EP2017876A1 - Carrying element with a material containing hg attached for supplying a discharge lamp and discharge lamp with such a carrying element - Google Patents

Abstract

The element (11) has a mercury-containing material formed as a bar shaped elongate element (12) and arranged in fixtures (14, 15), a tubular intermediate support and a recess, where the bar shaped element includes definite quantity of mercury per unit length. The quantity of mercury applied specifically at the carrier element is dosed dependent on a length of the bar shaped element. The bar shaped element includes 0.46 milligrams mercury per millimeter. An electrode is arranged in a discharge vessel of a discharge lamp e.g. fluorescent lamp.

Description

Carrier element, on which a Hg-containing material is designed for attachment in a discharge lamp, and discharge lamp with such a support element

Technical area

The invention relates to a carrier element, on which a Hg-containing material is designed for attachment in a discharge lamp, and a discharge lamp with such a carrier element.

State of the art

The introduction of mercury in discharge lamps, in particular low-pressure discharge lamps, is known and can be done, for example, with a metal strip, which is coated accordingly. From the WO 98/14983 a low-pressure discharge lamp is known, in which a carrier element, which is plate-like, is arranged in a discharge vessel of the lamp and in particular is fastened, for example, to an electrode frame. The carrier element is surface-coated and has, on the one hand, a coating with an Hg-containing material and, on the other hand, a coating with a getter material. The two coatings are separated from each other. The support member may be a substantially flat plate or even an angled formed plate.

Usually, such a surface coating is carried out with a screw vibration system, for which purpose a corresponding powder is applied to the carrier element and distributed. By this procedure the dosing accuracy is completely dependent on the dosing system and relatively inaccurate. As a result, the mercury concentration fluctuates, whereby the functionality of the charge lamp can be impaired

Presentation of the invention

It is an object of the present invention to provide a carrier element in which the dosage of the Hg-containing material can be improved. In particular, it is also an object to provide such a manufacturing method for a carrier element. Likewise, a discharge lamp is to be provided with a carrier element in which the functionality can be improved by a more precise and accurate adjustment of the amount of mercury.

This object is achieved by a carrier element, which has the features according to claim 1, and a discharge lamp, which has the features according to claim 15.

An inventive carrier element is designed for mounting in a discharge lamp. On the support element, a Hg-containing material is arranged. This Hg-containing material is formed as a rod-shaped element and arranged on a holder of the carrier element. Such a configuration, the simple and low-cost attachment of the Hg-containing material can be achieved and beyond a very accurate and reproducible amount of mercury per carrier element can be dosed. In particular, very small amounts of mercury can be precisely metered.

Preferably, the rod-shaped element is designed such that it has a defined amount of mercury per unit length and the amount of mercury to be attached to the carrier element can be metered depending on the length of the element. As a result, the mercury concentration can be adjusted and reconstructed in a very simple and quickly reproducible manner, since only a desired length of the element has to be used in order to be able to provide the carrier element with a desired mercury concentration.

Preferably, the rod-shaped element has a mercury concentration of 0.46 mg per millimeter. In particular, a wire with a corresponding definition of the amount of mercury per unit length at a specific diameter is provided here as a rod-shaped element. This mercury concentration per unit length is preferred, but only by way of example, and any other concentrations per unit length may be provided. In particular, this can also be configured differently depending on the cross section and thus also on the volume of the rod-shaped element considered over the length unit.

By a concentration ratio of mercury per unit length of the rod-shaped element preferably mentioned above, an amount of mercury smaller than 2 mg can be metered very accurately, and in this respect, lengths in the range of 4 mm of the rod-shaped element are produced and assigned to the carrier element.

Preferably, the carrier element has at least one recess as a holder, in which the element is arranged is. As a recess, for example, a groove or a trench or even a blind hole-like formed may be provided. Preferably, the support member is plate-like and formed the recess in this plate-like part.

It can also be provided that the carrier element is a tubular hollow body. Preferably, at least one retaining tab for holding the rod-shaped element is formed on the outside of such a hollow body. Preferably, the rod-shaped element is glued into the retaining tab, clamped or welded. This represents a very simple attachment, which nevertheless ensures a sufficiently secure positioning of the rod-shaped element.

Preferably, the retaining tab extends substantially over the entire length of the rod-shaped element. In such an embodiment, the rod-shaped element is arranged in the interior of the retaining tab, wherein the retaining tab substantially peripherally surrounds the rod-shaped element substantially completely. As a result, the rod-shaped element can also be protected.

