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EP 0 035 865 B1 |
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EUROPEAN PATENT SPECIFICATION |
(45) |
Mention of the grant of the patent: |
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21.11.1984 Bulletin 1984/47 |
(22) |
Date of filing: 04.03.1981 |
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(51) |
International Patent Classification (IPC)3: F27B 9/14 |
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(54) |
Vertical-shaft type kiln provided with means for transporting goods therethrough
Vertikalschachtofen mit Transportvorrichtungen für brennendes Gut
Four à cuve vertical muni de moyens pour transporter les articles
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Designated Contracting States: |
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AT BE CH DE FR IT LI NL SE |
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Priority: |
08.03.1980 GB 8008083
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(43) |
Date of publication of application: |
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16.09.1981 Bulletin 1981/37 |
(71) |
Applicant: Shelley, Donald Percy |
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Stone
Staffordshire (GB) |
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(72) |
Inventor: |
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- Shelley, Donald Percy
Stone
Staffordshire (GB)
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(74) |
Representative: Campbell, Iain Angus et al |
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Swindell & Pearson
48 Friar Gate Derby DE1 1GY Derby DE1 1GY (GB) |
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] The invention concerns improvements in or relating to kilns, particularly but not
exclusively kilns for firing ceramic materials. The invention may apply also to kilns
for the heat treatment of metal products and products of other materials.
[0002] Kilns are known in which the goods to be heat treated are lowered down a vertical
shaft which is provided from the top in descending order with a pre-heating, a heating
and a precooling zone. Heating and cooling means are provided in the shaft as well
as means for transporting goods to be heat treated down the shaft. An arrangement
of this type has been disclosed in Belgian Patent No. 530725.
[0003] An arrangement of this nature has suffered from several disadvantages leading to
a relatively low thermal efficiency.
[0004] It is an object of the present invention to provide a kiln which is thermodynamically
more efficient than prior kilns.
[0005] According to the present invention there is provided a kiln comprising a substantially
vertical shaft, transport means for supporting goods to be heat treated in the shaft
and for moving the goods from the top to the bottom of the shaft, means for introducing
air at or near the base of the shaft and heating means intermediate the top and base
of the shaft, characterised in that the transport means include supports and pallets
or bats adapted to be removably mounted on said supports and in that gaps are provided
between the shaft walls and the opposite sides of alternate pallets or bats so that
gases rising through the kiln are directed to pass substantially horizontally over
the goods thereon with the gas passing over one bat moving in a direction opposite
to that passing over the neighbouring bats.
[0006] Further according to the present invention there is provided a method of heating
goods comprising placing goods at the top of the substantially vertical shaft, lowering
the goods down the shaft, heating the shaft intermediate its ends and introducing
air at or adjacent its base such that as the goods are lowered they are progressively
heated until they reach a maximum temperature at said heating zone and are progressively
cooled as they progress towards the base of the shaft, characterised in that the air
is caused to flow in a simuous manner up the shaft such that it passes over the goods
in a direction substantially transverse to the shaft axis.
[0007] An embodiment of the present invention will now be described by way of example only
with reference to the accompanying drawings, in which:-
Fig. 1 is a horizontal cross-section through a kiln; and
Fig. 2 is a partial vertical cross-section taken on the line II-II of Fig. 1.
[0008] A vertical kiln comprises a framework incorporating four corner frame members 10
which support therebetween kiln wall panels 12 each having a base plate 14, a refractory
and/or ceramic fibre insulation intermediate portion 16, and an inner refractory layer
18. Supports 20, two for each panel, are cantilevered out from the base plate 14 and
project beyond the front face of the refractory layer 18 into the shaft 22 of the
kiln.
[0009] A mechanism, not shown, is provided to move the panels either transversely of the
shaft axis or vertically. In Fig. 1 the panels are shown in their innermost position
and it should be observed that in this position a gap 24 is provided between the right
hand panel 12 and the right hand edge of a pallet or bat 26 supported on the supports
20. The gap provides a passage for gases for the underside of the bat to the upper
side on which ware 27 is supported.
[0010] On operation of the panel moving mechanism the panels 12 and their supports 20 are
lowered down the shaft until the bat 26 is supported on the next lower set of supports
20. The first set of supports then move transversely away from the shaft axis such
that they can be raised to their initial level without fouling the edges of the bat.
Once at this initial level the mechanism moves them transversely inwards ready to
receive another bat 26 from the set of supports above.
[0011] The corner frame members 10 of the kiln have a stepped cross-section and the sides
of the panels 12 have a corresponding stepped cross-section to provide a convection
and radiation seal.
