SU720282A1 - Heat tube - Google Patents

Description

The invention relates to heat transmitting devices, in particular, to heat pipes with a cooling effect. A known heat pipe has a refrigerating effect, working on a binary system with an inert gas additive, comprising a housing with a capillary-porous structure on the inner surface separated by a bridge in the condensation section of the low and high boiling components of the binary mixture, and transverse partitions separating the refrigerating chamber and the absorber, respectively, from the condensation zone and the evaporation zone, connected by a vapor space, the refrigeration chamber being connected to the absorber via steam channels oic mixture of inert gas and 1 teplovy disadvantage of said tube is that the cooling capacity of the heat pipe is low due to the low diffusion rate of the refrigerating chamber to the absorber. The object of the present invention is to increase the cooling capacity of the heat pipe. : / kazakns-: the goal is achieved by the fact that the absorber is installed between the zo gi; evaporation and condensation, and distant from the last additional partition, and also that the ends of the channel for an argon gas mixture are located on the channel thoriums for jiHepTHoro gas, and both channels need a common surface for heat exchange. The drawing shows the proposed heat pipe. Heat pipe filled with a binary mixture with the addition of an inert gas, p & body 1 with a capillary-pore structure 2, divided by subway 1, 3 into sections 4 and 5 of condensation of the low boiling and high boiling components of the binary mixture, and transverse partitions 6 and 7, section The refrigerating chamber 8 and the gas sorber 9, respectively, from the condensation zone 10 and the evaporation zone 11, connected between each other by channel 12, the refrigerating chamber 8 is connected to the absorbers 9 by means of a channel: 13 and 14 for the steam-gas mixture and an inert gas. The absorber 9 is separated from zone 10 condensate 1 and recurrent 15.

Claims (2)

Claim 1. A heat pipe operating on a binary mixture with the addition of an inert gas, containing a housing with a capillary-porous structure on the inner surface, divided by a jumper into the condensation sections of the low high-boiling components of the binary mixture, and transverse partitions separating the refrigerating chamber and the absorber respectively from the condensation zone and evaporation zones interconnected over the vapor space, the refrigeration chamber being connected to the absorber via channels for the vapor-gas mixture and inert gas, characterized By being one. that, in order to increase cooling capacity, the absorber is installed between the evaporation and condensation zones and is separated from the latter by an additional partition. 2, The pipe according to claim 1, wherein the ends of the channel for the vapor-gas mixture are located below the ends of the channel for inert gas, both channels having a common surface for regenerative heat transfer.