EP1045492A2 - Socket for multi-pin lamps - Google Patents

Abstract

For contacting different contact pins, sprung-loaded contacts are arranged in individual electrically insulated contact bloc which can be moved independently of each other. The contact blocks may be made of ceramic material.

Description

The invention relates to a lamp holder in the preamble of Claim 1 mentioned Art.

Such sockets are widely used for mounting and electrical contacting of lamps in a wide variety Lighting equipment. These usually include lighting devices in addition to lamp and socket also reflective and / or refractive optics of different complexity, for the respective Application are optimized. It is particularly important that the actual filament to the surrounding optics in a well-defined spatial relationship. A manual tailored to the individual case Adjustment of the filament and / or optics comes predominantly Most of the cases are out of the question. Rather, most manufacturers manufacture the lamps such that the filament is relative to an abutment surface or line has a precisely specified orientation on the lamp base. The Versions that are usually fixed relative to the lighting optics point therefore usually a corresponding reference surface, the one automatic alignment of the lamp z. B. by resilient loading of the Lamp base against the reference surface.

However, a more basic task of lamp holder is the safe one electrical contacting of the contact pins, even at high temperatures and can be reliably guaranteed after frequent lamp replacement should.

Various approaches have been taken to accomplish this task suggested. Versions are known which include a ceramic one Have lower housing part, in which recesses for the introduction of Contact pins are provided. Usually one of these points Recesses a prism-shaped taper on the opposite spring loaded contact plate is arranged so that the inserted Contact pin pressed through the contact plate into the prismatic groove and so that it is fixed to the lower part of the housing. More contact pins are on set similar manner, but here often manufacturing tolerances can be taken into account by the oblong shape of the recesses should.

However, this results in the decisive disadvantage that two investment and Reference pairs, namely lamp base - upper housing part and contact pin - Housing upper part, are defined, the relative orientation of the Contact surface or line on the lamp base to those on the Contact pins not specified and usually substantial Manufacturing tolerances is subject. On which system reference pair the Alignment actually depends largely on the interpretation of the Spring forces, but also temperature-related fluctuations may be subject.

Furthermore, there is the disadvantage that when aligned with the Lamp manufacturers provided contacting the contact surface Contact pins can only be optimized in exceptional cases. Result from this contact problems, particularly at higher temperatures, which the Reliability of the entire lighting device significantly reduced.

From the German utility model DE 295 19 948.2 is one Contacting device known to remedy this disadvantage. The Contact consists of two interlocking molded parts, the one hand the joint jointly a receptacle for a contact pin form and which on the other hand of the joint have a spiral spring, which the expansion of the recording by inserting the contact pin resilient force opposed. The entire contact unit is on the same level vertically movable to the target position of the contact pins so that the contacts in their position the respective position of the contact pins can adjust. This does not result in any damage to the lamp base as such Force exerted, which is why a clear alignment on the contact surface of the Lamp base and the corresponding reference surface of the Lamp holder is made possible. The disadvantage here is the complex and expensive manufacture of the contacts as well as the lack of possibility of a Adaptation to slanted contact pins. The contacts must go out be made of electrically conductive material, what their embedding in one ceramic socket base necessary, but due to the movable bracket must be made in two parts, which additional Cost means.

Another known solution has individual contacts for each contact pin Contacts that have a cylindrical shape corresponding to the contact pins. They are formed from a base plate with several tongues, the Tongues bent at right angles to the bottom plate and at their upper end be connected with a spring washer. In this chalice-like structure, which in a ceramic housing base is inserted, a contact pin used. However, this solution has considerable disadvantages: the The opening diameter of the contact cups is only minimal elastically expandable, whereby the sometimes considerable tolerances in the Diameters of the contact pins can only be insufficiently compensated. As a result, it is particularly common at high temperatures faulty contact. Furthermore, only a slight mobility of the Contact cups relative to the ceramic socket base can be realized because the contact pin must be inserted very precisely into the opening of the chalices, so as not to slide next to them and possibly destroy them. this leads to inadequate position adjustment of the contacts to the contact pins. Finally is also an electrically insulating housing base with this solution Guides for the contact pins absolutely necessary, so that in particular Tilting of the contact pins can only be insufficiently compensated can.