[0012] To complete the seal the base plate 14 is provided with a flange 28 at each end thereof
the flange incorporating a channel 30 in which is mounted a-sealing strip 32 of a
hard smooth low friction material such as fused aluminia or carbon, the strip 32 being
spring loaded in such a way that it is urged out of the channel into contact with
a flange 34 supported by the frame member 10. It will be realised that the seal strip
32 provides a relatively gas-tight seal between the movable panels 12 and the fixed
frame member 10.
[0013] Fig. 2 shows that the panels 12 are so arranged that the gas passage 24 defined by
one panel is arranged on the opposite side of the kiln from the passage 24 defined
by the corresponding panel of the set of panels above or below said panel. With such
an arrangement gas flowing upwards through the shaft is caused to pass in a relatively
horizontal direction over the ware 27 on the bats 26, then upwards to the upper surface
of the next bat, along this bat and then upwards at the opposite end thereof.
[0014] At the base of the shaft 22 (not shown) means are provided for introducing cold or
preheated air into the kiln and means are provided also for supplying bats 26 supporting
ware 27 to the top of the kiln. Heating means which may be electric elements or gas
or oil burners are provided intermediate the base and top of the kiln and the mechanism
for causing movement of the panels is so arranged that it progresses the bats 26 supporting
ware 27 downwards through the kiln.
[0015] Thus, in operation, cold air is induced to rise up from the base of the kiln in the
opposite direction to the movement of goods down the kiln so that the temperature
of the air is increased as it rises upwards cooling the goods. When the rising air
reaches or is near to the peak temperature of the kiln it is heated by the heating
means to a temperature above the desired maximum temperature of the goods and heated
gases then pass up the kiln giving off heat to the incoming goods passing downwards
so that when the gases reach the top of the kiln the major part of the combustion
heat has been transferred to the downward moving goods. The temperature of the hot
air leaving the kiln will typically be about 150° to 250°C and of the goods leaving
the kiln about 150° to 200°C. If the peak temperature is 1200°C then some 80% of the
heat in the goods is recouperated into the system. Similarly some 80% of the heat
in the gases at peak temperature is recouperated. Of course it is possible to pre-heat
goods and/or the air before they are reintroduced into the kiln.
[0016] Means, for example an orifice, at the top and/or base of the kiln may be provided
to control the flow of air therethrough, the orifice may be adjustable and may be
automatically controlled.
[0017] It will be realised that the mechanism for controlling the movement of the panels
will cause intermittent movement of the panels but it can be so regulated that it
causes continuous movement thereof downwards through the kiln.
[0018] In the embodiment described above only one point of cold air admission and one point
of heat introduction is described but cold air or heat can be added in any zone of
the kiln to vary the shape of the firing cycle of the goods passing therethrough.
Similarly hot gases may be removed at any point. The temperature of the peak zone
or zones may be controlled using conventional controlling technniques to regulate
the flow of fuel to the burners or electricity to the heating elements. Thermodynamic
analysis shows that less than the stoichiometric quantity of gases is required so
that the atmosphere is normally oxidizing. A small quantity of cold air may be required
to be admitted at the burners along with fuel to improve the quality of combustion
or to prevent "cracking" of the fuel and subsequent carbon build up on the burners
but this air is not required for thermodynamic reasons. If a reducing atmosphere is
required inside the kiln it can be obtained economically by introducing some of the
gases leaving the kiln back into the base of the kiln as cooling gas so that when
it supports combustion in the firing zone a reducing atmosphere is produced.
[0019] A normal type of heating and cooling cycle is obtained when the thernal content of
the rising air is similar to the thermal mass per unit time of the bats or pallets
and loads. An excessive flow of air modifies the heating curve to give quicker earlier
heating and slower heating as the peak temperature is approached; cooling is similarly
modified to give fast early cooling and slower cooling towards the bottom of the kiln.
An insufficient flow of air gives the opposite effect.
[0020] The kiln may be loaded at the top manually and unloaded manually at the bottom but
this is expensive in labour as well as being heavy and awkward work and the mechanical
handling means for loading and unloading may be provided, the means including, for
example, a vertical storage magazine (not shown).
[0021] The bats or pallets for supporting the ware may be of conventional refractory form
being made in one piece and the thermal diffusivity of the bat is suitable for cycles
in the order of 4 to 12 hours through the kiln with a temperature difference between
the adjacent zones of approximately 150°C. Kilns with very slow cycles or kilns with
large temperature differences between adjacent zones may benefit by the use of composite
bats containing one or more layer of high temperature insulation such as ceramic fibre
together with layers of refractory bat material to cut down interzone heat transfer
by conduction through the bats and to reduce thermal stresses in the bats.
[0022] Various modifications can be made without departing from the scope of the invention.
For example a kiln may contain two or more stocks of bats built in one shaft or it
may include more than one shaft each including one or more stacks.
