SU1474409A1 - Heating chamber - Google Patents

Abstract

The invention relates to drying chambers for electrodes and m. used in the construction of pipelines. The purpose of the invention is to intensify heat and mass transfer and ensure regulation of the heat conductor. A hollow shaft 7 of a fan and a heat pipe are passed through the wall of the heat-insulated casing 1. The shaft is located coaxially with the pipe with the formation of an annular gap, which serves as the duct 8. The impeller 9 is placed around the condensation zone 4 of the pipe located inside the casing. The heat shield is mounted with the possibility of axial movement on the evaporation zone 2 of the pipe located outside the casing. This embodiment provides effective heat removal from zone 4 and a uniform distribution of t-ry air in the working space of the casing. The inlet part 12 of the duct and the part of the screen facing it are conical, which allows changing the surface area of zone 2, thereby adjusting the amount of heat supplied to it. 1 hp f-ly, 1 ill.

Description

- The invention relates to heating devices, mainly to drying chambers for electrodes, in particular when using heat from exhaust gases of an internal combustion engine, and can be used in the construction of pipelines, as well as in various industries related to drying. electrodes.

The purpose of the invention is the intensification of heat and mass transfer and the provision of regulation of heat supply.

The drawing schematically shows the proposed chamber, used as a dryer for electrodes.

The dryer contains a thermally insulated casing 1, through the wall of which a heat pipe is passed. The evaporation zone 2 of the heat pipe is outside the casing 1 and placed in the exhaust pipe 3 of the internal combustion engine (not shown). The condensation zone 4 of the heat pipe is located inside the casing 1 along its axis, the transport zone 5 is located in the zone of the casing 1. On the evaporation zone 2 of the heat pipe there is a heat-insulating screen 6 installed with the possibility of axial movement. The dryer contains a fan, the shaft 7 of which is hollow and passed through the same wall of the casing 1 as the heat pipe coaxially last with the formation of an annular gap serving as an air duct 8 for supplying air into the casing 1.

The impeller 9 of the fan is located inside the casing 1 around the condensation zone 4 of the heat pipe. The fan has an electric drive 10, and its impeller 9 has a protective mesh

11. The inlet part 12 of the air duct 8 and the part 13 of the heat insulation screen facing it are made conical. Inside the casing 1, a container 1.4 for electrodes 15 is placed along its perimeter. In the casing 1, a ventilation channel 16 is provided for the output of the vapors evaporated during drying. The condensation zone 4 of the heat pipe has ribs.

The dryer operates as follows.

The exhaust gases of an internal combustion engine having a temperature of 300-500 ° C, passing through the pipe 3, wash the evaporation zone 2 of the heat pipe and heat it. Due to the evaporation of the working fluid inside the pipe, heat is transferred to the condensation zone 4 on its finned surface.

When the fan is driven by the electric drive 10, cold air flows through the duct 8 into the casing (. Washing the condensation zone 4 of the heat pipe, the air heats up and is pumped into the working space of the casing 1 <Hot air transfers heat to the electrodes 15 and carries away the evaporated moisture through the ventilation duct 16.

Using the impeller 9 of the fan, efficient heat removal from the finned condensation zone 4 of the heat pipe and an even distribution of air temperature in the working space of the casing 1 are provided.

If the temperature of the exhaust gases changes, screen 6, moving along the longitudinal axis of the heat pipe, reduces (increases) the surface area of the evaporation zone 2 of the heat pipe, and so on. it regulates the amount of heat supplied to it. In addition, when moving the screen 6, the cross-sectional area of the duct 8 changes, which allows you to adjust the amount of air entering the casing 1 and change the intensity of the blowing of the condensation zone 4 of the heat pipe.

Claims (2)

Claim 1. A heating chamber, mainly an electrode dryer, containing a thermally insulated casing, through which a heat pipe is passed, the condensation zone of which is located inside the casing, and the evaporative one is outside, and a fan with an impeller and air duct, characterized in that, in order to intensify heat and mass transfer and ensuring the regulation of heat supply, the fan shaft is hollow and passed through the same casing wall as the heat pipe, coaxially last with the formation of an annular gap, serving its duct, and the impeller is placed around the condensation zone of the heat pipe, and a heat-insulating screen is installed with the possibility of axial movement on its evaporation zone. '' 2. Pop-up chamber 1, characterized in that, in order to regulate the passage section of the duct, the inlet part of the latter and the 067 part of the heat-insulating screen extended to it are made conical.