EP0331154A1 - Tube provided with an enlarged portion for metal vapour discharge lamps - Google Patents

Abstract

Bulbous tube burner for metal vapour discharge lamps made of transparent sintered ceramic are manufactured by assembling at least two rotationally symmetrical hollow bodies in the green state and then sintering them to obtain a single piece. A tubular central piece (2), for example, can be joined to funnel-shaped end pieces (1). The junction regions (3) can be in the form of conical (13) or hollow conical (12) seams or have denticulations.

Description

The invention relates to a bulbous burner tube for metal vapor discharge lamps made of transparent sintered ceramic. The production of bulbous burner tubes for metal vapor discharge lamps is known from EP-PS 00 72 190 and is carried out according to this publication in that a ceramic mass containing a thermoplastic as a binder additive is extruded into a tube and then inflated in a mold. Inflating the thermoplastic body, however, leads to considerable difficulties, which are particularly noticeable in the later stage during sintering. Inflation results in a reduction in the wall thickness, which cannot be controlled with absolute certainty, since it is influenced by the direction of the air flow and the temperature change in the plastic mass caused thereby, and furthermore, stresses result. Both lead to the formation of cracks during the sintering process, which means that a relatively high reject rate is incurred. The production speed also depends on the number of blow molds available, since the hardening must take place in the mold, so there is a production bottleneck in time.

From EP-OS 0 232 048 it is known to manufacture cylindrical tubes for bulbous burner tubes for metal vapor discharge lamps and to insert a flange-provided stopper on both sides into the green body tubes, which plug is intended to receive the electrodes. In this construction, the masses differ from one another in terms of their shrinkage during sintering, i. H. the mass for the tube shrinks more so that it lies tightly around the plug and connects to it during sintering. It is essential in this construction that the stopper has been provided with a collar, so that it is sintered in a specific position, namely in contact with the collar on the pipe. Bulbous burner tubes for metal vapor discharge lamps cannot be produced using this process. Furthermore, it is necessary to use the plugs very precisely, since otherwise cracks can form in the end region of the pipe, that is to say in the region in which the plug is to connect to the pipe.

The object of the present invention is therefore to largely avoid cracking and thus rejects during manufacture, to speed up the manufacturing process and to use as few and simple shapes as possible for the manufacture of the bulbous burner tubes for metal vapor discharge lamps.

This object is achieved in a bulbous burner tube for metal vapor discharge lamp in that it consists of at least two rotationally symmetrical hollow bodies which are joined together in the green state and then sintered together to form an integral part.

The rotationally symmetrical hollow bodies expediently consist of two funnel-shaped end pieces connected to one another by sintering, but, according to a further preferred embodiment of the invention, can also consist of a tubular middle piece with funnel-shaped end pieces arranged on both sides thereof. The sintered connection is advantageously arranged in the end region of the bulbous burner tube for metal vapor discharge lamp.

A funnel-shaped end piece in the sense of the present invention is to be understood both as the shape of a funnel, the cylindrical outlet opening of which converts into an expanding truncated cone, alternatively, instead of the truncated cone, an arched body of hemispherical or semi-barrel-shaped shape is to be understood as such. Bulbous in the sense of the present invention are to be understood to mean both hemispherical and barrel-shaped structures as well as those hollow bodies which have a cylindrical center piece and in both end regions with funnel-shaped end pieces according to the preceding definition are provided.

The separate production of rotationally symmetrical hollow bodies as a single part and the joining of these hollow bodies to form a green body results on the one hand in very simple geometric shapes, which make it possible to carry out the ceramic composition both as an injection molding compound and to spray the molds, which allows quite high cycle times, on the other hand, the bodies can be produced just as well by the usual powder pressing process and, as a third, the combination of all these processes, in addition to extrusion, is also possible. that is, as before, a tubular middle piece is manufactured in the extruder and this middle piece is joined with funnel-shaped end pieces.