The object of the present invention is therefore to provide a version of to provide the aforementioned type, on the one hand, a reliable Contacting of the contact pins guaranteed and on the other hand alignment the lamp only on its intended contact surface on Lamp base allows, the cheap manufacture of special Meaning is. A subordinate task, in particular the aspect of cheap manufacturing concerns, the modular structure of the contacts, the use in frames of different shapes and / or materials enables, which in particular also greater freedom in the design of the frames allowed.

These tasks are solved by the characteristics of the characteristic part of claim 1. These have the following individual meaning:

For each contact pin of the lamp to be contacted, a single, spring-loaded contact provided in an electrically insulating, preferably ceramic contact cage is arranged. This contact cage is essentially free relative to all other units of the version movable, what translations along all spatial axes and this partial rotations around includes. When adjusting the position of the contact cages The contact pins are contacted to the contact pins spring-loaded contact plates in any case parallel to the contact pin what optimal contacting guaranteed. In each case one is preferred Contact pin in a prism-shaped recess of the Contact cage introduced, ensuring the secure mounting of the contact cage and the contact on the contact pin is still improved. The contact plates are preferably pressed against the contact pin by a spiral spring. This creates a particularly long spring travel, which means even at higher ones Temperatures that secure contacting remains guaranteed.

Another advantage of the version according to the invention is that Possibility of a particularly simple construction of the lower housing part. Since the Isolation of the contacts against each other and against the housing already largely guaranteed by the electrically insulating contact cages is only a sufficiently large space in the lower part of the housing All contact cages can be accommodated. A special spatial and / or electrical separation is not necessary. From this results in particular the possibility of at least the lower housing part partially made of metallic materials, which has advantages in the Can have heat dissipation as well as in the design.

Fig. 1

eine erfindungsgemäße Fassung in perspektivischer Gesamtansicht,

Fig. 2

das Gehäuseoberteil aus Fig. 1,

Fig. 3

ein Federelement zum Andruck der Anlagefläche am Lampensockel an die Referenzfläche des Gehäuseoberteils,

Fig. 4

eine isolierende Zwischenschicht,

Fig. 5

eine perspektivische Ansicht des Gehäuseunterteils mit außerhalb angedeuteten Kontaktkäfigen,

Fig. 6

eine perspektivische Detailansicht eines Kontaktkäfiges mit federnd belastetem Kontakt und Zuleitung,

Fig. 7

die Vorderansicht eines Kontaktbleches,

Fig. 8

die Seitenansicht eines Kontaktbleches,

Fig. 9

eine Spiralfeder zur federnden Belastung des Kontaktbleches aus Fig. 7 und 8, gemäß Fig. 6,

Fig. 10

die Vorderansicht einer Lampe zur Montage in der erfindungsgemäßen Fassung,

Fig. 11

die Seitenansicht einer Lampe zur Montage in der erfindungsgemäßen Fassung.

Further advantages result from the subclaims, the special description and the drawings. Show it:

Fig. 1

a version of the invention in perspective overall view,

Fig. 2

1, the upper housing part from FIG.

Fig. 3

a spring element for pressing the contact surface on the lamp base onto the reference surface of the upper housing part,

Fig. 4

an insulating intermediate layer,

Fig. 5

2 shows a perspective view of the lower housing part with contact cages indicated outside,

Fig. 6

2 shows a perspective detailed view of a contact cage with a spring-loaded contact and feed line,

Fig. 7

the front view of a contact plate,

Fig. 8

the side view of a contact plate,

Fig. 9

a coil spring for resilient loading of the contact plate from FIGS. 7 and 8, according to FIG. 6,

Fig. 10

the front view of a lamp for mounting in the version according to the invention,

Fig. 11

the side view of a lamp for mounting in the version according to the invention.

