DE3447603A1 - CERAMIC FLAME TUBE FOR THE SHEET JET PIPE OF AN INDUSTRIAL BURNER - Google Patents

Abstract

1. An outer radiant heating tube for an industrial burner having a ceramic flame tube (3) consisting at least partially of individual ceramic tube portions (7, 7a) which are interconnected positively at their ends and with which externally disposed rib-like or cam-like spacing members (14, 16) are associated for radial bearing against an outer tube (1) enclosing the flame tube, each of the tube portions being formed at one end as a socket (8) and having at the other end a cylindrical zone (9) fitting into such socket, characterized in that adjoining tube portions (7, 7a) are inserted into one another with clearance at the socket connecting places, and fitted with clearance on to the outside of the flame tube (3) in the zone of each of the socket connecting places is a ceramic covering ring (11) which is positively fixed to the flame tube (3) in the axial direction, extends in the axial direction over a portion of the cylindrical zone (9) of each tube portion (7, 7a) and is at least partially covered by the associated socket (8).

Description

Äichelin GmbH, 7015 Korntal-Münchingen 1

Ceramic flame tube for the jacketed radiant tube of an industrial burner

The invention relates to a ceramic flame tube for the jacket radiant heating tube of an industrial burner, which consists at least partially of individual ceramic pipe pieces, the end face form-fitting are connected to each other and which rib-like or cam-like spacers arranged on the outside to the radial Support against a jacket tube surrounding the flame tube are assigned.

Jacketed radiant tubes with ceramic flame tubes are characterized in that they are the particular high thermal loads occurring in the on / off operation of the burner without impairing the Can absorb service life. In the design as a continuous one-piece over the entire length of the flame tube Ceramic tube (GB-PS 716 57 9) but they are subject to a high risk of breakage, in particular with Radiant heating tubes installed horizontally are due to the fact that the one surrounding the flame tube at a distance Metallic cast iron casing not only changes in length under the effect of temperature,

but also experiences a certain deflection, which makes the one-piece, relatively rigid ceramic flame tube is not able to follow.

It is therefore also known to give the ceramic flame tube a certain elasticity (GB-PS 564 523, US-PS 2478 732), the flame tube from individual circular cylindrical pipe pieces or circular ring sections assemble, which are butt butted butted together coaxially. To a mutual Guide the pipe pieces to the connection points ensure, the tube pieces are designed on the front side in the manner of tongue and groove. This results in but basically at the connection points one in each case running at right angles to the flame tube axis Flat annular gap which opens radially to the outer circumferential surface. Becomes such an annular gap between two butting pieces of pipe, caused by different changes in length the metallic jacket tube and the ceramic flame tube, or by bending the jacket tube, partially open, so hot flame gases can escape from the inside of the flame tube to the outside, where they hit the metallic jacket tube in a radial direction. That on its inside from the through the annular space between the flame tube and the jacket pipe flowing (cooler) exhaust gases coated jacket pipe is thermally overstressed by such local overheating and is either quickly destroyed as a result or at least impaired in its service life.

Because the relatively thick-walled known ceramic pipe sections or circular ring parts under the influence of the different high temperatures on their inside and outside proven to be susceptible to cracking, it is also known to make the circular ring parts from individual sector-shaped Assemble sections that have form-fitting connecting devices at the joints (DE-PS 1551 762). This made it possible to produce a very flexible ceramic flame tube, that from relatively small and thus insensitive to large temperature gradients Parts is assembled, but the individual parts must be bonded with a ceramic putty connected in order to give the whole flame tube the necessary stability. This is a additional effort. In addition, if a ceramic part is damaged, the whole Flame tube must be replaced because a replacement of the cemented damaged section is not possible is.

The object of the invention is therefore to create a tough, flexible, ceramic flame tube, that with a simple structure the occurrence of local overheating points on the surrounding metallic jacket pipe and is characterized by ease of assembly and repair.

To solve this problem, the ceramic flame tube mentioned at the outset is characterized according to the invention: that the thin-walled pipe pieces are each designed as a sleeve at one end and plugged into one another with play are and that in the area of the socket connection points on the flame tube in each case a ceramic

Cover ring is placed with play outside, which extends in the axial direction over part of the respective Pipe section extends and through which the associated sleeve is at least partially covered.

The socket connection of the pipe sections allows a certain amount of axial mutual at the connection points Mobility of the pipe sections without the pipe sections being separated from one another. The one between the inner wall A sleeve and the outer wall of the inserted pipe section opens into the existing annular gap on the outside of the flame tube in the axial direction of the flame tube. He is also to the outside the cover ring covered with the outer circumferential surface of the sleeve or the one inserted into the sleeve Pipe section in turn limits opening annular gaps in the axial direction of the flame tube. So they are on the connection points of the pipe pieces that are nested with play Gaps formed like labyrinths, which have a high flow resistance for the hot Represent flame gases inside the flame tube. Any flame gases that may pass through can only be used in Exit in the axial direction of the flame tube, i.e. they only coat the outer circumferential surface of parts the ceramic pipe pieces, which is harmless. In any case, none can come from the connection points Flame gas flows radially outgoing from the outside of the flame tube occur, which flow onto the metallic jacket tube and could lead to local overheating there.

