EP0843325B1 - Small transformer - Google Patents

Description

The invention relates to small transformers, such as safety, bell or fail-safe transformers, with a coverable or covered with a cover through such a cover at least partially formed plastic housing, in which is arranged a two-legged sheet metal core, the package parts of which are form-fitting anchor with each other, with primary and arranged on one of the legs other provided secondary winding, preferably at least one of the Windings can be switched off and / or one of the windings is thermally switched changing, current limiting resistor is protected. Such small transformers are designed as safety transformers or as Bell transformers are used, in which the secondary of the primary winding safely is separated and the windings are conditionally short-circuit proof, whereby after Possibility to switch off the request.

DE-U-295 12 753 discloses a generic small transformer which consists of is composed of many individual parts. Such, at least conditionally short-circuit proof In the past, transformers were provided with magnetic shunts; a simpler and cheaper solution is seen in the current over one of the windings to lead a resistor with a positive temperature dependency, so that when rising the current into impermissible areas by increasing the temperature of the resistor and thus the ohmic resistance of the winding current is limited. As problematic but the construction turns out. Shedding requires a lot of effort than Accommodation is both difficult the often requested switch, especially the primary winding as well as the current limiting element, and shows as problematic the demand for small space requirements continues to be connected with reliable insulation and manufacture from a few, reliable parts that should be easy to assemble.

The invention is therefore based on the task of building a to create such a small transformer, which consists of relatively few, there are easy to manufacture parts that are easy to assemble to let.

This task is solved by the characteristics of the license plate of the first claim. The parts of such a small transformer can be easily put together, and also the later assembly and the connection are simple and the installer only little stress.

Advantageous, expedient and inventive developments of the The subject of the invention are characterized in the subclaims.

Figur 1

einen in zwei gegeneinander versetzten Vertikalebenen geführten Schnitt durch einen Kleintransformator,

Figur 2

einen bereichsweisen, die Mitte eines Ausschalters eines Kleintransformators erfassenden Querschnitt,

Figur 3

einen Längsschnitt eines Schaltelementes des Ausschalters der Figur 2, und

Figur 4

einen Querschnitt durch ein abgewandeltes Schaltelement.

The features of the invention are explained in detail on the basis of the description of exemplary embodiments in conjunction with these drawings. They show:

Figure 1

a cut in two mutually offset vertical planes through a small transformer,

Figure 2

a cross-section, the middle of a switch of a small transformer,

Figure 3

a longitudinal section of a switching element of the switch of Figure 2, and

Figure 4

a cross section through a modified switching element.

1 shows an offset longitudinal section through a small transformer shown the right-hand side against the median plane only slightly up to the middle level of the second of four tension clamps 20 is offset while he is on the left in front of the left coil body 1 shown and in the central plane one of the Cover 21 holding spring hook 25 of the base plate 8 out is. The core 1 and 2 are penetrated by core packages 3 and 4, the loosely layered and through the bobbin 1 and 2 are held together as packages. Provided at one end of the sheets Projections 5 engage in the compilation of the core packages Recesses of the core package opposite them (plug-in plates), so that solid and stable without any additional means Sheet metal cores can be obtained. The one-piece molded bobbin 1 and 2 point beyond their flanges 6 downwards Support plates 7, which extend tangentially to the laminated cores and stand up with its lower edge on the base plate 8. The support plates are equipped with vertical ribs 9, which after assembly overlapped by hooks 10 made in one piece with the base plate 8 become. The coil formers 1, 2 thus hold the yokes of the core packages together, positively with each other through the projections 5 are connected, and the wound bobbins 1, 2 are by means of the hook 10 and connected to the base plate 8 under tension, being on the end faces of their support plates 7 and / or lean on the lower base of the core package 4. The base areas the sheet metal tangent vertical ribs of low height Coil bobbins make it easier to insert those to be accommodated with an interference fit Core packages.

