NL8903000A - HIGH PRESSURE DISCHARGE LAMP. - Google Patents

Description

The invention relates to a high-pressure discharge lamp provided with a discharge vessel, which is enclosed with space by an outer bulb fitted with a lamp cap, and provided with a ignition circuit in which a voltage-dependent capacitor is included.

A lamp of the type mentioned in the opening paragraph is known from German patent specification DE-C-3330266. In the known lamp, which is suitable for being operated in series with a stabilizing ballast on an AC voltage power source, the capacitor is placed in the outer bulb and provided with a glass envelope for protection against reduction and evaporation of parts of the capacitor. However, practice has shown that there are major objections to this. On the one hand, because production of a capacitor provided with such an envelope is very difficult, so that the capacitor becomes very expensive. On the other hand, the known lamp has been found to exhibit a high degree of premature failure due to failure of the capacitor.

Mounting the ignition circuit in the lamp is very attractive, however, since this considerably increases the applicability of the lamp. The object of the invention is to provide a measure by which the above-described drawbacks are counteracted while the mounting of the ignition circuit in the lamp is retained.

According to the invention, this object is achieved with a lamp of the type mentioned in the preamble, in that the lamp is characterized in that the capacitor is mounted in the lamp cap in a gas-filled gas-tight glass capsule.

The advantage is that the capacitor is incorporated in a glass housing by means of a long-known and proven technique, which makes production simple and reliable, which leads to cost savings compared to the known lamp. Pressure of the gas thereby prevents decomposition and / or evaporation of components that make up the capacitor. The composition of the gas is chosen such that under the prevailing conditions during lamp operation no reactions take place with components of the capacitor. Suitable gases are noble gases, nitrogen and oxygen. The gas filling can be formed by a single gas, however combinations of gases are also possible.

Mounting in the lamp cap has the additional advantage that the capacitor is mounted at a relatively great distance from the discharge vessel, so that heating of the capacitor in the lamp's operating state remains limited.

The use of a glass capsule has the further advantage that the lamp according to the invention can also be used in places where a somewhat aggressive atmosphere prevails without additional measures having to be taken.

Further improvement of the lamp is achievable because the gas-tight glass capsule is provided with a radiation-reflecting layer. In this way it is achieved in a simple but effective manner that heating of the capacitor in the operating state of the lamp is considerably limited. The radiation-reflecting layer can be applied both externally and internally.

In a further embodiment of a lamp according to the invention, a voltage-dependent resistor is included in series with the capacitor. The advantage of this is that, on the one hand, the moment at which an ignition voltage pulse is generated by suitable selection of the current-voltage characteristic of the resistor can be advantageously chosen. On the other hand, the resistance character of the voltage-dependent resistor ensures that the height of the generated ignition voltage pulse is limited.

Further improvement is possible because the ignition circuit is also equipped with a fuse. This ensures that even under unfavorable conditions such as a short circuit in the capacitor, overloading of the stabilization ballast by extremely high currents is prevented by melting of the fuse.

The invention will be explained in more detail with reference to a drawing of an exemplary embodiment, in which

Figure 1 shows a view of a lamp, and

Figure 2 is a schematic representation of a circuit formed by the lamp of Figure 1 together with a stabilization ballast.

Figure 1 shows a lamp 2 according to the invention provided with a discharge vessel 3, which is enclosed with space by an outer balloon 30 which is equipped with a lamp cap 31, and provided with a ignition circuit 10 mounted in the lamp cap 31 (Figure 2), in which a voltage-dependent capacitor 8 is included. The voltage-dependent capacitor 8 is mounted in a gas-filled gastight glass capsule 11. The discharge vessel 3 is provided with lamp electrodes 4 and 5, between which discharge takes place in the operating state of the lamp. Lamp electrode 4 is merely a rigid current conductor 40 connected to a lamp connection point C of lamp cap 31. Likewise, lamp electrode 5 is connected via a rigid current conductor 50 to a lamp connection point D of lamp cap 31.

The starting circuit 10 is also provided with a fuse 7 and a voltage-dependent resistor 9, both of which are also mounted in the lamp cap.

In Figure 2, corresponding parts to Figure 1 are provided with a corresponding reference numeral. A and B are terminals for connecting an AC power supply. Connection point A is connected via a stabilization ballast 1 to lamp connection point C. Connection point B is connected to lamp connection point D. The ignition circuit 10 formed by the circuit consisting of fuse 7, voltage-dependent capacitor 8 and voltage-dependent resistor 9, together with stabilization ballast 1, produces in a manner known per se ignition voltage pulses between the lamp terminals C and D and thus between the lamp electrodes 4 and 5.

The discharge vessel 3 may be provided with an external auxiliary electrode as a further ignition aid.

Claims (3)

1. High-pressure discharge lamp provided with a discharge vessel, which is enclosed with space by an outer bulb fitted with a lamp cap, and provided with a ignition circuit incorporating a voltage-dependent capacitor, characterized in that the capacitor is in a gas-filled gas-tight glass capsule is mounted in the lamp base. 2. Lamp as claimed in claim 1, characterized in that the glass capsule is provided with a radiation-reflecting layer. Lamp according to claim 1 or 2, characterized in that a voltage-dependent resistor is included in series with the capacitor.