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The pipe sections and the cover rings are only plugged together in the flame tube without any permanent cement connections would be required. This can also be used to damage those who have become damaged Parts can be easily replaced without having to replace the entire flame tube.

It can be advantageous to increase the sealing effect in the area of the connection points of the pipe sections be when the cover ring extends in the axial direction in each case beyond the sleeve. aside from that In a preferred embodiment, the cover ring is positively locked on the flame tube in the axial direction fixed, which on the one hand facilitates assembly and on the other hand an unintentional Moving the cover ring on the flame tube are prevented. In the structural design can for this purpose, each pipe section at the end facing away from the sleeve has an axially supporting the cover ring Wear ring shoulder.

Favorable connection conditions of the flame tube to the burner result when the one adjacent to the burner Pipe section with its socket-side end is attached to a ceramic burner mouthpiece, in the sleeve of this pipe section a on the Burner mouthpiece adjoining connecting ring is used with play. The connection ring results in a tight Connection of the flame tube to the ceramic burner mouthpiece, so that the flame burns back between Burner mouthpiece and flame tube is excluded. As the burner mouthpiece and the flame tube

are merely plugged together, the burner can, if necessary, simply be pulled out during dismantling without the flame tube needing to be removed from the jacket tube. The connecting ring expediently carries on its outer circumferential surface Spacers, so that the connection ring at the same time the flame tube on the one adjacent to the burner mouthpiece Side centered together with the burner mouthpiece. Similarly, it is beneficial to when the cover rings on their outer peripheral surface Wear spacers that cause the centering of the flame tube in the jacket tube. In this way it is achieved that the pipe sections are produced as simple, smooth-walled parts with little effort can, while on the other hand the spacers on the cover rings a radial centering of the flame tube ensure in the areas of the connection points of the pipe sections, which is important for the stability of the Flame tube is cheap.

On the terminal pipe section of the flame tube, such a spacer-bearing cover ring can be in be placed with an orientation rotated by 180 °, around the flame tube also on the one facing away from the burner To center the end without the need for your own centering parts, etc.

The thin-walled pipe pieces, the wall thickness of which is typically in the order of magnitude of approx. 5 mm, are made of made of a heavy-duty ceramic material and are characterized by great resistance the end. They are preferably made of pure silicon carbide, which has proven itself to be excellent for this purpose

In the drawing, an embodiment of the subject matter of the invention is shown. The drawing shows a jacket radiant heating tube with a ceramic flame tube according to the invention, in axial section, in a side view and in a partial representation.

In a casing tube 1 made of cast steel and closed at the end at 2 is a ceramic Flame tube 3 arranged coaxially. An annular space 4 is delimited between the flame tube 3 and the jacket tube 1, which serves to discharge the combustion gases, as is known per se. The jacket tube 1 forms part of an industrial burner, not further illustrated in its details, of which only the Shown is a funnel-like burner mouthpiece 5 which is coaxial with the jacket tube 1 and protrudes into it which is also made of ceramic material and which has a substantially cylindrical connecting piece 6 carries, on which the flame tube 3 is attached.

The flame tube 3 consists of the same individual ceramic, thin-walled pipe pieces 7, which at one end 8 are each designed as a sleeve and on the opposite side of the sleeve 8 a cylindrical Area 9 have a slightly reduced outer diameter that delimits an annular shoulder 10. The pipe pieces 7 are made of pure silicon carbide. Their wall thickness is typically about 5 mm, with the In the drawing, for the sake of clarity, the outer diameter reduction at 9 is shown exaggeratedly large is only approx. 0.5 - 1 mm.

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The outside and inside smooth-walled pipe sections 7 are shown with their sleeves 8 in the figure Way plugged into one another with radial play, the pipe section adjacent to the burner 7a with its socket-side end attached to the connection piece 6 of the burner mouthpiece 5 is.

In the area of the socket joints between a ceramic cover ring 11 with play on the outside is placed on each of the pipe sections 7 on the flame tube 3, which protrudes from the associated sleeve of the adjacent pipe section 7 Area 9 extends reduced outer diameter in the axial direction and between the associated Ring shoulder 10 of a pipe section 7 and the end face of the sleeve 8 of the adjoining pipe section 7 is held axially immovable. Each cover ring 11 has one associated with it Sleeve 8 in the axial direction at least partially overlapping area 12 on / which also extends over the Sleeve 8 can extend out, as indicated at 13.

