DE4037080A1 - Encapsulated transformer with terminals tightly fitting slits - has U=shaped edge terminal blocks held in recesses - Google Patents

Abstract

A sealed transformer (1), such as is used for l.v. Halogen lighting, is encased in an insulating housing (4) with base-mounting fastening projections (3). Instead of the usual terminations for the transformer windings connection is made via U-formed insulated terminations (8) which clip over the housing sides and are held rigidly in position. The winding connections lead through the channel formed in the clip so as to be relieved of any external stresses that may fall on the external connection (8). USE - Where prevention against ingress of moisture is paramount.

Description

The invention relates to a casting transformer with a on the floor or on Lid open housing made of insulating material, one in the housing used transformer block, on the housing in recesses in the side walls attached, one or electrically connected to the transformer block several insulating housings or one of the transfor Matorblock in the housing and isolating, filling the housing Potting compound, with each connection terminal inside the housing wire connection, in particular a solder connection and outside the housing has an outer conductor connection, in particular a screw connection. Ge The subject of the invention is an electrical terminal for such Potting transformer.

Cast transformers are becoming increasingly popular; in particular The increasingly common low-voltage halogen lights have increased Production quantities of casting transformers led.

The previously known encapsulation transformers, which was briefly described previously are in the housing made of insulating material at different Make the necessary breakthroughs. In particular are through Refractions in the form of recesses for the use of electrical connections closing clamps provided in the side walls. These recesses are in different heights on one or more side walls of the housing seen holes through which the terminals from the outside into the Ge be inserted into the housing. Recesses in the side walls of the housing are also used for fuse holders, suppression capacitors and light indicators gene needed. It is not uncommon for ten or more recesses to be made of insulation existing housing can be punched out or drilled.

The manufacturing steps explained above are already complex. Elaborate is also that the initially very thin potting compound tends to to emerge through the recesses in the side walls of the housing. Man must therefore seal the terminals against the housing itself, be it  by sealing rings in a Ver. lying on the inside of the housing screwing, be it through sealing adhesives or paint coats. That too indicates manufacturing effort.

Finally, the connector sitting in the side wall of the housing clamp electrically with the transformer with their inner conductor connections block are connected. This must be done with the transformer block and used terminals happen. Here are the inner conductor connections se the terminals often arranged relatively far sunk in the housing and therefore difficult to reach.

Potting transformers of the type in question are usually with a Open case supplied on the floor. From the open floor, too Potting compound poured into the housing. Such a Ver is then assembled Cast transformer after hardening of the sealing compound in the reverse position, that is with the open side down. But there are also encapsulation transformers, which are open at the top, i.e. on the lid, and after the Potting compound not turned, but on the open side with a lid or headpiece are closed.

The teaching of the invention is based on the object of specifying how a Ver Cast transformer of the type in question significantly in terms of production technology can be simplified.

The above problem is solved in that the recesses in Housing, in particular that are used to attach the terminals the recesses in the housing than from the open bottom or lid facing edge outgoing slots are made and the width of the slot ze corresponds to the width that a connecting terminal or several connecting terminals men in their mounting area. According to the invention the necessary recesses, in particular the recesses for the Terminals, but also other necessary recesses  conditions, for example for fuse holders or illuminated displays, on the open Bottom (or the lid) facing edge of the housing is concentrated. The Ge the rest of the house is completely closed. The recesses are there with in terms of manufacturing technology simple slots starting from the edge executed. The concept of the slot is widely understood here, too is a relatively wide section with the width of several terminals insofar as a slot in the sense of the teaching of the invention.

It is essential that the recesses designed as slots in the Technically, the housing can be attached very easily. they can even when spraying the housing made of insulating material be provided in terms of tools. It is also essential that the An terminal clamps (or fuse holder or indicator lights) on the without white teres accessible edge of the housing so that the inner conductor the terminals are easily accessible. You are lying not, as in the prior art, sunk deep within the housing, son easily accessible on the edge of the open bottom or lid of the housing ses. After all, the slots extending from the edge are independent of them width with the insulating housing of the connection terminals (or the insulating housings of fuse holders or indicator lights) compared to the beginning Lich very thin potting compound to seal much easier than Openings and recesses lower down in the sides of the housing. On the one hand, this is due to the easier accessibility, on the other hand at the effective pressure of the potting compound inside the housing, the self-ver always close to the level of the potting compound is much less than deep down inside the case.

