DE1969629U - SLIDING TRACK FOR ROLLING MILL PUSH FURNACES AND THE LIKE. - Google Patents

Description

Slideway for rolling mill pusher furnaces and the like. "

In the pusher furnaces, pusher furnaces etc. of the rolling mills, pipe mills etc. is the material to be heated in the form of blocks, slabs, Billets, blanks, etc. are transported while resting on slideways. In recent years, slideways have become increasingly common introduced, which consisted of a strand of joined blocks of ceramic refractory building materials. Despite the superiority these slideways compared to the older constructions (slideways made of water-cooled pipes, with or without insulation, possibly also with a support made of steel slabs, parts made of heat-resistant steels or of ceramic material) the ceramic Slideways lack, in particular the durability or service life leaves a lot to be desired, and there are also ceramic slideways also more prone to failure.

The present invention is concerned with the task that to remedy the deficiency adhering to the previous slideways made of ceramic blocks. The Xv is achieved by the fact that the block strand is supported by a steel construction and held in its position, this steel construction resting on a cooled pipe system without a fixed connection and a.uf practical is kept at the same temperature.

The slideway according to the invention thus consists of the parts Strand of ceramic blocks joined together; Steel construction. e.g. in double-T or H-Porm for

Carrying | and holding the Bl®eK; s | tranges; Pipe system, fcecooled, on which% Ä. Can be easily exchanged,

the vojp-egg-shaped steel construction with the block strand rests.

The accompanying drawings 1 ₉ 1a _s 2, 3 »4 and 5 provide an explanation of the invention. They illustrate some ^ specific forms of development «

Fig. 1 gives in vertical, Fig «. 1a in a horizontal longitudinal section * a rolling mill pusher furnace again »The material to be heated, eg steel blocks, is fed into the furnace at _a ₉ passes through the preheating zone j [, the heating zone jg and the equalization zone h, one after the other, and then leaves the furnace at _b. The forehead burners _c, the neck burners _d and the lower burners _e are arranged to heat the furnace. The latter heat the lower chamber jL. The sliding track m to be designed according to the invention extends approximately from the middle of the preheating zone jf to the end of the equalization zone h. “ In the area of the lower chamber j. is it carried by uprights or rests on them », the cross tubes that run from side wall to side wall» The uprights themselves consist of tubes that are protected from the furnace chamber by a heat-insulating protective layer and through which a coolant (water) flows «After the junction j, a steel grate or steel rails are attached to the slide * m, on which the material to be heated is placed.

Details of the design of the slideway according to the invention are shown in FIGS. 2 to 5. In these figures, r. and T _n denotes tubes through which a coolant flows. The refractory stone blocks joined together to form a string are marked with s_ «The steel channels that carry and hold the stone blocks consist of the horizontal floor and the two lateral boundaries _t. The latter are extended downwards by the parts 3t, through which the position of the channel on the pipes r. and r _{o is} secured »Below the pipes can be arranged a fine holding and load-bearing U-shaped base plate jjr, the main purpose of which is to carry the heat insulation _w, Me pipes can be arranged next to each other, as shown in Fig. 2 and 3« It is recommended here to attach spacing-securing crossbars between the pipes (see “Fig. 3). But it is also possible »cf. Fig. 4 and 5 to be arranged on top of each other! so according to Fig. 4 a total of 4 tubes _5, each lying in pairs one above the other or next to each other or - according to Fig. 5- 3 tubes, one

another pipe r below «two narrower bores r above. The lower —ο - ~

Pipes r each serve for the outward flow of the coolant, the pipes —o "

^ _r (above) the returns

An underlay can be arranged under the stone blocks _s_ which can consist of refractory mortar or a layer of asbestos or the like ",

It can be provided, which is not apparent from the Fig., To subdivide the block grooves by transverse walls, the z _e B "are arranged in the interval of 3 to 5 are block lengths to hold the block strand Efoch advantageous is the troughs in each case to make only 1.5 to 3 m long, i.e. to form the entire slideway from a corresponding number of shorter block channels. A bulkhead must be placed on one side of each gutter to hold the stone blocks. The block to be inserted into the channel at this point is expediently provided with a corresponding recess »- The individual channels can be through a

ρ easily detachable coupling to be connected to each other «An example Fig. 3 shows this. The coupling consists of an upper one

\, Hook _o at one end of the channel (on the bottom part j>) and lower hook _o at the other end of the steel channel. The individual slideway "parts are put together when they are inserted into the furnace ₉ so that, if necessary, several meters of the slideway connected at both ends of the slideway" can be pulled out and replaced from a hot furnace.

In addition to the illustrations, some additional information is provided. Coolants are provided! Water, steam or both «The way in which the pipes are arranged one above the other (cf. Figs. 4 and 5) is especially tailored to the use of pressurized steam. The steam exits the pulling end of the furnace into the tube or tubes lying down _r, eg, passes through the furnace over its entire length in the pipe _s occurs in the preheating _f in the or the overhead pipes r_ over and exits at the ■ " * Pulling _b of the oven * Nevertheless, the temperature differences of the

Between entry and exit can be quite considerable, ♦ these remain relatively low in the pipe above,

In the Ausführunsart to Figure "2 and 3 has the refrigerant in two adjacent tubes flow in parallel, z, B <entry into both tubes at the drawing end _b of the furnace exit in the preheating _f _e Of course, it is also möglichj several cooling circuits provide. For example, "Bo one circuit using steam for equalization" and a heating zone, another using water for the preheating zone and a third - also water - for uprights and cross tubes in the lower chamber.

