EP0959528A2 - Apparatus and method for forming crimp connections - Google Patents

Abstract

The arrangement has contact pins arranged close together with irreversible connections between contact pins and current leads. Each lead has crimp contacts bent about one contact pin at the connection point and is crimped onto this pin. The arrangement has tightly packed integrated electronics in a casing (1), contact pins (3) associated with the casing and current leads (10,11) for electrical connection to each contact pin. Because of the high packing density of the electronics, the contact pins are arranged close together and an irreversible connection is made between the contact pins and current leads. Each current lead has a crimp contact (12) bent about one contact pin at a connection point and is crimped onto this contact pin at the connection point. An Independent claim is also included for a method of producing a crimped connection.

Description

The invention relates to a device with a tightly integrated in a housing packed electronics, contact pins assigned to the housing and a large number of current conductors for electrical connection, each with a contact pin, the Contact pins due to the high packing density of the electronics with a short distance are arranged side by side and a non-releasable connection between the contact pin and the associated conductor is provided. The invention also relates to a method of making a non-detachable connection for this device.

It is known to use highly integrated control electronics, for example in the form of microprocessors, into a socket soldered onto a circuit board. Because of The densely packed electronics are usually a large number of on the housing Contact pins arranged in the form of small pins protruding from the housing. These pens are usually in one to three rows, preferably offset, on the underside arranged of the housing. However, the releasable connection technology results by plugging the housing into the base contact problems, especially in connection with the use of electronics in a fluid-flushed Surroundings.

It is also known to package with highly integrated electronics through bonding, hot Stacking or serial welding unsolvable with a variety of conductors too connect. Problems arise with the heat of the connection, as well as disadvantages in connection with automation by that each contact pin is sequentially connected to one conductor. Especially this results in high housings with a large number of contact pins Costs because of the time required, since each connection is individual must be manufactured. In addition, because of the high packing density and the large number of contact pins arranged close to one another at a short distance other, conventional connection techniques when studying the known State of the art not on.

It is an object of the present invention, an apparatus and a method of described type to develop in such a way that in housings with a variety from contact pins arranged closely next to each other, several permanent connections can be generated simultaneously with assigned current conductors.

This object is achieved according to the invention by a device according to claim 1. Each conductor then has one at a junction Contact pin bent crimp contact and is at the connection point with crimped this contact pin.

According to the invention it was recognized that in electronic control units, which are in one Housing are arranged that in terms of electronics packaging density and number the contact pins are comparable to microprocessor housings, an advantageous one non-detachable connection between the contact pins and assigned current conductors is possible using a special crimping technique. In particular, it does not happen Problems related to the temperature resistance of the connection and the connection has a particularly high melt strength. By around each Contact pin bent crimp contacts, the connection has a particularly high Current carrying capacity. Due to the advancing miniaturization of machines, which produce the connection technology according to the invention is now special The advantage is that multi-pole electrical connections can be operated simultaneously thanks to the special To produce crimping technology according to the invention. This creates, for example, opposite serial welding, a particularly cost-effective process.

The contact pins of the device can be in single, double or multiple rows, in particular be arranged at a distance of one to two millimeters from one another. Especially with this high density of contact pins, for example on the underside of a housing for control electronics is the crimping method according to the invention particularly preferably applicable. Current conductors can be arranged at the ends Crimp contacts advantageous in one operation compared to the contact pin rows aligned, assembled with them and in a further step be crimped simultaneously.

The end crimp contacts of the current conductors have two at the connection point Tabs protruding from the side of the conductor. The two tabs protruding to the side are preferably punched from a lead frame and can be V-shaped be, i.e. be bent upwards on the side of the contact pin if the contact pin is assembled with the crimp contacts. The two above Tabs serve on the one hand to improve the crimp connection and on the other hand as a joining aid when assembling the large number of contact pins with the assigned ones Conductors.

The laterally protruding tabs are preferably designed as offset triangular tabs and their diagonally running edges lie in the crimped state at a short distance from each other. The triangular tabs can be easily Punch out of a sheet metal material without major material loss. The triangular shape the tab leads to a particularly advantageous crimp contact for the invention simultaneous connection technology.

The crimp contacts point across the connection direction, i.e. to the longitudinal direction of the Contact pins, running notches. The notches in the tabs of the Crimp contacts increase the holding forces at the connection points under tensile loads.

