DE936999C - Electric discharge tubes - Google Patents

Description

It is known in fluorescent tubes, i. H. Low pressure mercury vapor discharge tubes, whose discharge vessel is coated on the inside with a phosphor layer on this layer to apply a conductive strip and by means of a metal strip with one of the activated main electrodes or at least with a holding wire of the same in the interior of the discharge space permanently connect to. The connection between the conductive strip and the metal tape is made in usually by means of an adhesive in the form of a mass of such attached to the metal strip Composition that they are at the temperature when the pinch foot of the electrode system fuses occurs with the end of the tubular discharge vessel at the point where the Tape touches the strip, becomes liquid and, as a result of the subsequent cooling, becomes firmly adherent Brings about connection between tape and strip. The strip is supposed to ignite the discharge tube facilitate. The inventor has found that some of the manufactured in this manner Tubes do not ignite, which means an undesirable percentage failure.

The invention relates to an electric discharge tube, - the discharge vessel of which is provided with a conductive layer on the inside, which is connected to a metal band within the discharge vessel, and in particular to a Fluorescent tube provided with a conductive strip on the inside of the discharge vessel is, by means of a metal band with an activated electrode of the lamp within the discharge space connected is.

The inventor has found that the described disadvantage is due to the presence of the adhesive can be returned between the tape and the conductive layer or strip, which may lead to the occurrence of a high contact resistance between tape and layer or streaks.

The aim of the invention, among other things, is the occurrence of an undesirably high contact resistance to prevent.

According to the invention, the end of the metal strip connected to the conductive layer as a result Splitting in the longitudinal direction at least two adjacent partial strips, one of which is in direct contact with the conductive layer. This shape of the belt is achieved that the partial strip in direct contact with the strip ensures a good electrical connection, while the part of the strip that does not directly touch the strip is a firmly adhering one mechanical connection between layer and tape mediated without a high contact resistance the latter connection could be harmful.

In an advantageous embodiment of the invention, the tape has three adjacent Partial strips, of which only the middle is in direct contact with the conductive layer. The split metal band is preferably made of chrome iron.

The invention is explained in more detail below using an exemplary embodiment illustrated in the drawing. It shows Fig. Ι a longitudinal section of a fluorescent tube and

Figure 2 is a top plan view of the split ribbon. In Fig. Ι 1 denotes the cylindrical discharge vessel a fluorescent tube with a length of about 120 cm and a clear diameter of about 3.6 cm. The ends of the discharge vessel are hermetically sealed by conventional pinch feet 2.2. in which holding wires 3, 3 and 4, 4 activated heating electrodes 5 and 6 are accommodated. The inside of the discharge vessel 1 is covered with a layer of phosphors (not shown) overdrawn. The discharge vessel is filled with a suitable gas, ζ. B. argon, under a pressure of a few millimeters at room temperature and contains a small amount of mercury that the occurrence of a low-pressure mercury vapor discharge during normal operation brings about.

On the inside of the discharge vessel there is a conductive layer in the form of a Strip 7, which extends practically over the entire length of the discharge vessel. This strip which consists of a mixture of graphite and glaze and a resistance of 20 to 30 ohms / cm has, is by means of a chrome iron strip 8 and a short metal wire 9 with the lower holding wire 8 of the electrode 5 connected.

The end of the metal strip 8 facing the strip 7 is cut in three by two cuts Longitudinal strips 10, 11 and 12 divided (see especially Fig. 2). The middle longitudinal strip 11 is with the Strip 7 in direct contact; the outer longitudinal strips 10 and 12 are bent slightly upwards (Fig. 1). The space between the outer longitudinal strips 10 and 12 and the strip or the tube wall is more or less filled with an adhesive, not shown, that z. B. consists of a mixture of glass powder, graphite and a binder.

The pinch feet 2 are manufactured separately and then fused with the discharge vessel. The left pinch foot is already provided with the metal band 8 before it is fused, which is welded to one of the holding wires 3 by means of the metal wire 9. At the free end of the the longitudinal strips 10, 11 and 12 existing tape before the left pinch foot is pushed into the discharge vessel, the adhesive is, for example attached by diving. On it the glue is applied from the bottom of the middle Longitudinal strip 11 removed, so that the adhesive in the upwardly curved bends of the outer longitudinal strips 10 and 12 and optionally is located on the upper side of the central longitudinal strip 11. When inserting the left With the pinch foot, the cleaned lower side of the longitudinal strip 11 slides over part of the strip 7. When the left pinch foot fuses with the discharge vessel, the adhesive also becomes heated, which becomes liquid and between the outer longitudinal strips 10 and 12 on the one hand and the Strip 7 and possibly also part of the wall of the discharge vessel, on the other hand, a firmly adhering one mechanical connection forms. As a result of this mechanical connection there is also a permanently good electrical connection between the bare lower side of the longitudinal strip 11 and no the strip 7 guaranteed.

The split shape of the metal strip 8 has in addition to the better contact resistance between the metal band and the strip have other advantages. There is also an unsplit metal band when inserting the pinch foot into the discharge vessel slides over part of the strip, the adhesive would be scraped off the underside of the metal tape. To avoid this, the adhesive previously had to be baked to the metal band, which was an additional one Heat treatment required This heat treatment is used in the split version of the Metal band is no longer required because the outer longitudinal strips the strip 7 when inserting of the pinch foot and so on

a sufficient amount of adhesive remains behind these longitudinal strips to ensure a firmly adhering mechanical To be able to convey connection.

As is known, the strip 7 acts as an ignition electrode. When applying a suitable voltage between the activated main electrodes 5 and 6 arises between the one not connected to the strip Electrode 6, as cathode, and the end of the strip 7 facing it, a glow discharge, starting from the electrode 6 via the strip 7, the band 8, the wire 9 and a Part of the lower holding wire 3 migrates and finally arrives at the electrode 5. As soon as the glow discharge has brought the electrodes 5 and 6 to emission temperature, the glow discharge takes place into an arc discharge.

It can be seen that a high contact resistance between the metal strip 8 and the Strip 7 interferes with the ignition of the tube.

The embodiment relates to the electrical connection between an inner Ignition strip and a main electrode of an electrical discharge tube. It is obvious, however, that a high contact resistance can also have a disruptive effect in other cases and that the Application of the invention is also advantageous in these cases. The invention can e.g. B. advantageous can be used for high vacuum tubes in which the inside of the discharge vessel has a conductive layer is covered, which should be led to the outside in an electrically conductive manner.

Claims (3)

PATENT CLAIMS: 1. Electric discharge tube, the discharge vessel on the inside with a conductive Layer is provided, which is connected inside the discharge space with a metal band is, in particular fluorescent tube with a conductive strip on the inside of the Discharge vessel, this strip being activated by means of a metal band with a Electrode of the lamp is connected inside the discharge space, characterized in that that the end of the metal strip connected to the conductive layer as a result of cleavage in the Has in the longitudinal direction at least two adjacent partial strips, one with the conductive layer is in direct contact. 2. Electrical discharge tube according to claim i, characterized in that the tape has three adjacent partial strips, of which only the middle one directly is in contact with the conductive layer. 3. Electrical discharge tube according to claim ι or 2, characterized in that the split metal band is made of chrome iron. 1 sheet of drawings I 509 608 12.55