DE1936422C - Electrical through conductor for a circuit board - Google Patents

Description

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the new diameter of the axial length of the metal sleeve 16 corresponds in the present example a pin 12 with Qu

»I _6. ^ ~ W ₆ i the through conductor according to F i g. 2 in 65 cross section has been selected, there are four of a sectional view with channels 24 running along the line 3-3.

the cutting plane; The metal sleeve 16 is made of a sheet metal

F ie. Figure 4 shows a sectional view rolled through a through tape supply. The shaping of the sleeve was made

3 ⁴

that a cylindrical socket of one the thickness of the transition conductor, which is inserted into the hole of a circuit board _;

The length of the circuit board exceeding a middle is in the state before the upsetting; i

surrounds the leren area of the pin with a firm rod and FIG. 5 shows a sectional view through the transit,

with the edges of the long sides leaving the gangway ladder according to FIG. 4 at along the line ao- \ ei of four longitudinal channels between the pin longitudinal sides 5 running cutting plane; . ·.

and the socket is firmly soldered and that the end F i g. 6 shows one of the F1 g. 4 corresponding answer

areas of the socket in a manner known per se after the passage conductor after the end of the ueiesu insertion the hole in the circuit board to the process of making the conductor in the icnaiipiauc, Bohrungsr.Saders are malleable. Because FIG. 7 shows the jurcn-

Pin over its entire length a square 10 ladder in plan view; Participation

Has cross-section, the production of FIG. 8 shows a partially gesc ^h ™ ^mn * ™ ^a ™ ^CM

Make the pen much easier, as this is made from the previous conductor according to F1 g. 7 after plumbing,

formed! Rod material, only by severing, Figs. 9 and 10 show sectional views. Uie aer

can be won. Despite the square sectional view according to FIG. 4 corresponding.undlunter- _;

Cross-section, with the help of the bushing, different types of fastening of the passage _{

explain casual connection and mounting of the pin in the conductor on the circuit board;

Through hole of the formwork panel in front of the F i g. 11 illustrates another possibility to be

Establishing the soldered connection guaranteed. The soldering of the new through conductor to the switch ₍

connection between the longitudinal edges of the pin and plate; ahoewan- I

of the bushing prior to the insertion of the sleeve manufacturer 20 Fig 12 shows a plan view of a abgewan. |

set so that the pin when inserting the socket deste embodiment of the new ^D "™ g ^an f'f ^ ¹ * '., I

into the through hole of the circuit board. F i g. 13 shows the through conductor according to FIG. 1 A>

automatically assumes a predetermined position. Previously, in a sectional view in the state before ^d 'compression,

14 shows one of the FIG. 12 en "P ^ ™" ° * * £ |

Through-hole in the circuit board in front of the a ₅ sees the through conductor after _the insertion of the pin is completely omitted. Likewise compression and implementation of the immersion deadhead, tolerances play a role in the production of the bore F i g. 15 shows a plan view of the passage

of the circuit board for the production of the connector according to FIG. 13 after completion of the opening with the through pin, no appreciable formation. »"! "9 ₃ ικ ''

Role more. After the socket has been molded onto the 30, a through conductor 10 consists of, according to FIG.

Bore edges, as is known per se, a length section of a ^β1 ^ "^ £ ™ ^ ^η _Γ the pin retains its position unchanged, so that no more wire or pin 12 with <^ ™ 2fr« To special attention The pin 12 can be made of drawn wire because it must be used to protect the pin in further handling of the circuit board and especially in the subsequent 35 length of the pin or ^. ^ "^ f ™" The pin 12 has pyramidal dents. like. erleichte π. is the solder, so that the latter on both in a on the length of the Stiftes12 ■>"8","^

Sides of the circuit board can penetrate and both 40 area is a cylindrical metal hood 16 angeorü Ends of the socket with the circuit board as well as the net. Their inner diameter is chosen so that £ «. Socket with the flat sides of the through-sleeve firmly clamping onto the pin 12 ^ ™ pin can be firmly connected. Both the pin 12 and the Me

