EP0270543A1

EP0270543A1 - Aerial plug socket.

Info

Publication number: EP0270543A1
Application number: EP86905277A
Authority: EP
Inventors: Manfred Burkert
Original assignee: Hans Kolbe and Co
Current assignee: Fuba Hans Kolbe and Co
Priority date: 1985-08-28
Filing date: 1986-08-23
Publication date: 1988-06-15
Anticipated expiration: 2006-08-23
Also published as: EP0270543B1; DE3685334D1; DE3530721C2; ES2001121A6; WO1987001519A1; ATE76226T1; DE3530721A1

Abstract

The aerial plug socket for high frequency ranges has a base, which carries the coaxial plug elements for the plug-in connection, and, arranged on this, clamping devices for the inner conductor on the one hand and, on the other, the outer conductor of each coaxial cable leading into the socket. Each clamping element for the inner conductor consists of a support block of insulating material with a connection contact and a pressure element with a pressure piece made of insulating material which presses against the inner conductor and the connection contact. The latter consists of a wire end (10) placed on the support block (9) and the pressure element and of a guide-piece (13) which can be tightened by a screw (12) in the direction of the support block (6, 9) and movably guided on and in the support block; the guide-piece (13) carries the pressure piece (14), which is movably guided in a recess (8) of a receiving piece (6) containing the support block (9), made of insulating material, the recess (8) being open on one side for insertion of the inner conductor (10a) and being shaped on the base in the form of a support block (9).

Description

Antenna socket

The invention relates to an antenna socket for high frequency ranges according to the preamble of claim 1. Antenna sockets previously on the market transmit in compliance with the requirements imposed on the HF-tightness and thus related to the connection technology of the coaxial cable both in the inner conductor and in the outer conductor Frequencies up to approx. 860 MHz. Increasingly, it is now desired to make antenna sockets suitable for very high frequencies in order to be able to transmit signals received from satellites after conversion and processing in the frequency range above 860 MHz, particularly in cable television systems. The transmission and decoupling of these very high frequencies places special demands with regard to HF tightness and, in connection therewith, with the connection technology of the Coaxial cable.

In an antenna socket already in use with the features of the preamble of claim 1, the pressure element is designed as a metal clamping arm which carries a plastic pressure pin and can be pivoted about an axis running parallel to the longitudinal axis of the coaxial cable in such a way that the pressure pin against the inserted inner conductor and presses it onto a flat connection contact which is molded into an abutment surrounding it. It has been shown that with the aid of such a clamping device for the inner conductor of the coaxial cable, the requirements with regard to HF tightness and, in particular, the mechanics, especially with regard to strain relief, cannot be met. The clamp arm is locked in the operating position. Overall, therefore, the clamping device for the inner conductor cannot be adapted to different inner conductor diameters of the coaxial cable to be connected, or can only be adapted inadequately. The invention has for its object to make an antenna socket according to the preamble of claim 1 with respect to the HF-tightness and related connection technology for very high frequencies and in particular for frequencies up to about 1.8 GHz. This object is achieved in particular in that the connection contact consists of a wire end placed on the abutment and the pressing element consists of a guide piece which can be tightened by a screw in the direction of the abutment and is displaceably guided on and in the abutment and carries the pressure piece, and the pressure piece is displaceably guided in a recess of a receptacle made of insulating material surrounding the abutment, which recess is open on one side for inserting the inner conductor and is shaped on the bottom to form an abutment. With this configuration the Clamping device for the inner conductor, it is possible to achieve mechanical and electrically safe contacting that requires extremely small and short electrically conductive and thus RF energy-emitting components. The mutually guided parts of the clamping device for the inner conductor lead to a very compact shape of the clamping device and increase the safety of the electrical connection and the mechanical strength when pressed on. Only the inner conductor of the coaxial cable to be connected and the short wire end resting on the abutment and thus extremely small and short electrically conductive components are used.

The measure according to claim 2 ensures that when the pressure element is tightened, the inner cable conductor is deformed on the transverse end of the wire and thus an increase in the safety of the mechanical and electrical system of the inner conductor is achieved. This security can be increased by the measure according to claim 3, whereby an increased deformation of the inner conductor is achieved on the wire end. The features and measures characterized in claims 4 to 7 serve for the further configuration of the clamping device for the inner conductor according to the invention with regard to compactness, reliable guidance and reliable contacting and holding. All parts used are simply designed and securely arranged and guided together.

