DE4312744A1 - Extruded multi-chamber glass profiles - Google Patents

Abstract

The invention relates to multi-chamber glass profiles, in particular extruded multi-chamber glass profiles. The object of the invention is to develop these glass profiles, having three and more chambers of different shapes and arrangements with respect to one another and different outer contours, as a starting profile for various further-processing processes to give different end products. The extruded multi-chamber glass profiles are characterised in that they comprise three or more chambers of the same or different shapes and sizes in various arrangements with respect to one another or around a central chamber and are designed in their outer contour as round, oval, elongate or multi-membered multi-chamber glass profiles. Figure 4 shows a round multi-chamber glass profile having a central chamber and preferably six segmental chambers. <IMAGE>

Description

The invention relates to extruded profiles made of thermo plastic materials, especially continuously drawn strand-shaped multi-chamber glass profiles, which are preferred consist of two or more chambers and to Decorative and advertising products are processed.

Extruded profiles made of thermoplastic materials, especially glass, are machined in a known manner produced. The best known methods include those with a rotating whistle Danner and Philips Procedure, either using the glass on the outer surface or on the inside of a rotating, inclined pipe is formed into a glass tube.

Another group of processes works with a drawing nozzle, whereby either the glass tube is pulled upwards accordingly the method according to Schuller, Corning, Koroljow or Shapiro or the glass tube is pulled down according to the Vello, Hänlein or Corning process.

The products manufactured by the above methods result in the supply of blown air glass tubes or in closed pipe glass rods. The shapes of these glass tubes or glass rods can be extremely diverse, on be The most well-known are glass tubes or glass rods with a round outer contour and possibly even thick walls. These rotationally symmetrical bodies, and here at all mainly the glass tubes in the dimensions of 10th . . 330 mm outer dimension and 0.4. . . 12 mm wall thickness, are used as vials or ampoules, pipelines or heat exchanger. A profiled glass tube that  wavy on both the outer and inner contours can be described in DE 37 20 526 A1. Special shapes are the occupied or unoccupied capillary tubes, often in prismatic (triangular) or also in a round outer contour with a round, oval or sickle shaped opening and large wall thickness.

Other outer contours, e.g. B. hexagonal or oval with uniform wall thickness, are called a cladding tube for Thermometer can also be manufactured.

The commonality of all previously known strand ge drawn glass profiles is that each product only has an opening.

For very special areas of application, e.g. B. as a quartz heater conductor carriers, so-called double tubes are known at where two individual pipes are inseparably melted together are converted into an oval by the two-step process Cladding tube two round glass tubes can be pushed positively and this three-pack afterwards on a warping system is pulled out to the double pipe. Is very complicated the production of profiles using the two-stage process with more than two openings since the heating process of outside inside depending on the type of glass, number of tubes and Wall thickness of the pipes is delayed and a pipe shaping e.g. T. makes impossible.

The invention therefore has as its object glass tubes, especially continuously drawn glass tubes from a Melt with three or more openings in a glass profile, preferably to develop multi-chamber glass profiles, which it allow ver by special arrangements of the openings to create diverse products of high quality and that Simplify further processing.  

According to the invention the object is achieved in that the Multi-chamber glass profiles continuously from a glass melt drawn infinitely long extruded profiles with at least three, preferably several gas-tightly separated from each other Openings and any outside and inside contours represent.

The strand-shaped multi-chamber glass profiles can according to your outer form can be divided into three groups, the band-shaped extruded glass profiles, at least three The multi-leg openings lie in a row extruded glass profiles, with at least three openings are arranged symmetrically around a center and preferably round extruded glass profiles, wherein an opening in the middle of the strand-shaped glass profile and at least two openings are stored around the middle opening are.

According to the invention, the outer contours are all three Groups either straight, round or oval with any shape Chamber openings or they are the contours of these arbitrarily shaped chamber openings with approximately the same Adjusted wall thickness.

Accordingly, the chamber openings are in accordance with the invention all profile shapes either round, four or multi-surface, segmented or kidney-shaped.

The chamber openings in multi-legged and elongated Glass profiles preferably have the same opening contours and the chamber openings around a central Core opening are preferably have a deviating from this opening contour.

A particularly preferred for many applications interesting strand-shaped glass profile is marked through a central opening leading to the outer surface of the strand-shaped glass profile has no connection and  According to the invention, at least 2 are arranged around this central opening Has chamber openings, so that by at least two, preferably 180 ° offset glass webs, these means opening arranged centrally in the strand-shaped glass profile is.

At three and more at the same angle around the center opening arranged chamber openings has the strand-shaped glass profile three or more glass bars arranged at equal angles.

