SU722881A1 - Heating compartment - Google Patents

Description

one

The invention relates to the building materials and products industry.

The known compartment of the cassette installation includes heating metal sheets, a system of walls, a compartment with a cavity on a number of interconnected compartments, pipes for supplying heat transfer fluid and a condensate outlet — contour flange, sealing gaskets and tightening bolts lj,

The disadvantages of this device are the considerable metal intensity of the heat compartment, due to the use of dividing partitions, as well as the need to use a high value heat carrier (pair) in order to create sufficient dynamic pressure to overcome the local resistances created by the partitions.

The closest in technical essence and the achieved result is a compartment for heat treatment of construction products, including hollow

an airtight container partially filled with a light-boiling liquid, and a heater 2J,

The disadvantage of this thermal compartment is the lack of efficiency of heat exchange between the coolant and the product.

The purpose of the invention is to increase the efficiency of heat transfer.

This goal is achieved by the fact that in a heat compartment, mainly a cassette installation, for heat treatment of building products, including a hollow hermetic tank, partially filled with light boiling liquid, and a heater, the tank is provided with a vertical partition with an opening ksh dividing it into two sections, and the heater made in the form of a two-phase thermosyphon, the zone from the water of which heat is located in the lower part of one of the sections.

The drawing shows a section of the heat compartment.

The device contains hermetic cavity 1, equipped with measuring

whether device 2, divide; 1 partition 3, containing parsvye and condensate windows 4, 5 and 6 and de; dush cavity into two unequal volumes 7 and 8. Heat is supplied to the volume of boiling liquid in the small compartment 8 with the help of two-phase thermosyphon 9, the heat removal zone of which is in direct contact with this volume.

Works thermal compartment as follows.

When heat is applied to the two-phase thermosyphon zone, the working fluid evaporates in this zone. The steam enters the condensation zone 9 of a two-phase thermosyphon, where, condensing, releases its heat to the volume of light boiling liquid in the small compartment 8. The gifts of light boiling liquid, rising upwards through the heat compartment, give off heat to the concrete product by heat conduction and condense. During condensation, latent heat of vaporization of a light-boiling liquid is the same throughout the height of the compartment. The boiling up of light boils in a large compartment 7 occurs with some delay and the boiling intensity here is much lower than in compartment 8.

The use of an injectable device ensures high efficiency of heat and mass transfer processes occurring in the compartment, due to a significant increase in the heat transfer coefficient during condensation of light boiling liquid vapors due to the lack of

these are air inclusions. The presence of a dividing wall allows for a stable circulating coolant compared with the thermal compartment

not having partitions, i.e. uniform heating of the internal cavity of the thermal compartment, and hence the uniform HaipeB concrete product. In addition, the dividing wall ensures efficient operation of the thermal compartment, especially at the beginning of the heating period.

Claims (2)

1. USSR Author's Certificate No. 252142, cl. From 04 to 41/30, 1967. 2. USSR author's certificate N9 483383, cl. C O4 B 41 / ZO, 1973 (prototype).