In a further embodiment of the invention, the connection of the outer conductors of the coaxial cables to be connected is also decisively improved with regard to the described requirements for the very high frequencies. This is the case with an antenna socket, with the 3ede clamping device for the outer conductor consists of a metal clamping arm which is arranged in the insertion direction in front of the inner conductor clamping device and which is pivotably mounted on the base carrier, which lies with a clamping surface against the outer conductor, and a metal clamping surface arranged on the base carrier and opposite the clamping surface, the clamping surface and the clamping surface being the outer conductor detect and clamp in the operating position, achieved by the measures according to claim 8. This ensures that even cables with different diameters can always be held on their outer conductors over their entire surface with complete electrical contact and can also be completely relieved of strain. The clamping arm adapts to the different diameters of the cable outer conductors, including their detected insulating sheaths, in such a way that complete contact and complete pressure is mechanically ensured on the full clamping surface due to the pivoting and vertical displaceability. Thus, a safe electrical contact and a safe strain relief is achieved even for the very high frequencies.

A particularly expedient design, which is also easy to handle, is achieved by the features of claim 9. The guides can be easily formed and fastened to the base support, and the clamping arm with its pivot pins can be easily inserted and a stop limitation can be made by simply deforming the upper slot ends.

A particularly favorable design both in terms of contacting and in terms of strain relief, even with the most varied cable diameters, is achieved by the ribbing according to claim 10. The effect of the clamping ribs is reinforced by the design of the rib heights according to claim 11. With the same force development when screwing the clamping arm the pressing pressure on the outer conductor and also on the insulated cable sheath recorded more strongly because of the reduced contact surface due to the ribbing, that is to say a line contact. The strain relief is thus decisively improved. In connection with the vertical displaceability of the clamping arm, an extremely safe contacting and fixing of the cable, which adapts to all diameter differences, is achieved overall. An improvement in the shielding effect, in particular with regard to the very high frequencies to be transmitted, is achieved with the measure according to claim 12. This shielding effect is significantly improved by the side shielding walls in accordance with the measure according to claim 13. The measure according to claim 14 in turn leads to a safe ground contact and thus to an even greater shielding effect of the clamping arm in connection with the shielding walls within the box.

The measures according to claim 15 ensure that the swivel mechanism for the swivel arm only acts when the clamping arm has been pulled up to the limit stop within the lateral guides. The metal tongue acts like a spring tongue and thus leads to an automatic locking in the pivoting position of the clamping arm, so that the clamping arm cannot fall down unintentionally when the coaxial cable to be connected is installed.

In the case of an antenna socket for the simultaneous connection of two parallel coaxial cables, using the features described and identified above, the measure according to claim 16 entails an extraordinarily simple design with the described safe contacting, strain relief and shielding. Features, further advantages and details of the invention are explained with reference to an embodiment of the invention with reference to the drawing. Show it:

1 is a diagrammatic, exploded exploded view of an antenna socket according to the invention,

2 is a perspective view of the antenna socket with the clamp arm pivoted up,

Fig. 3 is a diagrammatic representation corresponding to FIG. 2 with the clamp arm pivoted and screwed into the operating position and

Fig. 4 is a detailed perspective view of the clamping device according to the invention for the inner conductor of the coaxial cable to be connected. The antenna socket initially has in the usual way a metal base support 1, which is also referred to as a chassis. The usual coaxial plug-in elements 2 (plug or socket) for the plug-in connection of connecting cables are arranged on this base support. On the underside is the usual circuit board 3, which carries the desired electrical components. Furthermore, the antenna socket is closed below by the closure parts 4, which need not be explained in more detail here. The antenna socket shown here is designed as a double socket in the usual way. The embodiment of the invention described below therefore always relates to the training for the connection of two coaxial cables. In the following, the clamping device according to the invention for the inner conductor of the coaxial cable to be inserted laterally into the antenna socket is first described. In recesses 5 in the metal base support two receptacles 6 made of insulating material are passed, which are held on a crossbar 7 made of insulating material below the base support. An abutment is formed on the bottom of a recess 8 of each receiving piece 6, as can be seen more clearly in a schematic illustration at 9 in FIG. 4. On this abutment 9 a wire end is placed transversely to the inner conductor 10 to be inserted (FIG. 4) of the coaxial cable to be connected, the further course of which is led downwards to the respective connection to the electrical components of the printed circuit board. The wire end 10 thus projects into the recess 8 transversely to the direction of insertion of the inner cable. Each receptacle 6 is block-shaped from insulating material with lateral guide walls, as shown in FIG. 1, and whose function will be described in the following. The leading end of the socket end of the wire end 10 forming the connection contact, as shown in FIG. 1, runs in a slot of a guide wall of the receiving piece 6, in the exemplary embodiment in the one on the left. Guide wall.

