EP0899346B1 - Workpiece carrier for heat treatment of workpieces - Google Patents

Abstract

The workpiece carrier is a single-piece, monolithic structure. Alternatively it consists of single-piece monolithic fiber reinforced ceramic support elements (51) with holes (55). Connector elements (52, 53) are inserted which consist of fiber-reinforced ceramics and take the form of strips, rods or pipes.

Description

The invention relates to a workpiece carrier heat resistant fiber composite ceramic material for Heat treatment of workpieces arranged on it, with in Use upward facing workpiece support areas that are spaced apart in a support plane, so that the workpiece carrier as a whole for liquid or gaseous Treatment media is open. So the workpiece carrier is penetrable for the treatment media to an all-round Loading of the workpieces with the treatment media enable.

Workpiece carriers for use in the heat treatment of Workpieces, for example annealing, hardening, soldering, CVD coating are known.

With the unpublished DE patent application No. 196 51 408.8 has already been proposed, a workpiece carrier to manufacture from fiber composite material, which is made of strip-shaped components with slit-shaped open edges Recesses is formed, the strip-shaped Components over the slot-shaped recesses are interlocked.

Such a workpiece carrier is indeed for many Uses sufficient and beneficial; the manufacture of the strip-shaped components and the formation of the edge-open slots, however, is complex and proves to be as costly. The slit-shaped connection points also weaken the material and require one correspondingly massive construction, with which an increased Material consumption goes hand in hand. When handling the Workpiece carriers can get the plugged connections sometimes solve.

DE-A-1 281 467 shows a one-piece cast from steel formed workpiece carrier with elongated undulating elevations and depressions in one Carrier trough. There are also expansion joints in the carrier trough educated.

EP-A-0 452 718 shows one made of fiber composite ceramic Workpiece carrier formed with a flat material Carrier trough made of a deep-drawn or pressed Flat material web can be formed.

DE-U-295 12 569 shows a generic Workpiece carrier with the workpieces on longitudinal edges or edges of web-shaped walls can be placed or in Openings in these walls can be inserted.

DD-A-225136 shows a honeycomb body for receiving heat-treated Good thing, which body consists of a thermally resistant alloy. The invention has for its object a Workpiece carrier of the type described above in this regard to improve it at the same or less Material use can be made more stable and cheaper can. Furthermore, it should be safely prevented that detached parts unintentionally loosen.

This object is achieved by a Workpiece carrier with the characteristics of the independent Claims 1 and 4 solved.

The fact that the workpiece holder is monolithic trained, there is no risk that Loosen plugged connection points. In addition, at more suitable to be described below Production method, the production costs can be reduced.

If above from a one piece monolithic Workpiece carrier is spoken, there is one among them to understand seamless construction, d. H. the body forms in finished condition a solid manageable unit. Already in the manufacturing process of fiber composite ceramics Material is a near-net shape of the Workpiece carrier reached.

An example of a fiber composite ceramic material is CFC (Carbon Fiber Reinforced Carbon), where the fibers are made of Carbon and a so-called matrix precursor made of pitch or resin. The matrix precursor is used during the Manufacturing process in carbon or graphite converted. For oxidation resistance and as Wear protection can be made to the monolithic Elements can also be coated.

To produce a monolithic one-piece construction Workpiece carrier can advantageously a Wet winding technology are used, one with Binder impregnated fiber bundle or a strip-shaped fiber web on a rotating core is wound up. This creates a hollow strand from which then longitudinal sections to form the monolithic Workpiece carrier can be separated. If at Using a strip-shaped fiber web Stripe width already the height of the to be manufactured Corresponds to the workpiece carrier, so this is already after the curing of the wound form obtained without a additional separation process is required.

Can be used to form the workpiece support areas preferably milled recesses are provided his. This opens up the possibility of the workpiece carrier in advantageous to stack one on top of the other.

The embossing in the subject of claim 1 is preferably carried out in a heated mold, where several flat material webs one above the other like laminate are arranged so that the process of curing in the heated mold can be performed.

The embossing preferably results in elevations and recesses with a rounded shape formed in a regular pattern of what the Possibility opened using the workpiece carrier of spacers in a defined position one above the other to arrange.

As a one-piece monolithic workpiece carrier is also understood to be one of a plurality of hollow strand elements manufactured in wet winding technology is formed with a polygonal cross-sectional shape, which in wet state pressed together and then to Formation of the monolithic body are hardened (fig 3).

Between the hollow strand elements pressed together or to summarize a group of Hollow strand elements can be impregnated Fiber mats are used that are wet are arranged between the hollow strand elements to their To improve connection to each other, or to form a Bundles are wrapped around the hollow elements. In each The case becomes a one-piece joint-free after curing monolithic workpiece carrier received.

After a particularly advantageous inventive idea, which relates to all embodiments of the invention can refer to the workpiece carrier Stack interfaces with which spacers such can work together that multiple workpiece carriers are stackable on top of each other. Are preferred these stack interfaces by in the stack direction provided recesses, into which spacers can intervene.