The wall thickness of the center tube with the center opening hal tendency glass webs or the wall thickness between two openings in the case of ribbon-shaped, strand-shaped glass profiles and invented for multi-leg extruded glass profiles approximately the same value as the wall thickness of the center tube and / or the outer contour of the glass profile.

Particularly vulnerable to breakage in terms of existing or in Processing process of building mechanical and thermal stresses are the locations of the glass profile, where a glass bridge or a wall with the wall of the center tube or the outer wall thickness of the strand-shaped glass profile approximately at right angles together to meet.

According to the multi-chamber glass profiles are ge indicates that the size of the radii at these transition points at least equal to the wall thickness of the glass webs and / or the wall thickness of the outer contour or the middle chamber of the glass profile.

Have the central opening in a strand-shaped glass profile and the outer openings have the same contours themselves with some particular arrangements of the outer Openings to the center opening different wall thicknesses of the Profiles.  

There are two according to possible special applications or several outer openings to a central opening ordered that the glass thickness between the outer and the The central opening is a multiple of the wall thickness of an outer one Opening.

To avoid increased tension, to improve the stability of the glass profile and to reduce the weight of the glass profile are preferably at the points with increased glass mass, strand-shaped capillary according to the invention openings that are round or round in shape are oval, triangular or polygonal or have such a shape, that the resulting wall thicknesses for a stable Glass profile are approximately the same at every point.

The multi-chamber glass profiles according to the invention have the Advantage that due to its structure from several chambers and their outer contours mostly only continuously from a glass melt at processing temperature preferably be pulled without changing the outer contour as well as the shape and number of chambers in further processing occur.

As semi-finished products, these glass profiles are for a large number of applications more suitable than the z. Z. known Semi-finished products for the respective application as a discharge vessel, Heat exchanger or transport line.

This is compared to a more cost-effective production given a known multi-stage process.

The strand-shaped multi-chamber glass profile according to the invention is intended to be based on several preferred embodiments are explained in more detail.  

In the drawings:

Figure 1 is a round multi-chamber glass profile with a central chamber and two kidney-shaped chambers.

Fig. 2 is a round multi-chamber glass profile with a central chamber and four sector-shaped chambers;

Fig. 3 is the transition radius of an outer wall thickness of the glass web thickness;

Fig. 4 is a round multi-chamber glass profile with a central chamber and a plurality of segment-shaped chambers;

Fig. 5 is an elongated straight glass profile with square chambers;

Fig. 6 is an elongated round glass profile having a plurality of round compartments;

Fig. 7 is an approximately round multi-chamber glass profile having two opposed kidney-shaped chambers and a central chamber;

Fig. 8 is a star-shaped multi-chamber glass profile with a central chamber, a plurality of round compartments and a plurality of capillary openings;

Fig. 9 a straight star-shaped multi-chamber profile with several round glass chambers;

Fig. 10 is a round star-shaped multi-chamber glass profile with several round chambers.

Fig. 1 shows a strand-like multi-chamber glass profile that consists of three chambers, and showing a round strand-shaped glass profile 1. Two kidney-shaped chambers 7 completely close the central chamber 9 , which is arranged centrally by two opposing glass webs 10 in the middle of the strand-shaped multi-chamber glass profile. The wall thicknesses in the strand-shaped multi-chamber glass profile, the outer wall thickness 11 , the inner wall thickness 12 and the wall thickness of the glass webs 13 are approximately the same.

Figs. 2 and 4 also represent round rod-shaped multi-chamber glass profiles with segment-shaped chambers 8 and a central intermediate chamber 9, in which FIG 2, four segment-shaped chambers. Has 8 and four glass webs 10 and webs Fig. 4 with six sector-shaped chambers 8 and six glass 10 is shown.

14 Fig. 3 shows the junction as a detail of Fig. 1, 2, 4 and 7.

An optimal stability of the multi-chamber glass profiles at the connection points 14 is then achieved according to the invention that the wall thickness of the glass webs 13 is preferably equal to the outer wall thickness 11 and this wall thickness is equal to the value of the radius r at the connection point 14 .

Fig. 5 shows an elongated straight strand-shaped glass profile 2 with four square chambers 6th The straight surface between the chambers 6 is characteristic .

In FIG. 6, an elongated round strand-shaped glass profile 3 is shown with round chambers 5, whose outer surface has moved to the glass webs 10 and thus has a uniform wall thickness throughout the glass profile.

FIG. 7 is similar to FIG. 1 and shows an approximately round multi-chamber glass profile with elongated kidney-shaped chambers 7 and two opposite straight lines and a round middle chamber 9 .