The base plate 8 has a rectangular on its underside Recess 11 for mounting on standard rails 12. Is on the left the flank of the recess is provided with cams 13, which on one side reach under the outer flange of the standard rail 12. On the opposite side a spring cam 14 is guided in the base plate 8, which over the opposite flange can be pressed and snapped into place but also for removing the small transformer from the standard rail can be withdrawn by tools.

The end walls 15 of the base plate 8 have openings in the center 16 for terminal lugs 17 of the primary or secondary coil, and they include a stem 18 to form articulated recesses 19 for tension clamps 20 with captive screws. The transformer is closed by putting one on Cover 21 with the central areas 22 of their end faces the recesses 19 except for openings 23 for connecting wires and further openings 47 for access by a screwdriver to the Heads of the captive screws of the clamp clamps 20, while the end face 22 shown on the left in its Cutting plane an opening 24 or at least recesses has one in the provided on both sides of the base plate Spring hook 25 engages and thus in association with three others Spring hook holds the cover 21 on the base plate 8.

The connection areas formed in the middle of the end faces of the cover 21 of the small transformer are also overlapping by it Cover caps 26 protected. These cover caps have one Support collar 27 on, with the areas of the end faces 22 of the cover 21 are affected tangentially. At the free end of the Support collar hook projections 28 are formed, which breakthroughs 29 of the cover 21 penetrating the top cap 26 on this hold. An opening 30 is provided in the upper region of the top cap, through the with a tool a cup-like approach 31 des Support collar can be reached, by means of which the support collar 27 is detachable from the cover 21.

The coil formers 1, 2 and thus the transformer Support plates 7 are with recesses for receiving PTC resistors 32 equipped, and further recesses and / or through projecting ledges 33 formed bottlenecks or in such ledges The proposed passages serve to receive and define theirs Supply lines. The PTC resistors 32 can also have no recesses the support plate 7 may be arranged flanking. With that you can easily accommodate one or more PTC resistors if desired, and their connections are the contact lugs of the coil formers adjacent that they can be connected directly to them or to winding ends are.

With small transformers of these tasks one tries, for safety reasons the secondary winding from the primary winding if possible insulate against high voltages. In the embodiment of the figure 1 are between the primary and secondary winding of insulating material existing cut-off wheels 34 inserted with edge strips 35 encompass the edge regions of the flanges of the coil formers 1, 2 and partially intervene in them. There can be continuous cutting discs 34 are used; but it is also possible, just about to provide half penetrating cutting discs, the free ends taper in a wedge shape and overlap each other. Cutting disks 34 made in one piece have proven particularly useful with all-round border strips projecting on both sides 35. They allow assembly in which the wound bobbin 1 and 2 are plugged onto the cutting disc 34 on both sides and then by engaging the projections 5 of the inserted core packages 3 and 4 are connected to each other, whereupon the actual transformer assembled in this way with windings and sheet metal core as a connected whole by snapping the hooks 10 onto the base plate 8 is held.

A usable in connection with such a small transformer Switch 46 is shown in Figure 2. With a contact carrier 36 it overlaps an edge region of the upper flange 6 of the coil former 1. At least one of the contacts 37 can directly with one End of the winding picked up by the coil body. The close both contacts one behind the other in the drawing a gap between them that can be bridged by a steel ball 38 is. This steel ball is in a guide shaft 39 held, which is provided on the underside of a safety edge 40 is. The switching strip reaches through with its actuating plate 41 a slot of the cover 21 and is on with its surface the inner surface of the cover 21, as well as its flanks leading against the cover 21 or parts of the bobbin 1 support. A view of this switching strip 40 is shown in FIG. 3 shown, which also has a centering pin 42 for a steel ball 38 shows prestressing compression spring 43. This compression spring 43 is expediently made of a non-oxidizing steel alloy, for example V2A steel, wrapped.