There are now two differences for the further embodiment of the invention ways. On the one hand, the top (or bottom) of the insulation housing of the connection terminals (and other components) with the assigned Align the edge of the housing. Then the insulating housing must be in the recess mung be used so that the potting compound reaching to the edge since  Lich can not leave. On the other hand, one can use one according to the invention Potting transformer also designed so that the open ground or Lid facing edge of the housing to form the recesses opposite the top cover surface of the housing by the effective height of the insulating housing se of the terminals is reset. In this construction, the relevant for the mirror of the potting compound, which also the represents the inner edge of the recesses designed as slots, against above the line of alignment of the top cover surface of the housing around the effective Height of the insulating housing of the connection terminals reset. In this way can be on a seal of the insulating housing of the terminals in the dispense with recesses formed by this recessed edge. The potting compound reaching only to the recessed edge is complete enclosed in the completely sealed housing. Then it lies Casting compound mirror to the effective height of the insulating housing of the final clamps below the line of alignment of the top cover surface of the housing ses, but that doesn't bother in practice.

Otherwise, the teaching of the invention also relates to an electrical connection clamp for a potting transformer. Such an electrical terminal As usual, me has an insulating housing, at least one inner conductor conclusion, in particular a solder connection, at least one outer conductor conclusion, in particular a screw connection, and a galvanic connection between the inner conductor connection and the outer conductor connection, in particular a track. For use in the context of the teaching of the invention Such an electrical connection terminal is particularly suitable in that the insulating housing in cross-section along the main plane U-shaped or vice versa returns U-shaped, namely a slot for receiving a ran of the housing of the potting transformer, and the connection between the cross-section of the inner conductor connection and the outer conductor connection following the insulating housing is also approximately U-shaped.  

In the following, the invention is based on only exemplary embodiments illustrative drawing explained in more detail; shows in the drawing

Fig. 1 in a perspective view, schematically, a first embodiment of a Vergußtransformators invention,

Fig. 2 the area of the terminal of the Vergußtransformators of FIG. 1 in section,

Fig. 3 shows the region shown in Fig. 2 again, in a fragmentary plan view,

A Vergußtransformators Fig. 4, the housing of another embodiment according to the Invention,

5 , 6 , 7 , 8 , each in a Fig. 2 similar representation, embodiments of a potting transformer according to the invention with different electrical rule's terminals,

Fig. 9 shows another embodiment of a potting transformer according to the invention with an annular housing and

Fig. 10 is a group of for use in a Vergußtransformator of FIG. 9 especially suitable electrical terminals.

Fig. 1 shows the basic principle of the potting transformer according to the invention very well. The Vergußtransformator of FIG. 1 comprises a first the 1 face, provided at the bottom edge 2 with eyelets 3, consisting of insulating material housing at Bo. 4 Inserted into the housing 4 is a transformer block 5 , which is only indicated schematically here. Mounted on the housing 4 in recesses 6 of the side walls 7 and electrically connected to the transformer block 5 , individual insulating housings 8 each have connecting terminals 9 . Here only a single terminal 9 is shown so as not to impair the clarity. Furthermore, it is indicated here that a transformer block 5 in the housing 4 defining and insulating, the housing 4 filling Vergußmas se 10 is provided.

From Fig. 2 in conjunction with Fig. 1 it can be seen with respect to the terminal 9 that this in principle within the housing 4 an Innenlei teranschluß 11 , shown here as a solder connection, outside the housing 4 an outer conductor connection 12 , shown here as a screw connection, and in the insulating housing 8 has a housing 4 in the recess 6 , the inner conductor connection 11 with the outer conductor connection 12 connecting current rail 13 .

If what has been described above, is basically already implemented in the potting transformers known from practice, then applies to the invention shown in FIGS . 1 and 2 in a first embodiment, that the recesses 6 in the housing 4 as of of the open bottom 1 or lid facing edge 2 outgoing slots are made and the width of the slots corresponds to the width that a terminal 9 or more terminals 9 have in common in the mounting area. In the embodiment shown in Fig. 1, five recesses 6 are provided in the form of for each an insulating housing 8 to a terminal block 9 matching slots. One could From these five recesses 6 also to a single recess 6 correspondingly larger slurry te unite, in which then a terminal strip with five terminals 9 could be inserted sealingly. It can be seen that it is very easy to use the terminal 9 from the open side of the housing 4 , as it is also very simple to form the recesses 6 in the side wall 7 of the housing 4 .