V ^ rSXweise the arrangement is made so that tallhülse 16 are educated with soft solder over zinc.nntV that in the end areas of the socket longitudinal slots in ₄₅ As soon as the metal sleeve 16 in you, desired position with the edges of the long sides of the pin on the Length of the pin ¹ ^ transferred '«Ι, soldered areas are provided. This longitudinal both heated so that the ^^ ™ £ e ** ^d «™ ™! slots facilitate the shaping of the ends of the metal sleeve together and ^Jesse f ^{u "d} J ^^ bush and the inflow of the solder into the bonds 18 form the ^s ^ ^h. £ ⁿ 8 ^s. ^ S _be ^{the n e} _b i _{s ar} interstices between the flanged ends of the pin extend the ₅ o enachbanen between J ^e "jack and the circuit board. flat side surfaces of the pin J> ^e gen this Aut

The socket can be made of sheet metal and one way will have a ™ ^εςπ « ^η ^ ί _ηί ίχ ^8ρ Λ3 _η 2 _5ε ^ν 2 longitudinal seam at the level of the middle of one longitudinal side of the bond between the pin and ^ ^ r MetaUhule ge pin. And the pin and / or create a result of the tight fit ^d '^ "allhulsj the socket may be coated with solder. 55 on the pin extend the loops 1L8. The invention will be seen in the following with reference to the entire length of the sleeve along the length

ÄSÄSK ^{1 at several EXECUTIONS bei} "^ nn ^ difSfhülse 16 in the manner described

FJ ^P 1 is a perspective view of a is fixed to the pin 12, then bounded each planar

. TeHefeineiläaSplatte must have a number of inventions 60 side surface M of the pin 12 ■ according to «" »« -Ur

according to trained through conductors, which are in the inner top of ^the . ^ "" ^. / j ^ "desien LänRe

o_u_i._i "» A: - "» e <, »,. cin, i · longitudinally running channel M, üessen L-angt.

made so that a hülsenlängsrich- borrowed outside of the hole 34 against the surfaces

Device running seam 26 results. This longitudinal seam 26 of the record 32. During this upsetting process

is expediently in the area between two, the soldered connections 18 in the area of

adjacent tines of the pin 12 arranged around the sleeve 16, which is bent to form the tongues 42

the guarantee of reliable soldered connections 18 in the 5 is broken. The upsetting of the electrical

rich of the long edges of the pen. Through conductor 10, which is shown in FIG. 4 to 6

As FIG. 1 shows, if the electrical feed-through is carried out, the megangle conductor 10 is deformed into a hole in a circuit board 28 tallhülse in the direction away from the pin, so that the plugged in. It is ensured that the two longitudinal channels 24 are kept free and ollen and Ends of the metal sleeve 16 on both sides from the hole io a connection between the two sides of the plate stick out. After that will create the excellent lying surfaces. Ends of the metal sleeve 16 deformed. 7 shows a plan view of a through-deformation, a mechanically high-load conductor 10, which is connected by compression to a switchable connection between the through-conductor 10 plate 44. The circuit board is for mounting and the circuit board 28 is created. The passage 15 would take the connecting conductor 10 with a hole 46 Ladder 10 can also be equipped to be electrically conductive for manufacture. The hole 46, however, is on a surface of the circuit board 44 from an eye 48 on one or both sides of the circuit board which is part of a printed circuit board. to be pulled. It is also possible to use bent-back tongues SO of the metal sleeve 16 if it is only a matter of stirring and forming a stream after the upsetting of the eye 48 path from one side to the other side without connecting an approximately annular cavity 52 among them, creation with printed circuits. When the circuit board 44 is dipped in soft solder,

When the through conductor 10 in the circuit board then flows the molten solder 55 from the sub-mount, the ends of the side of the circuit board extend in an upward direction Pin 12 away from the circuit board on both sides as through the channels 24 and gets through the capillary and can to create electrical connections to the top of the circuit board and can genes with removable plug-in couplings or the like can be used there through the slots between adjacent ends. Electrical conductors can also enter the annular cavity 52. on or wires around the free ends of the pins 12- this way become reliable soldered connections be wrapped. The electrical through conductor 10 30 between the through conductor 10 and the eye 48 can be created in soft- the printed circuit after attachment to the circuit board. The preferred Lot are immersed, depending on whether made overdraft of the pin 12 and the between him and a printed circuit on metal sleeve 16 with soft solder (tin-plating) facilitated the circuit board 28 an electrically conductive connection- the flow of the molten soft solder from the to be created or not. In both cases 35 underside of the circuit board through the channels 24 below however, the mechanical connection between the bent tabs 50 is substantial. The Fig. 8 shows the soldered connection between the metal sleeve 16 and the record 28 on the other hand, if after upsetting (see Fig. 7) a Quanchanisch is so highly resilient that it is able to withstand the stresses turn soft solder 55 by dip soldering or high friend the torque that is placed on 40 quenzlötung in and around the metal sleeve 16 the pen will be wielded when wire is wrapped around the pen. It should be noted that during the is wrapped. Compression treatment of the through conductor 10 not only

