SU1744379A1 - Drier heat accumulator - Google Patents

Abstract

Invention m. used in installations that consume heat energy when it is unevenly produced or used. The heat accumulator contains a distribution chamber 1. a nozzle filled with a heat accumulating substance and made as a block of sealed chambers 4 communicating in the upper and lower parts to form a closed loop equipped with a fan 5. each chamber inside is equipped with porous metal membranes 6 from the outside by storage gutters 7. 1 Il.

Description

The invention relates to heat accumulators and can be used in installations consuming thermal energy in case of uneven production or use, in particular, for drying piece products, for example, capacitors.

The purpose of the invention is to increase the thermal capacity of the battery by intensifying heat transfer.

The drawing shows a thermal accumulator, a General view.

The heat accumulator contains a distribution chamber 1, insulated on the outer surface with insulation 2. The inner cavity of the chamber 1 is partially filled with coolant 3. The nozzle of the heat accumulator is made in the form of sealed chambers 4 communicating with each other in the upper and lower parts and forming a closed loop equipped with a fan 5. Each chamber 4 has at least two porous metal membranes 6 located in the upper and lower parts of the chambers 4. In addition, the chambers 4 are equipped with chutes 7, located dix on the outer surface and the inner surface - the ribs 8 made of material with high thermal conductivity. To fill the chambers 4 with coolant, a valve 9 is provided. The distribution chamber 1 of the heat accumulator is connected to the heat unit 10. for example, a device for drying condensers, by means of a vacuum pipe 11c with a valve 12.

Thermal battery operates as follows.

Before drying the products in the thermal unit 10, the heat accumulator is cooled to ambient temperature. After drying is completed, valve 12 is opened and the coolant vapor enters the internal cavity of the heat accumulator due to the temperature and pressure differences and condenses in the storage troughs 7, heating the heat-evacuating substance in the chambers 4, and the heat transfer is carried out through the walls of the chambers 4 and fins 8. To intensify heat transfer turn on fan 5 ,. which draws in air from the top of the closed loop and pumps it into the bottom. Passing through porous metal membranes

6, the air flow is crushed and creates a pseudo-boiling of the heat-accumulating substance in the chambers 4, as a result of which the coefficient of heat transfer from the walls of the chambers 4 and ribs 8 to the heat-accumulating substance is increased. The process continues until the temperature and vapor pressure of the coolant in the accumulator and the thermal unit equalize 10. After that, the fan 5 is turned off and the valve 12 is closed.

After loading a new batch of products into the thermal unit 10, the valve 12 is opened and the coolant vapors enter the cavity of the thermal unit 10 due to the difference in temperature and pressure of the coolant vapors in the accumulator and the thermal unit 10. Thus, the Products are preheated, moreover, to intensify heat transfer from the heat-accumulating substance in the chambers 4, the fan 5 is switched on again to the coolant condensing in the storage chutes 7, after aligning the parameters of the coolant vapor in the cavity and 10 fan unit 5 is switched off and valve 12 overlap.

Next, the cycle repeats.

The presence of a closed loop formed by the chambers and containing a fan, as well as the installation of semi-permeable porous metal membranes in the chambers, makes it possible to intensify the heat transfer process by providing pseudo-boiling of the heat-accumulating substance. At the same time, the coefficient of thermal return increases significantly.

Claims (1)

Claim The heat accumulator of the dryer, mainly for condensers, containing a distribution chamber equipped with a nozzle filled with a heat storage substance, characterized in that, in order to increase the thermal capacity of the battery by intensifying heat transfer, the nozzle consists of a block of sealed chambers communicating in the upper and lower parts with the formation of a closed a circuit equipped with a fan for circulation of the heat-accumulating substance, and each chamber inside is provided with porous metal membranes , and outside - with storage gutters,