The assembly can take place in such a way that the funnel-shaped end pieces are inserted into the tubular middle piece and fastened therein, or that the funnel-shaped end pieces encompass the pipe pieces. Similarly, a funnel-shaped end piece with a larger inner diameter can be manufactured and the other funnel-shaped end piece can be inserted into the large funnel opening. In all these cases, it is necessary to work with differently shrinking masses, ie that the rotationally symmetrical body, which is arranged on the outside, must have a greater shrinkage capacity than the body arranged on the inside, on which the Shrink outer body.

It is different if, according to advantageous embodiments of the invention, the sintered connection has connection areas which are designed as a cone or hollow cone, as a step or as a toothing. In these cases, it is imperative that no different shrinkage occurs between the individual rotationally symmetrical hollow bodies, since otherwise no bond will come about. There is therefore no need to produce a second different ceramic mass.

Even more important in this context is the saving in manufacturing molds, since the manufacture of a bulbous burner tube for metal vapor discharge lamp is possible with just one mold, if the connection area is toothed, because only two funnel-shaped end pieces with their wide funnel area against each other by half a tooth pitch must be staggered and sintered.

The tooth shape as such can be rectangular or triangular. According to a particularly preferred embodiment of the invention, however, the toothing is trapezoidal or undulating.

With rectangular toothing, the insertion is to be carried out very precisely, whereas with wave-shaped or trapezoidal toothing a self-centering effect occurs, which Assembling the individual funnel-shaped end parts favors.

A further embodiment of the invention provides that the connection areas of the sintered connections are designed as cones or hollow cones. Further expedient configurations provide that the connection area is designed as a step or as an annular flange.

In the design of the connection areas as a cone or hollow cone, centering takes place over the entire surface, whereby in the three-part embodiment of the bulbous burner tube for metal vapor discharge lamp, the tubular center piece is expediently designed as a cone and the two funnel-shaped end pieces as a hollow cone. This construction ensures that the individual parts are centered quickly and easily. The same applies to the design of the connection areas as a flange or as a step.

• Fig. 1 zeigt als Explosionsschaubild drei Grünlinge, die zu einem bauchigen Brennerrohr für Metalldampfentladungsröhre zusammengefügt werden können,
• Fig. 2 die zusammengefügten Grünlinge,
• Fig. 3 und Fig.4 die zusammengefügten Grünlinge in Radial- bzw. Axial-Schnitt,
• Fig. 5 den gleichen Schnitt wie Fig. 4 nach dem Vorbrand,
• Fig. 6 einen Längsschnitt durch das fertig gesinterte Brennerrohr für Metalldampfentladungslampe,
• Fig. 7 zwei zu einem Brennerrohr für eine Metalldampfentladungslampe zusammengefügte trichterförmige Endstückrohrlinge,
• Fig. 8 die Muffenverbindung zwischen einem rohrförmigen Mittelstück und zwei trichterförmigen Endstücken als Grünlingzusammensetzung,
• Fig. 9 zwei spitzverzahnte trichterförmige Endstücke vor ihrem Zusammensetzen,
• Fig. 10 die zusammengefügten zwei spitzverzahnten trichterförmigen Endstücke als Grünling,
• Fig. 11 bis 14 Verzahnungsarten,
• Fig. 15 die Verbindung von zwei ungleich langen trichterförmigen Endstücken,
• Fig. 16 die Verbindung von zwei gleichgroßen trichterförmigen Endstücken mit einem rohrförmigen Mittelstück über Verzahnung,
• Fig. 17 die Flanschverbindung zwischen rohrförmigem Mittelstück mit trichterförmigem Endstück,
• Fig. 18 die Verbindung zwischen zwei trichterförmigen Endstücken über eine Stufe,
• Fig. 19 und Fig. 20 die Verbindung zwischen rohrförmigem Mittelstück und trichterförmigem Endstück über Kegel/Hohlkegelform.

The invention is described below with reference to the drawings.