The through conductor 10 can be connected to the circuit board 28 in different ways, both the upper and the lower end of the Me-type. The tall sleeve 16 is deformed. While at the top F ä g. 4 to 6 explain one way of fastening the 45 end tongues 50 are shaped and bent away, Through conductor on a circuit board 32. The tongues 54 of the same type on the underside are ge-through conductor 10 is first formed in a hole 34 and bent. Also this one on the bottom Tongues 54 formed in the circuit board 32 in the shown in Fig. 4 ensure that zwi-inserted so that the ends of the metal sleeve see the through conductor 10 and one approximately on 16 protrude on both sides from the hole over the surface of the gc circuit board provided in this way on the underside of the circuit board 44. To deform the printed circuit a reliable conductive sleeve of the through conductor serve a pair of each other bond can be created. It is thus clear in cross section of the axially opposite hollow one that the through conductor 10 can be used in different ways on upsetting tools 36 which are configured in the shape of a sub-square. He can 55 are pushed over the ends of the pin 12, for example, only to serve a (See broken lines in Fig. 5). Four straight current paths through a circuit board to bil-cutting edges 38 at the outer end of each. Its task may be to have a con-upsetting tool 36 run in parallel, but in tact to make a connection with a geeinem distance from the flat side surfaces 20 of the printed circuit on one side of the circuit board Pin 12. 60 zn create. The transit manager can also

The upsetting process is done by making a connection between printed circuits Make upsetting tools 36 on both sides of the circuit board, moving towards one another. The (see Fig. 6). The cutting edges 38 separate solder that entered the channels 24 between the pin 12 and the metal sleeve 16 penetrates in the vicinity of the longitudinal metal sleeve 16, promotes the training edges of the pen. Mold surfaces 40 to 65 reliable electrically conductive connections, gene the separated parts of the metal sleeve 16 from In the Fi g. 9 is a different type of attachment Pin 12 away and form laterally bent ends of the through conductor 10 in the hole 60 of a switching gene 42. The ends of these tongues 42 abut closing plate 62 explained. That stick out of the hole-

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the end portions of the metal sleeve 16 will be, as long as it is ensured that the hub dei of the longitudinal edges of the pin 12 by upsetting-upsetting tools is large enough to dei the ends Stripped tools 14, which, similar to the loading sleeve 16, can be stripped so far from the pin and crossed above-mentioned upsetting tools 36 shape over the ends that the outer diameter achieved thereby of the pin 12 are pushed. The hollow inner 5 of the deformed end portions of the sleeve larger than the The spaces of the upsetting tools 64 have a square diameter of the holes in the circuit board dratquerschnitl and are slightly larger. Thus it becomes through the use of the inference the cross-section of the pin 12. The through conductor designed according to the end face for the first time surfaces or work surfaces 66 of each compression possible, on a narrow and previously indispensable tool However, 64 are flat and lose the holes in the circuit board that cause them to emerge transversely to the longitudinal axis of the upsetting tools. supposed to serve the head of passage to

The connection of the through conductor 10 with the pulled.

Switching plate 62 takes place by the upsetting tools. In FIGS. 12 to 15, a further embodiment is

64 are moved against each other. Touching a through conductor 80 is shown. This

the upsetting tools the end surfaces of the metal 15 through conductors 80 is essentially the same

sleeve 16. The continuation of this movement of the passage ladder 10. It differs from this-

Upsetting tools 64 means that initially the sem, however, only by the fact that at the ends

End regions of the metal sleeve 16 are provided by the edges of the Mctallhülsc 16 longitudinal slots 82,

Pin 12 are stripped and to the outside the cor-

bulge away from the pin. Respond at each end of the sleeve 20. Each longitudinal slot 82 extends

16 this creates outwardly curved collars - from the end of the sleeve a certain distance in

shaped rings 68. As long as the diameter of the Lo direction to the other end of the metal sleeve. the

Ches 60 not significantly larger than the outer through-slots 82 are so long that, when the

Knife of the metal sleeve 16 is, then extend through conductors 80 for upsetting into the hole of the

these collar-shaped rings 68 are each used by the 25 switching plate, nor a specific one

The outer surface of the circuit board protrudes into this hole until the end of the route.

