DE947921C - Cooling pipe wall for radiant steam generator - Google Patents

Description

Cooling tube wall for radiant steam generator The invention relates to a Cooling pipe wall for radiant steam generators, in which the pipes are placed on the furnace The side facing away is provided with an insulating layer and covered with a tight plate are. It consists in that the space between the pipes with a refractory Mass is filled, which is followed by a layer of Kleselgur, which with a Expanded metal plate is covered on which an insulating layer, preferably white Magnesia is applied under the insert of crossed support strips, the expanded metal plate of support bolts welded to the cooling pipes by means of spaced apart Holding washers is held, and that the whole thing including the support bolt ends is covered to the outside by a layer consisting of cement with asbestos fiber.

Cooling pipe walls, which form the closure of a combustion chamber and on the side facing away from the fire are known to wear multilayered insulation. The attachment of these 'layers, however, creates certain difficulties. Loosely filled Insulating compound collapses and releases larger cavities; pre-installed panels tear easily due to thermal expansion. For pressure-tight walls a closed metal cladding can be provided.

As a good stiffener, which is elastic at the same time, has Expanded metal or wire mesh proved. Also the deposits of each other crossing Stripes from sheet metal or the like leads to an improved distribution of forces and transfer of this Forces on the fastening points. For fastening are used on the pipes' welded '' Screw bolts. With the help of mounting washers screwed onto it the supporting frame can be securely fastened at any distance. A well-known one Asbestos-fiber-cement smooth streak allows the outside to be designed permanently.

It is a cooling pipe wall is known in which dex space between the Pipes are filled with refractory mass and a sheet metal jacket with spacers is laid, between which and the refractory mass magnesia is poured. Even it is known, this sheet metal jacket by means of screw bolts attached to the pipes to hold by wedging between screw nuts with washers. These The type of attachment, however, requires a temporary mounting bracket. which must wear until the insulating compound is filled. On the other hand, according to of the invention, the support bolts equally firmly attached, so that elfe on Mantagebeh can largely be dispensed with. Therefore, the invention also allows multiple layers of insulation to be placed on top of each other in any thickness.

If sheet metal walls are used for sealing purposes, they had to be known Way, the pre-drilled metal sheets. On the fastened bolts pushed on or with loose bolts are clamped. Both methods require a lot of adjustment work. According to the invention, this adjustment belt is saved by the metal sheet with the Pipes is welded to the support bolts.

The drawing represents the subject matter of the invention in one embodiment Fig. i shows the cooling tube wall seen from the outside in the room image, Fig. z the cooling pipe wall in cross section, Fig. 3 the bolt fastening on a larger scale, Fig.q. the device for carrying out the contact welding.

The cooling pipe wall consists of pipes i, which differs, laid close together are. On the side facing away from the fire you have a sheet metal plate z, which . Can also be adapted to the curvatures of the pipes in the wall. To the tubes i are Support bolt 3, welded on. If these were only attached to the tubes i would have to the sheet metal plate 2 can be adapted, since a predetermined hole division is not can be adhered to exactly.

According to the invention, therefore, the bolt 3 winds with the tube i the sheet metal plate a welded through. To do this, the bolt i is loosely in the claw q. a welding gun 5 inserted. This gun is with one pole connected to a `welding machine, while the other pole lies in the pipes i. The trigger 7 is used to operate the switch. The pistol 5 is with three The pushbuttons are arranged in the equilateral triangle and equidistant from the central axis 6 equipped, Zvelche, each axially, are displaceable in a guide and through a spring can be pushed forward. The pushbuttons 6. Are used for the alignment and vertical Guiding the stud during the welding process.

When the pistol 5 is pressed against the sheet metal, the Push button 6 back until the bolt 3 is in contact. Is now done by pulling the trigger 7 the 'current connection established, @ so would result in a spot weld, which is, however, imperfect would be because of the low welding pressure. Therefore without: power interruption the pistol withdrawn a little. The bolt 3 moves away from the plate z and draws; an arc that melts the sheet a at the point of impact. As soon the material is liquid, the gun is pressed down again and after a short time the power interrupted. A fusion weld was then created with one Cross-section larger than that of the bolt. After opening the claw ¢, the Pistol 5 lifted and after inserting a new bolt at the next position scheduled.

