DE19931306A1 - Making light ceramic components to assist in ceramics firing process as e.g. firing supports, especially in the form of kits of parts, employs adhesive or ceramic mass to consolidate assemblies - Google Patents

Abstract

The component (1) is made as an assembly of several ceramic parts (2), (and further jointing components (3)). These are produced by mixing, molding, drying and firing. Assembly employs an adhesive (11) or a ceramic mass (10). An Independent claim is included for the corresponding kit of parts, used as described.

Description

The invention relates to a method for producing light ceramic components, in particular kiln furniture, and also shows a kit for creating such a lightweight ceramic component. Such components can be used as construction elements in mechanical and plant engineering for numerous industries find an application. These are particularly interesting light ceramic components, however, in their use as Kiln furniture, especially when burning dishes porcelain, of electro-ceramic parts, but also in the field of Sanitary ware. Kiln furniture is known to be ceramic Components used for transporting or stacking ceramic Blanks are used during the manufacturing fire and especially have to endure multiple kiln trips. The requirement  such light ceramic components, in particular Kiln furniture is, in its long life, in high Strengths with the thinnest cross-sections, a high temperature change resistance and low mass can be seen. Indeed thing that kiln furniture together with the kiln to the Firing temperature must be heated, the result is the Forde tion for the lowest possible weight of the components. The The amount of energy required for heating depends directly on the weight or the mass of the component. Therefore impair heavy massive kiln furniture components reduce the heat balance of a firing unit and make production costs more expensive Part significantly.

Ceramic components that are used as kiln furniture, are made according to the principles of heavy clay technology manufactured and are for example by Fickel, Völker "fire solid kiln furniture: properties and applications ", published published in "Das Keramiker-Jahrbuch 1966", pp. 56-67 or also from Mosig, Völker "Innovative kiln furniture for the fine ceramic quick fire "cfi / DKG 74 (1997), 1, pp. 9-12, known. Those shown and described there as kiln furniture Components used always consist of individual, not interconnected shaped bodies made of ceramic mass, the e.g. B. be stacked loosely on a kiln car to the to record burning goods. The moldings have very ver divorced figure, which also in a special way to the figure is adapted to the goods to be burned. With these moldings are those with a full cross-section. At most are holes in plate-shaped moldings to save weight and provided for better contact with the heating gases in the furnace. The one-piece components are irrelevant whether now individually or in the form of a loose scaffold structure on one Kiln cars are used, designed so that a rational Use of the combustion chamber, the suitability as transport elements continuously operated ovens, avoiding contact react  tions between the firing material and the kiln furniture, the Avoiding deformations of kiln goods and kiln furniture and sometimes to protect the fired goods against external influences be used. It can be adapted to the firing material careful selection of the materials of the kiln furniture happen. The components can take the form of capsules, plates, Bombs, supports and. Ä. Meet, these components loose on stacked and scaffold structures are formed. It is also already known, automatically operated disks and plates to use. Of course one is careful to have a few simple ones To create standard elements as components, which are preferably in open construction to create a scaffold structure be set. However, it is also known to insert capsules set, which can be formed in several parts, but where the individual components are also loosely assembled or stacked. Components can also be in the form of columns elements are provided, the stable structures up to large Ensure heights. When making such individual Shaped body becomes uniaxial pressing, extrusion or Slip casting applied. In all cases, individual, to be handled separately and only in the form of Scaffold structures made of loose stackable molded parts at no time a permanent connection with each other come in.

The invention has for its object a method for Manufacture of particularly light ceramic components, esp special kiln furniture, as well as a kit for creation to show such light ceramic components.

According to the invention, this is the case with the method of the beginning described type achieved in that the component of several ceramic profile parts is assembled by mixing, Forming, drying and firing of ceramic mass prefabricated and that the assembly to the solid component under Use of an adhesive or a ceramic mass.  