Wear on their cylindrical outer circumferential surface the spacer rings 11 axially parallel aligned rib-like spacers 14 around the circumference of the ring are formed in one piece on the cover rings 11 in a uniformly distributed manner. The spacers 14 that alternatively also in the form of cams or the like. Elevations can be designed, protrude radially to the inner wall of the jacket tube 1, on which they radially support and center the flame tube 3.

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The radial distribution and the formation of the spacers 14 are made such that they the Oppose the lowest possible flow resistance to the exhaust gases flowing out through the annular space 4, Nevertheless, a perfect, mechanically resistant centering of the flame tube 3 guarantee.

A cover ring 11 carrying spacers 14 is rotated through 180 ° on the end piece of pipe 7 postponed in the manner shown in the figure. It ensures that the flame tube 3 at its free End is kept perfectly radial and centered without that separate parts would be required for this. At the same time it gives a at the outlet end of the flame tube 3 Enlargement of the flame tube face.

At the other end of the flame tube 3 is in the sleeve 8 on the connection piece 6 of the burner mouthpiece 5 external ceramic connection ring 15 inserted, which is on its cylindrical Rib-like spacer parts 16 also regularly distributed at intervals around the outer circumferential surface carries, which support the flame tube 3 and the burner mouthpiece radially on the jacket tube inner wall 1 and center.

The drawing shows that at the junctions of the Pipe sections 7, as well as at the connection point of the pipe section 7a adjacent to the burner on the burner mouthpiece 5 only annular gaps are present in the annular space 4 substantially coaxial to the Open flame tube 3 directed. Such annular gaps

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are available at 17, 18, for example. Through the cover rings 11 is a labyrinth-like resulting at the connecting pieces of adjacent pipe sections 7 Design of the annular gap achieved that a radial exit of hot flame gases in the annulus 4 excludes.

The pipe sections 7 can in the case of a deflection or change in length of the jacket pipe 1 in the axial direction are pulled apart relatively far at their junctures without thereby the tight connection between the pipe sections or the stability of the flame tube 3 would be affected. Because of the existing play in the sleeves 8 and in the area of the cover rings 11, the flame tube 3 can also have relatively large deflections of the jacket tube 1 without undue stresses in the pipe sections or in the cover rings 11 would be caused.

Gluing or cementing the individual parts of the flame tube 3 is unnecessary, unless that special applications would make such a mutual fixation of the parts necessary.

Claims (9)

Patent attorneys Dr.-Ing. R. Rüger Dipl.-Ing. H. P. Barthelt reins. Representative at the European Pateritarnt European Patent Attorneys Webergasse 3 · Postfach 34Ö · D-7300Esshngen (Neckan December 27, 1984 Teie'on Stuttaa'i PA 36 rual «Fm35esj- ^ .: -.- ·? Tete * / JSn D7O S" f ^ Telegram Prtie'it> Ess ir * ι »- '' lerkjr claims 1. ) Ceramic flame tube for the jacketed radiant tube of an industrial burner, which consists at least partially of individual ceramic pipe pieces which are connected to one another in a form-fitting manner at the end and to which rib-like or cam-like spacer parts arranged on the outside are assigned for radial support against a jacket pipe surrounding the flame tube, characterized in that, that the thin-walled pipe sections (7, 7a) are each designed as a sleeve (8) at one end and are plugged into one another with play, see below, and that a ceramic cover ring (11) with play on the outside is placed on the flame tube (3) in the area of the socket connection points, which extends in the axial direction over a part (9) of the respective pipe section (7, 7a) and by which the associated sleeve (8) is at least partially covered. 2. Flame tube according to claim 1, characterized in that the cover ring (11) extends over in the axial direction the sleeve (8) also extends. 3. Flame tube according to claim 1 or 2, characterized in that the cover ring (11) on the flame tube (3) in Axial direction is positively fixed. 4. Flame tube according to claim 3, characterized in that each pipe section (7, 7a) on which the sleeve (8) facing away from the end of the cover ring (11) axially supporting ring shoulder (10) carries. 5. Flame tube according to one of the preceding claims, characterized in that the burner adjacent Pipe section (7a) with its socket-side End is attached to a ceramic burner mouthpiece (5) and that in the sleeve (8) of this pipe section (7a) a connecting ring (15) resting against the burner mouthpiece (5) is inserted with play. 6. Flame tube according to claim 5, characterized in that the connecting ring (15) on its outer peripheral surface Carrying spacers (16). 7. flame tube according to one of the preceding claims, characterized in that the cover rings (11) spacers (14) on their outer circumferential surface wear. 8. Flame tube according to claim 7, characterized in that on the terminal pipe section (7) a spacer (14) supporting cover ring (11) rotated by 180 ° Alignment is attached. 9. Flame tube according to one of the preceding claims, characterized in that the pipe sections (7,7a) consist of pure silicon carbide.