The cooling has, as far as to reduce the temperature of the Stahlkontruktion substantially the purpose that its stability is ensured in any case _e ung A ceramic excessive Kühlwir & onto the blocks must be avoided. Therefore, if possible, work with higher coolant temperatures (steam) in the heating and smoothing zone of the furnace, which also means that steel with sufficient heat resistance is used for the steel structure. «This requirement also applies to all steel parts that have higher temperatures accept or be able to accept, e.g. "B", the senses for the stone blocks.

For the ceramic refractory blocks of the slideways, it should be noted that their thickness should be selected so that the temperature of the surface may not be more than 200 C below the temperature of the material being heated. the maximum temperature of the material to be heated in the equalization zone is 1300 C, the surface temperature of the slideway blocks should be between 1100 C and 1300 C. For the appropriate setting, the type of coolant, its temperature and flow rate must also be taken into account. Any arrangement may be mounted a heat insulating intermediate layer ₀ as a guide may be mentioned that in the slide-design according to Figure "2 using a Mörtelsehicht u of 5 now strength and a block of korundreichem material having a porosity of 16 fo at 120 mm thickness of the stone block resulted

Coolant steam from 35Ο - 4OO ⁰ C = up to 40 atü, temperature of the steel heating material 13ΟΟ ⁰ C,

Temperature of the stone block surface 1200 ° C ₀

■ = 5 «·

The Impact / Ser novel slideway design are quite significant. The fact that ₉ the fireproof ceramic blocks do not have to be embedded in stove masonry (the current method), rather are supported by a steel structure and supported the slides remain from all movements of the furnace brickwork untouched and therefore always horizontally and vertically "That means in the same position by itself a significant reduction in mechanical wear and tear ο In addition, the benches previously required can be dispensed with. Apart from the fact that the previous benches were always very susceptible to failure, they also meant a division of the lower chamber into several separate longitudinal channels, which could only be operated with difficulty in terms of temperature. "This had a negative effect on the quality of the rolled stock are therefore resolved with the invention "

Further; Destruction of the ceramic blocks can be caused by abrupt changes in temperature, by shock and impact, by friction, possibly with the simultaneous action of liquid slag. In all these points the invention creates significant improvements. Above all, it is important that damage to individual refractory blocks that has occurred over and over again, which forced the furnace to shutdown, cool down and repair in the furnace itself, is now practically ineffective vertical direction and the pieces fell down. «A severely weakened point developed in the slideway, which quickly developed into a pothole. This sideways dropping is # now switched off; and the cleavage products can still exert before their puncture "~ wear by friction contact to the observations made in particular in the preheating zone on the one hand, the soaking zone on the other hand, d 'h _# in the Uähe from both furnace ends" -, since the slide according to the invention works with a cooling system for the steel structure, it is possible to pull the side parts _t of the holding channels so high for the particularly endangered parts of the slideway in the preheating zone - cf. also Fig, 3 -? that these carry with the heat material, if a certain wear of the ceramic

Blocks has entered »This has the effect that at higher temperatures it is primarily the stone block that bears and is stressed, while this part of the furnace becomes cold when it gets cold
the load-bearing effect of the steel edging becomes effective _e - The increased wear and tear of the ceramic blocks in the compensation zone is prevented by the fact that the blocks are cooled as a result of the
Steel structure must always be kept at a temperature below the temperature of the material being heated »Any liquid slag that occurs will therefore freeze on the surface of the ceramic blocks. - In addition, the innovative design of the slideways has made it possible to attach parts of the slideways to the particularly stressed furnace parts - ie
at both ends - to be exchanged quickly »This can be done without letting the oven cool down, for example during a somewhat longer break in operation, for example during an outage shift or at the weekend,

Taken as a whole, the new type of slide for pusher furnaces ₉ pusher furnaces and the like means a significant improvement in the ceramic rail.

Claims (1)

* 1 * 11 1 Wed - γ claim 1.) from chilled pipe system of this worn steel construction and arranged on this slide rails "existing slideway for mill-pusher furnaces and the like, characterized _s that the ßleitschienen of a per se" of joined known strand blocks of refractory ceramic material "consist of a steel structure with an H-shaped cross-section and preferably the pipe system consists of pipes lying one above the other or one next to the other. 2o) Slideway according to claim 1.) characterized in that the steel parts, in particular the cooled pipe system, are provided with a heat protective jacket in a manner known per se. 5e) Slideway according to claim 1 ») and 2 _e ) characterized in that the pipe system consists of pipes lying one above the other or next to one another«, Be 4 x) slideway according to claim 1) to 3 ") characterized in that the steel-support structure from replaceable part" pieces of z _e B, consist 1.5 to 3 m length, possibly _e connected together by a releasable coupling be able. 5 ·) Slideway according to claim 1 _e ) to 4 «>), characterized in that the thickness of the refractory blocks is such that the temperature of the block surface is at most 200 C below the temperature of the material to be heated, with heat- insulating intermediate layers can be used with * ■ «