These recesses can be embossed or, for example punched through openings in one piece be a monolithic workpiece carrier. If the Workpiece carrier an embossed and embossed It is a structure that shows recesses as advantageous, the openings in the surveys and / or To provide recesses.

Figur 1

eine monolitische Ausführungsform eines erfindungsgemäßen in Flächenpresstechnik hergestellten Werkstückträgers;

Figur 2

die Verdeutlichung eines Stapelprinzips für den Werkstückträger nach Figur 1;

Figur 3 a-c

die Herstellungsschritte einer weiteren Ausführungsform eines monolithischen Werkstückträgers;

Further features, details and advantages of the invention result from the attached patent claims and the drawing and the following description of preferred embodiments of the invention. The drawing shows:

Figure 1

a monolithic embodiment of a workpiece carrier according to the invention manufactured in surface press technology;

Figure 2

the clarification of a stacking principle for the workpiece carrier according to Figure 1;

Figure 3 ac

the manufacturing steps of a further embodiment of a monolithic workpiece carrier;

FIG. 1 shows a monolithic workpiece carrier 2 (Base grating), manufactured using prepreg technology. With Matrix precursor soaked tissues are placed on a press mold placed with ridges 24 and depressions 25 and then pressed. After curing and transformation in fiber composite material are in the increases 24 used by a surface grinding process Openings 26 introduced, and there is a plane Surface for receiving workpieces.

Figure 2 shows an example of a connection or Spacer 27 as a stacking aid for the invention Workpiece carrier 2 in Figure 1. A tube 28 from fiber composite ceramic material acts as a spacer 27 between the upper and lower workpiece carrier. The six pins 29 each attached to the circumference of the pipe ends engage in the openings 26 and prevent The spacer 27 slips.

Figures 3a-c show a winding technique for manufacturing a monolithic honeycomb structure in one Workpiece carrier 3. The individual honeycombs are placed on one corresponding core 30 wound so that hollow profiles 31st arise. Then the still wet, wound Hollow profiles 31 folded, pressed and cured. A monolithic base body 32 is created, which follows The cores are cut to the final shape 3 can be. The upper or lower narrow side the honeycomb segments 35 as a support surface for the workpieces used.

Since the individual honeycombs are only connected via the matrix, can the bending strength of the entire grate by inserting or wrapping impregnated fiber mats 34 between the individual hollow profiles 31 or around the whole structure be improved. Then the hollow profiles 31 pressed, hardened and carbonized, there is also Fiber orientations between the individual honeycombs in the Composite.

By winding fiber strands only elongated Hollow body 31 are made because the fibers are oblique and must be wound up crosswise. To a narrow one To produce rust, this has to be made of stacked, elongated Formed hollow bodies separated into segments 35 become. To save the separation, this can Wrapping technology can be modified by adding one Rust-proof woven tape and then impregnated onto one Core is wound. This band has a width, which corresponds to the height of the workpiece carrier to be manufactured, on and can simultaneously strengthen the connection be used between the hollow profiles.

Claims (6)

1. Work-piece carrier (2) made from heat-resistant fibre compound ceramic material for the heat treatment of work-pieces arranged thereon, with, in usage, work-piece support zones facing upwards which are spaced from each other in a supporting plane in such a way that the work-piece carrier, on the whole, is open for liquid or gaseous treatment media, characterised in that it is formed in one piece and monolithically by a shaped flat material course of a fibre material soaked with a binding agent and that, by means of the shaping process, crest-shaped elevations (24) and recesses (25) are formed in the flat material course, and that openings (26) are formed in the crest-shaped elevations (24) and/or in the recesses (25).
2. Work-piece carrier according to Claim 1, characterised in that the elevations (24) and recesses have a rounded shape.
3. Work-piece carrier according to Claims 1 or 2, characterised in that the elevations (24) and recesses (25) are arranged according to a regular pattern, and that the openings (26) form pile interfaces for the engagement of distance pieces.
4. Work-piece carrier (3) made from heat-resistant fibre compound ceramic material for the heat treatment of work-pieces arranged thereon, with, in usage, work-piece support zones facing upwards which are spaced from each other in a supporting plane in such a way that the work-piece carrier, on the whole, is open for liquid or gaseous treatment media, characterised in that it is executed in one piece and monolithically, where it is formed from several one-piece monolithic hollow strand elements (31) with polygon cross-section form, coiled onto a turning core (30) with the wet coiling method, where several such hollow strand elements (31) are pressed in wet condition and are finally hardened out for forming the one-piece monolithic body (32).
5. Work-piece carrier according to Claim 4, characterised in that the work-piece carrier is formed as a longitudinal section (35) of the hollow strand elements (31) pressed together.
6. Work-piece carrier according to Claims 4 or 5, characterised in that impregnated fibre mats (34) are arranged between the hollow strand elements (31) lying together, or between groups of several hollow strand elements lying together.

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