DE19529508C1 - Hydrothermal curing autoclave for porous concrete - Google Patents

Abstract

The hardening vessel, i.e. autoclave, is tubular in section and is operated on its side. It cures porous concrete sections, esp. on small plants. To load with green sections, there is a cover opening at one end. Saturated high pressure steam is admitted when the cover is closed and sealed. The autoclave (1) demonstrates originality in consisting of at least two sections (3, 4). One (4) has a sealing cover (11) on one end (10). At its other end (14) is a detachable connection (9, 15-18), which joins to one end (8) of the other cylindrical section (3).

Description

The invention relates to a hardening boiler in the preamble of claim 1 Art.

In the production of building blocks or reinforced components from porous or gas concrete it is necessary to cast the switch off and if necessary cut and / or cut AAC body in a hardening kettle, also called a car klav is a hydrothermal hardening to un educate. For this purpose, the prepared pores concrete body generally lying on rails in the orderly cauldron through its one open face retracted. When the kettle is filled, the open forehead becomes side sealed by a lid, which in the Air contained in the hardening boiler is evacuated and saturated by replaced water vapor. The pressure in the boiler depending on the process to over 8 bar, sometimes up to 15 bar elevated.

The entire arrangement remains in this state for 12 to 18 hours to harden the aerated concrete. Then the Steam released and the kettle opened. The accruing Condensate, d. H. arise from the steam through condensation water, is collected at a collection point on the bottom of the boiler summarizes and sent for further utilization.  

In hard boilers with only one open and through which he The above-mentioned cover can be closed on the front side hardened aerated concrete body on the same side drove out of the boiler on which they were introduced were.

But there are also boilers known on both foreheads sides open and can be closed pressure-tight with a lid are. In these cases, the pores are pulled out concrete body opposite the feed end Face used.

In small plants for the production of aerated concrete, d. H. for plants with an annual capacity of 20,000 to 50 000 m³, it is to avoid complicated rails plants desirable, only a single hardening boiler to provide. To ensure an acceptable capacity nonetheless to deliver, this boiler should be as long as possible his.

But also in larger systems where several boilers arranged side by side, the tendency goes with to work longer and longer boilers.

According to the prior art, however, there is a waiter limit of approx. 40 m length, because otherwise the position and when transporting the boiler to build a AAC is usually difficult to overcome results.

In contrast, the invention is based on the object To further develop hardening kettles of the type mentioned at the beginning, that much greater lengths than before can be achieved, without the manufacturing and / or trans port difficulties is coming.  

To achieve this object, the invention provides the Say 1 summarized features.

The measures according to the invention are based on the knowledge reasons that it is in contrast to the previous general Does not consider such pressure necessary boiler for reasons of strength and operational safety train in one piece. With the available ones Manufacturing technology options are straightforward Connection arrangements for the two or more pipes cuts feasible that the very high operating loads without problems even over long periods of time have grown. It should be borne in mind that the Connection between the pipe sections from ge is that it can be solved again, that a such a separation, however, not during normal operation but only takes place when an aerated concrete plant for example disassembled and elsewhere built or a boiler section is to be replaced.

Especially for small systems in third world countries in areas with poor transport infrastructure only be operated until the regional demand for aerated concrete can be met such disassembly and reassembly may even occur several times to be required. Especially in such areas the transportation of a hardness consisting of several parts Boilers also have significant advantages when finished assembled boiler has no excess length.

Another advantage is that the Her position of the sections smaller workpieces are moved  need what to do with simpler equipment can and leads to higher manufacturing accuracy.

Hardening kettles for aerated concrete are usually included a slope of about 2 per mille so that the condensate forming towards a defined area in which it can be collected and discharged. But there are the rails on which the pores to be hardened concrete bodies are moved into the boiler, if possible has to be installed exactly horizontally Slope a loss of usable inner diameter of the boiler the longer the boiler is, the bigger it gets. Here, the division of the boiler according to the invention into two or more sections have the great advantage that this Part lengths assembled with longitudinal axes inclined towards each other can be, so that on the one hand still one or there are several defined places where the condensate is collects and can be removed, but on the other hand the Loss of usable inner diameter is inversely proportional is reduced to the number of sections used.

