DE2333695A1 - INSULATION PIECE - Google Patents

Description

Applicant: Urquhart Engineering Company, Limited, Greenford, Middlesex (UK) and

Bloom Engineering Co. Inc., Pittsburgh, Pennsylv., (USA)

Isolier3stück

The invention relates to an insulating piece for high temperature insulation Clay components, which are arranged inside furnace rooms at high temperatures. She refers preferentially on water-cooled pipes in supporting frames, which hold workpieces for treatment in heat treatment ovens.

Such a supporting framework within a furnace chamber prevail in the temperatures on the order of 1100 ⁰ C must be compact to release a sufficient internal space in the chamber, and also have such a stability that heavy metal pieces during the nimbly «lung supported in the heating furnace can be. Such a support frame must also be protected against the attack of the high temperature in the furnace without it at the same time adversely affecting the efficiency and the maximum temperature of the furnace. It must also be strong enough to withstand the stresses and violent vibrations caused by the movement of the heavy workpieces within the chamber.

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A combination of small dimensions and high strength dictates the use of in such support frames Metal in front, and the need to cool the metal calls for tubular hollow components through which cooling water is passed through.

However, if water-cooled pipes with unprotected outer surfaces are used, such heat absorption results through the pipe material in the cooling water that more fuel to heat the cooling water than to heat the Workpieces is consumed. For example, a furnace heated from below with unprotected metal supports requires in its lower zone about three times as much fuel for heating this lower zone of the furnace as for the upper one Zone of the same furnace is required. Regardless of how much fuel is added, the lower zone remains always significantly colder than the upper zone.

In an attempt to improve these conditions, refractory insulation material has already been provided directly to be used on the water-cooled pipes of the supporting structure. However, this approach has not proven to be very useful proven because the refractory, heat-resistant material breaks in use. The main reason for this lies in the different thermal expansion of the inner and outer layers of the refractory material and also the difference between the thermal expansion properties of the refractory material and the metal pipe that is included will. The movement of such supporting frames according to the movement of the heavy workpieces within the

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Heating chamber also contributes significantly to breaking off and the refractory material falls off, especially after cracks have already occurred.

It therefore appears expedient to design the insulation in such a way that if the heat-resistant material breaks occurs, the further movement of the pipe does not completely break out and fall off of the heat-resistant Material can occur. It is therefore previously described, for example, in US Pat. No. 2,693,352, for this purpose in the heat-resistant material to embed a mesh-like metal framework · Such a wire structure contains interlocking Wire turns which are parallel to each other and to the pipe axis. These act as reinforcement and support for the heat-resistant material. They hold this material together and in place on the perimeter of the pipeline, thereby creating the thermal insulation is maintained even if damage to the refractory material occurs.

To facilitate the attachment of such insulation to. Pipelines are usually made of two types of insulation or several prefabricated segments which are connected to one another at the circumference of the pipeline. So there is For example, a two-part insulation from a prefabricated, hollow semi-cylindrical section heat-resistant material in which a wire frame is embedded. Parts of the wire protrude from the heat-resistant material, so that the protruding wire parts after attaching the section to the pipe at its opposite

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But lying sides are »The protruding parts of the wire are welded to the drill and a similar insulating piece is subsequently against the upper part of the pipe. Each of the two sections extends over a circumferential area of the bore of approximately 180 °, with a gap occurring between the refractory material of the sections on each side of the drill. It Wire pegs or rods are then inserted in the axial direction into the column and pushed through the protruding wire loop parts, and thereby the two Pieces held together. Finally, the insulation is completed in that a plastic, heat-resistant material is poured into the gap, so that these are thereby closed.

Subsequent sections are then each end joined together until the required length of the drilling pipe to be insulated is reached.

