DE4116166C1 - Connector for small dia. coaxial cable - has resilient contact section of earth contact, touching housing wall - Google Patents

Abstract

The coaxial cable connector has a long tubular housing (10) of electrically conductive material, an isolated signal contact (18) connected in the housing (10) and a earthing contact (20) connected to the housing in electric contact with the housing wall. A further contact section (70) of the earthing contact lies in contact with the housing wall and is so formed that it is pressed against the wall, when a pin is plugged into the connector. ADVANTAGE - Automated, low-cost mfr.

Description

The invention relates to a connector for coaxial cable, especially for smaller diameters, according to Preamble of claim 1.

Common connectors for coaxial cables are rotationally symmetrical trisch. They can be so in terms of shielding build that the resistance characteristic in the range the connector does not change noticeably. Examples of derar term connectors are for example in DE-OS 32 32 520, the US-PS 49 43 245, the US-PS 40 06 207 or the US-PS 49 23 412. However, such connectors are for  miniaturization in a modular form is unsuitable. It also requires connection of the connector the coaxial cable is an at least partially manual ferti supply.

A connector has become known from US Pat. No. 4,867,707, which has an elongated box-like housing in which at least one signal contact and one ground contact are taken. The signal contact is isolated inside half of an inner housing made of electrically conductive material. The ground contact is on the outside of the conductive In attached to the housing. The arrangement described is in an outer housing made of insulating material, wel che insertion openings for receiving Kon clock pins, which with the signal or the ground contact in Intervention can be brought.

From US patent 49 64 814 is a connector for coaxial cable in which the electrical connector conduct a box-shaped outer housing made of electrical the material. The housing is an extrusion profile with one along the longitudinal center plane stretching continuous wall covering the outer casing divided into two subjects. That makes ground contact  The subject has a specific cross-sectional profile that is adapted to the cross-sectional profile of the ground contact. In the other compartment becomes a sleeve-like insulation from the front part inserted, the one inserted from the rear end Signal contact.

Both known connectors described are for the Minia suitable in a modular design. Your manufacturing is, however, at least partially manual, so that the Manufacturing effort is relatively high. In both In cases, the ground contact must be electrically shielded with the be connected to the metal housing. This happens normally usually by soldering or welding. This process takes place usually also done by hand.

The use of resilient elements for conductive Ver Binding of two electrically conductive parts is at ground contacts known per se. Only for the sake of example EP-A-02 97 699 pointed out. A senior serves there Spring only as an intermediate element while at the inven also part of a contact element of a ver represents binders.

The invention is therefore based on the object, a Ver  Binder for coaxial cables, especially for smaller diameters knife, to create that on automa without much effort table can be manufactured.

This object is achieved by the Merk male of the labeling part of claim 1.

The connector according to the invention is conductive Connection to the shield housing via a resilient contact tongue of the ground contact, the contact portion so ge is that it is when inserting a contact pin or the like is pressed against the wall of the housing.

The inventive design of the ground contact at one A connector for coaxial cables also enables one automatic manufacturing, as a soldering or welding with the shield housing is not required.

A ground contact according to the invention can be easily the known connector used according to US-PS 48 67 707 be placed on the outside of a shield case is put on. However, it can also be used for connectors are used in part, in which the ground contact in is arranged within the shield housing.  

The contact that makes the connection to the housing cut is preferably designed as a leaf spring. To In one embodiment of the invention, it has one in the Ground contact bent in subsection and one after externally curved sub in contact with the wall section. Is the free end of the contact section on the front end of the connector, is the outside curved contact section preferably at the free end Kon clock section. The invention is particularly advantageous appropriate ground contact applicable in one embodiment, with the ground contact and signal contact in one inner ge housing made of insulating material are securely arranged. The Inner housing is pushed into the tubular housing and recorded in it almost appropriately. The inner case has an opening through which the con Clock section to the inner wall of the conductive tubular Ge house stretches. The inner housing is preferably present of two housing parts, the opposite of open Ends are inserted into the conductive housing. One of the like construction of the connector is particularly suitable for an automated production. Earth contact and signal contact can, for example, in an inner housing be inserted before it is in the conductive housing is inserted. The connection between the head of the  Coaxial cable and the signal contact can be carried out who the before the signal contact in the inner housing part is placed. By pushing it into the outer conductor the inner housing parts are brought together. they can also be interlocked in a suitable manner to ensure a safe reception in the conductive housing guarantee.

The invention is based on an embodiment example explained in more detail.

Fig. 1 is an exploded view of a connector according to the invention.

FIG. 2 is a longitudinal section through the connector assembled from the parts of FIG. 1 along line 2-2 of FIG. 3.

Fig. 3 is a section through the connector of Fig. 2 along the line 3-3.

Fig. 4 is a section through the connector of Fig. 3 along the line 4-4.

The connector shown in Figs. 1 to 4 has an approximately cuboid elongated, tubular Ge housing 10 made of electrically conductive material which is open at the opposite ends. A housing part 12 made of insulating material, for. B. made of metal, forms with a further housing part 14 , which is already inserted into the housing 10 from the front end in FIG . The housing 10 may be a housing Außenge. A coaxial cable 16 is offset at the end for connection to a signal contact 18 and a mass contact 20 .

The contacts 18 , 20 are bent in a suitable manner from Flachma material. The signal contact 18 has a channel-shaped, U-shaped receiving part 22 in cross section and a rear L-shaped connecting part 24 . The receiving part 22 does not need to be discussed in detail, since its structure and mode of operation are known. In a known manner, the coaxial cable 16 has an outer jacket 26 , a shield 28 , a dielectric 30 and a conductor 32 . As can be seen, the conductor 32 lies on the bottom of the connection section 24 and is fastened to it by soldering or welding. The cable end is set down in such a way that the exposed shield 28 is at a distance from the signal contact 18 and the dielectric 30 lies between them. In the present case, the conductor 32 is angled by 90 ° after it emerges from the dielectric 30 .