It is particularly preferred if the tubular hollow body surrounds an electrode arranged in the discharge vessel of the discharge lamp. The configuration of a carrier element, which is also referred to as a cap, is arranged such that the axis of rotation or longitudinal axis of the hollow body is arranged parallel or coaxial to the longitudinal axis of the electrode. Such a carrier element is designed to be multifunctional.

It can also be provided that the carrier element is arranged on a power supply for an electrode. This power supply is associated with an electrode frame and serves to hold the electrode in the discharge space. In addition to the configuration of the carrier element as a tubular hollow body for gripping an electrode or attaching the carrier element to a power supply can also be provided that the carrier element is arranged on an electrode frame associated central support, which is designed to hold a tube-like hollow body surrounding the electrode. In this embodiment, the support element is thus not at the same time also the tubular hollow body, but a separate component part, which is arranged on the central support.

Preferably, the carrier element is designed as a metal band. The plate-like structure of the metal strip may be substantially flat or even angular.

Preferably, the rod-shaped element has a jacket and a core, wherein the mercury is contained exclusively in the soul. The mercury in the rod-shaped element is thus enveloped by the jacket material. The metered amount of powdery mercury material in the interior (in the soul) of the rod-shaped element, in particular of the wire, is reproducible, very accurate and in particular only dependent on the length. In particular, dosing quantities of less than 1 mg can be realized very precisely.

The carrier element is fastened in the interior of the discharge space of the discharge vessel and during operation of the discharge lamp The carrier element is heated at high frequency, which then releases the corresponding amount of mercury.

Another aspect of the invention relates to a discharge lamp, in particular a low-pressure discharge lamp, with a discharge vessel and at least one electrode arranged therein, and a carrier element according to the invention or an advantageous embodiment thereof. The carrier element is arranged in particular on an electrode frame. The electrode frame comprises at least one power supply to which the carrier element can be arranged. The electrode frame can also have a central support for holding a tube-like hollow body surrounding the electrode, on which a carrier element can be arranged. It can also be provided that the electrode frame is associated with a tube-like hollow body surrounding the electrode, which is at the same time the support element for the rod-like element with the Hg-containing material.

Preferably, the rod-like element is additionally provided with a getter material. The Hg-containing material and the getter material are thus mixed with one another in the rod-shaped element.

In addition to bonding or welding of the rod-shaped element to the holder, a simple insertion or jamming or latching for fastening can also be provided. The discharge lamp may be formed as a fluorescent lamp or compact fluorescent lamp.

Brief description of the drawings

Fig. 1

eine schematische Schnittdarstellung einer erfindungsgemäßen Entladungslampe;

Fig. 2a u. 2b

ein zweites Ausführungsbeispiel eines er- findungsgemäßen Trägerelements;

Fig. 3a u. 3b

ein drittes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements;

Fig. 4a u. 4b

ein viertes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements;

Fig. 5

ein fünftes Ausführungsbeispiel eines er findungsgemäßen Trägerelements;

Fig. 6

ein sechstes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements;

Fig. 7

ein siebtes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements;

Fig. 8

ein achtes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements; und

Fig. 9

ein neuntes Ausführungsbeispiel eines er- findungsgemäßen Trägerelements.

Embodiments of the invention will be explained in more detail with reference to schematic drawings. Show it:

Fig. 1

a schematic sectional view of a discharge lamp according to the invention;

Fig. 2a u. 2 B

A second embodiment of a carrier element according to the invention;

Fig. 3a u. 3b

A third embodiment of a carrier element according to the invention;

Fig. 4a u. 4b

A fourth embodiment of a carrier element according to the invention;

Fig. 5

a fifth embodiment of a he inventive carrier element;

Fig. 6

a sixth embodiment of a carrier element according to the invention;

Fig. 7

A seventh embodiment of a carrier element according to the invention;

Fig. 8

an eighth embodiment of a carrier element according to the invention; and

Fig. 9

A ninth embodiment of a carrier element according to the invention.

Preferred embodiment of the invention

In the figures, identical or functionally identical elements are provided with the same reference numerals.

In Fig. 1 is a schematic sectional view of a section of a mercury vapor low pressure discharge lamp designed as a discharge lamp 1 is shown. The discharge lamp 1 comprises a tubular discharge vessel 2, which may be rod-shaped, U-shaped or also bent several times. The ends of the discharge vessel 2 are sealed gas-tight. An electrode frame 3 of the discharge lamp 1 extends from one end 4 of the discharge lamp 1 into the discharge space 5 formed in the interior of the discharge vessel 2. The electrode frame 3 comprises a glass base 6 whose extended edge 7 is fused to the end 4 of the discharge vessel 2 in a gastight manner.

