RU14468U1 - ENERGY FLOW MANAGEMENT DEVICE - Google Patents

Abstract

1. The device is made in the form of an octagonal body with six vertices, twelve edges, four of which are straight and form a square, the vertices of which coincide with the vertices of the body, eight other edges of the octagonal body are curved, one end of the rib line lies at one of the vertices of the square, the other its end lies in one of two vertices of the body, located symmetrically with respect to the center of the square on a line passing through the center of the square, the surface of each of the eight faces of the body is formed by sliding a straight line along the curves frost ribs bounding this face, characterized in that the projection of the curved rib line onto the plane of the square is a line different from the circle line, and the sliding of the straight line forming the surface of the face of the body is carried out so that the straight line remains parallel to the plane of the square during the slip. 2 . The device according to claim 1, characterized in that the octagonal body is hollow. The device according to PP. 1 and 2, characterized in that it is made of a wire laid along a spatial line that originates in one of two vertices of the body, symmetrically located relative to the center of the square on a line passing through the center of the square perpendicular to its plane, then the wire line goes to the first the vertex of the square, then to the vertex of the body opposite the starting point, then to the second vertex of the square adjacent to the first one, returns to the starting point, from which it goes to the third vertex of the square adjacent to the second, then goes to the vertex, the opposite starting point, from which goes to the fourth vertex of the square, and then again returns to the starting point n

Description

: The utility model relates to devices for controlling the flow of energy. The problem of controlling energy fluxes is solved in various branches of the TECHNIQUE in various ways. The separation of a parallel light beam (1) is carried out using optical transmission, consisting of a biprism and an eyepiece, where a parallel light beam is divided into two parallel beams. Optical system. Including several elements is difficult to manufacture and operate. The closest to the claimed device and adopted for the prototype is device C2) made in the form of an eight-figured body # of twelve | and whose reeder eight are curved and four straight lines are straight and form a square. the vertices of which are at the same time the vertices of an octahedron. The two other vertices of the hexagon lie symmetrically with respect to a plane bounded by a square on the axis: intersecting this plane at a right angle in the center. each of the eight 1 "p1-linear ribs is made in a wifle 41 of a three-dimensional curved line. Twisting against the clockwise direction of the cylinder, the diameter of which is equal to the square square and the axis runs perpendicular to the square of the square; through the point “dividing the side of the square in half, the beginning of the crank (PeNPA is the vertex of the octahedron which is simultaneously the top of the square, the end is the top of the octahedron. Expanded of eight faces of the body - is a part of a ruled surface between two curved edges ed formed by a long edge of a ruler. It is formed by a larger straight line at the same time with both curved edges. .pri this sliding straight line prnnashshshgyishyekosti. osi.peresekayuschey orbiting at a right angle square plane at its verzhiiy.

The properties of the latter regulate the nature of the transforming energy of the movement from one form to another.

The objective of the utility model is to expand the possibilities of converting one form of energy into driguy.

This problem is solved by the fact that eight curved edges of the octagonal body are made in such a way that the projection of each edge on the plane of the square is a line. It differs from the surface and the surface of each face of the body is formed by cleaving a straight line along the lines of curved edges that limit this face in forming process, the generator remains parallel to the plane of the square formed by the rectilinear edges of the octagonal body.

The usefulness of the utility model is illustrated by drawings, where on; figa shows a side view of the device. Fig.16 is a plan view of the device, in Fig. 2 shows an embodiment of a device made of wire.

An octagonal translucent body, the view of which is seen in plan is shown in FIG. 1b, and the side view in FIG. 1a, has twelve ribs of which four are straight and the square fi V C D is the result. and tin of vergins, of which the vertices Y, B, C, D are simultaneously the vertices of the square, the vertices E and F are located on the axis E F, perpendicular to the plane of the square, its center, the edges AE, YP, BE, DR are curved, the projection line of these of edges on the plane of the square is the Ellipse Line, the construction principle of which is given in (3), each of the eight faces of the body is a ruled surface formed by a straight line around the curved lines p @ ber bounding this face, while the sliding remains parallel to the plane of the square.

Figure 2 shows a variant of the proposed device, which is made of a wire laid in the form of a space-eating line that coincides with the line of curved edges of the octagonal body 4 of FIG. 1a, 16), the beginning is found at point E, which coincides with the vertex D of the octagonal body, then the line of the wire passes through the peaks D, E, C and returns to the point F, spatially coinciding with the point of origin, then the wire passes through the vertex B, returns to point E / space with point E, then passes through point A and returns to estrus F with spatially coinciding e point F. Material points ED are different and indicate the location of the bend of the wire. This version of the proposed device allows you to convert mechanical energy in electrical energy and vice versa.

Sources of information: 1 Applied optics. M.1982, p.329.

2, Utility Model M 96120984.

3.Useful model H 98101618.

Claims (3)

1. The device is made in the form of an octagonal body with six vertices, twelve edges, four of which are straight and form a square, the vertices of which coincide with the vertices of the body, eight other edges of the octagonal body are curved, one end of the rib line lies at one of the vertices of the square, the other its end lies in one of two vertices of the body, located symmetrically with respect to the center of the square on a line passing through the center of the square, the surface of each of the eight faces of the body is formed by sliding a straight line along the curves frost edges limiting this face, characterized in that the projection of the curved edge line onto the plane of the square is a line different from the circle line, and the sliding of the straight line forming the surface of the face of the body is carried out so that the straight line remains parallel to the plane of the square during sliding.  2. The device according to claim 1, characterized in that the octagonal body is hollow. 3. The device according to paragraphs. 1 and 2, characterized in that it is made of a wire laid along a spatial line that originates in one of two vertices of the body, symmetrically located relative to the center of the square on a line passing through the center of the square perpendicular to its plane, then the wire line goes to the first the vertex of the square, then to the vertex of the body opposite the starting point, then to the second vertex of the square adjacent to the first one, returns to the starting point, from which it goes to the third vertex of the square adjacent to the second, then goes to the vertex, the opposite starting point, from which it goes to the fourth vertex of the square, and then again returns to the starting point of the wire, forming the end of the wire, while the outside is covered with an elastic sheath.