FIG. 4 shows an alternative possibility: Injection molding of the switching strip 40, the guide shaft 39 is in one piece equipped with a resilient plastic strip 44, the one Steel ball 38 is able to bias. The description shows that a Dispensing with such a switch is readily possible by the relevant parts are omitted and a closed cover is used in which the top surface without a corresponding slot executed. is.

It has proven particularly useful, contrary to the illustration in FIG. 2 the switch 46 above that shown in Fig. 1 top - left To arrange flange area of the coil body 1, wherein the angular ribs 45 of the bobbin can be used for clipping and the left upper down step of the cover 21 to form a cross to Drawing plane of Fig. 1 extending slot for the actuator plate 41 of the safety edge 40 according to the space requirement of Switch 46 is moved to the left. Here arise excellent connection conditions for the primary winding: e.g. becomes the beginning of the winding of the halved primary winding of the bobbin 1 to one of the outside of the connecting lugs 17 of the bobbin 1 placed opposite the PTC resistor 32 lies. The end of this half winding is with one of the contacts 37 of the switch 46 connected, the second of these contacts 37 takes the beginning of the second half of the winding, the end of which with free connecting wire of the PTC resistor 32 is connected while the other terminal end of the PTC resistor 32 with that of the above mentioned terminal lug 17 is connected opposite. In order to there is also the advantage of the connections of the primary winding, the switch 46 and / or the PTC resistor 32 already on to be able to manufacture the winding machine used. In case of need an insulating film can be provided between the two winding halves become.

Other variants are possible; in any of the cases, however excellent cohesion of the parts of the transformer reached, while simply pressing the parts together during assembly are so that the laminated cores without any further connection the sheets of the bobbins are locked and locked by means of latching hook 10 both the actual parts of the Transformers can be locked on the base plate 8 as well by means of the spring hook 25, the cover 21 Connections also become those that span the connection areas Cover caps 26 releasably locked.

Reference list

1.2

Bobbin

3.4

Core packages

5

Ledges

6

flange

7

Support plates

8th

Base plate

9

Vertical ribs

10th

hook

11

rectangular recess

12th

Standard rail

13

cam

14

Feather cams

15

Front wall

16

Breakthrough

17th

Connection lug

18th

Stem

19th

Recesses

20th

Drawbar clamps

21

Cover

22

Middle area end face

23

opening

24th

Breakthrough

25th

Spring hook

26

Rotating cap

27

Support collar

28

Hooks

29

Breakthroughs

30th

opening

31

Cup-like approach

32

PTC resistor

33

projecting ledges

34

Cutting discs

35

Sidebars

36

Contact carrier

37

contacts

38

Steel ball

39

Guide shaft

40

Safety edge

41

Flush plate

42

Centering pin

43

Coil spring

44

Resilient plastic strip

45

Angled ribs

46

Switch

47

opening

Claims (17)

