DE4343007A1 - Discharge tube mfg. method using two glass tubes with transverse connection - Google Patents

Abstract

The lamp (10) consists of two tubes (12,14) internally coated with fluorescent material and bent into a U-shape before their respective ends are joined together (16). The tubes are sealed after insertion of electrode connections (18,20) into the other ends. To achieve the transverse connection the open end of each tube is softened and drawn out, the two extensions are turned towards each other and the ends are fused together. Pref. the axes (52,54) of the two tubes are inclined at an angle (alpha) of 1.2 deg. and their U-bends (56,58) brought together with a gap not exceeding 0.2 mm.

Description

The invention relates to a method for producing a discharge lamp, in particular low-pressure mercury vapor discharge lamp, comprising at least two first and second discharge tubes running side by side Glass, the discharge spaces of which have at least one molding of one of the Discharge tubes comprehensive cross connection are connected, to the Her position of the glass cross-connection is softened.

Furthermore, the invention relates to a discharge lamp, in particular Nieder Pressure mercury vapor discharge lamp, comprising at least two side by side running first and second discharge tubes, the inside of a phosphor Have layer and their discharge spaces via at least one request Connection of one of the discharge tubes comprehensive connection are connected.

From DE-PS 8 58 105 is a method for producing elongated Rohrför miger low-pressure mercury vapor discharge lamps known, with the  Manufacture the glass wall of the discharge tube before inserting a light fabric layer is provided with an opening in which after the introduction of the A cross-connection tube is arranged in the phosphor layer. To the phosphor apply, the discharge tubes are filled with a suspension that over the openings can flow out. As a result, it creates problems inside cover the wall homogeneously with fluorescent material. Since there is also fluorescent in The area of the opening is difficult to connect to the cross tube become. The melting of the phosphor also poses the risk of that tensions develop in the glass, which can lead to breakage.

In order to avoid these disadvantages, DE 30 11 383 C2 proposes that before making the connection, the inner walls of the fluorescent tubes be covered with a fluorescent layer. The cross connection also takes place without additional pipe elements, by adding one in the wall of each tube Opening with an outwardly facing collar is formed to subsequently ßend the openings over the collars facing each other merge.

The disadvantage here, however, is that the glass is formed by the formation of the collar strength in this area is uneven, which creates tension in the glass can be detected. As a result, there is also a risk that the glass will break or leaks occur in the area of the connections.

A method for producing a discharge lamp of the type described above Type and such itself can be found in DE 42 02 485 A1. In doing so The pipe ends to be connected are initially closed in order to fit them into mold jaws bring and then shape into a desired geometry. Subsequently the ends are opened and blown using blown air.  

The present invention addresses the problem of a method of a gangs mentioned type for producing a discharge lamp and a discharge to provide the lamp itself, in a simple manner a connection of the discharge tubes is possible without the risk of that tensions build up in the glass or the connection leaks. Also, special shapes for making the cross connection are not required be.

In procedural terms, the problem is essentially solved in that a open end of at least a first discharge tube to form a die Forming forming elongated section softens and in the axial direction of the Discharge tube is tapered so that the elongated section is aimed at the second discharge tube to be connected to the first discharge tube is bent shape-free and that by softening both the extended Ab section of the first discharge tube as well as a correspondingly elongated one, tapered and frontally open section of the second discharge tube or a wall section of the second discharge tube surrounding an opening and Connecting these areas the cross connection is made. In particular is provided that the extended portion is bent shape-free.

The or the extended sections run at least in their Ends essentially perpendicular to the longitudinal axes of the discharge to be connected extension tubes.

The cross connection runs in an end region of the discharge tubes, the is removed with respect to connection electrodes, so that the discharge tubes are largely run through by the discharge.  

In a further embodiment to be emphasized, it is provided that during the shape-free bending of the extended section, that is, its alignment towards the connecting another discharge tube, the discharge space with gas pressurized is struck so that undesirable cross-sectional changes in the elongated Section cannot occur.

Unless an extended section does not match another extended section, but directly or essentially directly with a wall section to be connected to a discharge tube, the invention provides that for Formation of the opening in the second discharge tube softens a wall section and with simultaneous pressurization of the discharge space, a bubble formed and this is then destroyed by the pressure. Then the softened end portion of the elongated section with which softened the opening surrounding wall area of the second discharge tube connected.

