DE102009013083A1 - Turbine housing insulation material made of a composite material, which contains temperature-resistant hard foam and has a ceramic layer in the area of a contact surface of the turbine housing - Google Patents

Abstract

The turbine housing insulation material (1) made of a composite material, which contains a temperature-resistant hard foam (2) and has a ceramic layer (5) in the area of a contact surface of the turbine housing (4), is claimed. In a mounted state, the composite material directly or indirectly lies on the contact surface of the turbine housing in a positive-fit manner. The hard foam is partially provided with a protective film (6), which is a glass-fiber-reinforced plastic film. The turbine housing insulation material is demountably bonded with the turbine housing in a non-destructive manner. An independent claim is included for a method for producing a turbine housing insulation material.

Description

The The invention relates to a turbine housing insulation made of composite material and a method of manufacturing a turbine housing insulation.

turbines become common placed directly outdoors and are thus exposed to all weather conditions. To the turbine housing across from the weather conditions to protect the turbine on a turbine housing insulation. The turbine housing insulation the turbine should withstand temperatures of about -40 ° to + 70 °, precipitation of all kinds, wind, Protect dust and UV radiation. Depending on the site also needs protection against sandstorm or Ensured earthquake become.

Currently the insulation of the turbine by means of a mat insulation. In this case, the insulating mats by means of wires, strips or quick-release fasteners attached to the turbine. A disadvantage of such a mat insulation is that moisture and dust creep under the mat insulation can and therefore this is neither waterproof nor dustproof. alternative Injection insulation is used, but with increased assembly and disassembly costs. The dismantling may even be with a partial destruction connected to the insulation. Another problem is the attachments, like valves, gauges and neck. Currently, these parts are only using single mats or hoods protected.

task The invention therefore is to provide a turbine housing insulation, the improved weatherability and a simpler Assembly and disassembly guaranteed. Furthermore, it is an object of the present invention method for producing such a turbine housing insulation show.

The Task with respect to the turbine housing is characterized by the features of the independent Patent claim 1 solved. The inventive method are characterized by the features of independent claims 8, 9 and 10 solved.

advantageous Embodiments and developments, which individually or in combination can be used with each other, are the subject of the dependent claims.

The Turbine housing insulation according to the invention is made of composite material, wherein the composite material having a temperature resistant Harstschaum.

When Hard foam is understood here as a solid foam consisting of small glass bubbles, through solid walls are separated. Temperature resistant is the hard foam, if it is durable Temperatures of over 200 ° withstands. When Composite material is a material that consists of two more connected materials. As a composite material is used in the considered a rigid foam, the addition of a reinforcement for example, from a honeycomb body has, but also hard foam to protect the outer surface of a Has protective film or used for better thermal insulation a ceramic layer. Also the hard foam itself can be considered a composite material, if it is made of different materials.

Of the temperature resistant foam is very weather resistant and let yourself very easy on the turbine housing assemble. To allow isolation of the insulation, before installation the insulation of the turbine are coated with a release agent. This leaves the turbine housing insulation destructively separate from the turbine housing. The turbine housing insulation can be easily glued to the turbine housing. parts for maintenance reasons can not be firmly connected, for example, by screwing at the turbine housing be attached.

A advantageous embodiment of the invention provides that the composite material in the assembled state substantially form-fitting to a corresponding contact surface of the turbine housing directly or indirectly. Due to the positive connection the turbine housing insulation a waterproof and dustproof insulation is achieved. Humidity, Dust or the like can not creep under the turbine housing insulation. In addition, the positive-locking facilitates Installation of the turbine housing insulation at the turbine housing the mounting considerably. The components can be easily connected to the appropriate contact surface of the turbine housing created and then fixed easily.

A Particularly advantageous embodiment of the invention provides that the composite at least in the area of the contact surface Ceramic layer has. The ceramic layer is surface variable and can easily adapt to the shape of the turbine housing. The ceramic layer in particular serves the thermal insulation against the environment. Using a ceramic layer, the temperature resistance of the rigid foam chosen lower become. The composite material can be glued directly onto the ceramic layer and thus forms a unity with this. Also a foaming with the ceramic layer is possible.

A sees further particularly advantageous embodiment of the invention before that the hard foam at least partially with a protective film is provided. The protective film is preferably on the outer surface of the Composite material and protects the hard foam or the Composite material, in particular against mechanical effects. In addition to Mechanical protection of the turbine housing insulation also serves the protective film an improved look. By using appropriately colored Leaves slides to achieve a visually appealing appearance. Furthermore can also promotional imprints on the outer foil be applied.

When Protective film for the turbine housing insulation In particular, a glass fiber reinforced plastic film is suitable. These is easy to apply to the hard foam or the composite material and offers good mechanical strength.

The The invention further comprises a turbine housing, which is characterized is through a turbine housing insulation with a composite material made of temperature-resistant rigid foam.

