SU575502A1 - Device for measuring temperature - Google Patents

Description

The invention relates to a measuring technique and can be used to measure the temperatures of bodies with a continuous emission spectrum, in particular for measuring the temperature of fast processes, as well as objects whose emissivity strongly depends on temperature. Temperature measuring devices are known that contain a photomultiplier, a modulator, an amplifier and a recorder l. The disadvantage of these devices is that there is a large measurement error. It is also known a device for measuring temperature, a device in a light-tight chamber for non-selective reduction of radiant flux and a photomultiplier tube with a control grid, in the anode circuit of which the indicating device 2 is turned on. A disadvantage of this device is its relatively small accuracy (up to 1.5%), since it is determined by the accuracy of the voltage measurement / full photocurrent locking, as well as the long time required to measure this voltage. The circuit of this invention increases the accuracy and decreases the temperature measurement. This circuit is achieved in that a known device for measuring temperature connects a square negative pulse generator and a counting device to the photoelectronic multiplier, and a selective amplifier tuned to the generator frequency, the integrator and the recorder are connected in series with the indicating device, recalculating device. On the drawing.ke presents the scheme of the proposed device. A photomultiplier tube (PMT) 3 is located in an opaque enclosure 1 with an adjustable diaphragm 2. An indicating device 4 is connected to the PMT anode, for example, a microammeter. negative polarity, a generator 8 is connected to it. The circuit is controlled from the tomoschyr recalculated device 9, which is connected to the generator, the integrator and

by the registrar.

The device works as follows. Lrazom.

The radiation of the heated body enters the photocathode of the PMT 3 through an adjustable aperture diaphragm 2. By changing the relative aperture of the diaphragm, a certain value of the current of the PMT is calculated. is performed on the indicating device 4. Then the start-up signal starts the generator 8 and negative impulses are applied to the PM grid. The same pulses are recorded by a scaling device 9. The second pulse arriving at the scaling device (the first is skipped to eliminate the error introduced by the transient process in the photomultiplier) includes integrator 6, and integration is performed only during the pulse duration, which allows by eliminating the integral

from 3 ,,

The integrator receives impulses

from the anode of the PMT, amplified by a selective amplifier 5, tuned to the oscillator frequency. This allows you to reduce the noise and interference occurring in the measuring part of the instrument. When dialing a certain number of 1 pulses lit, the counting device generates a stop signal, which turns off the integrator and starts the recorder, fixing the value accumulated by the integrator voltage. This value determines the temperature of the object from a graded curve obtained in a similar manner 5 with the help of a standard emitter. When a pulse is applied to the pulse counting device, a reset signal is issued, which sets up the integrator, the generator and the counting decades of the device scalers. The device is ready for the next measurement.

In the temperature range of 800-1300 ° C, the sensitivity is 300 mV / deg. With a root mean square of 5O mV, the accuracy of the measurements is О, 17 ° C. The burden of one dimension is determined by the time it takes for a stnap to pass through transforming and amplifying blocks 5, 6, 7, and in this case is in the order of 1 second.

Claims (2)

1. US patent number 3161775, cl. 25O86 .21.08.61. 2. The author's certificate number 463873, cl. (017 5/20, 15.03.75.