But not into the hole 60. As a result, when the through conductor 80 is in a hole 84

the abutment of the collar-shaped rings 68 is received on the, then it is with a circuit board

both surfaces of the circuit board connected at the ends 86 by upsetting tools 88, which

of the hole 60 there is a firm connection of the 30 wedge tongues 90 which are inserted into the channels 64

Through conductor 10 with the circuit board 62. The slide and the end regions of the sleeve 16

However, upsetting tools 64 can also spread away from the pin 12 even more closely. The movement of the upsetting

are moved towards one another so that the collar tools 88 lead towards one another

shaped rings 68 are squeezed together and, bending of the severed parts of the metal sleeve

as FIG. 11 shows, a flat annular flange 70 35 and to the opening of the longitudinal slots 82 so that

form which circumferentially around each end of the lo- four outwardly extending tongues 92 result,

ches 60 and the thickness of which is twice that which extends at intervals around the circumference of the

Wall thickness of the sleeve 16 corresponds. Extending ladder 80. Since the slots 82

10 shows how the through conductor 10 in the metal sleeve still extends into the interior of the hole in a hole 72 with too large a diameter, the upsetting treatment is then used. The hole is in a circuit board so that the tongues 92 are firmly connected to the 74. There are upsetting tools 76, which are identical to edges that delimit the hole 84 of the circuit board, the upsetting tools 64 according to FIG. are located and a firm connection between the turns and moved closer to one another, so that the ends of the through conductor 80 and the circuit board 86 are stripped from the pin and afforded the metal sleeve 16. By this measure, the can be formed. Similar to the way ladder 80 has already been explained in heavily oversized holes, collar-shaped rings 78 are fastened from the stripped circuit board,
However, as shown in FIGS. 13 to 15, the circuit board's diameter of the hole 72 is larger than the 86 with eyes 94 of a printed circuit verse-outer diameter of the metal sleeve 16, extending 50 hen the hole 84 on both sides of which the collar-shaped rings 78 surround at least one switching plate. After dip soldering or a short distance into the hole 72. The metal high-frequency soldering soft solder 95 flows through the Kahülle 16 but is still further deformed until the channels 24 on top of the circuit board 86 and fills the outer diameter of the collar-shaped the space between the surface of the eyes 94 rings 78 larger than the existing diameter 55 of the printed circuit and the bent Zundes hole 72 is thereby achieved that the gene 92. This creates flawless electrical collar-shaped rings in the area of the upper end connections between the through conductor edges of the hole with the two surfaces of the 80 and the eye 94 of the printed Contact the circuit on the circuit board. A dip soldering of the top created. The same electrical connection or high-frequency soldering of a through conductor 10, 60 are fertilized between the bent tongues that are connected to a 92 on the underside of the circuit board and the eye circuit board in the manner shown in FIGS on the underside of the circuit board, the soft solder rises through the channels 24 and produces the printed circuit
Permissible electrical connections between the sleeve It is, as already mentioned, possible to ensure the new and the pin 65 through conductor according to Fig. 10 and 14 to switching

The plates designed in the manner described above to attach the holes that are too large

electrical through conductors 10 can have in under- for receiving the through conductors. It

Different sized holes of a circuit board inserted is also possible, the through conductor 10 in

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the in F i g. 6 in a circuit board with holes that are too large. the Tongues 52 are namely bent away from the pin 12 and back until they touch the surface of the circuit board touch at a distance radially outside the body of the metal sleeve 16.

In the above, the through conductors 10 and 80 as pins with four flat side surfaces and described with a square cross-section. However, it is

10

to mention that a three-sided, so in cross-section triangular pin or pins with other geometric Cross-sectional shapes can also be used. For example, if only wire is to be wrapped around the through conductor, a triangular cross-section Pen can be more beneficial. In other cases, pins with other cross-sectional shapes may be more advantageous being.

