DE4015564A1 - Transformer with connections protected from external damage - has meander-shaped connection between terminal pin and internal winding - Google Patents

Abstract

The former (1) supporting a transformer winding (5) is extended (7) to take the coil-ends for termination to pins (15) protruding through an end-plate (41). Each pin extends in the form of a loop (21) over a raised and rounded groove on the former (29) from where it is fastened and turned up to form an anchor for soldering to the coil-ends. The pins are thus firmly held at the soldered junction and yet have some freedom of movement, in all directions, beyond the end-plate. ADVANTAGE - When external connections are made the looped section effectively isolates internal connection from thermal and mechanical stresses at pins.

Description

The invention relates to a transformer one bobbin and one on the bobbin wound winding, the connection ends in the area of a Terminal block attached to tie pins, the first Ends of wire shape defined on the terminal block share form, the second of the terminal block protruding ends serving as contact pins for the contact animals of the transformer with a circuit arrangement serve an electrical device.

Such a transformer is from DE-PS 32 12 061 known. In addition, it is known to form the wire when installing the bobbin in open channels increase and by deforming the plastic material of the To fix the bobbin in the channels.

Those used to make contact with a device circuit Contact pin ends of wire fittings are today usually plugged into a circuit board and on the circuit board with conductors arranged on it Neten circuitry soldered. During the device during operation, the transformer heats up due to the the heat generated during operation and with it the heat Circuit board in which the transformer is soldered is. The circuit board is subject to this warm-up expansion and shrinkage in the plate plane. This can cause the soldering between the contact  pins of the transformer and the cables of the Tear or break the circuit board. At the Tearing the soldering results in higher transition resistance in the area of the solder cracks. In extreme cases these increased resistances can cause a device fire to lead.

It is an object of the invention to provide a transformer create, the connecting pin ends opposite the Trans formator in the X, Y and Z directions are so flexible that cracks in the sound are avoided.

The task is according to the invention solved that each of the wire moldings between its on the terminal block part and the second as Contact pin serving end a meandering course has and from this meandering course to Contact pin in the terminal block in the unloaded state is guided without contact.

Due to the meandering shape of the wire part between its fixed part and the pin in Connection with a touch in the unloaded state The connector pin is a free guide in the terminal block adequately agile to accommodate everyone Dimensional changes of the circuit board during the To be able to adapt operations.

According to a further embodiment of the invention is pre see that the meandering course from a U-shaped Loop with two legs and a base piece. A single U-shaped loop is enough to hold the Connector pin both in the XY plane and in the  Z level, i.e. H. towards the pen itself one to provide sufficient freedom of movement.

According to a further embodiment of the invention is pre see that attached to the part of the wire shape first leg connected to the contact pin the loop about half its length in the connector bar is set. By setting the first Thighs up to half of it is ensured that movements of the pin in the circuit Do not impact the plate up to the tie pin.

According to a further embodiment of the invention is pre see that on both sides of the loop at a distance from it Retaining walls are provided, in a further development of the Thought into the loop with a distance to it Centering rib engages. The tie pin can do not dodge as far, and he will after one certain shift held. With that too secured that the bends of the connector pin do not affect the tie pin.

According to a further embodiment of the invention is pre see that the retaining walls to the second wire molding protrude from the end of the loop and on to the Contact pin facing front notches have, which on the second leg of the loops to assign. These notches allow the Wire guides around the front of the retaining walls feed the wire into the notches inserted. The wire guide therefore needs the connection ends only out flat and not immediately diagonally  pull up the tie pin.

The invention is explained in more detail with reference to the drawing. Show it:

Fig. 1 shows a section through the connecting bar of a Trans formators having a bobbin and a winding space is introduced into its winding in the region of a wire form member which forms a contact pin at one end, a tying pin and at the other end,

Fig. 2 view of the structure of the terminal strip of FIG. 1 in top plan,

Fig. 3 shows the individual representation of a retaining wall on the side of a wire molded part.

