RU1809548C - Device for concentrated heating - Google Patents

Abstract

Field of use: in experimental technology, for example, for heating the end of a heat pipe. SUMMARY OF THE INVENTION: the device comprises two current leads and a rod heating element made of refractory material. The first current lead is made with an insert of electrically conductive material installed in a recess made at the end of this current lead. The insert covers one end of the heating element, and its second end is recessed into the second current lead. In the contact zones of the surfaces of the heating element, the insert and the current lead, a layer of increased electrical resistance is made. 2 ill.

Description

The invention relates to heating technology and can be used to produce a highly concentrated heat flux, for example, by supplying heat to the end of a heat pipe.

The purpose of the invention is to increase the heating efficiency ..

This goal is achieved by the fact that in the known device for concentrated heating, comprising a rod heating element made of refractory material, a current lead with a recess into which the end of the heating element is inserted, and a second current lead, the first current lead is made with an insert of electric lead material installed in the said recess on its end with the coverage of the end of the heating element, the opposite end of the heating element is buried in the second current lead, and in the contact zones of the surfaces a heating element, an insert and current leads, a layer of increased electrical resistance is made.

In FIG. 1 shows an apparatus for concentrated heating the end of a heat pipe; figure 2 section aa in figure 1.

The concentrated heating device comprises a contact current lead 1, a current lead 2, which is a heat pipe to be heated, a current source 3, an insert 4 of electrically conductive material mounted movably in the current lead 1, serving as a socket for the rod heating element 5 of refractory material whose section is movably placed in insert 4, and the rest is recessed movably in current lead 2: i.e. in the heated end of the heat pipe. The device is covered by thermal insulation (not shown in the drawing).

The rod heating element 5 can be made of an alloy based on chromium, for example, grade ВХ-2И, which

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able to work in an oxidizing environment. Depending on the duration of operation, it can withstand heating up to 1900 ° C. It is well processed by cutting.

The insert 4 is made of an electrically conductive material, the same as the current lead 1, for example, copper. It can also be from less heat-conducting material, for example, tompak L 96.

The proposed device operates as follows.

When the current source 3 is turned on, the rod heating element 5 glows before glowing, since it has a significant electrical resistance compared to the resistance of the current lead 1, and the contact of the heater with the insert 4 is a poor current conductor and there is strong heat generation in it. When the temperature of the heating element is in the range of 1500-1800 ° C, it expands and adheres tightly to the surface of the socket made in the heated heat pipe 2. For example, when the diameter of the heating rod is 8 mm, it increases to 8.17 mm when heated. Thus, heat from a portion of a hot heater buried in the end of the heat pipe, at a large temperature difference (1400-1700 ° C), is intensively transferred to the heating body both by radiation and thermal conductivity. In this case, the heat sink through the current lead 1 is hindered by the compensatory heat release occurring in the contact zone of the insert 4 with the lead wire 1. It is even more difficult

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when inserting from a less heat-conducting material compared to the material of the current lead.

Thus, the presence of contact thermal resistances between the refractory heating element 5 and the insert 4, as well as the current lead 1 and the insert, and compensatory heat generation in these contacts with increased electrical resistance, significantly impede the heat transfer from the heater through the current lead 1. Heat transfer to the environment is difficult thermal insulation.

Therefore, heat from the hot heating element is intensively transferred in the direction of the smallest thermal resistance, i.e. towards the heat pipe.

Claims (1)

Gain Formula A device for concentrated heating comprising a rod heating element made of refractory material, a first current lead with a recess into which the end of the heating element is inserted, and a second current lead, characterized in that, in order to increase the heating efficiency, the first current lead is provided with an insert of an electrically conductive material installed in the indicated recess at its end with the coverage of the end of the heating element, the opposite end of the heating element is buried in the second current lead, and in the zones a contact of the surfaces of the heating element, the insert and the current leads is a layer of increased electrical resistance. Fie. 2