Although the type of isolation described above can provide beneficial results, it has been found that in one Such insulation has certain areas of potential weakness · Because the high temperature around the furnace is generally well above the temperature which the wires can withstand, it appears necessary that these wires are both deeply embedded in the heat-resistant material and are also kept below their fault temperature by converting them into highly thermally conductive ones Connection with the pipeline through which the

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Coolant flows through it. Wire faults are most likely to occur in the gaps, which when the insulation is attached with plastic, 'heat-resistant material be filled out, and the securing wire pin or wire rod is also in the columns, so that any error of the filling material affects the connection between the sections and the stability of the sections themselves. In order to avoid breakdown of the insulation, it is necessary that the wire and the tenons or rods are permanently shielded from the effects of flames and heat radiation in a corresponding manner. However, it is not always easy to ensure during installation that the gaps are completely filled with the plastic, heat-resistant material and that no empty spaces develop.

The present invention is based on the object of specifying an improved pipe insulation, which the above avoids designated disadvantages.

It has further been found that the time required for the welding and for the pin mounting in such insulations so significantly that this tent requirement limits the amount of insulation, dit can be mounted during the sometimes short time periods in which the furnaces are switched off for repair can.

Another object of the present invention is therefore the creation of an improved insulation, which can be welded to the drill faster than before *

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To solve this problem it is provided according to the invention that at least one metal rod in the heat-resistant material is embedded, which has a plurality of spaced apart portions, the are completely embedded in the heat-resistant material and connected to the reinforcement frame, and that one A plurality of other sections is provided, which are opposite the fully embedded sections in the direction to the pipe surface protrude that the insulating body has a plurality of recesses, each of these Recesses releases a corresponding, protruding section of the metal rod, which in a welded connection can be connected to the underlying pipe for anchoring the insulating piece.

Some preferred embodiments of the invention which result in further features of the invention are considered explanatory Example shown in the attached drawings; show it:

Figure 1 is an isometric view of an insulating piece according to the invention,

Figure 2 'is a side view of an in an insulating piece according to Figure 1 enclosed metal rod "

Figure 3 is a plan view of a rod according to Figure 2,

Figure 4 is a side view of two insulating pieces

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according to Figure 1 attached to a water-cooled pipe in a heat treatment furnace are scheduled,

Figure 5 shows a cross section along the line V-V in Figure 4, and

Figure 6 is an isometric view of an alternative embodiment of the insulating piece according to the invention, which is attached to a furnace duct, which has a support runner having.

With reference to the drawings, an insulating piece 6 is shown in Fig. 1 as an embodiment of the invention. That The insulating piece 6 is designed in the form of a hollow half cylinder and contains a cast insulating body 7 a heat-resistant or fireproof insulating material, into which a net-like, metallic reinforcement frame is completely is embedded. Such a reinforcement framework can be formed in various forms, and in the present case Trap, a Brahtsieb support insert is shown, which consists of a plurality of wire windings 10 intermeshing. The wire-shaped reinforcement framework is only partially visible in the drawing, and there are essentially only the wire windings or loops 10 in the Area of the embedded longitudinal edges of the reinforcement framework shown.

A metal wire or a metal rod 2 is partially embedded in the heat-resistant material of the insulating body 7.

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embeds, namely in the area of the two longitudinal edges 8 of the insulating piece 6. The rod 2 is by bending or by Another forming process formed it to have the shape shown in FIGS. she shows in the longitudinal direction in sections of its length a plurality of juxtaposed sections 4, which alternate with a plurality of sections 5 bent in the radial direction in a meandering manner. The length of each rod corresponds essentially to the length of the insulating piece 6. The sections 4 of the rod 2 are with the net-like, metallic Reinforcement frame connected in that they are pushed through the wire windings 10 before the Heat-resistant material is poured around the metal reinforcement frame in a casting mold (not shown in the drawing!) will. During the casting process, the majority of the bent sections 5 are through the use of suitable core pieces left free in the form that prevents these sections from being embedded by the heat-resistant material, so that the finished cast insulating piece 6 has a plurality of spaced recesses 12 in its wall, which extend from the radially outer surface 16 to the radially inner surface 14, with inside each recess 12 a portion 5 of the rod 2 is exposed. The recesses 12 are on the two longitudinal edges 8 of the Insulating piece 6 is provided and distributed so evenly in the longitudinal direction of these edges of the insulating piece that each Recess 12 in one edge 8 corresponds to another recess in the opposite other edge 8. Each recess 12 leaves a bent portion 5 of the metal rod 2 free, which is substantially with the radial