The ground contact 20 has a front, approximately U-shaped receiving part 34 in cross section, which is constructed similarly to the receiving part 22 . It also has a rear L-shaped part 36 which extends to close to the shield 28 .

The housing part 12 has a kanalför shaped, in the bottom recess 38 at the rear end, in which the shielded part 28 of the cable 16 is received, as can be seen from FIGS. 2 to 4. The contacts 18 , 20 are received in corresponding cutouts 40 , 42 in the housing part. The recesses 40 , 42 are shaped so that the contacts 18 , 20 are held immovably. At the front, the contacts 18 , 42 are limited by the housing part 14 .

As is apparent from FIGS. 1 and 3, the housing part is provided with a flat portion 50 14, which partially rests on the bottom of the housing 10. A first part of an end section 52 has a cross section that corresponds to the cross section of the interior of the housing 10 . A second part has a cross-sectional profile that corresponds to the outer contour of the housing 10 . It therefore lies as a type of flange against the front end face of the outer housing 10 . The end section 52 has two square insertion openings 44 , 46 which taper ver into the housing 10 . The flat section 50 has a width that corresponds to the width of the interior of the housing 10 .

The flat portion 50 has near the front Endab cut two upward facing into the interior of the outer housing 10 . The inner section 50 tapers towards the free end, as can be seen at 52a in FIG. 3. The tapered section 52 a has a distance from the inner wall of the outer housing 10 . The section 52 a also has a rectangular hole 56 . It interacts with a ram pen-like nose 58 on the facing side of the housing part 12 .

During assembly, the contacts 18 , 20 are arranged in the manner shown in FIG. 1, and the contact 18 is connected to the conductor 32 of the coaxial cable 16 . At closing the housing part 12 is placed on the arrangement described in the direction of arrow 60 . The metal housing 10 is then pushed onto this arrangement in the direction of the arrow 62 . To accommodate the shield 28 , the housing 10 has a corresponding recess 64 in a side wall at the rear end. In the described process, the ramp-like nose 58 moves on the facing side of the section 52 a until it snaps into the hole 56 . In this way, the housing parts 12 , 14 are locked together and securely held in the housing 10 . The outer dimensions of the housing parts 12 , 14 are such that they adapt to the inner contour of the Außenge housing 10 and are immovably received.

As can be seen from FIGS. 1 and 2, the ground contact 20 has a resilient contact tongue 70 which extends as a leaf spring to the front end of the connector. The contact tongue has a bent into the interior of the ground contact subsection 72 and an outwardly bent subsection 74 . As can be seen, the subsection 74 extends through a recess 76 in the housing part 12 in contact with the inner wall of the outer housing 10 . This creates an electrical connection to the outer housing 10 , which is further reinforced when a contact pin is inserted through the opening 46 into the channel of the mass contact 20 . The ground contact is thus connected to the front part of the conductive outer housing 10 .

The outer housing 10 has a hole 80 at the rear end which is aligned with the shield 28 . Since the inner housing is open in the region of the hole 80 , the shield 28 can be soldered to the housing 10 via the hole 80 , for example by microflame soldering. The soldering material is indicated at 82 in FIG. 4.

Claims (9)

1. Connector for coaxial cable, in particular for smaller diameters, with an elongated tubular housing made of electrically conductive material, a signal contact mounted insulated in the housing and a ground contact mounted on the housing, which is in electrically conductive contact with a wall of the housing, characterized in that that a resilient contact portion ( 70 ) of the ground contact ( 20 ) with the wall of the housing ( 10 ) is in contact and is shaped such that it is pressed against the wall when a contact pin or the like is inserted into the ground contact ( 20 ). 2. Connector according to claim 1, characterized in that the ground contact ( 20 ) within the housing ( 10 ) is arranged. 3. Connector according to claim 1 or 2, characterized in that the contact section ( 70 ) is formed as a leaf spring. 4. Connector according to one of claims 1 to 3, characterized in that the contact section ( 70 ) has an inwardly bent into the ground contact subsection ( 72 ) and an outwardly bent wall section in contact with the subsection ( 74 ). 5. Connector according to claim 3 or 4, characterized in that the free end of the contact section ( 70 ) has the front end of the connector and the second sub-section ( 74 ) at the free front end of the Kontaktab section ( 70 ) is formed. 6. Connector according to one of claims 1 to 5, characterized ge indicates that the ground contact is made of flat material is shaped and substantially U-shaped cross section having. 7. Connector according to one of claims 1 to 6, characterized in that the ground contact ( 20 ) and signal contact ( 18 ) are securely arranged in an inner housing made of insulating material, which is inserted into the tubular housing ( 10 ) and accommodated therein and the inner housing has an opening ( 76 ) through which the contact section ( 70 ) is in contact with the inner wall. 8. Connector according to claim 7, characterized in that the inner housing consists of two housing parts ( 12 , 14 ) be, which are inserted from opposite open ends in the tubular housing ( 10 ). 9. Connector according to claim 7 or 8, characterized in that the inner housing section has a channel-like receptacle ( 38 ) for receiving the shield ( 28 ) of the cable ( 16 ), and the tubular housing ( 10 ) in the region of the shield ( 28 ) has a hole ( 80 ) through which the shield ( 28 ) with the housing ( 10 ) is soldered ver.