In particular, the extended section can have a length that is greater than is required. Before connecting, the extended section is then on the shortened the desired length.

If necessary, it can be provided that the inside is a phosphor layer having discharge tube in the area of the cross connection before making this is cleaned to exclude that fluorescent is inserted in the cross-connection can be closed.

Another feature of the invention to be emphasized is that the Discharge tubes are aligned with each other such that their longitudinal axes converge from the cross-connection. This ensures that even if forces act on the discharge tubes, the Cross connection is excluded.  

The flexibility required for this is particularly the training of Cross connection ensured, especially in the case of a cross connection Two elongated sections preclude uneven wall thicknesses occur.

A discharge lamp, especially low-pressure mercury vapor discharge lamp, comprising at least two first and second ones running side by side Discharge tubes which have a fluorescent layer on the inside and their Discharge spaces via at least one shape of one of the discharge Tubes comprehensive cross connection are characterized in that the cross-connection at least one of one end of one of the discharge tubes outgoing and aligned to the other discharge tube form-free ver extended and reduced in cross-section. The elongated section with an opening in the other discharge tube surrounding wall area must be fused.

However, the elongated section of the first discharge tube is preferably included a shape-free ver starting from one end of the other discharge tube extended and reduced in cross section section fused.

It can further be provided that the phosphor in the area of the cross connection is removed.

According to a proposal of our own, it is provided that the side by side running discharge tubes with their longitudinal axes from the cross connection considered to converge towards their ends. The longitudinal axes close preferably an angle α with 0.5 ° <α <2 °, in particular with α = 1.2 °.  

In order to achieve a high level of stability even when subjected to external forces a development of an invention that the discharge tubes in their Touch the cross-connection to distal ends or almost touch it. Here the discharge tubes can be spaced at their respective ends, 0.1 ± 0.1 mm.

The cross section in the joint area is preferably around 30-70%, in particular 60% less than that of any discharge lamp.

Further details, advantages and features of the invention are not only apparent from the claims, the features to be extracted from them - for themselves and / or in combination - but also from the following description of the Drawing preferred embodiments can be found.

Show it:

Fig. 1 is a schematic representation of a portion of a first execution form of a discharge lamp according to the invention,

Fig. 2 shows a detail of a second embodiment of a discharge lamp produced according to the Invention,

Fig. 3 shows method steps for producing the discharge lamp according to Fig. 1,

Fig. 9 to 11 process steps for producing the discharge lamp according to Fig. 2 and

FIG. 12 shows a front view of a discharge lamp corresponding to FIG. 1.

In the figures, in which basically the same elements are provided with the same reference characters, different embodiments of interconnected discharge tubes are shown, which are intended for a low-pressure discharge lamp such as a low-pressure mercury vapor discharge lamp, one of which is shown purely by way of example in FIG. 12 and with the reference symbol ( 10 ) is provided.

The discharge lamp ( 10 ) consists of two discharge tubes ( 12 ) and ( 14 ), which are coated on the inside in an elongated form with a phosphor and are then formed into a U. The discharge tubes bent into a U-shape are then connected at one end according to the exemplary embodiments of FIGS. 1 to 11 via a cross connection ( 16 ). In the other ends there are connection electrodes ( 18 ) and ( 20 ), via which the discharge tube ( 10 ) is supplied with voltage, so that it is inside the discharge tubes ( 12 ) and ( 14 ), to a large extent that of the discharge tubes ( 12 ) and ( 14 ) surrounding discharge spaces can form a plasma.

In order to ensure that the cross-connection ( 16 ) is easy to manufacture on the one hand and on the other hand this creates no stresses in the glass tubes ( 12 ), ( 14 ) that could lead to destruction or leaks, the following measures are proposed according to the invention.

According to FIG. 3, a discharge tube ( 22 ) is heated at one end ( 24 ) by means of a burner ( 26 ) in order to then be elongated, that is to say tapered. An elongated section ( 28 ) is formed here, the cross section of which is smaller than that of the discharge tube ( 22 ).