The invention is based on the idea, no longer individual Manufacture moldings from ceramic mass, but a construction part, which is used for example as a kiln furniture can be made from several pre-made ceramic profile share put together. The ceramic profile parts are under Use of an adhesive and / or a ceramic mass to the extremely light component permanently assembled. The component gets a filigree frame-like structure that it also during the various furnace trips throughout its Maintains lifespan. The use of profile parts enables light, on the one hand, a particularly cost-effective production of these parts. On the other hand, such profiles, for example wise in training as a square full profile or, still cheaper than hollow profiles, such as tubular profiles Favorable strength / weight ratio. By using a Depending on the load, the tube profile is a weight reduction The component can be decorated with up to 67%. Taking into account in the calculation also the differences in strength the conventional material to modern high-tech materials, so is the theoretically possible reduction in weight such components even larger. The component is made up of several ceramic profile parts in the matched to the kiln Shape and the required properties through permanent Put together manufactured. This creates filigree frames like structures, which also stack on top of each other and form scaffolding have structures built.

In particular, sections made of hollow profiles can be used as profile parts be used. The advantages of such hollow profiles are Lose weight and improve properties with everyone Consequential advantages.

It is also possible that in addition to the ceramic Profile parts also used sections of metal profiles become. Hollow is also preferred with regard to the metal profiles  profiles used. The frame-like component created in this way points insofar as ceramic profile parts and sections made of metal profiles, with the sections of the metal profiles preferred wise in the area of connectors of a frame-like Component are used.

The profile parts can be made using connectors be put together like a frame. These connectors usually have a columnar shape and comparatively short axial extension while it is in the ceramic profile parts are preferably elongated elements. As Connectors can use sections of full profiles the use of hollow professionals is more advantageous len. It is thus possible that at least as connecting pieces partially hollow body made of ceramic mass and / or metal can be used that intersect with their axes or have cutting openings. The connectors definitely show through or ending in them breaks up to accommodate the ceramic profile parts are suitable and determined. The breakthroughs are so orders that they intersect the axis of the fasteners. Multiple openings in the connector are preferred provided with only crossing axes.

As a rule, they are composed of several components ten solid components in particular by a kiln furniture manufacturer assembled and ready-made and into one piece created object, which is then the object of the trade agreement is coming. However, to give users greater variability offer, the assembly can only with the user of the Kiln furniture happen. A kit is then used status of trade, so a kit to create a lightweight ceramic component, especially a kiln aid by means of several ceramic profile parts that can be joined together, by mixing, shaping, drying and firing ceramic  Mass are prefabricated, and made of glue or a ceramic Mass to be assembled into the solid component.

According to the invention, therefore, a kit is created with which Help composed of several ceramic profile parts hanging component is created that separates the profile parts bar connects with each other. This creates a kiln aid from several parts or components that make up one one-piece component is assembled. Let such kits in a special way to adapt to the kiln. Out of them filigree frame-shaped components can be created particularly low weight and excellent strength properties have shafts. Components are created that over a long period of time, d. H. using many furnace trips, can be used. These ceramic components can also be stacked on top of one another be so that scaffold structures can be produced from them, but in comparison to the prior art from less individual share exist.

It is particularly advantageous if several elongated kera mix profile parts and at least partially as a hollow body ceramic mass and / or connection made of metal Pieces are provided that intersect with their axes or have cutting openings. The connectors result with the elongated ceramic profile parts lumpy frame-like structures or components. To one Connectors are usually at least two langge stretched ceramic profile parts connected, which then with crossing their axes. The axes of the profile parts intersect the axes of the connectors without facing each other to cut.

Sections can be made of profile parts with particular advantage Hollow profiles can be provided. This results in a reduced one Weight and improved properties.  

The connectors can be formed in several parts and Have sections of hollow profiles that form a gap are nestable. The space formed by the distance is then with an adhesive, especially a refractory glue, equipped with ceramic mass or the like, so that the firm connection of the individual parts of the component is achieved.

The profile parts can be used for anchoring in the connector certain areas over the circumference or distributed depressions and / or elevations exhibit. Also recesses and / or distributed like threads Increases can be provided at these points in order to Anchoring the profile parts in the connectors to verbes and the contact area achieved through the anchoring enlarge.

It is also possible that the connecting piece has several Hollow sections crossing or intersecting their axes Has metal profiles that can be welded together or over Threads are screwable. In particular the connector can have such hollow metal profiles or from such exist, so that here the component both ceramic profile parts and also has hollow metal profiles.

Another possibility is that the connector one or more axially open recesses for one bayonet-like connection of an elongated profile part has. This makes it possible to already have two on one profile part connected connectors to another profile part conclude. Here, too, is used to make the connection Glue or ceramic mass used. In this context elongated profile parts can also be provided, which in that intended for anchoring in the connector Area a separate, comparatively smaller outside diameter have knives.  