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inner surface 14 of the insulating piece 6 is aligned. the intermediate parts of the stem, including the Part pieces 4 are generally heat-resistant material of the insulating body 7 completely embedded. The wall surface everyone Recess 12 is in radial seal - starting from τοη inner surface 14 - expanded so that the cross-sectional area of the recess 12 at the radially inner The surface 14 of the insulating piece 6 is larger than on the radially outer surface 16.

Figures 4 and 5 explain how two similar insulating pieces 6 and 6 ', corresponding to that shown in FIG placed on the outer surface of a furnace pipe 18 to protect this pipe against the effects of furnace heat to protect. Sntipreohende recesses 12 and 12 'of the two insulating pieces 6, 6 * are arranged adjacent to each other and form a Sohweißausschnitt, the details can be seen in FIG. 5. When working in this welding recess, the exposed bent parts are 5 and 5 'of rods 2 and 2 * with the one below Pipe surface re-welded Then the welding recess filled with a plastic, heat-resistant material in order to protect the welds against a damaging influence in a boom temperature environment. The insulating pieces 6 and 6 'are preferably sized so that a gate narrow axial gap 19 to compensate for τοη irregularities of the pipe T remains.

The insulating pieces made of heat-resistant material 6.6 * have a number τοη Yoxv in the specified type

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parts compared to the previously known, preformed insulating ■ pieces · The insulating pieces can be expanded Range of environmental conditions, and their use is not limited to protecting horizontal pipelines as they are in in the same way applicable to risers and crossing pipes. Warehousing is simplified, because all insulating pieces of a corresponding pipe size are the same, so that no related sets are required, since every insulating piece is the same as every other or similar insulating piece can be used together · Installation is simplified and accelerated with favorable results. A bent section 5,5 'of the rods of each insulating piece 6,6 * lies in the individual Weld recess free, which through the aligned Recesses 12,12 * is formed, and whereby the rods of the two insulating pieces 6,6 * can be welded to the pipe without the welder having to change his position. This effectively increases the installation length possible per unit of time.

The rods 2 are preferably thicker than the wire of the reinforcement frame with the wire windings 10 and this facilitates welding and reduces the risk of burn-out · Longer welding points are also possible on the rods than on the wire screen support insert, so that the fastening is safer and more resistant to shock loads. The weld can also Checked during manufacture and use

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mm If mm

the recesses 12 with increasing cross-section not only exposes a greater length of the rods for welding than this would be the case with a recess with parallel recess surfaces, but favors easy access to the Weld side for both welding and inspection · Such a training is also effective to holding the refractory material in place, and this is an important factor in extending the service life the insulation, because it prevents loss of the filler material, which exposes the welds to the high temperature furnace environment and damages them within a short period of time would·

The rods 2 also act as part of the reinforcement of the cast insulating body 7, both by its partial embedding in this and by the mechanical Connection of the embedded sections with the wire windings 10, which is a significant improvement in the total load capacity and load capacity results.

The water-cooled tubes in a furnace that carry the work pieces being treated are usually with a Provided support runner, guard is connected to the upper outer surface of the drill and carries the workpieces. An embodiment of one made of refractory material Insulating piece for use in such a pipe with a support runner, which also has the advantages of the embodiment according to the invention mentioned above, is shown in Figure 6 of the drawings.

