CS261322B1 - Continuous furnace for thermal treatment - Google Patents

Abstract

The proposal addresses the problem of heat utilization, accumulated in the material being processed in continuous furnaces for independence circulation circuit on external sources energy and with uniform heating the material being processed, even at significant operating inequalities load of continuous furnace. It is achieved the furnace is equipped at least one circulation circuit, which consists of a condenser and an evaporator, whose steam rooms are interconnected one connecting pipe and whose liquid spaces are interconnected second connecting pipe. Circulation the circuit is filled with a heat carrier, which is, for example, molten metal. For increasing the thermal efficiency of the system is the continuous furnace can be equipped with more circulation circuits.

Description

The invention relates to a continuous furnace for heat treatment of materials, in particular metal or ceramic.

Up to now, the continuous furnaces have been arranged such that in one part of the furnace the material to be treated is heated and in another part the cooling is carried out. Heat is usually removed from the material to be treated by water or air without further utilization. Continuous furnaces are also known which utilize the residual heat accumulated in the process material to heat the domestic water or preheat the air to be burned in the burners or to preheat the charge. The disadvantage of these solutions, however, is that heat of a high potential is usually converted to a potential substantially lower, usually up to 100 ° C. A further disadvantage is that the possibility of using a controlled atmosphere in these furnaces is also excluded during air preheating.

These disadvantages are overcome by a continuous furnace for the heat treatment of materials, in particular metal or ceramic according to the invention, which consists in the fact that at least one circulation circuit is built in the furnace, consisting of a condenser connected on the one hand by the steam conduit. The circulating circuit is filled with a heat transfer medium whose boiling point is lower than the nominal temperature of the continuous furnace and at the same time higher than 100 ° C.

The advantage of the invention is the complete independence of the circulation circuit from external energy sources, i.e. circulation pumps or fans, and the reliability of the circulation of the heat transfer medium, which occurs spontaneously under the influence of the hydrostatic pressure exerted by the difference in the heat level. Another advantage is the fact that the wall temperature of the condenser is constant, which guarantees uniformity of heating even with considerable unevenness in the operating load of the continuous peo. The proposed arrangement is further advantageous because heat is utilized in the material being processed, thereby reducing the energy consumption of the material preheating.

An exemplary embodiment of the invention is shown in the accompanying drawing, in which a diagram of a continuous circulating furnace with a single circulation circuit is shown.

A continuous furnace 2 designed for sintering metal powder compacts, with a nominal temperature of, for example, 1,350 ° C, is equipped with a circulation circuit 2, which is filled with a heat transfer medium 7 whose boiling point is lower than the nominal temperature of the continuous furnace 2 Deň: 32 ° C. The heat transfer substance 7 is preferably a molten metal, e.g. molten zinc. The circulating circuit 2 consists of a condenser 3 incorporated in and after the continuous furnace 1, a built-in evaporator 4 in the direction of movement of the material to be processed, and a connecting line 5,

6. The steam connection duct 5 connects the condenser 2 ^and evaporator steam spaces ^{and the} fluid space duct 5 connects the condenser 2 ^and evaporator 2 liquid compartments. The boils are different.

In the case of two circulation circuits 2, for example, one of them contains molten potassium having a boiling point of 772 ° C and the other having molten zinc having a boiling point of 907 ° C. The structure of the two circulation circuits 2 is such that the material to be processed 8 passes first along the walls of the condenser 2 of the circulation circuit 2 containing the lower-boiling point 7, then along the walls of the condenser 2 of the circulation circuit 2> containing the heat-carrying part. T_ with a higher boiling point. The material to be processed is then processed. It heats up to the nominal temperature and passes in the cooling part of the continuous furnace 2 along the evaporator walls 2 of the circulating circuit 2 filled with the heat transfer medium T and then along the walls of the evaporator 4 of the circulating circuit 2 filled with the heat transfer medium 2 with lower boiling point.

The circulation of the heat carrier 7_ occurs during operation of the continuous peoe 2 under hydrostatic pressure exerted by the different height levels of heating fluid 2 in the condenser and the evaporator 2 · Heat treated material 2 is ^comprised from him discharged into the evaporator 4, which boils heat carrier 1_, the vapors of which are condensed through the conduit 5 of the steam compartments of the condenser 3 and the evaporator 4 into the condenser 2 '

The heat transfer fluid condensate 7 spontaneously flows through the conduit 6 of the liquid compartments of the condenser 2 ^{and the} evaporator 6 into the evaporator 6 and the cycle is repeated.

The described embodiment is particularly suitable for controlled atmosphere continuous furnaces, but can be used for continuous furnaces in general. For lower temperature regions, it is possible to use, for example, organic compounds having a boiling point in the range of 200 to 300 ° C as heat-carrying substances.

Claims (3)

Continuous furnace for heat treatment, in particular of ceramic or metal materials, characterized in that at least one circulation circuit (2) is built in, consisting of a condenser (3) interconnected on the one hand by a connecting conduit (5) of the steam space and on the other by means of a duct (6) of liquid spaces with an evaporator (4), the circulation circuit being filled with a heat transfer substance (7) whose boiling point is lower than the nominal temperature of the continuous furnace (1) and at the same time higher than 100 ° C. 2. A continuous furnace according to claim 1, characterized in that the heat carrier (7) is molten metal. Continuous furnace according to claim 1, characterized in that the heat transfer substance (7) is a stable organic compound having a boiling point of 200 to 300 ° C.