DE19548325A1 - Single-end base type tube for compact fluorescent lamp - Google Patents

Abstract

The light tube has at least one glass tube with electrodes and supply terminals at its ends, fitted to a separate bias device. A cold cathode (3) is provided at one end of the light tube its electrical connections provided by single pole terminals in the form of pins (6) sealed in the end of the glass tube. The glass tube is coiled into a double helix, with the ballast device fitted between the glass tubes in the case of more one of the latter and provided by a converterless, compact, capacitive device.

Description

Gas discharge lamps, especially compact fluorescent lamps, are due to ih rer complex operating conditions and complex manufacturing costs both the gas discharge lamps themselves, but also the expensive electronic ballast devices despite their enormous advantages, such as B. 80% energy saving compared Incandescent lamps, not used enough due to their high price.

The current limitation of the gas discharge, the preheating of the electrodes with the unwanted switch-on delay, housing the required construction parts in the smallest space, but also the connection of the individual parts to one Operable fluorescent lamps have so far only been partially satisfactorily solved.

The previous heated compact lamps suffer from the disadvantage that because the need for electrode heating at least two connections per Side of the gas discharge vessel must be led out of it, which has the disadvantage of a higher manufacturing cost for the gas outlet jar and for the contact device for contacting these connections connected is. It is assumed that the gas discharge vessel at the known compact lamps is interchangeable.

In addition, a higher space requirement for the contact device is also required speaks. The electrode-heated compact lamps also require a rela  tiv complex ballast, which on the one hand is the heating of the electrodes must ensure and secondly a high-frequency supply voltage supplies the electrodes for a safe ignition and a stable lighting behavior guarantee.

The well-known installation of these high-quality ballasts in the base the compact lamp in turn requires more space. Both above Disadvantages mentioned so far have prevented really small compact lamps to be able to build with an interchangeable gas discharge vessel, the outer measurements correspond to those of a light bulb of comparable luminosity.

The invention is therefore based on the object, based on the known ten, electrode-heated compact lamps to create a new compact lamp, which is much cheaper, is space-saving and its gas is charge vessel is otherwise easily replaceable.

To solve the problem, the invention is through the technical teaching of claim 1.

According to the invention it is proposed to use cold cathodes, each of which arranged the ends of the gas discharge vessel and as separate single-pole Connections are led out. On a bracket, e.g. B. in a base plate, can be dispensed with in such a version.

This version is basically suitable for all gas discharge lamps, but has special advantages for fluorescent lamps with only one ge curved glass tube, e.g. B. in the form of a double helix. With gas discharge vessels, which are welded together from several pipes, there is increased breakage drive An additional fixation or base is recommended.  

The inventive fixed or releasable connection of the Gasentladungsge barrel with the ballast, e.g. B. in the form of an adapter, is with the as pins trained connections particularly easy and reliable possible.

A particular advantage of this measure is the smaller size of the Contacting the single-pole pins required contact device. After this only one pole per side of the gas discharge vessel is contacted the must, there is a substantial first space saving, which leads to a we considerably smaller connection part (adapter part) of the compact lamp. Furthermore is associated with this measure also a cost saving, because a one-po Contact device can be at least 20 percent cheaper leads as a comparatively a two-pole contact device.

Space savings of around 20 percent can also be expected.

Since the cold cathodes do not have to be preheated, as is the case with the previous ones heated cathodes is the case, can in many cases on an electronic pre switching device with converter and preheating control can be dispensed with. The use Capacitive ballast with capacitors as lossless pre Resistance is therefore recommended according to the invention.

The use of cold cathodes - in addition to the advantage of the single-pole con Clocking on each side of the gas discharge vessel - the further advantage that a simple and inexpensive ballast can be used. Ver you use a capacitive ballast - which means without space gripping and weight-saving inductance - then arise further decisive advantages in terms of space and cost savings:

The capacitor required for the capacitive ballast can be opened directly standing right in the through the clear interior of the gas discharge vessel  circumscribed space can be installed. Will he still be in an appropriate cylindrical housing is used, then this housing can be additionally be provided with radiation-improving coatings, which the Ab radiation effect of the compact lamp as such is still increased.

The capacitor used saves crucial weight and space compared to an inductance. The capacitive ballast thus becomes smaller overall, lighter and cheaper than comparatively an inductive ballast. It it is recalled that these advantages are only given if they are Cold cathodes are used. The measure described in claim 1 therefore complement and support each other and realize in surprisingly, a significantly smaller, lighter and inexpensive Compact lamp.

It is also recommended to use the ballast in the base of the compact lamp to arrange fabric lamp.

Since the gas discharge vessel is connected to the front only by the pins of the cold cathodes switchgear is connected, it is also recommended that the ballast be self-locking Arrange spring contacts or mechani in the base of the compact lamp cal locking means to hold the gas discharge vessel.

This has the advantage that there is no so-called adapter can. In the case of the compact lamps known to date, a was relative Comprehensive and expensive adapter necessary, which on the one hand the con Clock arrangement for contacting the connections of the gas discharge vessel and on the other hand creates the connection to the ballast. Such an adapter can be omitted according to the invention, because the single-pole pins on each side of the Gas discharge vessel are recorded in corresponding pin holders Men who take up little space, are inexpensive to manufacture and in  others also - because of the lower number of contacts compared to conventional Chen compact lamps - also work more reliably. Instead of an adapter who so the pen holders directly with the front arranged in the base switching device connected.

In order to enable the gas discharge vessel to be replaced if necessary, is proposed according to the invention, actuating means for releasing the to provide self-locking spring contacts.