Furthermore, the electrode frame 3 has two separate power supply lines 8 and 9, which are provided for holding an electrode 10 designed as a lamp filament. In addition, a carrier element 11 is arranged in the discharge space 5 of the discharge lamp 1. The support member 11 is in the embodiment shown according to Fig. 1 attached to the power supply 8. The carrier element 11 is in Fig. 1 shown schematically. At least one elongate element 12, in which Hg-containing material is arranged, is formed on the carrier element 11. The support element 11 may also have a plurality of such rod-shaped elements 12, which may be geometrically the same or different. The Carrier element 11 is designed as a metal band and formed in a first approximation plate-like.

In addition to the in Fig. 1 shown attachment of the support member 11 to the power supply 8, it can also be provided that the support member 11 is fixed to the power supply 9.

Likewise, however, it may also be provided that an in Fig. 1 not shown cap for the electrode 10 is provided, this cap is designed as a tube-like hollow body which surrounds the electrode 10. Preferably, the in Fig.1 not shown and horizontally extending longitudinal axis of the electrode 10 and the longitudinal axis of such a cap on the same orientation. In particular, a coaxial arrangement is provided.

In such an embodiment, the support member 11 at the same time represent this cap.

The cap is in particular arranged positionally accurate with a rod-shaped central support (not shown), this center support being assigned to the electrode frame 3 as an additional component to the power supply lines 8 and 9. It can also be provided that the carrier element 11 is attached to said central support on which the cap is arranged.

At the in Fig. 1 shown first embodiment, the support member 11 is designed as a plate-like metal strip and formed as a piece of wire elongated element 12, which comprises both Hg-containing material and getter, arranged in the support member 11. For example, here can gluing or welding be provided of the support member 11. In particular, for example, an embodiment of the support member 11, as explained in the following FIGS. 5 and 6 is shown provided.

In Fig. 2a is a perspective view of a second embodiment of a support member 11 is shown. In the illustration, the carrier element 11 is designed as a tubular hollow body, which has a cross section flattened in relation to a round cross section. On an outer side 13, a holder in the form of a tab 14 is provided, in which the wire piece extends in the form of the elongate element 12. The retaining tab 14 has a height h1, which corresponds to the height of the outer side 13 and in the exemplary embodiment is also substantially the height of the element 12. In this embodiment, the rod-shaped element 12 is thus surrounded over its entire length by the retaining tab 14. The rod-shaped element 12 is in particular glued or welded into the interior of the retaining tab 14. The support member 11 with the retaining tab 14 is in particular integrally formed, as shown in the plan view in accordance with Fig. 2b can be recognized.

The carrier element 11 according to the illustrations in Fig. 2a and 2b In addition to the function of the holder of the rod-shaped element 12, it is also provided for encompassing the electrode 10.

The same applies to the embodiments of the support member 11 in the Fig. 3a, 3b and Fig. 4a, 4b , which will be explained below.

In the perspective view according to Fig. 3a two separate retaining tabs 14 and 15 are provided, which hold the rod-shaped element 12 on the outer side 13. Preferably, these strip-shaped retaining tabs 14 and 15 are arranged at the upper and lower ends of the element 12. In this embodiment, the element is thus exposed over a large length part. In the plan view according to Fig. 3b the attachment can be recognized.

In Fig. 4a is a perspective view of another embodiment of the support member 11 shown as a tubular hollow body. In this embodiment, the rod-shaped element 12 has a smaller length than the height h1. In addition, retaining tabs 16 and 17 are provided, which are cap-like over the ends of the rod-shaped element 12 slipped. The retaining tabs 16 and 17 are thus arranged virtually like a cover over the upper and lower ends of the rod-shaped element 12. Slipping out can be particularly well prevented. In addition, a further attachment in the form of gluing or welding can also be provided.

In Fig. 4b is again a plan view of the illustration according to Fig. 4a shown.

