SU1430710A2 - Regulated heat pipe - Google Patents

Abstract

The invention makes it possible to increase the reliability and accuracy of controlling the fluctuations of the environment t-range and to extend the operating temperature range. The tube 1 is hermetically connected through the transition section 4 by a sylph 5. Inside the bellows 5 with a gap of relatively corrugation, a displacer 6 is installed in the form of a glass. The bottom of the glass is facing the evaporation zone 2 of the pipe, and the edges of the glass are tightly fixed on the end of the bellows on the side opposite to the evaporation zone 2. If there is a displacer in the bellows, the compensation for the change in the volume of a liquid occurs when the pressure inside it is 6-10 or more times less than without the displacer. Accordingly, the boiling temperature inside the pipe also changes less, thereby significantly reducing the accuracy of thermostatting. Reducing the stroke of the bellows and leads to the fact that this move does not exceed the allowable with a significantly greater change in temperature, which increases the reliability and performance of the pipe and expands the range of the environment temperature in which the pipe can operate reliably and efficiently. 1 il. cl

Description

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 The invention relates to a heat transfer device, namely, controlled heat pipes, and is an improvement of the device according to the authors. St. 1109574.

The aim of the invention is to improve the reliability and accuracy of regulation with fluctuations in ambient temperature and the expansion of the working temperature range.

The drawing schematically shows an adjustable heat pipe, a longitudinal section.

The adjustable heat pipe includes a housing 1 with zones 2 and 3 of evaporation and condensation, respectively, and a bellows 5 hermetically connected to it through the transition section 4. The edges of the cup are hermetically mounted on the end of the bellows 5 on the side opposite to the evaporation zone 2.

Heat pipe works as follows.

Heat and mass transfer in the pipe is carried out by changing the aggregate state of the heat transfer medium by means of heat supply and removal in zones 2 and 3, respectively. When changing, for example, lowering the ambient temperature, the coolant in the bellows 5 is also cooled, and its volume decreases. This leads to the fact that part of the fluid from the heat pipe is drained into the bellows 5, and the temperature and pressure in the heat pipe are lowered. When the internal pressure decreases, the bellows 5 is compressed, its internal volume decreases, which partially compensates for the change in the volume of fluid inside the bellows. For this, bellows 5 with displacer 6 require several times smaller stroke, pressure changes and temperature inside the pipe than with bellows: pressure carrier 6, since with the same displacement the absolute value of volume change is the same as for the bellows 5 s

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displacer 6, and without it. Since the total amount of fluid in the bellows 5 with the displacer 6 is much smaller, the relative change in the volume of filling of the bellows 5 in the same course is much larger. For example, in bellows 5 with a diameter of more than 100 mm, the total volume of bellows 5 is 5-6 times the volume between its corrugations, therefore, it is required 5-6-6 times the MCHbHjee movement of the bellows 5 to compensate for the same change in the volume of liquid. The corresponding pressure changes inside the bellows 5, with and without a displacer 6, differ by a larger number of times, as the increase in displacement increases the compressive force.

Thus, if there is a displacer 6 in the bellows 5, the compensation for the change in the volume of fluid (when the ambient temperature changes) occurs when the pressure inside it changes by 6-10 or more times less than without the displacer 6. Accordingly, the temperature also changes less boil inside the pipe. Thus, the accuracy of thermostat is significantly increased.

Reducing the stroke of the bellows 5 leads to the fact that the stroke will not exceed the allowable with a significantly larger m. Temperature change, which increases the reliability and operability of the heat pipe and extends the working temperature range at which the pipe can reliably and reliably work effectively.

Formula of invention

Regulated heat pipe according to ed. St. NO 1 109574, characterized in that, in order to improve reliability and accuracy at a temperature of approx.), And a working temperature range of 1, a strainer in the form of a glass is installed inside the sylfor1a with a gap relative to its corrugation, the bottom which is formed to the evaporation zone, and the edge of the glass is tightly fixed on the end of the bellows with one hundred opposite to the evaporation zone.

Claims (1)

Claim Adjustable heat pipe by ed. St. 35 No. 1 109574, characterized in that, in order to increase the reliability and accuracy of regulation during environmental temperature fluctuations and expand the operating temperature range, a 40 displacer is installed inside the bellows with a gap relative to its corrugations in the form of a cup, the bottom of which faces the evaporation zone, and the edges of the glass are hermetically fixed to the bellows on the side opposite to the evaporation zone. Compose, and, (With Monon