In a particularly preferred development of the invention, the current conductors are formed by a lead frame. The tabs on the crimp contacts can also be removed the same lead frame material can advantageously be punched out. Let it this way punch out many conductors with crimp contacts from a sheet by punching them out, in particular lateral tabs of the crimp contacts laterally bendable are. Because of the triangular brackets, in particular Crimp contacts can also relieve strain on the lead frames without loss of material arise when the lead frames are bent in sections and run diagonally according to the diagonal tab edge next to it.

In addition, strain relief can be provided, particularly in close proximity in rows arranged lead frames by lowering the conductor tracks compared to Stamped grid level take place. On the other hand, the conductor tracks can also be in one Direction parallel to the lead frame plane so that it meanders Running stamped grid conductor tracks are created. About the strain relief in the Punched wire tracks can be found on the insert or in the bushings Form compensation elements. This allows the electronic connections to be powerful be decoupled.

In the case of multi-row contact pins in particular, they can be alternately lowered the lead frame conductor tracks between two adjacent crimp contacts a higher Connection density can be achieved. On the other hand, there is an increase in the insulation distance possible between the crimp connections. Furthermore, the density of the next to each other contact pins are enlarged so that even a Transition from multi-layer to single-layer lead frames is possible. In a particularly advantageous development of the invention, the leadframe conductor tracks are especially with curved crimp contacts and to the contact pins suitable positions and distances prefabricated. This is after aligning of the lead frames multiple crimp connections with a single simultaneous Operation can be created. In this way, multipole electronics can be used or a connector, preferably by crimping all connections at one Connect the lead frame. The crimp connection technique can preferably be automated and other components can be easily integrated at low cost, for example the connection of a plug to the same lead frame.

The object of the present invention is also achieved by the production method a crimp connection according to claim 11 solved. The following process steps are involved provided: punching out conductor tracks for electrical connection of contact pins of a housing with external electronics; if necessary, provision of side tabs at the junctions of the conductor tracks; possibly Forming, embossing or bending the side flaps as joining aids for Positioning the conductor tracks relative to the contact pins; Merging of Conductor tracks and assigned contact pins; simultaneous crimping of several Crimp contacts in one step.

The method according to the invention also already has in connection with the Device mentioned advantages according to the invention and is particularly suitable for automation to create permanent connections for a large number of contact pins on a housing with highly integrated electronics.

According to the invention, the crimp contacts can be made by stamping the tabs in one piece with the conductor tracks from the lead frame. This creates both Crimp contacts and conductor tracks in one step from a stamped sheet.

Parts of the crimp contacts, in particular the tabs arranged on the side, become bent up before crimping so that the tabs touch the contact pins on the sides reach around. This creates a particularly advantageous joining aid when assembling the large number of conductor tracks with the assigned contact pins and on the other hand, the area of the crimp contact is increased by the side tabs, so that a higher current carrying capacity of the connection can be achieved with higher holding forces is.

The conductor tracks are preferably angled to form a strain relief. The strain relief is formed by shaping compensating elements, in particular in the section between two adjacent conductor tracks.

In a preferred development of the method according to the invention In connection with multi-row contact pins, the conductor tracks near the housing angled and a respective trace is between two neighboring ones Conductor tracks lowered in sections. On the one hand, this allows the insulation distance be enlarged or an even higher contact pin density, for example at the Underside of a processor housing.

The conductor tracks in the vicinity of the connection point are preferably angled. In the case of multi-row and staggered contact pins, this can kink of a respective current conductor in a plane parallel to the bottom of the housing take place so that all conductors in a single lead frame level from the side Housing can be carried away.

By partial plating or coating with a solder material, for example by tin plating and subsequent simultaneous heating of the connection points, can add a solder connection in addition to the crimp connection be generated. The plated tin melts with preferably tin-plated Electronics connections. This results in increased media resistance and improved current carrying capacity.

Figur 1

ein mit einer Vielzahl von Stromleitern zu verbindendes Gehäuse mit integrierter Elektronik als Bestandteil der erfindungsgemäßen Vorrichtung,

Figur 2

eine Seitenansicht des Gehäuses nach Figur 1,

Figur 3

eine Ansicht der Verbindungsstellen zwischen Kontaktpins und der Vielzahl von Stromleitern gemäß einer ersten Ausführungsform der vorliegenden Erfindung,

Figur 4

eine Seitenansicht der erfindungsgemäßen Vorrichtung in Figur 3,

Figur 5

eine Ansicht der seitlich hochgebogenen Laschen der Crimpkontakte der Stromleiter gemäß einer zweiten Ausführungsform und

Figur 6

eine Draufsicht auf eine Leiterbahn gemäß der zweiten Ausführungsform der vorliegenden Erfindung.