A refractory is located between the tubes i and the sheet a Mass that is applied before the sheet is placed. The tubes i can each also laid in a known way with a larger pipe division and to the fire side to be provided with welded pins, between which a refractory mass is lubricated. With larger cooling pipe walls, the cladding must consist of several Metal sheets are assembled. These are attached in the manner described and then welded to one another at the joints or overlaps. Discarded If the sheet changes a bit, it is irrelevant.

On the sheet metal wall z his' layer 8 of Ki; eselgurmasse is applied, which is held by a wall made of expanded metal g. The expanded metal is then held in place by holding washers screwed onto the bolts 3. This is followed by an insulating layer ii, which predominantly contains magnesia, with the inlay of supporting strips 12 that cross one another. This layer i i is also held by retaining washers 13 . The final layer is a smooth line made of cement with asbestos fibers, which covers the ends of the support bolts 3 and is to be understood as having channel-shaped incisions 1 5 , which right up to the support strips 12 that are regularly distributed. This division prevents the occurrence of cracks caused by the different coefficients of thermal expansion of the individual. Layers can be caused with a continuous surface. In addition, the subdivision gives the outer surface a cuboid appearance.

The measure described makes it possible to achieve a completely pressure-tight To create cooling pipe wall that is lighter than masonry and supported by the pipes will.

Claims (9)

PATENT CLAIMS: i. Cooling pipe wall for radiation steam generation, at which the pipes .on their side facing away from the fire, with an insulating layer provided and covered with a dense plate, characterized, that the The space between the pipes is filled with a refractory mass is, which is followed by a layer of kieselguhr (8), which is covered with an expanded metal plate (9) is covered, on which an insulating layer (i i), preferably made of magnesia, with the inlay of crossed support strips (12), the 'expanded metal plate (9) of support bolts (3) welded to the cooling pipes by means of a distance from one another arranged retaining disks (io) is held, and that the whole thing under inclusion of the bearing pin ends outwards from one made of cement with asbestos fiber Layer is covered. 2. cooling pipe wall according to claim i with a pressure-resistant metal cladding, characterized in that the sheet metal cladding (2) supports the cooling pipes (i). on the side facing away from the fire and with the to the cooling pipes (i) welded support bolt (3) of the insulation is welded. 3. Cooling pipe wall after Claim 2, characterized in that the metal sheets (2) at the edges with one another are welded. ¢. A method for producing a compound according to claim 3, characterized in that the metal sheets are fastened beforehand according to claim 2. Cooling pipe wall according to claim i, characterized in that the asbestos cement leaches (14) is divided by furrows (15) of triangular cross-section, which above of the support strips (12) welded to the expanded metal (9). 6. Cooling pipe wall according to claim i, characterized in that the holding sockets (i o) on the Support bolts (13) are screwed on. Cooling pipe wall according to claim i, characterized in that that between the cooling pipes (i) provided with support bolts (3) one or more pipes (i) lie without support bolts. B. Cooling pipe wall according to claim i, characterized in that that the retaining disks (i9) are attached in pairs and several superimposed Hold layers of malleable fabric, each layer being a metal mesh or crossed Includes metal strip. 9. A method for producing a compound according to claim 2 by electrical welding, characterized in that the support bolt (3) as one pole with the interposition of the metal sheet (2) on the tube (i) than the other Pole is pressed. ok Method according to claim 9, characterized in that the Support bolt (3) lifted off after contact to generate an arc is and is only pressed again when the material of the sheet metal (2) to begins to flow. i i. Apparatus for carrying out the method according to the claims 9 and i o, characterized by a welding gun (5) with a spring-loaded three-point support (6) and the current circuit to be triggered by the trigger (7). Considered publications: U.S. Patent No. 2223215; German patent specification No. 503 189.