[0023] The means for transporting the pallets or bats down the kiln may be modified, for
example in a low total height kiln or a kiln with a light load or working at low temperatures
where the bats retain most of their strength at peak temperature the bats may be supported
directly on each other by conventional props or posts so that all the weight is transmitted
downwards to the bottom bat. To transport the stack of bats through the kiln a simple
lowering mechanism engageable with the bat next to the bottom bat is provided. On
operation this engages the bat next from bottom and lifts the stack of bats away from
the bottom bat such that it can be removed, the mechanism then lowering the remainder
of the stack and retreating such that it may be moved for subsequent operation on
the new next from bottom bat. A fresh bat may then be placed on the top of the stack.
[0024] In a further modification operating on a principle similar to the principle described
above with reference to Figs. 1 and 2 the supports 20 may be retractable members projecting
through apertures in the insulating panels. In this modification supports are provided
in one pair of opposed walls only and are arranged in each wall in groups of four.
The panel sections supporting the inner two supports of the four are vertically moveable.
[0025] In operation the inner supports and the panel section on which they are mounted are
raised slightly to lift the bat thereon clear of the outer supports and the outer
supports are then retracted such that the bat resting on the inner supports can be
lowered on downwards movement of the inner supports and the panel section on which
they are mounted. After the bat has been lowered below the level of the outer supports
the outer supports are advanced such that continued lowering results in the bat being
placed on the advanced outer supports at the next lower level. After a small further
downwards movement of the inner supports they are retracted and thereafter raised
to their starting level.
1. A kiln comprising a substantially vertical shaft (22) transport means (20) (26)
for supporting goods (27) to be heat treated in the shaft and for moving the goods
from the top to the bottom of the shaft, means for introducing air at or near the
base of the shaft and heating means intermediate the top and base of the shaft, characterised
in that the transport means include supports (20) and pallets or bats (26) adapted
to be removably mounted on said supports and in that gaps (24) are provided between
the shaft walls and the opposite sides of alternate pallets or bats so that gases
rising through the kiln are directed to pass substantially horizontally over the goods
thereon with the gas passing over one bat moving in a direction opposite to that passing
over the neighbouring bats.
2. A kiln as claimed in claim 1, characterised in that it includes means for admitting
air to the shaft (22), means for removing heated gases, and heating zones all at vertically
spaced locations.
3. A kiln as claimed in claim 1 or claim 2, characterised in that the transport means
include first and second sets of supports (20) arranged on one pair of opposed walls
(12) of the shaft the supports of each set being arranged at the same level and all
the supports being movable transversely of the shaft the second set being movable
longitudinally of the shaft also such that a first set supporting a bat may be retracted
whereby the bat is supported on a second set which then lowers the bat onto a new
advanced first set at a lower level.
4. A kiln as claimed in any one of the preceding claims, characterised in that means
are provided for controlling the flow of gas through the kiln.
5. A method of heating goods comprising placing goods at the top of a substantially
vertical shaft, lowering the goods down the shaft, heating the shaft intermediate
its ends and introducing air at or adjacent its base such that as the goods are lowered
they are progressively the goods are lowered they are progressively heated until they
reach a maximum temperature at said heating zone and are progressively cooled as they
progress towards the base of the shaft, characterised in that the air is caused to
flow in a simuous manner up the shaft such that it passes over the goods in a direction
substantially transverse to the shaft axis.
6. A method as claimed in claim 5, in which the goods are supported on pallets or
bats which are lowered intermittently down the shaft.
1. Four comportant une cuve sensiblement verticale (22), des moyens de transport (20),
(26), destinés à supporter les articles (27) traités dans la cuve et à permettre le
déplacement des articles du haut au bas de la cuve, des moyens d'introduction d'air
à, ou près, de la base de la cuve et des moyens de chauffage entre le sommet et la
base de la cuve, caractérisé en ce que les moyens de transport comportent des supports
(20) et des tringles ou palettes (26) prévues pour être montées de façon amovible
sur lesdits supports et en ce que des ouvertures (24) sont ménagées entre les parois
de la cuve et les faces opposées des tringles ou palettes alternées pour que les gaz
montant au travers du four soient dirigés de telle sorte qu'ils passent de façon sensiblement
horizontale sur les articles qui y sont disposés, le gaz passant sur une palette se
déplaçant en direction opposée à celle du gaz passant sur les palettes voisines.
2. Four selon la revendication 1, caractérisé en ce qu'il comporte des moyens d'admission
de l'air dans la cuve (22), des moyens d'élimination des gaz chauffés et des zones
de chauffage selon des emplacements espacés longitudinalement.