1 sheet of drawings

2490

Claims (4)

1 £ 36422 the other side of the Sdraltungsplaüe upset patent claims: can be. The narrowed section of the bushing that protrudes beyond the upsetting is used for 1. Electrical through conductor for a switching clamp on the exposed wire one through the plate, which is in the form of a pin in a the circuit board 5 hole and the socket of the circuit board back plate penetrating Bonrung can be used, the inserted connecting cable. A similar U.S. Patent 3,103,547 shows that its connection ends are of a square socket Cross-section across the top and bottom of the but the radial flange at one end according to Projecting switch plate, thereby-marked- type of support screw divided into wing sections draws that the pin (12) is over its entire io to allow the solder to flow in with which the socket Length square cross-section with flat is fixed on the circuit board, to facilitate Has longitudinal sides that a cylindrical while the other cylindrical end after insertion socket (16) of one the thickness of the circuit board of the socket into the hole of the circuit board plate (28) length exceeding a middle flange-like can be flanged. Area of the pin with tight fit surrounds and with 15 In contrast, relates to the present invention the edges of the long sides leaving a through conductor for electrical circuitry four longitudinal channels (24) between the longitudinal pin plates. Such through conductors are called pins Sides of the socket (at 18) is firmly soldered, and in which the circuit board penetrating Bohrundaß the end portions of the socket (16) firmly soldered in in itself gene with its central part, so that their known way after insertion into the drilling 20 end areas over the top and bottom of the formwork of the circuit board protrude to the edge of the bore plate. These end areas of the im are malleable. essential cylindrical through conductors are like this 2. Electrical through conductor after being deformed that it is essentially a square 1, characterized in that have in the see cross-section. On these end sections End areas of the socket (16) longitudinal slots (82) 25, electrical wires can easily be wound or in the sockets with the edges of the long sides of the pin to achieve detachable electrical connections (12) soldered areas (18) are provided. easily put on bindings. The middle part of the 3. The electrical through conductor after the initial conductor remains cylindrical and is used for Claim 1 or 2, characterized in that the direct soldered connection with a metal socket (16) consists of sheet metal and a longitudinal pull 30 of the hole in the circuit board. seam (26) at the level of the middle of a longitudinal side of this known formation of through ladders Has pin (12). harbors the difficulty of drilling the 4. Electrical through conductor after connecting circuit boards uniformly and economically with Claim 1 to 3, characterized in that the metal coatings are to be provided. Also make it more expensive Pin (12) and / or socket (16) with solder 35 the necessary processing steps for square-coated are. see reshaping of the pin ends with the small dimensions of the pins of the manufacture and attachment extraordinary. It must be noted that the the ends of the through-conductor are square-shaped with a sufficiently high degree of accuracy, The invention relates to an electrical through-therewith associated sockets with correspondingly solid Aisle ladder for a circuit board that can be pushed in the form of a seat. Already low-prong in a the circuit board penetrating deviations from the dimensions and the Bore can be used in such a way that its connection shape impair the quality of the electrically conductive of square cross-section over the top connection between the through conductor and undersides of the circuit board protrude. and the associated coupling piece. Farther From US Pat. No. 2,978,667, the work is extremely expensive as a result. Plug connection for electrical lines known that the through conductor can be inserted individually into the bores in which the plug pin is part of a cable clamp, the circuit board and during which a conductor can be clamped. The 50 dip soldering process must be held in place. The connector pin consists of a wedge-shaped sheet metal part. The bores in the circuit board for making the connection to a corresponding must be made with great accuracy, such as the funnel-shaped blind hole of the socket, if a reliable soldered connection can be pushed in. The angles of the wedge-shaped lead-through conductor and the metal coating-shaped pin and socket are different, so 55 the bore should be ensured
that the edges of the sheet metal pin when pressed in. It is the object of the present invention to provide a in the socket oiling in the inner wall of the socket through conductor of the initially designated can partially press in. The angles are to be developed in such a way that when the chosen so that the connection between the pin and training and the production of the through socket is self-locking. 60 conductor itself ensures a reliable connection with the There are also connecting sockets for drilling the circuit board prior to soldering known in bores of circuit boards. is guaranteed and at the same time the reliability The German Auslegeschrift 1 043 446 shows one of the soldered connections, especially in the case of the Such a socket, which at one end uses a radial mass production conventional dip soldering process, verbes flange and at the other end a retracted 65 should be sert. Has section with which the socket j by a This object is achieved according to the invention thereby gc- The hole in the circuit board is pushed through so that the pin squares over its entire length can and dur with a tool to look like folds on cross-section with flat long sides,