Fig. 1 also makes it clear that the housing 4 of the potting transformer is completely closed by the measures according to the invention, so that there are no openings that would have to be sealed to prevent the escape of potting compound 10 from the housing 4 .

The illustrated in FIGS. 1, 2 and 3 the first embodiment of he inventive Vergußtransformators now is characterized in that the upper sides or lower sides of the insulating housing 8 of the terminals 9 with the associated edge 2 are aligned with the housing 4. Fig. 2 makes this particularly clear, it can be seen that the mirror of the potting compound 10 is approximately aligned with the top (or underside) of the insulating housing 8 of the terminal 9 inserted here and thus with the edge 2 of the housing 4 . In order to prevent the initially very thin potting compound 10 emerging from the housing 4 at the recesses 6 , it can be provided that, as shown in FIG. 3, the insulating housing 8 of the connecting terminals 9 has grooves into which the edges of the Engage recesses 6 . In order to increase the sealing effect, seals 14 can be provided in the grooves, as is also shown in FIG. 3. The arrangement should be so abge true that even with different thicknesses of the side walls 7 of the housing 4 always a completely sealing engagement of the edges of the Ausneh lines 6 in the grooves with the seals 14 provided there is guaranteed. For this purpose, the inherent elasticity of the Isoliergehäu ses 8 of the terminal 9 should be determined appropriately.

The previously explained arrangement of grooves with seals 14 arranged therein also has the advantage that the edges of the recesses 6 serve as guides when the terminals 9 are inserted into the housing 4 and provide an additional hold of the entire arrangement in the assembled state.

In the embodiment shown in FIGS . 1 to 3, there is a completely smooth surface from potting compound 10 to the edge 2 and to the fastening eyes 3 on the housing 4th If one assumes that in the exemplary embodiment shown here, the housing 4 is open at the bottom 1 , then after turning the housing 4 over with hardened sealing compound 10, the sealing transformer can be mounted on a flat base plate without any additional teres.

FIG. 4 now shows a further exemplary embodiment of a potting transformer according to the invention, but here only a corresponding housing 4 . In this housing 4 there are continuous recesses 6 with the common width of several connecting terminals 9 in all four side walls 7 . If one would now put corresponding terminals 9 in all these recesses 6 , one could make a seal in the same manner as in the embodiment of FIGS. 1 to 3. However, the housing 4 shown in FIG. 4 provides even a fundamental Gestal other processing possibility. This housing 4 can also be described in such a way that the edge 2 of the housing 4 facing the open bottom 1 or cover to form the recesses 6 with respect to the fastening eyes or against the top cover surface of the housing 4 by the effective height of the insulating housing 8 the terminals 9 is reset. In this case, the areas in the recesses 6 of the insulating housing 8 of the connecting terminals 9 would always be above the level of the sealing compound 10 , the sealing compound 10 would also extend to the edge 2 here , but this would form the recesses 6 offset downwards from the line of alignment of the fastening eyes 3 . In this case, the casting compound 10 is located in a housing 4 which is closed on all sides with the exception of the base 1 (or the cover) without any interruption at the edge. The insulating housing 8 of the terminals 9 are above the level of the casting compound Ver 10 in the recesses 6 , but need not be sealed because of this arrangement. If one takes into account that the effective same height of the insulating housing 8 is typically about 3 to 4 mm, one can easily understand that the somewhat lower position of the mirror of the hardened potting compound 10 is very unproblematic for the arrangement of the potting transformer on a base . The same applies to a housing 4 open on the cover, on which a corresponding cover would then simply have to be placed.

FIGS. 5 to 8 now make different possible arrangements for At connection terminals 9 and therefore different design forms of connection terminals 9 significantly.

Fig. 5 first shows the terminal 9 already shown in FIGS . 1 to 3 and described in connection with this representation. Here is the mirror of the potting compound 10 above the inner conductor connection 11 and it applies that the inner conductor connection 11 is completely within the potting compound 10 . This is of course inexpensive in terms of insulation technology.

Fig. 6 shows a comparison of an electrical terminal 9 , which can be used in conjunction with a housing 4 according to FIG. 4, in which the insulating housing 8 is in the recess 6 above the level of the sealing compound 10 . Here it now applies that the inner conductor connection 11 to the terminal 9 is at least partially outside of the sealing compound 10 . Of course, the inner conductor connection 11 must be electrically insulated upwards (later downwards). For this purpose, in the embodiment shown here, for example, a special measure is provided on the insulating housing 8 of the connecting terminal 9 , namely that the insulating housing 8 of the connecting terminal 9 has a protective cap 15 which immerses the inner conductor connection 11 and ends in the sealing compound 10 .