The clamping device for the inner conductor also consists of a pressure element which consists of a guide piece 13 which can be tightened by a screw 12 in the direction of the abutment 9 and which is displaceably guided on and in the receiving piece 6 and which carries a pressure piece 14. The pressure piece 14 consists of insulating material. The rest of the guide piece 13 consists either of plastic or, if the strength requires it, of a firmer material than the pressure piece, in particular of metal. Each pressure piece 14, as can be seen when the parts in FIG. 1 are viewed together, is displaceably guided in the associated recess 8 of the receiving piece 6 surrounding the abutment 9. Fig. 4 shows the Füh tion piece 13 with its pressure piece 14 and the screw

12 on an enlarged scale, with respect to the abutment or receptacle only with the parts useful for explanation. The recesses 6 are opened in the direction of the coaxial cable to be inserted, the inner conductor to be inserted.

4 shows in detail, the surface of the abutment 9 is inclined transversely to the wire end 10, namely roof-shaped, profiled. Complementary to this, the associated pressure surface of the pressure piece 14 is profiled. Thus, with the help of the screw 12 and the guide piece 13, the pressure piece 14 is tightened against the abutment 9 when the inner conductor 10 is inserted, the inner conductor 10a deforms in accordance with the upper profile running with the wire end 10 lying thereon and is thus securely contacted and mechanically fixed securely .

The clamping device for the outer conductor in the antenna socket according to the invention is designed in the following way: A clamping arm 15 can be pivoted above the base support 1 about an axis lying in the direction of insertion behind the inner conductor clamping device and extending transversely to the longitudinal axis of the connecting cable, and in lateral guides upward limited to stop perpendicular to the connecting cable longitudinal axis slidably mounted and in the operating position against the outer conductor of the coaxial cable, designated 16 in Fig. 4, screwed. The lateral guides consist of vertical slotted guide rails 17, as can best be seen from FIGS. 2 and 3. A lateral pivot pin 19 of the clamping arm 15 engages in the slots 18 of the guide rails 17. The slots 18 are narrowed at the top to limit the stop, for example by bending a web as shown at 20 in FIG. 3. It can thus be seen that the clamping arm 15 is displaceable in the guide slots 18 perpendicular to the plane of the base support and also via the pivot pin 19 is pivotable.

As can be seen in particular from FIG. 2, the clamping surface of the clamping arm 15 is ribbed transversely to the longitudinal direction of the connecting cable by ribs 21 rounded in its longitudinal direction. The rib sleeves are increasingly formed in the direction of insertion. Furthermore, the ribs moving on the metal outer conductor of the coaxial cable are provided with a larger contact surface than the subsequent ribs, which lie on the insulating jacket of the cable, as can be clearly seen from FIG. 2.

On the metal base support 1, the clamping surface with the ribs 21 of the clamping arm 15 is also assigned a clamping support 22, which is also ribbed transversely to the longitudinal direction of the connecting cable, as shown in FIG. 2 in particular by the ribs 23 which show the increasing rib height and width the bearing surfaces are designed according to the ribs 21 on the clamping arm 15.

On the rear side of the clamping arm 15 in the direction of insertion, a metal tongue 24 is arranged on the base support between the lateral guide rails 17 and cooperates with a projection 25 provided on the clamping arm edge in such a way that the clamping arm in the position pulled up against the guide stop 20 according to FIG. 2 is pivotable and can be locked automatically in the raised position. Fig. 2 shows this position.

The clamping arm 15 has, in its area surrounding the inner conductor clamping device, downward-facing side walls 26. On the long sides of the clamping arm 15, screen walls 27 are arranged in this area, that is, at least in the area of the side cheeks 26, on the base support 1, which are additionally each covered with contact springs 28, here in the manner of cage springs, which are thus against the side cheeks 26 of the Kiemsarms 15 in its in Fig. 3 shown operating position firmly and resiliently.

With the help of the captive nut 29 held in the clamping arm 15, the clamping arm can be firmly screwed onto the screw pin 30 in the clamping and operating position.

2 clearly shows the clamping devices for the inner conductor in the operating position, in which case the pressure piece 14 presses the inner conductor 10a onto the wire end 10 and the abutment 9. The pressure piece 14 (FIG. 4) can either be attached to the guide piece 13 as a special component, or it can be formed in one piece with the guide piece 13 when producing both parts from plastic.