3. Four selon la revendication 1 ou la revendication 2, caractérisé en ce que les
moyens de transport comprennent une première et une seconde série de supports (20)
disposés sur deux des parois opposées (12) de la cuve, les supports de chaque série
étant disposés au même niveau et tous les supports étant déplaçables transversalement
par rapport à la cuve, la seconde série de supports étant déplaçable longitudinalement
par rapport à la cuve, de telle sorte qu'il soit possible d'escamoter une première
série supportant une palette quand la palette est supportée sur une seconde série
qui alors abaisse la palette sur une nouvelle première série qui s'avance à un niveau
inférieur.
4. Four selon l'une quelconque des revendications précédentes, caractérisé en ce qu'il
est équipé de moyens permettant de régler le flux du gaz qui le traverse.
5. Procédé de chauffage d'articles qui consiste à placer les articles à la partie
supérieure d'une cuve sensiblement verticale, à abaisser les articles à la partie
inférieure de la cuve, à chauffer la cuve en sa partie médiane et à introduire de
l'air à, ou près de sa base de telle sorte que quand les articles sont abaissés, ils
soient progressivement chauffés, jusqu'à ce qu'ils atteignent une température maximum
dans ladite zone de chauffage et soient progressivement refroidis quand ils progressent
vers la base de la cuve, caractérisé en ce que l'on fait affluer l'air de façon sinueuse
jusqu'en haut de la cuve de telle sorte qu'il passe sur les articles dans une direction
sensiblement transversale à l'axe de la cuve.
6. Procédé selon la revendication 1, caractérisé en ce que les articles sont supportés
par des tringles ou palettes qui sont abaissés de façon intermittente dans la cuve.
1. Brennofen mit einem im wesentlichen vertikalen Schacht (22), Transportmitteln (20,
26) zum Halten von im Schacht mit Hitze zu behandelnden Gegenständen (27) und zum
Bewegen der Gegenstände von der Oberseite zur Unterseite des Schachtes, Mitteln zum
Einführen von Luft an oder nahe der Unterseite des Schachts und Heizmitteln zwischen
der Oberseite und der Unterseite des Schachts, dadurch gekennzeichnet, daß die Transportmittel
Träger (20) und abnehmbar auf den Trägern sitzende Paletten oder Stapelplatten enthalten
und daß Zwischenräume (24) zwischen den Schachtwänden und den entgegengesetzten Seiten
von alternierenden Paletten oder Stapelplatten vorhanden sind, so daß durch den Schacht
hochsteigende Gase geführt werden, damit sie im wesentlichen horizontal über die auf
den Paletten ode Stapelplatten befindlichen Gegenstände strömen, wobei das über eine
Palette strömende Gas sich in einer Richtung bewegt, die der des über die benachbarten
Paletten strömenden Gases entgegengesetzt ist.
2. Brennofen nach Anspruch 1, dadurch gekennzeichnet, daß er Mittel zum Zuführen von
Luft in den Schacht (22), Mittel zum Entfernen erhitzter Gase und Heizzonen enthält,
die alle an Stellen mit vertikalem Abstand angeordnet sind.
3. Brennofen nach Anspruch 1 oder 2, dadurch gekennzeichnet, daß die Transportmittel
einen ersten und einen zweiten Satz von Trägern (20) enthalten, die an einem Paar
entgegengesetzter Schachtwänder angeordnet sind, wobei die Träger jedes Satzes in
der gleichen Höhe angeordnet und alle Träger quer zum Schacht bewegbar sind und der
zweite Satz außerdem längs des Schachts bewegbar ist, derart, daß ein erster Satz,
der eine Palette hält, zurückgezogen werden kann, wobei die Palette auf einem zweiten
Satz gehalten wird, der dann die Palette auf einen neu vorgeschobenen ersten Satz
in einer niedrigeren Höhe absenkt.
4. Brennofen nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, daß
Mittel zum Steuern des Gasdurchflusses durch den Brennofen vorhanden sind.
5. Verfahren zum Erhitzen von Gegenständen, bei dem die Gegenstände an der Oberseite
eines im wesentlichen vertikalen Schachtes plaziert und im Schacht nach unten abgesenkt
werden, der Schacht zwischen seinen Enden erhitzt wird und Luft an oder im Bereich
seiner Unterseite eingeführt wird, derart, daß die Gegenstände beim Absenken bis zum
Erreichen einer maximalen Temperatur in der Heizzone progressiv erhitzt und, wenn
sie zur Schachtunterseite hin fortschreiten, progressiv gekühlt werden, dadurch gekennzeichnet,
daß die Luft auf schlangenlinienförmige Weise schachtaufwärts strömt, derart, daß
sie in einer im wesentlichen quer zur Schachtachse verlaufenden Richtung über die
Gegenstände strömt.
6. Verfahren nach Anspruch 5, dadurch gekennzeichnet, daß die Gegenstände auf Paletten
oder Stapelplatten gehalten werden, die intermittierend schachtabwärts abgesenkt werden.