At this point, a brief explanation of the manufacturing possibilities of a potting transformer according to the invention is recommended. One can in the inventive Vergußtransformator the connection terminals 9 to before the placement or insertion of the terminals 9 with the corresponding winding or the corresponding windings of transformer block 5 electrically connect, solder in the shown execution example, the inner conductor terminals. 11 Then the terminals 9 can then be inserted into the recesses 6 or attached to the corresponding edge 2 of the housing 4 . Only then is the casting compound 10 poured. You can also first connect the insulating housing 8 of the terminals 9 me mechanically to the housing 4 , then edit the inner conductor connections 11 and finally fill in the sealing compound 10 . Thus one would perhaps more likely in the embodiment of Fig. Method 6, wherein the protective cap would fold 15 before filling of the potting compound 10 downward, so that it is immersed in the sealing compound end 10 and is fixed by it.

FIGS. 5 and 6 have in common here that the connection terminals 9 are angeord net so that the subsequent positioning of the housing 4 in the reverse order to take account of. So here the housing 4 , as already explained several times above, is open at the bottom 1 ; it is later arranged with hardened Ver casting compound 10 reversed on a base. This configuration tra conditions the terminals 9 here account that they are used with upside down outer conductor connections 12 . In the final state, the outer conductor connections 12 are then such that they can be actuated easily from above. This applies in particular to screw connections, the preferred example presented here.

FIG. 7 differs from the exemplary embodiment according to FIG. 6 only in the different orientation of the connecting terminal 9 . This is arranged here on a housing 4 open on the cover; this housing 4 is therefore no longer turned later. Rather, a cover part that cannot be seen here is put on.

The same as explained above in FIG. 7 also applies to the further exemplary embodiment shown in FIG. 8 for the arrangement of a connecting terminal 9 on the housing 4 of a potting transformer according to the invention. Here, the recess 6 for the insulating housing 8 of the connecting terminal 9 is also formed by the edge 2, which is also set back relative to the uppermost cover surface of the housing 4 . The uppermost cover surface of the housing 4 is defined by the cover part 16 , which is only indicated by dashed lines and which is later placed on the housing 4 .

Fig. 9 shows a Vergußtransformator with an annular housing 4. Here again one can see the recess 6 starting from the edge 2 according to the invention. Because of the curved shape of the side wall 7 of this housing 4 , the sealing insertion of electrical connecting terminals 9 is difficult here in any case when a plurality of connecting terminals 9 are to be used side by side in a recess 6 . Fig. 10 shows a particularly preferred embodiment for this application, which is characterized in that a plurality of terminals 9 are in the form of a terminal strip with flexible bending webs 17 formed between the insulating housings 8 . If you work here with a similar construction as in Fig. 4, special seals are not required, since the mirror of the sealing compound 10 only up to the recessed edge 2 , through which the Ausneh line 6 is formed, is sufficient. If a design as in FIG. 1 is provided, it can be provided that the bending webs 17 are provided with sealing lips assigned to the edge of the recess 6 .

In any case, it is recommended that the terminals 9 in the side walls 7 Be of the housing 4 , ie in the recesses 6 or at the edge 2 me can fix mechanically. For this purpose, it can be recommended that on the one hand on the housing 4 and on the insulating housings 8 of the connecting terminals 9, on the other hand, a differently assigned latching shape is provided.

FIGS. 5 and 8 make it particularly clear what impact on the shape of the case has the dung OF INVENTION contemporary design of a Vergußtransformators to use electrical connection terminals 9. In Figs. 5, 6 and 7, namely, to realize that the insulating housing 8 is carried along the main plane in cross-section U-shaped or inverted U-shape, namely, a slot for receiving an edge 2 has the Vergußtrans formators of the housing 4, and that the galvanic connection 13 between the inner conductor connection 11 and the outer conductor connection 12 , here in the form of a busbar, the cross section of the insulating housing 8 is also approximately U-shaped. Fig. 3 makes in this connection then clear that for certain applications the insulating housing 8 seals 14 may be provided for sealing connection with the housing 4. Finally, FIGS. 6, 7 and 8 make it clear that a preferred design can consist in that a protective cap 15 is designed to be foldable or articulated on the insulating housing 8 in the region of the inner conductor connection 11 .

