SU267971A1 - - Google Patents

Description

The invention relates to the field of radiation pyrometry, namely to methods for determining the sighting index of the total radiation pyrometer telescope.

A known method for determining the sighting index of the telescope of the total radiation pyrometer by measuring the minimum diameter of the sighted spot at the required distance from the telescope objective. The diameter of the sight spot corresponds to the diameter of the image of the light source located behind the Receiver. The measured diameter is judged by the sighting index.

This method cannot provide a calculation of the sighting index with the required accuracy for the following reasons. A simple single-lens lens has significant chromatic aberrations; therefore, the image in visible rays does not coincide with the image in infrared rays. As a result, the sighting index, which appears to be radiation, differs from the sighting index due to infra: red radiation.

The aim of the invention is to provide a method for determining the sighting index of a telescope with greater accuracy.

the distance between the source positions is measured when the signal from the receiver appears and disappears, and the desired value is determined from a known relationship.

A point source of light, such as any temperature incandescent lamp, is set by an IB plane (the Sighted Pt in a holder on an optical bench equipped with a millimeter scale. The lamp is placed so that the tape position indicated by the index coincides with the optical center of the telescope. Then the lamp is removed from the viewpoint, a current corresponding to any temperature is detected, and the absence of a signal from the receiver is checked. Slowly moving the lamp in a plane perpendicular to the optical axis of the telescope, along the diameter of the sighted tip, note The lamp on the scale at the time of the signal from the receiver. Continuing further moving the lamp while continuously registering the signal, mark the position of the lamp at the time the signal disappears, for example, when its 0.1 e / o maximum value is equal. The distance between this two marks determines the minimum value of the diameter of the sighted spot (radiator).

power, the radiation of which falls on the receiver, from the external region, the radiation of which does not fall. On the receiver.

The advantage of this method is that the sighting indicator is determined by the IB conditions for normal operation of the telescope and the receiver receives not only the visible radiation, but also infrared. In addition, this method has great sensitivity, since the signal is detected in the absence of a signal. With this method, sensitivity can be increased by increasing the brightness of a point-source light.

4 Subject of the invention

The method for determining the sighting index of the total-radiation pyrometer telescope by measuring the minimum diameter of the sight at the required distance from the telescope lens, characterized in that, in order to improve the measurement accuracy, the point source of light is measured along the diameter of the sight spot, between the positions of the source, when a signal appears from the α-receiver and when it disappears and is known, the desired value is determined.