The possible reduction of the inner diameter not only reduces manufacturing and assembly costs of such a boiler, but also lowers the operating cost because the volume-related degree of filling ver improves and less "dead" volume is heated or with Steam must be filled.

In an embodiment in which the sections over Connection flanges with each other or with a jacket gusset are connected, the further results Advantage that these flanges are stiffening to the hardness boiler shell. At which precede the steam supply the air extraction occurs in the hardening vessel  Vacuum, which is also required for conventional boilers reinforcement on the outside of the jacket attach rings that are retracting under the action prevent this negative pressure. The described ver binding flanges have a corresponding effect.

These and other advantageous configurations and further Formations of a hardening kettle according to the invention are in the subordinate claims.

The invention is based on an embodiment described for example with reference to the drawing; in this shows the only figure in a schematic diagram position a side view of a hardness according to the invention boiler.

As can be seen from the figure, the hardening kettle 1 according to the invention consists of two cylindrical tube sections 3 , 4 which are arranged horizontally so that their longitudinal axes 5 , 6 are inclined to the horizontal H by a small angle α.

The pipe section 3 on the left in the figure is closed at its left end 7 and has at its right end 8 an only symbolically indicated flange 9 , the plane of which forms approximately a right angle with the longitudinal axis 5 of the pipe section 3 .

In contrast, the right tube section 4 in the figure is provided at its right, open end 10 with a United cover 11 , which is shown in the figure in the closed state. The closure lid 11 can be pivoted about a vertical axis so that the aerated concrete body to be hardened can be driven on the rails 12 which run as horizontally as possible through the then open end 10 into the hardening vessel.

At its opposite end 14 , the pipe section 4 is also provided with a flange 15 , the plane of which extends approximately perpendicular to the longitudinal axis 6 of the pipe section 4 .

To the mutually inclined arrangement of the longitudinal axes 5, 6 of the pipe sections 3 to obtain 4, 4, a jacket gusset portion 16 is between the two tube sections 3, inserted, its axial length in the upper region is klei ner than in the lower area. At its two ends, the jacket gusset 16 each has a counter flange 17 , 18 , which is connected to the flanges 9 , 15 of the pipe sections 3 , 4 in a pressure-resistant but detachable manner, for example screwed.

In this way, the hardness of the boiler shown 1, the rollers, not shown on boiler chairs 19 which allow its free temperature-induced Längenände tion encloses, is mounted, a pressure-tight by means of the closure cover 11 can be closed interior, the manifold via a live steam feed 20, and a steam 21 saturated Water vapor can be supplied, which is under a pressure in the order of 8 to 15 bar.

This pressure is maintained during operation for several hours in order to hydrothermally harden the aerated concrete bodies inside the boiler. The arrangement of the live steam supply 20 approximately in the middle of the length of the hardening kettle 1 results in a particularly favorable distribution of the steam.

Since the two pipe sections 3 , 4 are inclined downwards towards the center of the hardness of the boiler assembly 1 , the highest zones of the hardness boiler ceiling area are located on the two outer ends 7 and 10 .

In the area of these highest zones there is on the one hand a connecting piece 23 for a vent valve and on the other hand a connecting piece 24 for a valve for the evaporation discharge. The advantage of this arrangement is that no air or steam bubbles can accumulate in high-lying "dead" ceiling areas when the interior of the hardening boiler is vented before the steam is supplied or when steam is removed.

The connecting flange 25 is used to connect a safety valve, while the connecting flange 26 , which is located in the region of the lowest floor zone, allows condensate drainage.

In contrast to the exemplary embodiment shown, according to the invention the two pipe sections can also be connected to one another directly, ie without the intermediate gusset piece 16 being interposed. In this case, the flanges 9 , 15 are fastened to the ends 8 , 14 of the pipe sections 3 , 4 in such a way that their plane is inclined by an angle slightly different from 90 ° relative to the longitudinal axis 5 , 6 of the associated pipe section 3 , 4 , in order to achieve the arrangement of the pipe section longitudinal axes inclined to the horizontal H.