The discharge tube (22) is then softened in the transition region between the extended portion (28) and the remaining unchanged in cross-section discharge tube (22) to bend the elongated end (28) by means of the burner (26). Gas is applied to the interior of the discharge tube ( 22 ) in order to ensure during bending that the cross-sectional geometry of the elongated section ( 28 ) is not undesirably changed.

After the elongated section ( 28 ) has been bent, it is shortened to a desired length in order to provide a free end face ( 30 ).

The end ( 30 ) is then connected to an appropriately designed elongated end ( 32 ) of a second discharge tube ( 22 ). For this purpose, the end regions ( 36 ) and ( 30 ) of the extended sections ( 32 ) and ( 28 ) are heated with the burner ( 26 ) and then joined.

According to Thus, there is a discharge tube Fig. 1, wherein the, so that stresses in the glass can not be formed, the discharge tubes (22) and (34) interconnecting cross connection (16) has a substantially unchanged thickness. The approximately U-shaped cross-connection ( 16 ) gives it a certain flexibility, so that even if the discharge tubes ( 22 ) and ( 34 ) are moved towards one another, it is ensured that the cross-connection ( 16 ) does not break.

Is the Fig. 2 or 9 to 11 show a further embodiment for preparing a cross-connection (38) between two discharge tubes (40) and to remove (42), said discharge tube (40) corresponding to the discharge tube (22) or (34) is formed, that is to say has a bent, elongated section ( 28 ) with an end face ( 30 ) which is connected to the discharge tube ( 42 ) in the manner below.

In order to establish a connection between the discharge tubes ( 40 ) and ( 42 ), the discharge tube ( 42 ) is closed at its end ( 44 ).

A wall region ( 46 ) is heated below the closure by means of the burner ( 26 ). At the same time, the interior of the discharge tube ( 42 ) is pressurized with gas, so that a bubble ( 48 ) forms in the area ( 46 ), which bursts when further pressure is applied. A circumferential collar ( 50 ) is thus formed, which is provided with the free end ( 30 ) of the extended section ( 28 ). For this purpose, the areas to be connected are softened by means of the burner ( 26 ).

As the discharge tube (10) of Fig. 12, which shows a cross-connection accordingly the Fig. 1 or 3 to 8 are, (12) and (14) inclined with the discharge tubes with respect to its longitudinal axis (52) and (54) , converge viewed from the cross-connection ( 16 ). The longitudinal axes ( 52 ) and ( 54 ) enclose an angle α, which is preferably in the range between 0.5 ° to 2 °, preferably 1.2.

Furthermore, the discharge tubes ( 12 ) and ( 14 ) can touch in their end regions ( 56 ) which are distant from the transverse connection ( 16 ) and ( 58 ) or can be arranged with only a small distance from one another. The gap in the region of the ends ( 56 ) and ( 58 ) is preferably 0.1 ± 0.1 mm. This has the advantage that even if forces act on the discharge tube ( 12 ) and ( 14 ) from outside, the discharge lamp ( 10 ) is not destroyed, especially since additional flexibility is ensured by the cross-connection ( 16 ).

Claims (17)