The transformer consists of a coil former 1 and a winding space 3 , into which a winding 5 is inserted. On the side adjacent to the coil former 1 there is a terminal strip 7 which has an insertion channel 9 for a wire-shaped part 11 . This wire molded part 11 forms a connecting pin 13 at a first end and a contact pin 15 at a second end. Between the two ends 13 and 15 , the shaped wire part is fixed with a central part 11 a in the channel 9 by pinching 17 of the channel edge. The wire molding 11 is provided between the first end 13 and its fixed central part 11 a with a first right-angled bend 18 . A second right-angled bend 19 is located in the further course of the wire molded part 11 in the direction of the contact pin 15 . From this second right-angled bend 19 , the shaped wire part 11 runs in a meandering manner in the manner of a loop 21 . This loop 21 has a first leg 21 a, a second leg 21 b and a base piece 21 c. In the area of a third right-angled bend 23 , the wire-shaped part 11 is then again aligned so that it is aligned with the fixed central part 11 a and merges into the contact pin 15 . As shown in FIG. 1, the first leg 21 is firmly clamped in the channel 9 up to halfway up to the line 25 . Thereafter, it is freely movable between support walls 27 on both sides of the loop 21 and a rib 29 which engages in the loop. Both the support walls 27 and the rib 29 are at a distance from the loop 21 in the unloaded state of the contact pin 25 .

With this structure, the contact pin 15 has the possibility of moving both in the direction X, which is indicated in FIG. 1 by XL and XR, and in the direction Y, which is indicated in FIG. 2 by the line YL and YR to move freely. In addition, the contact pin 15 can also be pressed in the direction Z according to FIG. 1 and according to FIG. 2 in the direction of the transformer without the contact pin 15 opposing any shifting forces.

From Fig. 1 also shows that the retaining walls 27 for the second wire form part end, the contact pin 15, through out through the loop 21 and at its situated front side pin to the contact 15 through 31 notches 33 have that b on the second leg 21 of the Assign loops 21 . This results in the possibility that the wire guide, not shown, does not immediately lead the winding wire to the connecting pin 13 , but rather, as can be seen from FIG. 2, leads it to the notch 33 and then winds it back around the connecting pin 13 . This has the advantage that the wire guide the winding wire at the end of the winding process must not lead up steeply to tying pin 13 but can lead it flat only to the notch 33 and then almost as flat back to the tying pin. 13 Another, even greater advantage is the increase in the distance from the winding space 5 . As a result of thermal damage to the lacquer at the entry of the winding wire into the winding space 5, no short circuit can occur when the wire is soldered to the connecting pins 13 .

FIG. 3 shows a retaining wall 27 in a top view alone, the notch 33 being clearly visible.

The transformer is placed on a circuit board 37 , with the connection pins 15 being pushed through openings 39 in the circuit board 37 . On the underside 41 of the circuit board, the contact pins 15 are soldered to circuit tracks, not shown, of the circuit arrangement, as can be seen from the solder joints 43 . Since the contact pins 15 are guided flexibly in the transformer, solder breaks due to expansion of the circuit board are excluded.

As indicated in Fig. 1, the third right-angled bends 23 can also be offset so that the contact pins 15 are offset laterally through certain distances through the circuit board 37 . In this way, different circuit board specifications can be easily set up without changing the transformer design.

Claims (6)

1. Transformer with a coil former ( 1 ) and a winding ( 5 ) wound on the coil former ( 1 ), the connection ends ( 35 ) of which are fastened in the region of a terminal block ( 7 ) to connecting pins ( 13 ), the first ends of the terminal block ( 7 ) form fixed wire shaped parts ( 11 ), the second ends of which protrude from the terminal strip ( 7 ) and serve as contact pins ( 15 ) serve to contact the transformer with a circuit arrangement of an electrical device, characterized in that each of the wire shaped parts ( 11 ) has a meandering course ( 21 ) between its part ( 11 a) fixed on the terminal block ( 7 ) and the second end serving as a contact pin ( 15 ) and from this meandering course to the contact pin ( 15 ) in the terminal block ( 7 ) is guided free of contact in the unloaded state. 2. Transformer according to claim 1, characterized in that the meandering course consists of a U-shaped loop ( 21 ) with two legs ( 21 , 21 b) and a base piece ( 21 c). 3. Transformer according to claim 2, characterized in that at the fixed part ( 11 a) of the wire molded part ( 11 ) to the contact pin ( 15 ) adjoining first leg ( 21 a) about half (line 25 ) of its length in the terminal block ( 7 ) is set. 4. Transformer according to one of claims 1 to 3, characterized in that retaining walls ( 27 ) are provided on both sides of the loop ( 21 ) at a distance from it. 5. Transformer according to one of claims 1 to 4, characterized in that a centering rib ( 29 ) engages in the loop ( 21 ) at a distance from it. 6. Transformer according to claim 4, characterized in that the retaining walls ( 27 ) to the second wire-shaped part end ( 15 ) protrude beyond the loop ( 21 ) and on their second wire-shaped part end ( 15 ) located front side ( 31 ) notches ( 33 ) have, which on the second leg ( 21 b) of the loop ( 21 ) assign.