It is also expedient according to the invention to have guides for stabilizing the Provide gas discharge vessel on the base.

FIGS. 1 to 6 are used for better understanding of the inventive concept, in particular the schematic diagrams show the importance of the synergy effect that only through application and combination of know-how from various areas of capitalization, the invention aiming at a comprehensive rationalization of manufacturing, cost reduction and technical Advancement brings. It is important that each combination of the claims has an independent character, which is used separately and also claimed who.

Fig. 1 shows a conventional, U-shaped bent gas discharge vessel with a cold cathode and pushed-on contact sleeve or with a contact pin.

Fig. 2 shows a suitable ballast in the form of a compact lamp base with E 27 thread as a mains connection.

Fig. 3 shows a double-coiled gas discharge vessel with pin base and Fig. 4 the associated ballast in section.

Fig. 5 shows a view in FIG. 3 and FIG. Lamp shown separately. 4

FIG. 6 is a cross section through the representation of FIG. 4.

The same parts are provided with the same characters in all the illustrations.

Fig. 1 shows the combination according to the invention of a U-shaped gas discharge vessel ( 1 ) with a cold cathode ( 3 ), the electrical connection to the outside through a contact cap ( 4 ). Another design for the electrical connection is shown schematically on the other leg of the gas discharge vessel ( 1 ) with a locking pin ( 5 ).

In Fig. 2, an embodiment for a compact lamp with an E 27 thread ( 8 ) is shown as an example of a ballast. The housing ( 7 ) is suitable for the acquisition of parts of the required ballast. Parts of the switching device can also be accommodated in the cylindrical housing ( 10 ), which can be placed between the arc of the gas discharge vessel ( 1 ) or on such constructions.

When the gas discharge vessel ( 1 ) is inserted into the two insulating collars ( 11 ) of the housing ( 7 ), the locking pin ( 5 ) snaps into a spring contact ( 16 ) in the example shown, which not only makes contact, but also latches the gas discharge vessel ( 1 ) causes. The spring contact is e.g. B. attached to a circuit board ( 17 ), which can also carry other parts of the ballast.

In Fig. 3 shows a particularly advantageous embodiment of the inventive concept is shown with a coiled gas discharge vessel (2). This design means not only a shortened design of the fluorescent lamp, but also a better light distribution, although with such a coiled gas discharge vessel ( 2 ) slightly higher outputs can be achieved that would otherwise only be achievable with several welded U-tubes in such a case, a stable component that does not require an additional bracket.

In Fig. 3 the simple arrangement of a cold cathode ( 3 ) with a plug pin ( 5 ) is schematically shown, which is melted in a known manner by means of a glass bead ( 15 ) into the end of the gas discharge vessel.

In FIG. 4, further details are shown in the section through the housing (7). The self-locking spring contacts ( 12 ) correspond to the connector pins ( 6 ) and reliably prevent the gas discharge vessel ( 2 ) from falling out. The blocking effect of such contacts has been in use for many years and is known from terminals for electrical lines.

Since the locking effect is practically unsolvable, appropriate actuating means ( 14 ) must be provided: which must be pressed to release the connector pins ( 6 ) again. The function of these actuating means ( 14 ) is also shown in section Fig. 6. This section is - as can be seen in Fig. 4 - made along the line AA.

The inexpensive design of a ballast with a capacitor ( 9 ) as a loss-free series resistor is facilitated in a construction according to the invention by arranging this capacitor between the connections of the gas discharge vessel ( 2 ), where there is sufficient space to achieve greater powers can.

Fig. 5 shows a view of the complete lamp according to Fig. 3 and Fig. 4. In this FIG. 5 is also a measure for stabilizing the gas discharge vessel is shown schematically by a rib (13) extending to the inside of the gas discharge vessel (2) creates and thus prevents sideways tipping.

The synergy effect of the individual features of the invention is so significant that some of the subclaims are also considered to be the main claim at any time can. The suggestions in the examples also provide further suggestions before, which in combination with the other details independent protective character represent.

Claims (11)

1. Single-ended gas discharge vessel z. B. for Kompaktleuchtstofflam pen, consisting of one or more curved glass tubes which are connected to one another and the ends of which are provided with electrodes and connections, and a separate unit constructed before switching device which is fixed or detachably electrically connected to the gas discharge vessel via its connections is connectable, characterized in that a cold cathode is arranged at least at one end of the gas discharge vessel and that the electrical connection of the cold cathodes to the outside is designed as a single-pole connection. 2. Gas discharge vessel according to claim 1, characterized in that the Single-pole connection designed as a pin and melted into the glass tube is. 3. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the bent glass tubes at least partially as Double helix are executed. 4. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the ballast at least partially between the glass tubes is arranged. 5. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the gas discharge vessel with the ballast can be fixedly or releasably connected to form a compact lamp.   6. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the ballast is a converterless, space-saving of the capacitive component. 7. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the ballast at least partially in the base the compact fluorescent lamp is arranged. 8. Gas discharge vessel according to one of the preceding claims, characterized characterized in that the pins of the cold cathodes over self-locking Spring contacts are connected to the ballast. 9. Gas discharge vessel according to one of the preceding claims, characterized characterized in that actuating means for releasing the self-locking Spring contacts are present. 10. Gas discharge vessel according to one of the preceding claims, characterized characterized in that in the base of the compact fluorescent lamp mechani cal locking means for holding the gas discharge vessel are available. 11. Gas discharge vessel according to one of the preceding claims, characterized characterized in that guide means for fixing the gas ent are present.