The invention is based on various exemplary embodiments further explained and described. Show it:

Fig. 1 is a simplified perspective illustration executed development of the component,

Fig. 2 shows a section through a connection piece which is penetrated by two profile parts of the component,

Share Fig. 3 is a section through a further embodiment of a connecting piece with this penetrating profile,

Fig. 4 shows a section through a multi-part connecting piece with the representation of this passing through the profiled part,

Fig. 5 shows a further embodiment in a representation similar to Fig. 4,

Fig. 6 is a section through a further embodiment of the connecting piece with two profile parts connected thereto

Fig. 7 is a section through the joint of a multi-part connecting piece with a profile part,

Fig. 8 shows a similar embodiment as Fig. 7,

Fig. 9 shows a section through a connector with attached schlossenem profile part,

Fig another sectional view tee. 10 through a connection, which to that of FIG. 9 is assigned,

Fig. 11 is a section through a connector with two connected profile parts,

Fig. 12 shows a section through a further embodiment in the anchorage between the profile part and connecting piece,

Fig. 13 is a view of the connector of FIG. 12 from the one direction, and

Fig. 14 is a view of the connector of FIG. 12 from the other direction.

In Fig. 1, a component 1 is shown schematically, which is assembled and assembled from a plurality of ceramic profile parts 2 and a plurality of connecting pieces 3 so that a solid component 1 is formed, the components of which can no longer be detached from one another without being destroyed. The profile parts 2 penetrate the connecting pieces 3 and are fixed in them, although this is not shown in FIG. 1 for the sake of simplicity.

Fig. 2 shows a section through such an anchoring point on a connecting piece 3. The connecting piece 3 can be designed as a full profile or, as shown here, as a hollow, tubular body 4 . It consists in any case of ceramic mixture and has at least one opening 5 , which is arranged transversely through the connecting piece 3 . The opening 5 has an axis 6 , which coincides with the corresponding axis of the profile part 2 . The opening 5 is larger in diameter than the outer diameter of the profile part 2 so that the profile part 2 can be easily inserted through the opening 5 . A second opening 7 with axis 8 is arranged offset by 90 ° and axially thereto. A further profile part 2 is also inserted into the opening 7 . The profile parts 2 can be designed as solid profiles or, as shown here, as hollow profiles 9 . The use of hollow profiles 9 as profile parts 2 is advantageous in terms of weight and achievable properties. The profile parts 2 or hollow profiles 9 are defined after insertion through the openings 5 and 7 with a ceramic mass 10 or an adhesive 11 , in particular a refractory adhesive, by the connector 3 filled with the ceramic mass 10 or the adhesive 11 becomes. After curing and, if necessary, a further firing process, a solid component 1 consists of profile parts 2 and connecting pieces 3 , as can be seen in FIG. 1 in the form of a filigree, lightweight and combustion gases which can be easily flowed through in a furnace by the combustion gases. Referring to FIG. 2, the axes intersect 6 and 8, while those axes of the connecting piece 3 cut 6 and 8 an axis 12.

The connector 3 , which is designed as a hollow body 4 , does not necessarily have to consist of ceramic mass. It can also be a section of a metal profile 13 . Such a connecting piece formed as a metal profile 13 is filled in the manner shown in FIG. 2 with ceramic compound 10 or adhesive 11 , so that the profile parts 2 are thereby fixed.

Fig. 3 shows a connecting piece 3 , which is formed as a full profile and can have a round or angular, for example square cross-section, cross-section. The connecting piece 3 generally consists of ceramic mass and has intersecting openings 5 and 7 . The diameters of the openings 5 and 7 are larger than the outer dimensions of the profile parts 2 , which are designed here with a rounded square cross section. The spaces between the openings 5 and 7 are also filled with ceramic mass 10 or adhesive 11 and the profile parts 2 in this way firmly anchored in the connecting piece 3 ver. Here, too, the connecting piece 3 provided with a full cross section can consist of ceramic mass or alternatively of metal.