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As shown in Figure 6, a water-cooled pipe 20 is provided with a support runner 22 which extends in the longitudinal direction over the length of the pipe. The presence of this support runner 22 and the proximity of the workpieces which are moved along this support runner 22 require that the insulation on the pipe can only extend over approximately two thirds of the pipe circumference. The insulating piece 26 made of heat-resistant insulating material in this embodiment therefore comprises two one-piece parts 26 * and 26 "which are connected to one another via ^{a bottom pivot pin 28. Each part 26 'and 26 M} has a longitudinal edge 8, which has a plurality of recesses 12 spaced apart in which bent sections 5 of the metal rod 2 are exposed, as has already been explained in connection with Figures 1 to 5. The insulating piece 26 is placed around the bottom pivot pin 28 while opening by pivoting the preformed one-piece parts 26 "and 26", the insulating piece is then fixed by pivoting back the parts 26 * and 26 "on the circumference of the tube 20. Each bent section 5 of the rods 2, which is embedded in the parts 26 ¹ and 26", is then connected to the tube 20 in the area of a corresponding one Side of the support runner 22 is welded. Then a plastic, heat-resistant material is bricked up over the welds exposed in the recesses 12 and in the pivot bearing, whereby the installation is completed.

It can be pointed out that the invention is not limited to the specific exemplary embodiments,

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but can also be implemented in other embodiments can. For example, it can be useful instead of two insulating pieces 6 in the form of a hollow half-cylinder of the type described to choose a smaller circumferential area of the extension, for example three hollow third cylinders, which cover the full circumference of a pipe

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Claims (10)

Expectations 1. Refractory insulating piece for the outer cladding of elongated pipes in a heat treatment furnace, especially for water-cooled pipes in supporting frames that transport workpieces in the furnace space, with an insulating body made of heat-resistant material in which a metallic, net-like reinforcement frame is completely embedded, characterized in that at least a metal rod (2) is embedded in the refractory material, which has a plurality of spaced-apart sections (4) which are completely embedded in the refractory material and connected to the reinforcement frame (10,1O ¹ ), and that a plurality is provided by other sections (5,5 ^f ) which protrude from the completely embedded sections (4) in the direction of the pipe surface, that the insulating body (7) has a plurality of recesses (12,12 ·), each of these recesses a corresponding, protruding section (5.5 *) of the met releases all rod (2) which can be connected in a welded connection to the pipe below for anchoring the insulating piece (6,6 *; 26). 2. Refractory insulating piece according to claim 1, characterized in that the 309884/1112 Insulating body (7) has the shape of part of a hollow cylinder 3. Refractory insulating piece according to claim 1 or 2, characterized in that the net-like, metallic reinforcement frame has wire windings (10,1O ¹ ) and that the completely embedded sections (5,5 ') are connected to the net-like, metallic reinforcement frame in that they reach through the wire windings (10.1O ¹ ) 4. Refractory insulating piece according to claims 1, 2 or 3, characterized in that the metal rod (2) is thicker than the wires forming ^{the wire windings (10,1O 1).} 5. Refractory insulating piece according to one of claims 1 up to 4, characterized in that the recesses (12, 12 *) lying at a distance . are arranged at least along one longitudinal edge (8) of the insulating piece (6,6 *; 26) 6. Fireproof insulating piece according to claim 5, characterized in that the recesses (12, 12) in the insulating piece (6, 6 ^f ; 26) are arranged at regular longitudinal intervals. 7. Refractory insulating piece according to claims 5 or 6, -16- 30988A / 1112 characterized in that the wall surfaces of the recesses (12, 12 ·) in the direction diverge on the surface of the pipe to be encased 8. Refractory insulating piece according to one of the claims 1 to 7f, characterized in that the insulating piece for use in a pipe with a support runner (22) is designed in such a way that it consists of two pivotably connected, one-piece parts (26 », 26 ^W ) that each of these parts has a longitudinal channel (8 ), which is provided with a plurality of spaced recesses and exposed, protruding portions (4) of the rod for welding to the tube (20) on corresponding sides of the support runner (22). 9. Refractory insulating piece according to claim 1, characterized in that the metal rod (2) has a meandering course, and that the completely embedded sections (5) are longer than the other sections (4) protruding from the recesses (12, 12) ). 10. Refractory insulating piece according to one of claims 1 to 9, characterized in that that the recesses (12, 12 ') are essentially shaped in the form of a truncated cone divided in half lengthways are. 309884/111?