• – mittelbares oder unmittelbares Aufbringen eines Wabenkörpers auf das Turbinengehäuse oder ein Turbinengehäuseteil;
• – evakuieren des Wabenkörpers und gleichzeitiges und/oder nachfolgendes Verschäumen des Wabenkörpers mit temperaturfestem Hartschaum.

The invention further comprises a method for producing a turbine housing insulation which comprises the following steps:

• - indirectly or directly applying a honeycomb body to the turbine housing or a turbine housing part;
• - Evacuate the honeycomb body and simultaneous and / or subsequent foaming of the honeycomb body with temperature-resistant rigid foam.

The Use of a honeycomb body increases the Component strength of the turbine housing insulation significantly. moreover is the weather resistance and the strength over mechanical effects also significantly increased. To ensure, that the honeycomb body Completely foamed up with the hard foam becomes, the honeycomb body becomes simultaneously and / or before foaming evacuated. By evacuating the honeycomb body, the hard foam can be particularly penetrate well into the honeycomb body and it becomes a complete one foaming of the honeycomb body reached.

• – mittelbares oder unmittelbares Aufbringen eines Wabenkörpers auf ein Turbinengehäusemodell bzw. ein Teil eines Turbinengehäusemodells;
• – Evakuieren des Wabenkörpers und gleichzeitiges und/oder nachfolgendes Verschäumen des Wabenkörpers mit temperaturfestem Hartschaum;
• – Aushärten des Hartschaums;
• – Anbringen der Hartschaumisolierung am Turbinengehäuse.

The invention further comprises a method for producing a turbine housing insulation which comprises the following steps:

• Indirectly or directly applying a honeycomb body to a turbine housing model or part of a turbine housing model;
• - evacuating the honeycomb body and simultaneous and / or subsequent foaming of the honeycomb body with heat-resistant rigid foam;
• - curing the hard foam;
• - Attach the rigid foam insulation to the turbine housing.

The Turbine housing insulation This is prepared on a turbine housing model and also hardens on this turbine housing model out. After curing is a turbine housing insulation ready, in a particularly simple way on-site on the turbine housing without huge Assembly costs can be attached. A foaming on Installation site is therefore not necessary and the installation times for the Turbine housing insulation significantly reduced. The manufacture of the turbine housing insulation on a turbine housing model can be done under optimal conditions, factory-made. This can an increased component quality across from a foaming reached directly at the site under adverse conditions become. Furthermore can the turbine housing insulation by default for one Turbine housing type getting produced. This further reduces the cost of the turbine housing insulation. Need to be on site then only the precise turbine housing insulators attached to the turbine housing and glued or otherwise, for example, by screwing be attached.

• – Herstellen eines temperaturfesten Hartschaumrohlings;
• – Formfräsen des Hartschaumrohlings, dergestalt, dass der Hartschaumrohling im montierten Zustand im Wesentlichen formschlüssig am Turbinengehäuse unmittelbar oder mittelbar anliegt.

The invention comprises a further method for producing a turbine housing insulation which comprises the following steps:

• - Producing a temperature-resistant hard foam blank;
• - Milling the hard foam blank, such that the hard foam blank in the mounted state substantially form-fitting manner directly or indirectly rests against the turbine housing.

The positive Installation of the turbine housing insulation in the mounted state on the turbine housing is guaranteed here by a corresponding form milling. By the form milling can be a very high dimensional accuracy be achieved. In addition, the form milling is an extremely inexpensive and fast way for producing a turbine housing insulation made of a composite material with temperature-resistant rigid foam.

The turbine housing insulation according to the invention made of composite material comprising a temperature-resistant foam allows, in contrast to previous turbine housing insulation, a significantly weather-resistant turbine housing insulation. Moisture, dust and the like can not creep under the turbine housing insulation due to the very positive engagement with the turbine housing. The turbine housing insulation can be foamed directly onto the turbine housing. In addition, there is also the Possibility of first applying a surface-variable ceramic material to the turbine housing and then applying the composite material or the hard foam. The turbine housing insulation according to the invention is particularly suitable for insulating steam turbine housings.

The The invention further comprises three different methods by one such turbine housing insulation made of composite material comprising a temperature-resistant rigid foam inexpensive and easy to manufacture.

embodiments and further advantages of the invention are described below with reference to the drawings explained. It shows schematically:

1 a turbine housing insulation according to the invention with a temperature-resistant rigid foam and an additional ceramic layer;

2 a further turbine housing insulation according to the invention, wherein the composite material, comprising a temperature-resistant rigid foam, is applied directly to the turbine housing.

at the figures are in each case very simplified representations, in which only the essential, necessary for the description of the invention Components are shown. Same or functionally identical components are provided with the same Bezugszei chen. Both figures show each only a detail or a detailed view of a turbine housing insulation according to the invention.

