revised. - M .: Integral-Press, 2001, p. 56, Fig. 54, version 3), consisting of the left, middle and right parts connected by hinges and oval stops, the left part consists of a vertical rod, the lower end of which connected to a fixed rotary joint, the base of which is a horizontal the right platform, the right part of the structure consists of an 11-shaped rod rotated 90 ° clockwise, the lower horizontal part of this rod is two times shorter than the upper horizontal part, the left end of the upper horizontal part of the U-shaped rod of the right part of the structure is pivotally connected the upper end of the vertical rod of the left part of the structure, and the lower part - articulated with a vertical rod of the middle part of the structure, the lower end of which is connected with a fixed rotary hinge lying horizontally, going through the fixed rotary hinge of the left part of the structure, the base of the fixed rotary hinge is a horizontal platform, the vertical rod of the middle part of the structure is divided into three parts: the upper, middle and lower, which are respectively two, three, two in size, equipped with two rigidly connected to it horizontal branches with oval stops at the ends, one of which is attached to the upper end of the rod and directed to the right, the other is attached to the lower end of the upper part of the rod and apravleno left and the oval stoppers abut respectively vertical rods right and left parts of the structure.

The main disadvantage of the known composite structure is that it has constant dimensions of the rods (solidified form), i.e. constant linear parameters of the rods, which does not allow students (students) to conduct educational research, both theoretical and experimental, to identify the dependence of the magnitude of the reactions of bonds and the forces of interaction of the parts of the structure on the linear dimensions of the rods.

The problem the utility model aims to solve is that the rods of a composite structure can be changed in size and provide students with educational research to identify the relationship between the magnitude of the bond reactions and the forces of interaction of the parts of the structure on the linear dimensions of the rods.

The technical result is achieved in that in a composite structure with two fixed rotary hinges and two oval stops, consisting of left, middle and right parts, interconnected by hinges and oval stops, while the left part of the composite structure consists of a vertical rod, the lower end of which connected with a fixed rotary hinge, the base of which is a horizontal platform, the right part of the composite structure consists of a U-shaped rod rotated 90 ° in the direction of the clock the lower horizontal part of this rod is two times shorter than the upper horizontal part, the left end of the upper horizontal part of the U-shaped rod of the right side of the composite structure is pivotally connected to the upper end of the vertical rod of the left part of the composite structure, and the lower part is pivotally with the vertical core of the middle part a composite structure, the lower end of which is connected with a fixed rotary hinge lying horizontally through the fixed rotary hinge of the left side of the composite structure tion, the base of the fixed rotary hinge is a horizontal platform, the vertical rod of the middle part of the composite structure is divided into three parts: the upper, middle and lower, corresponding in size as two, three, two, equipped with two horizontal branches rigidly connected to it with oval stops along ends, one of which is attached to the upper end of the rod and directed to the right, the other is attached to the lower end of the upper part of the rod and directed to the left, and the oval stops abut, respectively but in the vertical rods of the right and left parts of the composite structure, according to our proposal, all the rods of the left, middle and right parts of the composite structure are made telescopic, the outer rods of each telescopic connection are made with terminals at the ends directed to the horizontal parts of the rods to the left, on the vertical ones - down and the platforms, which are the bases of the fixed rotary hinges of the left and middle parts of the composite structure, are arranged to move along vertical ulation which are fixed to the frame to move them along a horizontal guide and rigidly fixed and the other to the guide.

Such a design of the composite structure made it possible to change the dimensions of the rods and conduct training studies for students to identify the dependence of the magnitude of the reactions of bonds (supports) and the forces of interaction of the parts of the structure on the dimensions of the rods and their parts.

In FIG. presents a diagram of the proposed composite structure.