• 1 shows an exploded diagram of three green compacts which can be joined to form a bulbous burner tube for a metal vapor discharge tube,
• 2 the assembled green compacts,
• 3 and 4, the assembled green bodies in radial or axial section,
• 5 shows the same section as FIG. 4 after the pre-firing,
• 6 shows a longitudinal section through the finished sintered burner tube for metal vapor discharge lamp,
• 7 shows two funnel-shaped end tube blanks joined together to form a burner tube for a metal vapor discharge lamp,
• 8 shows the sleeve connection between a tubular middle piece and two funnel-shaped end pieces as a green body composition,
• 9 two pointed-toothed funnel-shaped end pieces before they are assembled,
• 10 the joined two pointed toothed funnel-shaped end pieces as a green body,
• 11 to 14 types of toothing,
• 15 shows the connection of two differently long funnel-shaped end pieces,
• 16 shows the connection of two funnel-shaped end pieces of the same size with a tubular middle piece via teeth,
• 17 shows the flange connection between the tubular middle piece with the funnel-shaped end piece,
• 18 shows the connection between two funnel-shaped end pieces via a step,
• 19 and 20 show the connection between the tubular middle piece and the funnel-shaped end piece via the cone / hollow cone shape.

According to FIG. 1, a pressed or injection-molded funnel-shaped end piece (1) is inserted into the extruded or pressed tubular middle piece (2), to which an adhesive dot (5) has previously been applied in order to produce a temporary connection. This adhesive point (5) can consist of a hot melt or of a so-called super glue, ie a binder that sets very quickly. It is important that the adhesive point (5) hardens within a few seconds so that production can proceed quickly. After the funnel-shaped end pieces (1) have been joined together with the tubular middle piece (2), a green compact (6) results, as shown in FIG. 3, which has a gap (5) of uneven width in the connecting region (3), whereby the greatest width of the gap (5) is in the area of the adhesive point (4), which can be clearly seen from FIG. 4. After the adhesive has set, the green compact (6) is ready for the pre-firing. Since the tubular middle piece (2) was made from a mass with higher shrinkage, the pre-firing, which was carried out at a temperature between 700 and 1200 degrees, results in the tubular middle piece (2) shrinking onto the funnel-shaped end pieces (1), whereby the blank (14) is created. As a result of the preliminary firing, the binders, ie both the material that was used as an adhesive and what was used as a plastic binder to bind the ceramic mass and to enable pressing or extrusion or spraying was expelled. At the same time, the shrinking takes place, so that there is now a connection between the funnel-shaped end piece (1) and the tubular middle piece (2) solely by the shrinking process. The blank (14) thus obtained is subjected to sintering at 1,800 to 2,000 degrees under vacuum or in a hydrogen protective gas atmosphere, as a result of which the funnel-shaped end piece (1) with the tubular middle piece (2) forms an integral part in the connecting region (3) transparent finished part (7), connects.

In an analogous manner, as shown in FIG. 7, the bulbous burner tube for metal vapor discharge lamp can be produced by connecting two funnel-shaped end pieces (1), in which case the funnel-shaped end piece (1) with the larger inner diameter is the part that consists of a more shrinking ceramic mass was pressed. In this construction too, the second funnel-shaped end piece (1) is provided with an adhesive point (4) and in this case is inserted into the large opening of the funnel-shaped end piece (1) with the greater shrinkage and the green body (6) thus obtained is subjected to a preliminary burn.

Fig. 8 shows a sleeve connection between the tubular center piece (2) and funnel-shaped end pieces (1). In this case, the funnel-shaped end pieces (1) are made from a ceramic mass that has a higher shrinkage. The sleeve (15) of the funnel-shaped end piece (1) overlaps the connecting area (3) of the tubular middle piece (2) and, after prebaking, results in the blank (14) shown in FIG. 8.

Fig. 9 shows a perspective view of two funnel-shaped end pieces (1), in which the connection area (3) is designed as a zigzag seam (8). On three tooth surfaces (14) of the zigzag seam (8) distributed over the circumference of the connection area (3), an adhesive point (4) is applied, which consists of a hot melt.