Further advantageous embodiments of the device according to the invention and further development of the method according to the invention result from the subclaims and the description. Two embodiments of the invention are shown in the drawing and are described below. They show, each in a schematic representation,

Figure 1

a housing to be connected to a multiplicity of current conductors with integrated electronics as a component of the device according to the invention,

Figure 2

2 shows a side view of the housing according to FIG. 1,

Figure 3

3 shows a view of the connection points between contact pins and the plurality of current conductors according to a first embodiment of the present invention,

Figure 4

3 shows a side view of the device according to the invention in FIG. 3,

Figure 5

a view of the laterally bent tabs of the crimp contacts of the conductor according to a second embodiment and

Figure 6

a plan view of a conductor track according to the second embodiment of the present invention.

Figure 1 shows a housing 1 with a plurality of arranged on the underside 2 Contact pins 3. In the example, there are twenty contact pins 3 each separated from one another Areas 4 and 5 arranged. The contact pins 3 are in each area 4, 5 arranged in two staggered rows. A contact pin 6 adjacent Row is centered in the longitudinal direction between two side by side Contact pins 7 and 8 arranged. This way the distance between the neighboring contact pins 6, 7, 8 maximized.

The housing 1 contains complex control electronics for controlling a Motor vehicle transmission. Since the housing 1 in the example is preferably directly in the transmission installed, it is designed as a metal housing. The contact pins 3, 6, 7, 8 are embedded in individual round glass bushings 9 and are therefore hermetic tightly connected to the housing 1. The end face outside the housing the contact pins 3, 6, 7, 8 are preferably flat, i. H. the wire of the Contact pins 3, 6, 7, 8 is just cut off. The contact pins 3, 6, 7, 8 are for the process step of melting glass or bonding on the inside of the housing 1 preferably gold-plated on its surface. For the sake of simplicity the entire surface of the contact pins 3, 6, 7, 8 is gold-plated.

In the first embodiment of the invention shown in FIGS. 3 and 4 The device is the double-row and staggered contact pins 3rd so angled that the conductor tracks 10 in a parallel to the bottom 2 of the Housing arranged level. The conductor tracks 10 are in the form of a flat and sectionally angled lead frame 11 is formed. The conductor tracks 10, i.e. the lead frames are approximately 1.6 in the area of the contact pins 3 mm wide and their sheet thickness is about 0.4 mm. On their neighbors to the Contact pins 3 arranged sides each have the conductor tracks 10 crimp contacts 12 on, with two lateral tabs 13 and bent around the contact pins 3 14 are provided. The side tabs 13 and 14 can be used in the manufacture of Conductor tracks 10 are punched out of the metal sheet and during the connection process can be bent around the contact pins 3. After the conductor tracks 10 are connected to the respective contact pins 3, all crimp connections generated at the junctions 14 simultaneously.

Notches 16 and 17 are in the tabs 13 and 14 for absorbing tensile forces intended. About kinks 18 and 19 are 10 in the conductor tracks Lead frame 11 compensating elements 20 designed for relief. Get lost Portions of the conductor tracks 10 offset perpendicular to the plane of the lead frame 11.

As shown in FIGS. 5 and 6, strain relief can also result from that a conductor track 21 has a plurality of kinks 18 in which the conductor track 21 is deformed parallel to the plane of the lead frame 11. The Compensating elements 22 for strain relief even when punching out the conductor track 21 arise from the stamped sheet, each with a compensating element 22 between two adjacently arranged tabs 23 and 24 of adjacent crimp contacts 25 and 26 is arranged. The compensating elements 22 are small Loss of material can be punched out. To facilitate the assembly of a crimp contact 12 with a contact pin 3, the tabs 13, 14 are before assembly bent up sideways. After joining contact pins 3 and Crimp contacts 12, 25, 26 is the crimp connection of several or all of them side by side arranged conductor tracks 10, 21 and the associated contact pins 3, 6, 7, 8 generated simultaneously.