Fig. 8 shows a star-shaped, preferably a four isosceles strand-shaped glass profile 4, wherein the central chamber is approximately 9 and the symmetrical anlagernden chambers also round chambers 5 are. The wall thicknesses between the chambers are minimized by capillary openings 15 in order to thereby increase the stability.

Fig. 9 also shows a star-shaped straight glass profile 4 , which consists only of round chambers 5 without a central chamber 9 and preferably has four legs offset by 90 °, each with two round chambers 5 , the outer contour between round chambers 5 of each leg is straight.

Fig. 10 shows a circular star-shaped glass profile 4 with preferably at an angle of 120 ° apart legs. The outer contour of the legs is adapted to the round chambers 5 , so that there is a uniform wall thickness in the entire strand-shaped glass profile 4 .

Figs. 1 to 10 are only an extract according to the invention it is, in other alternative solutions, both the outer contour and the contour of the chambers ver different shapes can accept. In addition, the number of legs and the chambers is still variable, so that there are still a variety of strand-shaped multi-chamber glass profiles.

Reference list

1 round or oval strand-shaped glass profile
2 elongated straight strand-shaped glass profiles
3 elongated round strand-shaped glass profile
4 multi-leg straight or round strand-shaped glass profiles
5 round chamber
6 square chamber
7 kidney-shaped chamber
8 segment-shaped chamber
9 middle chamber
10 glass bars
11 outer wall
12 inner wall
13 wall thickness of the glass webs
14 connection points
15 capillary openings

Claims (12)

1. multi-chamber glass profiles, in particular extruded multi-chamber glass profiles, characterized in that
that the multi-chamber glass profiles consist of three or more chambers of the same or different shape and size in different arrangements to each other or around a central chamber
and in their outer contour as round or oval ( 1 ), as elongated straight ( 2 ), as elongated round ( 3 ) or as multi-leg straight or round ( 4 ) more chamber glass profiles. 2. Multi-chamber glass profiles according to claim 1, characterized in that the chambers are designed as round, as square, as kidney-shaped or as segment-shaped chambers ( 5; 6; 7; 8 ). 3. Multi-chamber glass profiles according to claim 1 and 2, characterized in that two kidney-shaped chambers ( 7 ) or three and more segment-shaped chambers ( 8 ) are separated from one another by glass webs ( 10 ) and with their inner walls ( 12 ) a round, oval or polygonal Middle chamber ( 9 ) and with their outer walls ( 11 ) form a round or oval strand-shaped glass profile ( 1 ). 4. Multi-chamber glass profiles according to claim 1 and 2, characterized in that three or more round, oval, square or polygonal chambers ( 5; 6; 7; 8 ) are arranged in series one behind the other and separated by glass webs ( 10 ) and with their outer Form walls ( 11 ) an elongated straight strand-shaped glass profile ( 2 ) or an elongated round strand-shaped glass profile ( 3 ). 5. Multi-chamber glass profiles according to claim 1 and 2, characterized in that three or more preferably round chambers ( 5 ) around a center or a central chamber ( 9 ) are star-shaped and with their outer walls ( 11 ) a multi-leg straight or round strand-shaped glass profile ( 4 ) result. 6. Multi-chamber glass profiles according to claim 1 to 5, characterized in that the thickness of the outer walls ( 11 ), the inner walls ( 12 ) and the wall thickness of the glass webs ( 13 ) preferably have the same size. 7. multi-chamber glass profiles according to claim 1 to 6, characterized in that all the connection points ( 14 ) between the outer wall ( 11 ), inner wall ( 12 ) and / or glass webs ( 13 ) radii r of preferably r1.0 of the wall thicknesses s ( 11, 12, 13 ). 8. Multi-chamber glass profiles according to claim 1, 4 and 5, characterized in that in the case of elongated round extruded glass profiles ( 3 ) and in the case of multi-leg round extruded glass profiles ( 4 ) with preferably round chambers ( 5 ), the outer walls ( 11 ) at the connecting points ( 14 ) have moved in. 9. Multi-chamber glass profiles according to claim 1 to 8, characterized in that with larger wall thicknesses ( 11, 12, 13 ) s <r in the connection points ( 14 ) capillary openings ( 15 ) are preferably of round, oval or polygonal contour. 10. Application of multi-chamber glass profiles after one or several of claims 1 to 9 as a heat exchanger. 11. Application of multi-chamber glass profiles after one or several of claims 1 to 9 as discharge vessels, preferably for compact fluorescent lamps. 12. Application of the multi-chamber glass profiles after one or several of claims 1 to 9 as a transport line.