The special embodiment of the shown in the drawings Version 1 according to the invention is composed of a metallic Upper housing part 10 and a ceramic lower housing part 20 together. The lower housing part 20 has a receiving space 21 for the Contact cages 30 on. The upper housing part 10, which is preferably made of nickel-plated steel sheet is characterized in particular by the Presence of a reference surface 11, on which in Final assembly condition of the contact surface 44 of the lamp base 43 one Assembly provided lamp 40, which also a glass ball 41, a Filament 42 and contact pins 45 protruding from the lamp base has to come to rest. To ensure automatic and secure alignment to ensure when inserting the lamp 40 in the version 1 is in Upper housing part 10, a spring element 14 is provided, which is shown in the Embodiment is designed as a leaf spring. The Federelernent 14 exists from the actual spring body 141, to which an upper 142 and a Attach lower 141 fastening edge. With these mounting edges 142, 143 become the upper and lower edges of the reference surface 11 opposite side of the upper housing part 10 at least in regions attacked. In this way, the spring element 14 is preloaded generated. When inserting the lamp 40, the contact surface 44 of the Lamp base 43 against the reference surface 11 of the upper housing part 10 pressed, causing an automatic alignment of the filament 42 relative to achieve the optics of the lighting device.

For easier insertion of the lamp base 43 into the upper housing part 10 to ensure, are preferably not those from the top Fastening edge 142 of the spring element 14 engages behind the upper edges 12 bend the upper housing part 10 outwards. Serves the same goal also the above-mentioned choice of material of the upper housing part 10, namely nickel-plated steel sheet, as this material has a particularly smooth surface has, which allows easy insertion of the lamp base 43. In addition, stamped and bent sheet steel parts can be very inexpensive to manufacture.

The lower housing part 20 essentially fulfills two of the invention Tasks, namely the mounting of the upper housing part 10 and the Recording the contact cages 30. In the one shown in the drawings Embodiment you also comes to the task of fixing the entire version 1 in the lighting device. For this are in Lower housing part 20 guides 24 are provided for fasteners.

The contact cages 30 come in the recess provided for this Lower housing part 20 to lie. According to the invention, this is too large design that sufficient mobility of the contact cages 30th is guaranteed so that a complete adjustment of the contact cages 30 to the contact pins 45 is possible.

6 shows a detailed drawing of a contact cage according to the invention 30. The contact cage 30 is made of an electrically insulating material, preferably ceramic. In it is a recess 31 for Inclusion of a contact pin provided. This is particularly cheap realize as a breakthrough. The recess 31 can be divided into two sections divide. A first section, preferably one-sided prism-shaped (32) is designed to actually accommodate the Contact pin 45. It is replaced by a contact plate 33 from a second Section of the recess 31 separated. The second section of the Recess 31 offers space for the connected to the contact plate 33, preferably welded (36), electrical supply line 38 and for one Spiral spring 35, which is under tension on the one hand on the wall of the Recess 31, on the other hand supported on the contact plate 33. The Contact plate 33 is thus against contact pin 45 not yet inserted pressed a projection 34 serving as a guide and in its position held.

The first section of the recess 31 is to be dimensioned such that a Inserting the contact pin 45 only by moving the Contact plate 33 against the force of the spiral spring 35 is possible. Through the prism-like shape of the recess 31 can be the entire Align the contact cage 30 relative to the contact pin 45 so that the Contact plate 33 always parallel, d. H. with maximum touch of his Contact surface 331, bears on contact pin 45. The spiral spring 35 given long travel ensures that even at higher temperatures sufficient contact pressure is always maintained.

