RU1804639C - Diaphragm - Google Patents

Abstract

Usage: in cameras, lighting devices and other optical devices. The essence of the invention lies in the fact that the diaphragm comprises a frame 1, opaque prismatic elements 4 made in the form of isosceles trapezoidal and mounted in the same plane with the possibility of movement along the mating sides and one of the sides of each prismatic element 4 on the respective sides of the socket 2. made in the frame in the form of a multifaceted prism, the number of faces of which is equal to the number of prismatic elements, and on each second of them are made cylindrical protrusions 10 Installed in the grooves 9 of the plate 7, one of the conjugate sides of the prismatic elements can be made with a longitudinal protrusion, and the other with a corresponding groove. 1 s.p. f-ly, 6 ill.

Description

The invention relates to instrumentation and can be used in cameras, movie cameras, microscopes, lighting devices and other optical devices.

The purpose of the invention is to simplify the design of the diaphragm.

This goal is achieved in that the plate with grooves is mounted rotatably, and the control elements for the movement of the prismatic elements are made in the form of cylindrical protrusions, and in the frame there is a socket in the form of a polyhedral prism, the number of faces of which is equal to the number of prismatic elements made in the form of isosceles trapezoid and mounted to move one of the sides of each prismatic element along the respective sides of the frame socket.

In addition, in order to increase the light tightness of the joints of the adjoining sides of the prismatic elements, one of the adjoining sides of the prismatic elements is made with a longitudinal protrusion. and a friend with a corresponding groove.

Such a constructive implementation of the proposed diaphragm makes it possible to reduce the number of parts by several times, simplify the kinematics in comparison with the known prismatic diaphragm, and reduce the overall dimensions to the dimensions of the known iris diaphragm, i.e. to simplify the design by which the goal is achieved.

Figure 1 shows a General view of the diaphragm assembly (in the closed position); figure 2 is a section aa in figure 1; Fig. 3 is a general view of a prismatic element; figure 4 is a section bB in Fig.Z; figure 5 is a section bb in figz; Fig.6 - the position of the elements of the device with the maximum open diaphragm hole.

The frame 1 has a socket in the form of a hollow hexagonal prism with sides 2. A hole 3 is provided at the base of the frame 3. Six prismatic elements 4 with bases in the form of isosceles trapezoids are installed in the socket of the frame. The largest lateral side of the prismatic element 4 is provided with a longitudinal protrusion 5, and the adjacent side of the adjacent prismatic element has a longitudinal groove 6. All six prismatic elements located in the socket of the frame 1 are covered by a plate with grooves (crown) 7 having a drive lever 8. In the crown 7 there are three grooves 9 located at 120 °, into which the cylindrical protrusions 10 are formed, made on the end surfaces of the three prismatic elements. The remaining three prismatic elements of the protrusions 10 do not have. Crown 7

held in the socket of the frame 1 by the retaining ring 11 ..

The aperture operates as follows. When force is applied to the drive lever 8, the crown 7 rotates around

of its center in the nest of the rim 1, sliding with its own base along the end flanges of the prismatic elements 4, and the other base along the retaining ring 11. In this case, the crown 7 with its grooves 9 captures the protrusions 10 of the prismatic elements 4, which slide along their sides guides 2 of the frame 1. At the same time, the other lateral sides of all the prismatic elements 4, directed radially to the center of the socket of the frame 1, are mutually sliding relative to each other along the mating sides provided with longitudinal protrusions 5 and b, As a result of the simultaneous and simultaneous movement of the prismatic elements 4 in the socket 1, a diaphragm opening 3 of the frame 1 is formed. Depending on the direction of movement of the drive lever 8 of the crown 7, a corresponding

aperture hole. Figure 6 shows the maximum aperture at the extreme left position of the drive lever 8, figure 1 - at the extreme right position of the lever 8, when the diaphragm

the hole is minimal (practically absent).

Claims (2)

1. The diaphragm containing the frame, opaque prismatic elements mounted in the mandrel in the same plane with the possibility of mutual movement along the adjacent sides, and a plate with grooves, and on every second prismatic element fixed them. movement control elements mounted in the slots of the plate with the possibility of movement, so that in order to simplify the design the diaphragm, the plate with the grooves is mounted for rotation, and the control elements for the movement of the prismatic elements are made in the form of cylindrical protrusions, and in the frame is made a nest in the form of a multifaceted prism, the number of faces of which is equal to the number of prismatic elements made in the form of isosceles trapezoids and installed with the ability to move one of the sides of each prismatic element along the corresponding sides of the frame socket. 2. Aperture pop. 1, characterized in that, in order to increase the lightfastness the permeability of the joints of the adjoining sides of the prismatic elements, one of the conjugate sides of the prismatic elements is made with a longitudinal protrusion, and the other with a corresponding groove. FIG. 2 Figure 5 Fig 6