The connector 3 recognizable in FIG. 4 is formed in two parts. An outer hollow profile and an inner hollow profile 15 are provided, which can be plugged into one another to form a distance. Here, only a continuous opening 5 is shown, through which a profile part 2 is inserted. The space between the hollow profiles 14 and 15 is also filled here by ceramic mass 10 or adhesive 11 , whereby not only the two hollow profiles 14 and 15 are connected to each other, but also the profile part 2 are anchored immovably within the opening 5 . The hollow profiles 14 and 15 can also be formed out as sections of metal profiles. The hollow profiles 14 and 15 can thus consist of ceramic or metal or one of ceramic and the other of metal.

In the embodiment of FIG. 5 in an opening 5 of the connecting piece 3 is fixed designed as a solid profile profile part 2. The profile part 2 preferably has depressions 16 at two points which are associated with the distance between the two parts of the connecting piece 3 and which are arranged continuously or locally distributed over the circumference. The connecting piece 3 is also composed of two hollow profiles 14 and 15 here. The space between the hollow profiles 14 and 15 is filled with ceramic mass 10 or adhesive 11 , which also enters the recesses 16 and can also extend into a certain area of the through openings 5 (not shown). In any case, the contact area of the profile part 2 with the ceramic mass 10 is increased. The profile part 2 is more firmly anchored in the connecting piece 3 .

Fig. 6 shows a connecting piece 3 , which in turn is formed in one piece and consists only of a hollow body 4 . There are two openings 5 , which are however not continuous, but are formed in the connecting piece 3 ending. The ends of profile parts 2 can thus be introduced into the openings 5 and fixed by filling the entire interior of the connecting piece 3 with ceramic compound 10 or adhesive 11 . To improve the anchoring tion, the relevant ends of the profile parts 2 can be provided with ridges 17 . Here, a profile part designed as a hollow profile 9 and a profile part 2 designed as a full profile are connected to one another via a connecting piece 3 . The connecting piece 3 can be designed as a section of ceramic mass or as a metal profile.

Fig. 7 shows a particular embodiment of establishing a profile member 2 in a connecting piece 3. The connector 3 has a metal profile 13 , which is provided as an outer Rohrab section. A hollow profile 15 made of ceramic mass is assigned to the metal profile 13 . The space between the metal profile 13 and the hollow profile 15 is filled with ceramic mass 10 or adhesive 11 . The profile part 2 designed as a hollow profile 9 is also surrounded at a distance by a metal bushing 18 , which can be closed at one end with a bottom 19 . The space between the profile part 2 and the metal bushing 18 is also filled here by ceramic mass 10 or adhesive 11 . The opening 5 in the metal profile 13 corresponds with little play to the outer diameter of the metal bushing 18 , while the hollow profile 15 made of ceramic mass in the area of the opening 5 has a comparatively larger diameter. The metal profile 13 and the metal bushing 18 are permanently connected to one another via welding seams 20 or welding spots. This thus formed connector 3 according to FIG. 7 results in a particularly strong, stressable anchoring tion of the profile part 2 in the connector 3rd It goes without saying that a plurality of openings can be provided in the connecting piece 3 for the connection of a plurality of profile parts 2 , in a manner similar to that already explained with reference to FIGS. 2, 3 and 6.

The embodiment according to FIG. 8 follows on from the embodiment according to FIG. 7. Instead of the weld seams 20 , threads 21 and 22 are applied in the opening 5 of the metal profile 13 and on the outer diameter of the metal bushing 18 . The thread 22 on the outer diameter of the metal bushing 18 can also be provided continuously. The two-part connecting piece 3 made of the metal profile 13 and the hollow profile 15 is connected to ceramic mass 10 or adhesive 11 , which also specifies the metal bushing 18 in which the profile part 2 is inserted and also fixed via ceramic mass 10 or adhesive 11 is.

FIGS. 9 and 10 show the formation of two matching connectors 3 with inserted profile parts 2, each formed by ceramic material 10 and adhesive 11 are set and the other connected mitein. The connector 3 consists in each case of a section of a metal profile 13 or a hollow profile 14 , which are each formed at their two ends so that the connectors 3 according to FIGS . 9 and 10 can thus be plugged into one another. If the ceramic mass 10 or the adhesive 11 is filled individually into the connecting pieces 3 , individual components 1 are formed which can be stacked one above the other to form scaffold structures and inserted one into the other. If, on the other hand, the connecting pieces 3 are first inserted into one another and then filled together with ceramic mass 10 or adhesive, a common component 1 is formed which has a correspondingly increased height.