In order to facilitate the insertion of the contact pins 45 into the intended one To allow recess 31 are preferably the upper edges of the first Chamfer part of the recess 31. Likewise, as in FIGS. 6 and 8 shown, the upper edge 332 of preferably made of temperature-resistant Contact material manufactured contact plate 32 angled outwards become. This also has the advantage that the spiral spring 35 against Jumping out is secured. It is favorable if one in the contact cage special recess 37 for carrying out the electrical supply is provided.

In the special design of the contact cage 30 there are quite a number of variants conceivable in which, for. B. the aspect of an all-round electrical insulation is emphasized more than that in the drawings shown embodiment.

In the embodiment shown in the drawings, the electrical Isolation of contact plate 33 and spiral spring 35 for metallic Upper part 10 of the housing, for example, by the one shown in FIG. 4 electrically insulating intermediate layer 25 realized. Is essential to the invention here that the openings 251 in the intermediate layer 25 are significantly larger than the diameter of the contact pins 45 to be inserted. Otherwise the contact pins 45, e.g. B. with a significant inclination, a Fixing on a part rigidly connected to the lower housing part 20 learn what the basic idea of the invention, namely the exclusive Alignment of the lamp would conflict with the contact and reference surface.

The exemplary embodiment shown shows further, advantageous, but not Details relevant to the invention, which are briefly discussed below shall be. The upper housing part 10 is provided with fastening feet 13, which when mounting the socket 1 in corresponding slots 22 of the Lower housing part 20 are introduced. Preferably take action Slots 22 completely lower the housing part 20 and go on the underside in a widened recess, so that a determination of the Upper housing part 10 on the lower housing part 20 by entangling the Fastening feet 13 can be made against each other.

Furthermore, the outer edges of the contact cages 30 are chamfered, thereby creating a mutual wedging is prevented, which the individual alignment each contact cage 30 according to the particular location of it associated pin 45 would hinder.

Of course, further modifications not shown in the figures are the version according to the invention possible. Some variation options should are given below. Housing upper and lower part (10, 20) do not necessarily have to be in two parts. For example through the use of a cover and base plate for the contact cages Ensuring that the live parts are completely insulated is one one-piece design of the housing made of metallic material is conceivable. This could have advantages, particularly when it comes to heat dissipation. At two-piece design of the housing are a variety of other geometries conceivable. In particular, the ceramic base 20 could be of the Upper part 10 are at least partially included. To align the Lamp base 43 with its contact surface 44 on the reference surface 11 of the Upper housing part 10 could use other spring elements 14 than leaf springs become. In particular, it is also conceivable for the reference surface 11 to be resilient Design structure, so that the lamp base 43 resilient on both sides is burdened and fixed. The contact sheet / coil spring combination could also be used 33/35 of the contact cages 30 by a leaf spring designed contact plate 33 are replaced. Also to connect the electrical supply 38 with the contact plate 33, the state of the Technology manifold variations. Of course Embodiments for lamps 40 with more than two pins 45 are conceivable, the shape and size of the pins 45 in particular being almost arbitrary can vary. The version 1 shown in the drawings represents only an exemplary embodiment without a restrictive character.

Reference symbol list:

1

Frame

10th

Housing upper part

11

Reference surface in 10

12th

angled top edge of 10

13

Mounting foot of 10

14

Spring element

141

Spring body

142

upper fastening edge of 14

143

lower fastening edge of 14

20th

Lower part of the housing

21

Recording for 30

22

Slot for 13

23

Recess in 20 to perform 38

24th

Guide for fasteners

25th

electrically insulating intermediate layer

251

Breakthrough in 25

30th

Contact cage

31

Recording for 45

32

prismatic system

33

Contact plate

331

Contact area of 33

332

angled top edge of 33

34

Lead to lead 33

35

Coil spring

36

Solder joint

37

Recess in 30 to perform 38

38

Supply

40

lamp

41

Glass balloon

42

Incandescent filament

43

Lamp base

44

Contact surface at 43

45

Contact pin

Claims (25)