Claims

PA TE NTANS PRÜC HE

1. Antenna socket for high frequency ranges with a base carrier that carries the coaxial plug-in elements for the plug connection of connecting cables, and with clamping devices arranged on the base carrier for the inner conductor on the one hand and for the outer conductor on the other hand each coaxial cable to be inserted into the socket, each clamping device for the inner conductor consists of an abutment made of insulating material held on the base support with a connection contact leading to the interior of the socket and a pressing element with a pressure piece made of insulating material which lies in the operating position against the inserted inner conductor and presses it against the connection contact, characterized in that the connection contact consists of a on the Abutment (9) placed wire ends (10) and the pressing element consists of a screw (12) in the direction on the abutment (6,9) tightenable and on and in the abutment (6,9) displaceably guided guide piece (13) which carries the pressure piece (14), and the pressure piece (14) in a recess (8) of a Abutment (9) containing receiving piece (6). Is displaceably made of insulating material, which recess (8) for inserting the inner conductor (10a) is open on one side and is shaped on the bottom to form an abutment (9).

2. Antenna socket according to claim 1, characterized in that the wire end forming the connection contact (10) lies transversely to the longitudinal axis of the inner conductor (10a) on the abutment (9).

3. Antenna socket according to claim 2, characterized in that the surface of the abutment (9) is inclined at right angles to the wire end and the associated pressing surface of the pressure piece (14) is profiled complementarily thereto.

4. Antenna socket according to claim 3, characterized in that the receiving piece (6) of the abutment (9) is block-shaped with lateral guide walls and the guide piece (13) with at least one side cheek on a guide wall of the receiving piece (6) slidably.

5. Antenna socket according to one of claims 1 to 4, characterized in that the leading into the socket end of the connecting contact forming wire end (10) in a slot (11) of a guide wall of the receiving piece (6).

6. Antenna socket according to one of claims 1 to 5, characterized in that the guide piece (13) of the pressing element consists of a material which is firmer than the pressure piece (14), in particular metal, and the pressure piece made of insulating material is fastened to its underside.

7. Antenna socket according to one of claims 1 to 6, characterized in that each receiving piece (6) and abutment (9) on a crossmember (7) made of insulating material are held in the base support (1).

8. Antenna socket according to one of claims 1 to 7, wherein the clamping device for the outer conductor from a arranged in the insertion direction in front of the inner conductor clamping device pivotally mounted on the base support metal clamping arm, which is with a

Clamping surface against the outer conductor, and there is a metal clamping support arranged on the base support and opposite the clamping surface, the clamping surface and the clamping supports gripping and clamping the outer conductor in the operating position, characterized in that the clamping arm (15) by one in the insertion direction behind the inner conductor Kleirart device (6, 13) axis pivotable and in the side guides (17) upward limited limited perpendicular to the connecting cable longitudinal axis on the base support (1) and screwed in the operating position against the outer conductor.

9. Antenna socket according to claim 8, characterized in that the lateral guides consist of vertical slotted guide rails (17), in the slots (18) lateral pivot pins (19) of the Kleiranarms (15) engage and the slots above to An field limit are narrowed (20).

10. Antenna socket according to claim 8 or 9, characterized in that the clamping surface of the cleroma arm (15) and the clamping support (22) are ribbed transversely to the connecting cable longitudinal direction (21, 23).

11. Antenna socket according to claim 10, characterized in that the rib heights are increasingly formed in the direction of insertion.

12. Antenna socket according to one of claims 8 to 11, characterized in that the clamping arm (15) at least in its area surrounding the inner conductor clamping device has downwardly facing side walls (26).

13. Antenna socket according to one of claims 8 to 12, characterized in that on the longitudinal sides of the clamping arm (15) on the base support (1) metal screen walls (27) are arranged.

14. Antenna socket according to claim 13, characterized in that the clamping arm (15, 26) facing surfaces of the screen walls (27) with contact springs (28), in particular basket springs, are occupied.

15. Antenna socket according to one of claims 8 to 14, characterized in that on the rear side in the insertion direction of the clamping arm (15) between the side guides (17) located a metal tongue (24) on the base support (1) which is arranged with a provided on the edge of the clerical arm cooperates in such a way that the clamping arm (15) can be pivoted in the position raised against the guide stop (20) and can be automatically locked in the position pivoted up.

16. Antenna socket according to one of claims e bit 15 for the simultaneous connection of two parallel coaxial cables, characterized in that for both outer conductors a single clamping arm (15) with its pivoting and displacement guide and the lateral

Shield walls and a single clamping support (22) with ribs (23) assigned to each outer conductor are provided.

17. Antenna socket according to one of claims 1-5, characterized in that the guide piece (13) consists of plastic.

18. Antenna socket according to claim 17, characterized in that the guide piece (13) and the pressure piece (14) are made in one piece from plastic.