SU1062883A1 - Wedge apparatus - Google Patents

Abstract

A WEDGE DEVICE containing a wedge installed rotatably is distinguished that, in order to increase scanning speed, a rectangular prism with two reflecting edges a is inserted into the device, and the axis of rotation of the wedge is perpendicular to the hypotenuse plane of the prism and intersects with its edge, located between reflective edges, or with its continuation.

Description

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 The invention relates to optical instrumentation and can be used in wedge compensators and scanning devices.

A scanning device is known that creates a movement of a light beam in a plane, comprising a mirror mounted in an electromagnetic suspension 1.

The disadvantages of such a device are the instability of the sweep, its sensitivity to vibrations and a complex control unit.

A wedge device is known consisting of wedges rotatably mounted 2.

A disadvantage of the known device is the low rotational speed in the scanning mode. A toothed gear used in a wedge pair works on grease lubrication; a grease poses an unsolvable problem of protecting glasses from oil vapor penetrating through the seal. Therefore, the scanning speed of the wedge pair does not exceed 100-150 rpm

The aim of the invention is to increase the scanning speed.

This goal is achieved by inserting a rectangular prism with two reflecting faces into a wedge device containing a wedge mounted rotatably, the axis of rotation of the wedge being perpendicular to the hypotenuse plane of the prism and intersecting with its edge located between the reflecting faces or with his prodozhkeniem.

Figure 1 shows the structural diagram of the device, the view in the glider in figure 2 is the same, side view; in FIG. 3 an example of the use of the proposed wedge device in the device diagram

The wedge device consists of a ground 1, installed with the possibility of rotation, and a prism 2. Prism 2 is a rectangular prism with two mirrors, such as a BR-180 °. The axis of rotation of the wedge is perpendicular to the hypotenuse prism plane and intersects with its edge or its extension.

The device works as follows.

The beam incident on the wedge parallel to the axis of its penetration is deflected to the base of the wedge in its main cross section at some angle to it. When the wedge 1 rotates around its axis at any angle, the beam deflected by it rotates around that axis by that angle. , refracting on the hypotenuse surface, will come out of it back into the wedge. In the wedge, 1 beam is rejected again. The prism 2 rotates the beam in such a way that its angle of inclination to the axis of the curve remains, but the plane containing the axis of rotation and the output beam is drawn relative to the edge of the prism at an angle (cf), i.e. The deflection of the output beam is equivalent to a similar deflection of a known wedge pair. Correspondingly, the nocjie of the second passage through the wedge 1 is parallel to the plane passing through the axis of rotation of the wedge and the edge of the prism, and is inclined to the axis of rotation by the angle Y:

, .cosqi,;

The wedge device in the device circuit (Fig. 3) contains a mirror 3, a-lens 4, a plane 5 of a recording device, for example, a film, an engine b, on whose shaft a wedge 1 is installed, working in conjunction with a prism 2.

The wedge device can be used as a scanning unit in high-speed recording devices instead of electromagnetic scanners. At the same time, a saving in volume and weight of the device is achieved. The gain from such replacement in the equipment installed on mobile objects is especially significant.

Claims (1)

A WEDGE DEVICE containing a wedge mounted for rotation, characterized in that, in order to increase the scanning speed, a rectangular prism with two reflective faces is inserted into the device, the wedge rotation axis being perpendicular to the hypotenuse plane of the prism and intersecting its edge located between the reflecting faces , or with its continuation. fig1