By partial tin plating of the conductor tracks 10 of the lead frame and subsequently simultaneous application of a heat source at the connection points 15 an additional soldered connection can be generated at the connection points 15. That clad Tin melts with the tinned connections of the electronics. This gives improved media resistance and current carrying capacity.

Claims (18)

Device with a tightly packed electronics integrated in a housing (1), contact pins (3) assigned to the housing (1) and a multiplicity of current conductors (10, 11, 21) for electrical connection, each with a contact pin (3), the Contact pins (3) are arranged next to each other due to the high packing density of the electronics and a non-detachable connection between the contact pin (3) and the assigned current conductor (10, 11, 21) is provided,
characterized in that each current conductor (10, 11, 21) has a crimp contact (12) bent at a connection point (15) around a respective contact pin (3) and is crimped at the connection point (15) with this contact pin (3). Device according to claim 1, characterized in that the contact pins (3) in single, double or multiple rows, especially at a distance of 1 mm to 10 mm are arranged to each other. Device according to claim 1, characterized in that the crimp contacts (12) at the connection point (15) two to the side of the current conductor (10, 11, 21) projecting tabs (13, 14, 23, 24). Apparatus according to claim 3, characterized in that the lateral protruding Tabs (13, 14, 23, 24) are designed as offset triangular tabs and their diagonally running edges in the crimped state with little Distance. Device according to one of claims 1 to 4, characterized in that the crimp contacts (12) in particular notches running transversely to the connection direction (16, 17). Device according to one of claims 1 to 5, characterized in that the current conductors (10, 21) are formed by a lead frame (11). Device according to one of claims 1 to 6, characterized in that the tabs (13, 14, 23, 24) are punched out of the punched sheet for the punched grid (11) are. Device according to one of claims 1 to 7, characterized in that especially in the case of lead frames arranged closely next to one another in rows Kinks (18, 19) are provided for generating a strain relief. Device according to one of claims 1 to 8, characterized in that especially with multi-row contact pins (3) by alternately lowering the Lead frame (10, 11, 21) between two adjacent crimp contacts (12, 25, 26) a higher connection density can be achieved. Device according to one of claims 1 to 9, characterized in that the lead frames (10, 11, 21) with preformed, in particular curved Crimp contacts (12, 25, 26) with positions matching the contact pins (3) and Distances are prefabricated so that after aligning the lead frames (10, 11, 21) the crimp connections of several connection points (15) with a single one simultaneous operation can be generated. Method for producing a crimp connection, in particular in the case of a device according to one of the preceding claims, which has the following method steps: Punching out conductor tracks (10, 11, 21) for the electrical connection of contact pins (3) of a housing (1) with external electronics, Providing side tabs (13, 14, 23, 24) at the connection points (15) of the conductor tracks (10, 11, 21), Forming, embossing or bending the side tabs (13, 14, 23, 24) as a joining aid when positioning the conductor tracks (10, 11, 21) in relation to the contact pins (3), simultaneous crimping of several crimp contacts (12, 25, 26) in one Operation. A method according to claim 11, characterized in that the crimp contacts (12, 25, 26) by stamping the tabs (13, 14, 23, 24) in one piece with the conductor tracks (10, 21) arise from the lead frame (11). Method according to one of claims 11 or 12, characterized in that that the tabs (13, 14, 23, 24) before crimping on the side of the contact pins (3) be bent up to grip the contact pins (3) on the sides. Method according to one of claims 11 to 13, characterized in that the conductor tracks (10, 11, 21) are angled to form a strain relief. Method according to one of claims 11 to 14, characterized in that on the conductor tracks (10, 11, 21), in particular in the section between two adjacent ones Conductor tracks, compensating elements (20, 22) are formed. Method according to one of claims 11 to 15, characterized in that in the case of multi-row contact pins (3), the conductor tracks (10, 11, 21) near the housing (1) are angled and a conductor track (10, 11, 21) between two neighboring ones Conductor tracks (10, 11, 21) is lowered in sections. Method according to one of claims 11 to 16, characterized in that the conductor tracks (10, 11, 21) in the vicinity of the connection point (15) are angled become. Method according to one of claims 11 to 17, characterized in that through partial leveling or coating with a solder material and subsequent simultaneous heating of the connection points (15) additionally a soldered connection is produced.

Images