DE4337533A1 - Industrial furnace for heat treatment of feed material, which is arranged in a batch in a heat treatment room - Google Patents

Abstract

The load (3) is arranged to form a charge (4) in a thermic treatment space (2). Laterally adjacent to the thermic treatment space (2), essentially opposite one another, are an inflow duct (7) and an outflow duct (9). Arranged one behind the other in the direction of flow in the thermic treatment space, in front of the charge (4) in the direction of flow, are at least two rectifying plates (11) with passage openings (12). With the invention, it is intended to produce an industrial furnace, in which uniform temperature distribution inside the charge (4) is achieved in a constructionally simple manner. <IMAGE>

Description

The invention relates to an industrial furnace for the heat treatment of feedstock, the is arranged to a batch in a heat treatment room, with a ventila gate that promotes a gas flow from an inflow channel to an outflow channel where since the inlet channel and the outlet channel essentially opposite Lich adjacent to the heat treatment room and with the inflow channel Flow baffles is provided.

Such an industrial furnace is known from EP B1 0283869.

The feed material is arranged in a batch with spaces through which it can flow. Due to a special design of the flow guidance, an even tem temperature in the batch. With this construction, the use of re Versatile flow drives, d. H. Reversible flow direction fans device or with complicated flap controls to reverse the flow direction be avoided. For uniform flow of the feed material are blow-out ducts or nozzle blow-out ducts or nozzles on both sides of the batch sen staggered.

The solution described in EP-B 1 0283 869 is structurally very complex. In addition, the homogenization of the temperature in the batch is to be improved further especially in the horizontal direction.

The object of the invention is accordingly an industrial furnace of the beginning to create the type mentioned, in which a structurally simple manner uniform temperature distribution within the batch is achieved.  

This object is achieved in that in the heat treatment room in the flow path before the batch at least two with evenly distributed diameters rectification plates provided in the flow direction one behind the other are ordered.

From the rectification plates, the flow hits evenly from a multitude of evenly distributed passage openings on the batch. A high level of uniformity in the flow distribution also means an even temperaturever division in batch.

The number of rectification plates is arbitrary. Trials have had good results achieved when using three rectification plates. Here is the relationship between Improve the uniformity of flow distribution and the inevitable The best way to increase the pressure drop.

The arrangement of the openings of the rectification plates and the respective free area are from the directional stabilizing structure of the batch and from the ge desired flow rate dependent. Under free space is the free through understood the surface of the passage openings for the gas flow. The dimensioning can be done with the help of simulation programs. The rectification plates can be for example designed as perforated perforated sheets, networks or as a mesh his. The use of perforated perforated sheets has proven to be particularly advantageous exposed.

The solution according to the invention is structurally very simple and inexpensive. The heat treatment room is fluidically favorable with essentially smooth walls completed. By dispensing with flow impulses from Dü sensor systems can also with reduced z. B. at half fan speed, so at low flow rate achieves a uniform inflow of the feed material become. The industrial furnace is universally suitable for heating and cooling processes and guarantees the shortest dwell times and thus high efficiency.

Advantageously, the rectification plates between the inflow channel and heat action room arranged.

The rectification plates are preferably arranged at a distance from one another, which is so large that the flow after flowing through a rectification plate can each be equal.  

In the case of highly heterogeneous flow conditions, it is particularly advantageous if the Passage area of each rectification plate increases in the direction of flow, d. that is, the Free area of a rectification plate is larger than that of an upstream arranged rectification plate.

An essential development of the invention is that in the outflow channel at least one rectification plate is arranged. This can cause unfavorable Ab flow conditions, e.g. B. in that the flow behind the batch in a lower right outflow duct is collected or sucked in by a fan in the middle, be balanced.

The passage area within the rectification plate can preferably change, such that the passage area from the area of the main flow to the Areas with lower flow increases.

The invention is in the following based on a preferred embodiment of the inventions Invention industrial furnace explained in connection with the drawing.

The drawing shows in:

Fig. 1 shows a schematic section through an industrial furnace.

In an industrial furnace 1 is in a heat treatment room 2 a set 3 , for example plates, tubes or profiles. The feed 3 is arranged in the heat treatment room 2 to form a batch 4 with spaces 5 through which it can flow. A fan 6 promotes a gas flow in a laterally adjacent to the heat treatment chamber 2 inflow channel 7 , which is provided with baffles 8 .

An outflow duct 9 is located opposite the inflow duct 7 . A burner 10 heats the gas flow before it is conveyed into the inflow duct 7 by the fan 6 .

Between inflow channel 7 and heat treatment room 2 , three perforated rectification plates 11 , in the form of perforated perforated plates, are arranged one behind the other in the flow direction. The distance is in each case so large that the flow can equalize after flowing through the openings 12 of each rectifying plate 11 .

The free passage area of each rectification plate 11 increases in the direction of flow, ie the free passage area of the passage openings 12 for the gas flow increases from the rectification plate to the rectification plate.

Since the flow behind the charge is collected in a vertical outflow channel, the outflow conditions are unfavorable. Therefore, a rectification plate 11 'is arranged in the outflow channel. The passage area within the rectification plate 11 changes such that the passage area increases from the area of the main flow to the areas with less flow.

Within the scope of the invention, modification options are readily available. The rectification plates 11 can also be designed as wire grids, networks or mesh grids.

Claims (6)

1. Industrial furnace for the heat treatment of feed material, which is arranged in a batch in a heat treatment room, with a fan that promotes a gas flow from an inflow channel to an outflow channel, the inflow channel and the outflow channel being laterally adjacent to the heat treatment room and substantially Flow guide plates are provided in the inflow duct, characterized in that at least two rectification plates ( 11 ) provided with uniformly distributed through openings ( 12 ) are arranged one behind the other in the flow direction in the heat treatment chamber ( 2 ) in the flow path upstream of the charge ( 4 ). 2. Industrial furnace according to claim 1, characterized in that the rectification plates ( 11 ) between the inflow channel ( 7 ) and heat treatment room ( 2 ) are arranged. 3. Industrial furnace according to claim 1 or 2, characterized in that the rectification plates ( 11 ) are associated with each other at a distance which is so large that the gas flow after flowing through each rectification plate ( 11 ) can be equalized. 4. Industrial furnace according to one of claims 1 to 3, characterized in that the free passage area of each rectifying plate ( 11 ) increases in the direction of flow. 5. Industrial furnace according to one of claims 1 to 4, characterized in that in the outflow channel ( 9 ) at least one rectifying plate ( 11 ') is arranged. 6. Industrial furnace according to claim 5, characterized in that the free passage area within the rectification plate ( 11 ') changes such that the passage area increases from the area of the main flow to the areas with less flow.