SU400819A1 - METHOD OF MAKING THERMOMETERS RESISTANCE - Google Patents

Description

This invention relates to methods for manufacturing resistance thermometers by winding insulated wire from a temperature-dependent material onto a frame. Methods are known for manufacturing resistance thermometers by winding an insulated wire onto a pre-metallized dielectric frame with subsequent coating of the winding with a metal without an air gap between the coating metal and the winding. Thermometers of resistance, manufactured by a known method, have a relatively high thermal inertia and instability of readings when measuring high temperatures. The purpose of the invention is to reduce thermal inertia. This is achieved by reducing the total 20 mass of the resistance thermometer by eliminating the carcass from the dielectric. The essence of the invention is that a layer of soluble dielectric is applied to a frame made of any material, for example, a sponge-25 lacquer, lacquer AK-20 and other insoluble dielectric is imparted with an electrically conductive property by incorporating electrically conductive particles (powder metal, carbon) or by chemical-ZO 5 10 15 metallization (nickel plating, silvering) of the soluble dielectric after it is applied to the frame. Then, the soluble electrically conducting properties of the dielectric is electroplated with a metal layer. The metal layer is wound by a winding of insulated wire with a core of temperature-dependent metal. It is preferable to use molded microwires in glass insulation as the insulated wire. Another metal layer is applied over the winding (electroplated, chemically, by vacuum deposition). The dielectric layer is then dissolved, for example, with acetone, and the winding enclosed on all sides is removed from the frame into the metal. Pa of the drawing shows the finished resistance thermometer, where: / is a protective metal layer, 2 is a winding of insulated wire. The total mass of the resistance thermometer is slightly different from the mass of its own winding, i.e. minimized, the winding is covered on both sides with a material with a good thermal conductivity (metal), all this significantly reduces the thermal inertia of the resistance thermometer.

In order to increase the stability of the thermometer when measuring high temperatures, it is necessary to match the temperature expansion coefficients (TCRs) of the materials that make up the resistance thermometer.

From this pelo-metal protective layer is chosen the same as the metal winding wire, i.e., if the winding of the resistance thermometer is made, for example, of copper wire, it is covered on all sides with copper.

In this case, the TCR of all materials from which the resistance thermometer is made is the same, and destabilizing mechanical stresses do not occur in the winding of the resistance thermometer when measuring high temperatures.

Subject invention

A method of making resistance thermometers by coating a metal layer with a winding of insulated wire with a vein of a temperature-dependent material without an air gap between them, characterized in that, in order to reduce thermal inertia, a layer of soluble dielectric is applied to the frame of any material, which is preferably chemical electrically conductive properties are given by metallization, one more metal layer is galvanically applied to the metallized dielectric layer, the winding is wound, the winding is covered again metal dielectric layer is dissolved and removed enclosed on all sides with a metal coil frame.