1 shows a turbine housing insulation 1 made of composite material. The composite material has a temperature-resistant rigid foam 2 on. The temperature-resistant rigid foam 2 is in a honeycomb body 7 foamed. In order to achieve a better thermal insulation compared to the turbine housing is between the temperature-resistant rigid foam and the turbine housing a ceramic layer 5 applied. The ceramic layer is surface variable and can easily adapt to the surface shape of the turbine housing. The ceramic layer 5 can be mounted on the turbine housing, preferably by gluing. Of course, other fastening methods such as screwing or riveting are possible. On the ceramic layer 5 then the honeycomb body 7 applied, then the foaming of the honeycomb body takes place 7 with a temperature-resistant rigid foam 2 , To ensure that the temperature-resistant rigid foam 2 the honeycomb body 7 completely fills, it is beneficial to the honeycomb body 7 , at the same time or preparatory, to evacuate before foaming the honeycomb body 7 with the temperature-resistant rigid foam 2 he follows. By the evacuation of the honeycomb body 7 becomes a complete foaming of the honeycomb body 7 reached. After curing of the temperature-resistant rigid foam 2 creates a very resistant turbine housing insulation 1 , To protect the turbine housing insulation 1 against external mechanical effects, the turbine housing insulation 1 a protective film 6 on top of the outer surface of the turbine housing insulation 1 covers.

The protective film 6 is preferably made of a glass fiber reinforced plastic film. This is extremely stable against mechanical influences and weather-resistant. After the temperature-resistant foam 2 cured is a turbine housing insulation 1 before, the form-fitting with the turbine housing 4 concludes. Due to the positive engagement of the turbine housing insulation 1 at the turbine housing 4 Effectively prevents moisture, dust or the like from creeping under the insulation. The ingress of moisture or dust could lead to a deterioration of the insulation or even to destruction. The attachment of the positive turbine housing insulations 1 can be done either by gluing or by other methods of connection, such as screwing. A detachable connection is useful wherever, for example, for maintenance reasons, the turbine housing insulation 1 temporarily removed. This can destroy the turbine housing insulation 1 spared. For easier detachment of the turbine housing insulation 1 allow in these areas, before attaching the foaming, the turbine housing 4 be coated with a release agent. The positive turbine housing insulation 1 Can also be trained in hard-to-reach places or attachments such as valve gauges and nozzles. The temperature-resistant rigid foam 2 as well as the ceramic layer 5 are so flexible that a form-fitting installation of the turbine housing insulation 1 at a corresponding contact surface 3 of the turbine housing 4 is guaranteed.

2 shows a second embodiment of a turbine housing isolierurig 1 with a composite material which a temperature-resistant rigid foam 2 having. In this turbine housing insulation 1 is the composite material with the temperature-resistant rigid foam 2 directly, that is without a ceramic layer form fit to a corresponding contact surface 3 of the turbine housing 4 arranged. The temperature-resistant rigid foam 2 This must have a higher temperature resistance than when using an additional ceramic layer. The honeycomb body 7 becomes the formation of the turbine housing insulation 1 directly and positively on the corresponding support surface 3 of the turbine housing 4 appropriate. The Anbrin can in turn preferably be done by gluing or by a removable attachment, for example screwing. After attaching the honeycomb body 7 Preferably, an evacuation of the honeycomb body takes place 7 and a simultaneous and / or subsequent foaming of the honeycomb body 7 with the temperature-resistant rigid foam 2 , After hardening of the hard foam 2 is a completely positive connection of the turbine housing insulation 1 with the turbine housing 4 in front. For better protection against mechanical influences as well as against weather influences, the turbine housing insulation 1 a protective film 6 made of a preferably glass fiber reinforced plastic. In principle, the plastic film can also be used to improve the optical properties of the turbine housing 4 or the turbine housing insulation 1 be used. For this purpose, corresponding films can be used in different colors or with different imprints.

3 shows a further embodiment of the invention. The turbine housing insulation 1 again consists of a composite material, wherein the composite also has a temperature-resistant rigid foam 2 includes. In contrast to the previous embodiments, the foaming of the temperature-resistant rigid foam takes place 2 but not directly on the turbine housing 4 , The turbine housing insulation 1 rather, it is produced precisely before assembly. The assembly of the turbine housing insulation 1 then takes place after curing of the hard foam 2 , preferably immediately at the site. Due to the already prefabricated components, the assembly is very simple and requires only a very short assembly time. The preparation of the turbine housing insulation can be done in different ways. In the following, two inventive methods for producing such a turbine housing insulation will be briefly presented.