After joining the two funnel-shaped end pieces (1), as exaggerated in FIG. 10, there is a gap (5) which extends as fine as a circumferential zigzag seam (8) in the connection area (3) around the green body (6).

11 to 14 are developed partial views of the connection area (3). 11 shows the zigzag seam (8) already described, FIG. 12 shows a wave seam (9), FIG. 13 shows a rectangular seam (11) and FIG. 14 shows a trapezoidal seam (10). All four figures show the connection area (3) of a green compact (6) with the gap (5) shown in an exaggerated size and the adhesive point (4) arranged between them.

Fig. 15 differs from Fig. 9 essentially in that the funnel-shaped end pieces (1) are of unequal length, i. That is, the cylindrical region (16) of the funnel-shaped end piece (1 ') is longer than the cylindrical region (16') of the funnel-shaped end piece (1).

16, the green compact (6) consists of three individual parts, two funnel-shaped end pieces (1) and a tubular middle piece (2). The funnel-shaped end pieces (1) are configured identically, so that only two shapes are required to produce the green compact (9).

17, the funnel-shaped end piece (1 ') is equipped with an elongated cylindrical region (16) which is closed by a funnel-shaped end piece (1) with an annular flange (18). The version shown is already a blank (14), i. That is, the green body (6) composed of the funnel-shaped end piece (1) and the funnel-shaped end piece (1 ') has already been subjected to a preliminary fire in which the plastic parts of the masses have been substantially expelled, i.e. that is, the adhesive dot (4) is no longer present in this state.

The embodiment according to FIG. 18 differs from the one described above in that the green compact is constructed in three parts, ie again contains a tubular middle piece (2) which was closed on both sides by funnel-shaped end pieces (1). In this case, however, the connection area (3) is designed in the form of a step (19). The embodiment again shows the blank (14), that is to say the state after the pre-firing.

Fig. 19 largely corresponds to the structure of Fig. 1, but the funnel-shaped end pieces (1) are designed differently, i. H. the outer diameter of the largest funnel area is identical to the outer diameter of the tubular middle piece (2), furthermore the connection area (3) is constructed differently. The connection point on the tubular middle piece (2) is designed as a hollow cone seam (12) and on the funnel-shaped end piece (1) as a cone seam (13).

Claims (9)

1. Bulbous burner tube for
Metal vapor discharge lamps made of transparent sintered ceramic, characterized in that it consists of at least two rotationally symmetrical hollow bodies which are joined together in the green state and then sintered together to form an integral part. 2. Bulbous burner tube for
Metal vapor discharge lamps made of transparent sintered ceramic according to claim 1, characterized in that it consists of a tubular middle piece (2), each with a funnel-shaped end piece (1) connected to the middle piece by sintering, the connecting region (3) at the ends of the bulbous burner tube for metal vapor discharge lamps is arranged. 3. Bulbous burner tube for
Metal vapor discharge lamps made of transparent sintered ceramic according to claim 1, characterized in that it consists of two by sintering interconnected funnel-shaped end pieces (1), the connecting region (3) being arranged on one of the two ends of the bulbous burner tube for metal vapor discharge lamps. 4. Bulbous burner tube for
Metal vapor discharge lamps according to one of Claims 1 to 3, characterized in that the connecting area (s) (3) are designed as cones or hollow cones (12, 13). 5. Bulbous burner tube for
Metal vapor discharge lamps according to one of claims 1 to 3, characterized in that the connecting region (3) is designed as a step (19). 6. Bulbous burner tube for
Metal vapor discharge lamps according to one of claims 1 to 3, characterized in that a connecting region (3) is designed as an annular flange (18). 7. Bulbous burner tube for
Metal vapor discharge lamps according to one of Claims 1 to 3, characterized in that the connecting area (s) (3) are toothed. 8. Bulbous burner tube for
Metal vapor discharge lamps according to claim 7, characterized in that the toothing forms a trapezoidal seam (10). 9. Bulbous burner tube for
Metal vapor discharge lamps according to claim 7, characterized in that the toothing forms a shaft seam (9).

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