1. A method for producing a discharge lamp ( 10 ), in particular a low-pressure mercury vapor discharge lamp, comprising at least two first and second discharge tubes ( 12 , 14 , 22 , 34 , 40 , 42 ) made of glass, the discharge spaces of which comprise at least one molding of one of the discharge tubes cross-connection (16, 38) are connected, wherein the glass it is soaked for preparing the cross-connection, characterized in that an open end (24) at least a first discharge tube (22) to form a the conformation forming elongated portion (28), it softened and is tapered in the axial direction of the discharge tube, that the extended portion is bent to align with the first discharge tube to be connected to the second discharge tube ( 34 , 42 ) and that by softening both the extended portion of the first discharge tube and a correspondingly elongated, tapered one and forehead tig open portion ( 32 ) of the second discharge tube or a wall portion ( 46 ) surrounding an opening ( 48 ) of the second discharge tube ( 42 ) and connecting these areas, the cross connection ( 16 , 38 ) is made. 2. The method according to claim 1, characterized in that the tapered section ( 28 , 32 ) is bent shape-free. 3. The method according to claim 1, characterized in that during the preferably shape-free bending of the elongated section ( 28 , 32 ) of the first or second discharge tube ( 22 , 34 ), the discharge space of the discharge tube is acted upon by gas. 4. The method according to claim 1, characterized in that to form the opening ( 48 ) in the second discharge tube ( 42 ) softens a wall section and a bubble ( 48 ) is formed and this is destroyed while pressurizing the discharge space. 5. The method according to at least one of the preceding claims, characterized in that the extended portion ( 28 , 32 ) is cut to length after its bending. 6. The method according to at least one of the preceding claims, wherein the discharge tube has a phosphor layer on the inside, characterized in that the phosphor layer in the region of the cross-connection ( 16 , 38 ) is removed before the latter is produced. 7. The method according to at least one of the preceding claims, characterized in that the discharge tubes ( 12 , 14 ) are aligned with each other such that their longitudinal axes ( 52, 54 ) converge viewed from the cross-connection ( 16 ). 8. Discharge lamp ( 10 ), in particular low-pressure mercury vapor discharge lamp, comprising at least two first and second discharge tubes ( 12 , 14 , 22 , 34 , 40 , 42 ) running alongside one another, which have a fluorescent layer on the inside and whose discharge spaces have at least one projection ( 28 , 32 ) one of the discharge tubes comprising transverse connection ( 16 ) are connected, characterized in that the cross connection ( 16 , 38 ) at least one of one end of one of the discharge tubes ( 12 , 14 , 22 , 34 , 40 ) and on the other Discharge tube aligned form-free elongated and reduced in cross section ( 28 , 32 ) comprises. 9. Discharge lamp according to at least one of the preceding claims, characterized in that the elongated section ( 28 ) of the one discharge tube ( 40 ) is fused to a wall region ( 50 ) surrounding an opening in the other discharge tube ( 42 ). 10. Discharge lamp according to at least one of the preceding claims, characterized in that the elongated section ( 28 ) of the discharge tube ( 22 ) with one of one end of the other discharge tube ( 34 ) extending from the shape-free extended and reduced in cross section ( 32 ) is fused. 11. Discharge lamp according to at least one of the preceding claims, characterized in that the phosphor is removed in the region of the cross-connection ( 16 , 38 ). 12. Discharge lamp according to at least one of the preceding claims, characterized in that the juxtaposed discharge tubes ( 12 , 14 ) converge with their longitudinal axes ( 52 , 54 ) viewed from the cross-connection ( 16 ) towards their ends. 13. Discharge lamp according to at least claim 12, characterized in that the longitudinal axes ( 52 , 54 ) include an angle α with 0.5 ° <α <2 °, preferably with α = 1.2. 14. Discharge lamp according to at least one of the preceding claims, characterized in that the discharge tubes ( 12 , 14 ) in their cross-connection ( 16 ) remote ends ( 56 , 58 ) touch or almost touch. 15. Discharge lamp according to at least claim 13, characterized in that the discharge tubes ( 12 , 14 ) in their cross-connection ( 16 ) remote ends ( 56 , 58 ) have a distance of 0.1 ± 0.1 mm. 16. Discharge lamp according to at least one of the preceding claims, characterized,  that the cross-section is preferably in the joint area by 30-70%, preferably wise 60% less than that of any discharge tube. 17. Discharge lamp ( 10 ), in particular low-pressure mercury vapor discharge lamp, comprising at least two first and second discharge tubes ( 12 , 14 , 22 , 34 , 40 , 42 ) running alongside one another, which have a fluorescent layer on the inside and whose discharge spaces have an at least one projection ( 28 , 32 ) one of the discharge tubes comprising transverse connection ( 16 ) are connected, wherein the cross connection ( 16 , 38 ) at least one of one end of one of the discharge tubes ( 12 , 14 , 22 , 34 , 40 ) and aligned with the other discharge tube lengthened and reduced in cross-section ( 28 , 32 ), characterized in that the juxtaposed discharge tubes ( 12 , 14 ) converge towards the ends with their longitudinal axes ( 52 , 54 ) as viewed from the transverse connection ( 16 ), whereby the longitudinal axes ( 52 , 54 ) enclose an angle α with 0.5 ° <α <2 ° and the discharge tubes ( 12 , 14 ) touch or almost touch in their ends ( 56 , 58 ) remote from the cross-connection ( 16 ).