A composite structure with two fixed rotary hinges and two oval stops consists of left, middle and right parts connected by hinges and two oval stops. The left part of the AEC consists of a vertical rod, the lower end of which is connected with a fixed rotary hinge A, the base of which is a horizontal platform. The right side of the structure consists of a U-shaped CLFOD rod rotated 90 ° clockwise. The lower horizontal part of the OD of this rod is two times shorter than the upper horizontal part. The left end of the upper horizontal part of the U-shaped rod of the right part of the structure is pivotally connected to the upper end C of the vertical rod of the left part of the structure, and the lower part is pivotally at point D with the vertical rod of the middle part of the structure, the lower end of which is connected with a fixed rotary hinge B lying horizontally passing through the fixed rotary hinge A of the left side of the structure. The base of the fixed rotary joint B is a horizontal platform. The vertical core BDGS of the middle part of the structure is divided into three parts: the upper SG, the middle GD and the lower DB, corresponding in size as two, three, two. This rod is equipped with two horizontal SF and GE branches rigidly connected to it with oval stops at the ends. One of which SF is attached to the upper end of the rod and is directed to the right, the other GE is attached to the lower end of the upper part of the rod and is directed to the left. Oval stops at points F and E abut against the vertical rods of the right and left parts of the structure, respectively. All rods of the left, middle and right parts are made telescopic. The outer rods of each telescopic connection are made with terminals at the ends, for example, the horizontal part CL of the rod of the right-hand side of the structure has an outer rod 1 and terminal 2. The terminals are directed to the horizontal parts of the rods to the left, and to the vertical ones - down. The platforms that are the bases of the fixed rotary hinges A of the left and middle B parts of the structure are made with the possibility of moving along the vertical guides 3 and 4, respectively, which are fixed to the bed with the ability to move them along the horizontal guides 5, 6, respectively, and rigid fixing and both to guides.

The composite structure works as follows.

).The prototype has fixed size rods. In the proposed composite structure, the rods are made telescopic with terminals at the ends. This allows you to change the lengths of the rods and fix their sizes using the terminals. You can change the length of two or more rods or all at once, or in any other combination and determine the reactions of the supports and the forces of interaction of the parts of the structure. By varying the lengths of the rods stepwise and each time determining the reactions of the supports and the forces of interaction of the parts of the structure, it is possible to obtain the dependences of the reactions of the supports and the forces of interaction on the dimensions of the rods. A flat arbitrary system of forces is applied to the structure. When solving the problem, for example, the first form of the equilibrium conditions of such a system of forces is used. It consists in the following: for the equilibrium of a plane arbitrary system of forces, it is necessary and sufficient that the algebraic sum of the projections of the acting forces on each of the coordinate axes and the algebraic sum of the moments with respect to any center lying in the same plane must be equal to zero (∑F _kx = 0 , ∑F _ky = 0,

)

The general methodology for solving such problems is given in the manual presented above (p. 54-63). The design allows, in the presence of appropriate sensors, to determine the reactions of supports and experimentally and to compare the results of theoretical and experimental studies.

The solution of problems with variable sizes of rods is introduced into the educational process of first-year students of Kazan State Energy University. Students from the first year begin to carry out educational research work. This undoubtedly improves the quality of engineering training for students.

Thus, the task posed to the utility model is fully completed.

Claims (1)

A composite structure with two fixed rotary hinges and two oval stops, consisting of left, middle and right parts, interconnected by hinges and oval stops, while the left part of the composite structure consists of a vertical rod, the lower end of which is connected with a fixed rotary hinge, base which is a horizontal platform, the right side of the composite structure consists of a U-shaped rod rotated 90 ° clockwise, the lower horizontal part of this rod I’m two times shorter than the upper horizontal part, the left end of the upper horizontal part of the U-shaped rod of the right part of the composite structure is pivotally connected to the upper end of the vertical rod of the left part of the composite structure, and the lower part is articulated with the vertical rod of the middle part of the composite structure, the lower end of which connected with a fixed rotary hinge lying on the horizontal passing through the fixed rotary hinge of the left part of the composite structure, the base of the fixed rotational w the pivot is a horizontal platform, the vertical rod of the middle part of the composite structure is divided into three parts: upper, middle and lower, corresponding in size as two: three: two, equipped with two horizontal branches rigidly connected to it with oval stops at the ends, one of which attached to the upper end of the rod and directed to the right, the other is attached to the lower end of the upper part of the rod and directed to the left, and the oval stops abut the vertical rods of the right and left parts, respectively a composite structure, characterized in that all the rods of the left, middle and right parts of the composite structure are made telescopic, the outer rods of each telescopic connection are made with terminals at the ends directed to the horizontal parts of the rods to the left, vertical ones down, and the platforms that are the bases fixed rotary hinges of the left and middle parts of the composite structure are arranged to move along vertical guides that are fixed to the frame with the possibility of th move them along the horizontal rails and fixed, and the other to the guide.

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