In the first method of manufacturing a turbine housing insulation 1 a turbine housing model is used, on which directly or indirectly a honeycomb body 7 is applied (the honeycomb body is in 3 not shown). The honeycomb body is evacuated and simultaneously or subsequently the foaming of the honeycomb body takes place 7 with a temperature-resistant rigid foam 2 , Basically, the foaming of the honeycomb fabric could also be done without evacuation of the honeycomb body. The evacuation, however, ensures that the temperature-resistant foam 2 better penetrate into the honeycomb and this can completely fill. After foaming the honeycomb body is first waited until the hard foam 2 completely cured. Subsequently, the prefabricated turbine housing insulation 1 be detached from the turbine housing model. To detach the turbine housing insulation 1 To facilitate the turbine housing model can be previously coated with a release agent. The prefabricated and precisely fitting turbine housing insulation 1 can then easily transported and at the installation site to the turbine housing 4 to be assembled.

In a second method of manufacturing a turbine housing insulation 1 First, a temperature-resistant rigid foam blank is produced. This hard foam blank does not yet have the corresponding contact surfaces which are necessary for a form-fitting installation of the turbine housing insulation 1 at a corresponding contact surface 3 of the turbine housing 4 to ensure. After curing of the hard foam blank, such a contact surface is formed by milling. This is a negative of the turbine housing 4 milled into the hard foam blank, so that this then form-fitting to the corresponding contact surface 3 of the turbine housing 4 can be mounted. The hard foam blank may have additional reinforcements to increase its strength.

The Prefabrication of turbine housing insulations offers the advantage that these regardless of the site and the prevailing weather conditions can be produced there. The production can thus be in a production hall under optimal Conditions are fulfilled. In addition, it is possible for a turbine housing type Turbine housing insulation at the same time for several turbine housings to manufacture. Such manufacturing streamlines the process and allows thus lower unit costs. Because of the hardened Hard foam has a high strength, it can be transported well. Of the Hard foam also has a low specific gravity, so that a transport is also possible with regard to the weight without any problems.

The turbine housing insulation according to the invention made of composite material comprising a heat-resistant hard foam, the turbine housing insulation over the prior art, in terms of their weather resistance and insulation, significantly improve. By using heat-resistant hard foam, a positive engagement of the turbine housing insulation can take place on a corresponding contact surface of the turbine housing. As a result, no moisture, dust or the like can crawl under the insulation and destroy it. Depending on the embodiment, the form-fitting turbine housing insulations can be detached from the turbine housing in a non-destructive manner, which brings great advantages in particular for maintenance work. The assembly time for the turbine housing insulation is considerably reduced compared to the prior art. The turbine housing insulations can already be prefabricated to the site of the Turbi ne are brought and mounted there in a few simple steps. Foaming at the installation site is possible and requires only a small installation effort.

Claims (10)

Turbine housing insulation ( 1 ) of composite material, wherein the composite material has a temperature-resistant rigid foam ( 2 ) having. Turbine housing insulation ( 1 ) according to claim 1, characterized in that the composite material in the mounted state, substantially form-fitting manner on a corresponding contact surface ( 3 ) of the turbine housing ( 4 ) is applied directly or indirectly. Turbine housing insulation ( 1 ) according to claim 1 or 2, characterized in that the composite material at least in the region of the contact surface ( 3 ) a ceramic layer ( 5 ) having. Turbine housing insulation ( 1 ) according to one of the preceding claims, characterized in that the hard foam ( 2 ) at least partially with a protective film ( 6 ) is provided. Turbine housing insulation ( 1 ) according to claim 4, characterized in that the protective film ( 6 ) is a glass fiber reinforced plastic film. Turbine housing insulation ( 1 ) according to one of the preceding claims, characterized in that the turbine housing insulation ( 1 ) non-destructively removable with the turbine housing ( 4 ) connected is. Turbine housing ( 4 ), characterized in that it has a turbine housing insulation ( 1 ) according to one of claims 1 to 6. Method for producing a turbine housing insulation ( 1 ), comprising the following steps: - indirect or direct application of a honeycomb body ( 7 ) on the turbine housing ( 4 ) or a turbine housing part, - evacuate the honeycomb body ( 7 ) and simultaneous and / or subsequent - foaming of the honeycomb body ( 7 ) with temperature-resistant rigid foam ( 2 ). Method for producing a turbine housing insulation ( 1 ), comprising the following steps: - indirect or direct application of a honeycomb body ( 7 ) on a turbine housing model, - evacuate the honeycomb body ( 7 ) and simultaneous and / or subsequent - foaming of the honeycomb body ( 7 ) with temperature-resistant rigid foam ( 2 ), - hardening of the hard foam ( 2 ), - attaching the rigid foam insulation to the turbine housing ( 4 ). Method for producing a turbine housing insulation ( 1 ), comprising the following steps: - producing a heat-resistant hard foam blank, - shaping the hard foam blank, which forms that the hard foam blank in the assembled state substantially form-fitting manner on the turbine housing ( 4 ) is applied directly or indirectly.