Lamp holder for multi-pin lamps, comprehensive spring-loaded contacts (33) for contacting the contact pins (45) of a lamp (40) and a housing which at least partially encompasses the lamp base (43) of the lamp (40) in the final assembly state, consisting of an upper housing part (10) which carries a device for aligning and fixing the lamp (40) and a lower housing part (20) which at least indirectly carries receptacles (21) for the contacts (33), characterized in that the spring-loaded contacts (33) provided for contacting the various contact pins (45) are arranged in individual, independently movable, electrically insulating, housing-like contact cages (30). Socket according to claim 1, characterized in that the Contact cages (30) are made of ceramic material. Socket according to one of claims 1 and 2, characterized in that that each contact cage (30) has a recess (31) for receiving a contact pin (45). Socket according to claim 3, characterized in that the Recess (31) is made prismatic on one side. Socket according to one of claims 3 and 4, characterized in that the recess (31) as an opening in the contact cage (30) is designed. Socket according to one of claims 1 to 5, characterized in that the contact provided in each contact cage (30) from a Contact plate (33), which mediates in the final assembly state a spring device (35) against the into the recess (31) inserted contact pin (45) is pressed, the Contact plate (33) substantially parallel to the contact pin (45) is aligned. Socket according to claim 6, characterized in that the Spring device is designed as a spiral spring (33). Socket according to one of claims 6 and 7, characterized in that that in the contact cage (30) has a projection (34) for guiding the Contact plate (33) is provided so that at not in this provided recess (31) inserted contact pin (45) Defined minimum distance between the contact plate (33) and the opposite side of the recess (31) not less can be. Socket according to one of claims 6 to 8, characterized in that that the contact plate (33) at its upper edge Has chamfer (332). Socket according to one of claims 6 to 9, characterized in that that leads (38) are welded to the contact plates (33). Socket according to one of claims 1 to 10, characterized in that the contact cages (30) recesses (37) on one side Have feed each one feed line (38). Socket according to one of claims 1 to 11, characterized in that the contact cages (30) in at least one recess (21) of the Lower housing part (20) are movably supported. Socket according to one of claims 1 to 12, characterized in that the upper housing part (10) a reference surface (11) for a Contact surface (44) lamp base (43). Socket according to claim 13, characterized in that in Housing upper part (10) a spring device (14) is provided, which in the final assembly state the lamp base (43) against the Presses reference surface (11). Socket according to claim 14, characterized in that the Spring device is designed as a leaf spring (14) which the top and / or Lower edge of one side of the upper housing part (10) reaches behind at least in some areas. Socket according to claim 15, characterized in that the Reference surface (11) for contacting the contact surface (44) of the Lamp base (43) consists of a resilient structure. Socket according to one of claims 1 to 16, characterized in that that the upper housing part (10) is formed from sheet steel. Socket according to claim 17, characterized in that the Housing upper part (10) is nickel-plated. Socket according to one of claims 1 to 18, characterized in that that the contact cages (30) from the upper housing part (10) by a insertable, electrically insulating intermediate layer (24) are separated. Socket according to one of claims 1 to 19, characterized in that the upper edges (12) of the upper housing part (10) to the outside have directed bevels. Socket according to one of claims 1 to 20, characterized in that the upper housing part (10) at its bottom edge Fastening feet (13) which in slots (22) of the Engage the lower part of the housing (20). Socket according to claim 21, characterized in that the Upper part of the housing (10) by crossing the fastening feet (13) can be fixed on the lower housing part (20). Socket according to one of claims 1 to 22, characterized in that that the lower housing part (20) consists of ceramic material. Socket according to one of claims 1 to 23, characterized in that the lower housing part (20) at least partially made of metallic Material exists. Socket according to one of claims 1 to 24, characterized in that the lower housing part (20) recesses (23) for feeding the Has supply lines (38).

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