Claims (15)

1. encapsulating transformer with an open at the bottom or on the lid, made of insulating material housing, a transformer block used in the housing, attached to the housing in recesses in the side walls, electrically connected to the transformer block, one or more Isolierge housing having connecting terminals and one Transformer block in the Ge-defining and insulating, the housing-filling potting compound, where at each connection terminal within the housing has an inner conductor connection, in particular a solder connection and outside the housing has an outer conductor connection, in particular a screw connection, characterized in that the recesses ( 6 ) in housing (4), ie in particular the (4) and the open bottom (1) or lid facing the edge (2) from which extend de slots are adapted to at the terminals brin supply (9) serving recesses (6) in the housing, and the width the slots of the Br eite corresponds, which have a connecting terminal ( 9 ) or several connecting terminals ( 9 ) together in their mounting area. 2. potting transformer according to claim 1, characterized in that the upper sides or undersides of the insulating housing ( 8 ) of the terminals ( 9 ) with the associated edge ( 2 ) of the housing ( 4 ) are aligned. 3. potting transformer according to claim 1 or 2, characterized in that the insulating housing ( 8 ) of the terminals ( 9 ) have grooves in their mounting area and the edges of the recesses ( 6 ) engage in the grooves. 4. potting transformer according to one of claims 1 to 3, characterized in that the insulating housing ( 8 ) of the terminals ( 9 ) rich in Anbringungsbe, especially in the grooves, the edges of the recesses ( 6 ) sealing de seals ( 14 ). 5. potting transformer according to one of claims 1 to 4, characterized in that the inner conductor connection ( 11 ) of the connecting terminal ( 9 ) is completely digi dig within the potting compound ( 10 ). 6. potting transformer according to one of claims 1 to 5, characterized in that the open bottom ( 1 ) or lid facing edge ( 2 ) of the housing ( 4 ) to form the recesses ( 6 ) relative to the top deck surface of the housing ( 4 ) to the effective height of the insulating housing ( 8 ) of the terminal blocks ( 9 ) is reset. 7. potting transformer according to one of claims 1 to 4 or according to claim 6, characterized in that the inner conductor connection ( 11 ) of the connecting terminal ( 9 ) is at least partially outside the potting compound ( 10 ) and preferably, the insulating housing ( 8 ) of the connecting terminals ( 9 ) a the inner conductor connection ( 11 ) surrounding, in the potting compound ( 10 ) ends immersed protective cap ( 15 ). 8. potting transformer according to one of claims 1 to 7, wherein the housing is open at the bottom, characterized in that the connecting terminals ( 9 ) with upside down outer conductor connections ( 12 ) are used. 9. potting transformer according to one of claims 1 to 8, characterized in that on the housing ( 4 ) on the one hand and on the insulating housings ( 8 ) of the terminals ( 9 ) on the other hand, associated recesses are seen before. 10. potting transformer according to one of claims 1 to 9, characterized in that a plurality of terminals ( 9 ) in the form of a terminal strip with flexible bends ( 17 ) are formed between the insulating housings ( 8 ). 11. Potting transformer according to claim 10, characterized in that the bending webs ( 17 ) with the edge of the recess ( 6 ) are provided with sealing lips. 12. Electrical terminals for a potting transformer, in particular for a potting transformer according to one of claims 1 to 11, with an insulating housing, at least one inner conductor connection, in particular a solder connection, at least one outer conductor connection, in particular a screw connection, and a galvanic connection between the inner conductor connection and the External conductor connection, in particular a busbar, characterized in that the insulating housing ( 8 ) in cross-section along the main plane is U-shaped or vice versa U-shaped, namely a slot for receiving an edge ( 2 ) of the housing ( 4 ) of the potting transformer has, and the connection ( 13 ) between the inner conductor connection ( 11 ) and the outer conductor connection ( 12 ) following the cross section of the insulating housing ( 8 ) is also approximately U-shaped. 13. Electrical connection terminal according to claim 12, characterized in that seals ( 14 ) are provided on the insulating housing ( 8 ) for sealing connection to the housing ( 4 ) of the potting transformer. 14. Electrical terminal according to claim 12, characterized in that the seals ( 14 ) in the insulating housing ( 8 ) provided grooves are realized. 15. Electrical terminal according to one of claims 12 to 14, characterized in that on the insulating housing ( 8 ) in the region of the inner conductor connection ( 11 ) a protective cap ( 15 ) is designed to be foldable or articulated.