Fig. 11 shows the anchoring of a hollow profile ausgebil Deten 9 profile part 2 and a profiled part 2 formed as a solid profile in a connecting piece 3. The profile parts 2 have circumferential ribs 23 in the form of threads or circumferentially, which are defined by ceramic mass 10 or adhesive 11 .

FIGS. 12-14 illustrate a bayonet-type connection in the region of the connecting piece 3. The connecting piece 3 , which can be designed as a metal profile 13 or hollow profile 14 , has two open-ended recesses 24 , 25 , in which the profile parts 2 are inserted axially, for fixing two profile parts 2 . The metal profile 13 or the hollow profile 14 is filled after the axial insertion of the two profile parts 2 with ceramic mixture 10 or adhesive 11 , both profile parts 2 being fixed and connected via the connecting piece 3 to the fixed component 1 . The profile parts 2 can be provided in the region of the recesses 24 and 25 with a region 26 which has a reduced outer diameter compared to the remaining outer diameter of the profile parts 2 .

Reference list

1

Component

2nd

Profile part

3rd

Connector

4th

hollow body

5

Breakthrough

6

axis

7

Breakthrough

8th

axis

9

Hollow profile

10th

Dimensions

21

thread

22

thread

23

rib

24th

Recess

25th

Recess

26

Area

11

Glue

12th

axis

13

Metal profile

14

Hollow profile

15

Hollow profile

16

deepening

17th

increase

18th

Metal bushing

19th

ground

20th

Weld

Claims (13)

1. Process for the production of lightweight ceramic construction parts, in particular firing aids, characterized in that the component (I) is assembled from several ceramic profile parts ( 2 ), which are prefabricated by mixing, shaping, drying and firing ceramic mass, and that Joining to the solid component ( 1 ) using an adhesive ( 11 ) or a ceramic mass ( 10 ). 2. The method according to claim 1, characterized in that sections of hollow profiles ( 9 ) are used as profile parts ( 2 ). 3. The method according to claim 1 or 2, characterized in that in addition to the ceramic profile parts ( 2 ) also sections of metal profiles ( 13 ) are used. 4. The method according to one or more of claims 1 to 3, characterized in that the profile parts ( 2 ) are assembled like a frame using connecting pieces ( 3 ). 5. The method according to claim 4, characterized in that at least partially hollow body ( 4 ) made of ceramic mass and / or metal are used as connecting pieces ( 3 ), which intersect or intersect with their axes ( 6 , 8 ) through openings ( 5 , 7 ). 6. Kit for creating a light ceramic component ( 1 ), in particular a firing aid, from several ceramic profile parts ( 2 ) that can be joined together, which are prefabricated by mixing, shaping, drying and firing ceramic mass, and from adhesive ( 11 ) or a ceramic one Mass ( 10 ) to be assembled into the solid component ( 1 ). 7. Kit according to claim 6, characterized in that a plurality of elongated ceramic profile parts ( 2 ) and at least partially as a hollow body ( 4 ) made of ceramic mass and / or metal connecting pieces ( 3 ) are provided, which with their axes ( 6 , 8 ) have intersecting or intersecting openings ( 5 , 7 ). 8. Kit according to claim 6 or 7, characterized in that sections of hollow profiles ( 9 ) are provided as profile parts ( 2 ). 9. Kit according to claim 7 or 8, characterized in that the connecting pieces ( 3 ) are formed in several parts and have sections made of hollow profiles ( 14 , 15 ) which can be inserted into one another with a gap. 10. Kit according to claim 9, characterized in that the profile parts ( 2 ) in the pieces for anchoring in the connecting pieces ( 3 ) certain areas over the circumference or distributed recesses ( 16 ) and / or elevations ( 17 ). 11. Kit according to one of claims 7 to 9, characterized in that the connecting piece ( 3 ) has a plurality of intersecting or intersecting with their axes sections of hollow metal profiles ( 13 , 14 , 15 ) which can be welded together or via thread ( 21 , 22 ) can be screwed. 12. Kit according to one of claims 7 to 9, characterized in that the connecting piece ( 3 ) has one or more axially open-edge recesses ( 24 , 25 ) for a bayonet-like connection of an elongated profile part ( 2 ). 13. Kit according to claim 6 or 12, characterized in that elongated profile parts ( 2 ) are provided which have a stepped, comparatively smaller outer diameter in the area intended for anchoring in the connecting piece ( 3 ).