SU387229A1 - THERMOMETER OF RESISTANCE FOR MEASURING NONSTATIONARY TEMPERATURES IN GASES - Google Patents

Description

one

The invention relates to temperature measurement and can be used to measure the transient temperatures of gas flows.

In the known resistance thermometers, in order to obtain a large resistance of the sensitive element, the latter are made of a zigzag shape from a wire fixed on the frame, intermediate supports.

When using such thermometers to measure non-stationary temperatures in gases, the frame with high thermal inertia changes its temperature more slowly than the sensitive element, which leads to heat exchange between the frame and the sensitive element and distortion of the resistance thermometer readings. In addition, it distorts the velocity field of the gas tract, which leads to a change in heat transfer conditions in the areas of the sensitive element in its immediate vicinity.

Thus, the disadvantages of the known constructions of resistance thermometers are the heat exchange of the sensitive element with the attachment points and the distortion of the thread wrapping behavior near the points of contact with the frame, which reduces the measurement accuracy.

The purpose of the invention is to create such a thermometer design that, with minimal dimensions, would exclude the harmful influence of the heat exchange of the sensing element with the attachment points, would minimize the distortion of the flow around the sensitive element near the attachment points, i.e., would increase the measurement accuracy.

The goals are achieved by the fact that the intermediate supports are made in the form of wire loops, the length of which is chosen from the condition

.

where / is the length of the wire;

d is the diameter of the wire; Bi is the Biot dl wire test. An intermediate support made of the same wire as the sensing element, in the form of a loop, which introduces slight distortions into the flow around the sensing element only at the length of the wire diameter, and is long enough that the heat exchange between the contact point of the sensing element and the loop on the support rod was minimized.

The drawing shows the proposed thermometer.

The sensing element I of the thermometer with its ends is fixed in the current-carrying holders 2. To give the sensitive element a zigzag shape, intermediate fasteners are used, consisting of a loop 3, one side of which is fixed to the support rod 4, and the other is used to hold the sensing element.

When measuring the temperature of the gas flow changing in time, the temperature of the sensing element 1 changes. If loop 3 is made of the same wire as the sensing element, then under the same conditions of heat exchange with gas, the loop and the sensing element will have the same time constant. Therefore, if the heat exchange between the support rod 4 and the point of contact of the sensing element with the loop is insignificant, the temperature of the loop at this point will always be the same as that of the sensing element. This means that the loop will not distort the temperature of the sensing element.

In order that the heat exchange between the support rod and the point of contact of the sensing element with the loop can be neglected, the length of the loop is chosen from the condition

,

where / is the length of the wire; d is the diameter of the wire; Bi-criterion BIO.

Subject invention

Resistance thermometer for measuring non-stationary temperatures in gases, containing a zigzag sensing element made of wire, intermediate supports and a frame, characterized in that, in order to improve measurement accuracy, intermediate supports are made in the form of wire loops, the length of which is chosen and the conditions

-5- / В1 7,

but

where / is the length of the wire; 25d - wire diameter;

Bi is a BIO test for wire.