1. Small transformer with a synthetic material housing, which is closably covered by a cover hood (21) or at least partly formed by such a cover hood (21) and in which a two-limbed laminated core (3, 4) is arranged, the lamination stack parts (3, 4) of which are mechanically positively locked together, with winding bodies (1, 2) which are engaged through by the lamination stack parts (3, 4), and with a primary winding arranged on one of the limbs and a secondary winding provided on the other limb, wherein optionally at least one of the windings can be switched off and/or one of the windings is protected by a thermally variable resistance (32) limiting the current, characterised by support plates (7), which are connected with the winding bodies (1, 2), flank the lamination plates of the laminated core (3, 4) out beyond the flanges (6) of the winding bodies and extend up to a base plate (8) of the synthetic material housing or to the cover hood (21), by a PTC resistor 32, which is held by strips (33) of a lower support plate (7) and which flanks this, by hooks (10), which engage over vertical ribs (9) of the lower support plate (7), of the base plate (8) of the transformer, and by further spring hooks (25), which are fixed in passage openings (24) of the cover hood (21), of the base plate (8).
2. Small transformer according to claim 1, characterised in that at least one of the support plates (7) has recesses for reception of a PTC resistor (32) and its terminals.
3. Small transformer according to claim 1 or 2, characterised in that the protruding strips (33) have bores for reception of the connecting wires of the PTC resistor (32) or for the reception thereof are arranged in pairs at a small spacing.
4. Small transformer according to claim 1 to 3, characterised in that an off-switch (46), which is constructed as a slide switch and the actuating plate (41) of which engages through a slot of the cover hood (21), is provided above the upper flange (6) of one of the coil bodies (1, 2).
5. Small transformer according to one of the claims 1 to 4, characterised by a contact carrier (36), which is equipped with two contacts (37), is placed on a region of the flange (6) of a coil body (1) remote from the core lamination stack (3, 4) and by way of which a switch strip (40) is guided to be displaceable, below the actuating plate (41) of which strip a guide shaft (39) is directed towards the contact carrier (36), a spring-loaded metal ball (37) being guided in the shaft.
6. Small transformer according to claim 5, characterised in that the guide shaft (39) has a helical spring (43) preferably centred by spigot (42).
7. Small transformer according to claim 6, characterised in that the helical spring (43) is wound from a wire of a stainless steel alloy.
8. Small transformer according to claim 5, characterised in that the guide shaft (39) of the switch strip (40) comprises a synthetic material strip (44), which is injection-moulded on, for pressing the metal body (metal ball 38) against the contacts (37).
9. Small transformer according to claim 5 to 8, characterised in that the contact carrier (36) is arranged on the region, which is remote from the outside, of the upper flange (6) of the coil carrier (1) having the primary coil, that it extends transversely to the lamination plates of the core lamination stack (3, 4) and that it engages behind angled ribs (45) of the coil body (1).
10. Small transformer according to one of claims 1 to 9, characterised in that the end wall (15) of the base plate (8) has at both sides recesses (19) for reception of tension clip clamps (20) and that they are furnished with passage openings (16) for reception of terminal lugs (17), which are guided in the tension clip clamps (20), of the coil bodies (1, 2).
11. Small transformer according to claim 10, characterised in that end faces (22) of the cover hood (21) engage over the recesses (19), wherein openings (23) for connecting wires of the tension clip damps (20) as well as openings (47) for screwdrivers are provided.
12. Small transformer according to one of the claims 1 to 11, characterised by cover caps (26), which engage over the electrical terminals thereof and lie by an upper inner support collar (27) above the tension clip clamps (20) against the middle region of the end walls (22) of the cover hood (21) and the support collars (27) of which have hook protrusions (28) engaging in passage openings (29) of the end faces (22) of the cover hood (21) as well as a respective cuplike protrusion (31) above the same with upwardly open troughs, which are engaged over by an opening (30) of the cover caps (26).
13. Small transformer according to one of the claims 1 to 12, characterised in that the base plate (8) is executed with a rectangular recess (11) for reception of standard rails (12), the flanks of which at one side are equipped with dogs and the opposite flanks of which are provided with spring dogs (14).
14. Small transformer according to claim 1 to 13, characterised In that the primary winding of the coil body (1) consists of two part windings arranged one above the other and that the end of the lower part winding as well as the start of the upper one are each connected with a respective one of the contacts (37) of the off-switch (36).
15. Small transformer according to one of the claims 1 to 14, characterised in that the start or the end of the primary winding of the coil body (1) is connected with one of the connecting wires of the PTC resistor (32), the second connecting wire of which is fixed to one of the terminal lugs (17) of the coil body (1) of the primary winding.
16. Small transformer according to claim 14 or 15, characterised in that an insulating foil is inserted between the two part windings of the primary winding.
17. Small transformer according to claims 1 to 16, characterised in that inner side surfaces, which flank the base surfaces of the lamination plates of the core lamination stack (3, 4), of the coil bodies (1, 2) have vertical ribs of small height.

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