CS228172B1 - Flame tube flame - Google Patents

Abstract

The invention relates to a radiant tube flame tube, assembled from ceramic elements in the form of plates. For lateral connection with other plates, the plate is provided on opposite sides with offset rectangular cutouts and protrusions, which are provided with a chamfer, preferably at an angle of 45 . Of the remaining opposite sides of the plate, one side is provided with a recess and the other side with an overlap for longitudinal connection of the plates, not their surface, facing the combustion space of polygonal cross-section, two support protrusions are arranged, one of which has a profile in the shape of an trapezoid and the other in the shape of a triangle. The plates are assembled offset by half their length. To compensate for the difference in length of the offset, two plates of half the length are installed in each end of the flame tube.

Description

The invention relates to a radiant tube flame tube which is made of ceramic elements.

Until now, they have been using either radiant tubes for single-layer or radiant tubes for heating furnaces and indirect heating in a protective atmosphere, whereas for double-skin radiant tubes, the internal flame tube, flame tube, most commonly produced with special steels with a high nickel metal, nickel and chromium content.

Nevertheless, the radiant tubes were frequently depreciated, but after a relatively short period of operation, the radiant tube flame was deformed and then burned by oval due to high combustion temperature and considerable temperature changes. In some cases, the outer casing of the radiant tube has been deformed and damaged.

These facts caused operational difficulties in the replacement of damaged radiant tubes and, in addition, there were high costs associated with the production of replacement radiant tubes inland.

The service life of the radiant tube aa will be considerably prolonged when the flame tube is made of a ceramic material suitably called to withstand both high temperatures and temperature changes. For example, aa use flame flaps composed of portions of the shape of circular segments.

A disadvantage of this solution is the considerable complexity of the individual ring elements, which are difficult to manufacture and expensive.

These drawbacks are largely eliminated by the radiant tube flame tube made of ceramic elements according to the invention, which is characterized in that the ceramic element has the shape of a plate, provided for lateral connection with the other plates with offset rectangular slots and protrusions on opposite sides. which are provided with a chamfer, preferably below 45 °, on the remaining opposite sides of the plate, one is provided with a recess and the other with an overlap for the longitudinal connection of the plates on the surface facing the combustion space of the polygonal cross section. in the form of a triangle and my second trapezoidal profile, the plates being assembled offset halfway their length, and two half-length plates are built into each end of the flame tube to compensate for the distal offset difference.

The advantage of this solution is that the ceramic plates from which the flame tube is assembled are simpler in shape and manufacture in comparison and in the annular segments. The shape of the inserts allows easy installation of the flame tube as well as relatively easy replacement of its parts. The chamfered surfaces on the plates facilitate insertion and centering of the flame tube in the outer casing of the radiant tube.

By assembling the plates, an optimum combustion proator of polygonal cross-section is defined, while at the same time maintaining the greatest possible surface area of the radiant tube outer casing which is directly flowed through the flue gas.

The possibility of damage to the plates by cracks and cracks is limited by their relatively small dimensions and clearances in the contact surfaces.

At least two plates and at least two plates of half length are provided with openings connecting the combustion chamber with the combustion chamber.

Through these openings a part of the flue gas passes from the combustion chamber to the flue gas space, whereby aa achieves a uniform temperature distribution over the entire surface area of the radiant tube heating length.

An embodiment of a radiant tube flame tube according to the invention is shown in Figures 1 to 4.

Giant. 1 shows a cross section of a radiant tube, FIG. 2 shows an expanded sheet of a flame tube composed of ceramic elements in the form of a plate, FIG. 3 shows a plate neat, FIG. 4 shows a plan view of a plate;

A flame tube 4 is provided concentrically in the space of the outer casing 6 of the radiant tube. A combustion chamber 4 is formed between the outer casing 4 of the radiant tube and the flame tube 6 and the combustion chamber 6 is defined by the flame tube. The flame tube 2 is composed of ceramic elements having the shape of plates 6. In order to connect the plates 6 laterally, their opposite sides are provided with offset rectangular slots 6 and protrusions 6.

The projections 8 are provided with a chamfer 8 at an angle of 45 °. From the remaining sides of the plate 6, one is provided with a recess and the other side is provided with an overlap 60 which enables the plates to be connected remotely. Two support projections 12, 12 'are provided on the surface 11 of the plate facing the combustion chamber 4 of the polygonal cross-section. one of which is triangular in profile and the other is trapezoidal in profile.

The plates 6 are assembled into the body of the flame tube 5 offset by half their length and two half-length plates 5 'are built into each end of the flame tube 2 to compensate for the distal offset difference.

The plates 8 and the half-length plates 5 'are provided with openings 13 for the passage of a portion of the flue gas from the combustion chamber 6 into the combustion chamber 6,

Claims (2)

SUBJECT OF THE INVENTION A radiant tube flame consisting essentially of a concentrically arranged outer shell and a flame tube between which a lining space is formed and a combustion space defined by a flame tube made of ceramic elements, characterized in that the ceramic element of the flame tube has the shape of a plate (5). side connections with the other plates (5) provided on opposite sides offset by arranged rectangular slots (6) and protrusions (7), which are provided with a chamfer (8), preferably at an angle of 45 °, of the remaining opposite sides of the plate (5) a side provided with a recess (9) and the other side with an overlap (10) for the longitudinal connection of the plates (5), on their surface (11) facing the combustion chamber (4) of polygonal cross section are two support projections (12, 12 '); one of which has a triangular-shaped profile β the other has a trapezoidal-shaped profile, the plates (5) being In order to compensate for the length difference of offset, two half-length plates (5) are built into each end of the flame tube (2). Radiant tube flame according to claim 1, characterized in that at least two plates (5) and at least two plates ($ ') of half length are provided with openings (13) connecting the combustion chamber (4) with the combustion chamber (4). 3).