In Fig. 5 an embodiment is shown in which the support member 11 is plate-like and has a recess 19 in which the rod-shaped element 12 is arranged. The carrier element 11 is arranged in this embodiment on a rod-shaped central support 18, which has a bent portion 18 a at the upper end. At this portion 18a is the carrier element 11 attached, in particular welded. The central support 18 also serves to hold a cap, not shown, which is formed separately from the carrier element 11 and constitutes a tubular hollow body. This designed as a cap tubular hollow body then surrounds the electrode 10. As shown in the illustration Fig. 5 can be seen, the recess 19 has a width and a depth, so that the rod-shaped element 12 just fits into it.

In Fig. 6 is shown in a perspective view of another embodiment, in contrast to the embodiment according to Fig. 5 the carrier element 11 is arranged with the rod-shaped element 12 approximately at the level of the center of the middle support 18 there. At the middle support 18, moreover, as already to Fig. 5 explained cap for grasping the electrode 10 attachable.

In Fig. 7 a further embodiment is shown in a perspective view, wherein the support member 11 is designed as an angled plate. At its front end, in turn, a recess 19 is designed in the form of a bend of the plate-like part, wherein the rod-shaped element 12 is arranged therein. Again, the central support 18 is provided in addition to holding the support member 11 for holding a previously explained cap.

Such a central support 18 according to the statements in Fig. 5 to 7 is provided in addition to the power supply lines 8 and 9 and associated with the electrode frame 3.

In Fig. 8 is shown in an exemplary representation of a support member 11 which comprises a plurality of rod-shaped elements 12. These are each arranged in a recess 19 of the plate-like support member 11 and spaced and positioned substantially parallel to each other. The length l of the elements 12 is substantially equal.

At all in the Fig. 1 to Fig. 8 In the embodiments shown, the elongated element 12 has a mercury concentration of 0.46 mg per millimeter in length and is formed as a wire.

In Fig. 9 is shown in a perspective view of a welded to a power supply 8 support member 11. The power supply 8 in this case runs essentially parallel to the element 12 and is arranged on the upper side of the carrier element laterally to the recess 19. In the exemplary embodiment, two welding points are provided for fastening, wherein this may also be several or an entire lengthwise welding may be formed.

Claims (16)

Carrier element, on which a Hg-containing material for mounting in a discharge lamp (1) is formed,
characterized in that
the Hg-containing material is designed as a rod-shaped element (12) and is arranged on a holder (14, 15, 16, 17, 19) of the carrier element (11). Carrier element according to claim 1,
characterized in that
the rod-shaped element (12) has a defined amount of Hg per unit length and the amount of Hg to be attached to the support element (11) is meterable, depending on the length (l) of the element (12). Carrier element according to claim 1 or 2,
characterized in that
the rod-shaped element (12) has about 0.46 mg Hg per mm. Carrier element according to one of the preceding claims,
characterized in that
the support element (11) has as support at least one recess (19) in which the element (12) is arranged. Carrier element according to one of the preceding claims,
characterized in that
the carrier element (11) is plate-like. Carrier element according to one of the preceding claims,
characterized in that
the carrier element (11) is a tubular hollow body. Carrier element according to claim 6,
characterized in that
on the outer side (13) of the hollow body as a holder at least one retaining tab (14 to 17) for holding the element (12) is formed. Carrier element according to claim 7,
characterized in that
the rod-shaped element (12) in the retaining tab (14 to 17) glued, clamped or welded. Carrier element according to claim 7 or 8,
characterized in that
the retaining tab (14 to 17) extends substantially over the entire length (1) of the element (12). Carrier element according to one of claims 6 to 9,
characterized in that
the tubular hollow body surrounds an electrode (10) arranged in the discharge vessel (2) of the discharge lamp (1). Carrier element according to one of claims 1 to 5,
characterized in that
it is arranged on a power supply (8, 9) for an electrode (10). Carrier element according to one of claims 1 to 5,
characterized in that
it is arranged on a central support (18) associated with an electrode frame (3), which is designed to hold a tubular hollow body surrounding the electrode (10). Carrier element according to one of the preceding claims,
characterized in that
it is designed as a metal band. Carrier element according to one of the preceding claims,
characterized in that
the rod-shaped element (12) has a jacket and a core and the Hg is contained in the soul. Discharge lamp with a discharge vessel (2) and at least one electrode (10) arranged therein, and a carrier element (11) according to one of the preceding claims, which is arranged in the discharge vessel (2). Discharge lamp according to claim 15,
characterized in that
the carrier element (11) is arranged on an electrode frame (3), in particular a power supply (8, 9) or a central support (18), or a tube-like hollow body surrounding the electrode (10) and associated with the electrode frame (3).

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