As an alternative to the embodiment shown, this inclination can also be chosen such that the longitudinal axes 5 , 6 fall towards the free end faces 7 , 13 , ie the center of the hardening vessel is higher than the ends. In such an embodiment, drain openings for the condensate drainage must then be provided at each of the two lowest points of the floor area. Conversely, the connection openings for the vent valve and the valve for the evaporation drain are not arranged at the ends but in the area of the center of the hardening boiler in the area of the highest ceiling zones. A hardening boiler arrangement, in which the pipe sections are inclined opposite to the embodiment shown in the figure, can be realized both with and without a jacket gusset.

It is also possible to use the hardness according to the invention boiler from more than two cylindrical pipe sections to build up, in which case the longitudinal axes are inclined so that seen in the longitudinal direction a zigzag confi guration results, d. H. that for example the connection area between the first and second pipe section deeper lies than the other two ends of this pipe cuts while the connection area between the second and the third pipe section is higher than that the ends of these pipe sections.

In principle, it is also possible to use either end the hardening boiler arrangement according to the invention with a Ver end cover to be provided, then one open end for feeding the aerated concrete body to be hardened and that other serves to remove the hardened products.

Claims (9)

1. Tubular, arranged in operation hardness boiler for the production of aerated concrete, especially in small systems, which is formed essentially cylindrical and is open to introduce the aerated concrete body to be hardened in it at one of its ends, this opening being closed by a lid so as to bar is that the interior of the hardening kettle can be struck with saturated steam under high pressure, characterized in that the hardening kettle ( 1 ) consists of at least two cylindrical tube sections ( 3 , 4 ), one of which ( 4 ) on its one end ( 10 ) has the cover ( 11 ) used for closing and on its other end ( 14 ) by means of a releasable connection arrangement ( 9 , 15 , 16 , 17 , 18 ) to the one end ( 8 ) of the other pipe section ( 3 ) connected is. 2. Hardening kettle according to claim 1, characterized in that the at least two Rohrab sections ( 3 , 4 ) are interconnected so that their longitudinal axes ( 5 , 6 ) are inclined to the horizontal (H) GE. 3. Hardening kettle according to claim 2, characterized in that the end faces ( 8 , 14 ), on which the at least two pipe sections ( 3 , 4 ) are connected to each other, are lower than the other two end faces ( 7 , 10 ). 4. Hardening kettle according to claim 2 or 3, characterized in that the connecting arrangement consists of two flanges ( 9 , 15 ) which can be screwed together, each of which is attached to the associated end ( 8 , 14 ) of the tube section ( 3 , 4 ) in question is that the flange plane with the longitudinal axis ( 5 , 6 ) of the pipe section ( 3 , 4 ) includes a 90 ° different angle. 5. hardening boiler according to claim 2 or 3, characterized in that the connection arrangement comprises two flanges ( 9 , 15 ), each of which on the associated front end ( 8 , 14 ) of the relevant Rohrab section ( 3 , 4 ) is attached so that the flange level on the longitudinal axis ( 5 , 6 ) of the pipe section ( 3 , 4 ) is perpendicular, and a jacket gusset ( 16 ) on which two counter flanges ( 17 , 18 ) with which the flanges ( 9 , 15 ) of Pipe sections ( 3 , 4 ) are screwed ver, are attached inclined against the vertical. 6. Hardening boiler according to one of claims 2 to 5, characterized in that the outlet ( 26 ) for the condensate drainage at one of the lowest points of the bottom region of the inclined pipe sections ( 3 , 4 ) is arranged. 7. hardening kettle according to one of claims 2 to 6, characterized in that the vent opening ( 23 ) and the opening ( 24 ) for the Abdampfabli device at one of the highest points of the ceiling area of the inclined pipe sections ( 3 , 4 ) are arranged . 8. Hardening kettle according to one of the preceding claims, characterized in that the opening ( 20 ) for the fresh steam supply is arranged approximately in the middle of the length of the hardening kettle ( 1 ). 9. A hardening kettle according to one of the preceding claims, characterized in that rails ( 12 ) for introducing the aerated concrete body are provided in it, which stretch as horizontally as possible over the length of the hardness kettle ( 1 ).