CZ158994A3 - Connecting receptacle and connecting cable for connecting apparatus to data network - Google Patents

Abstract

As connecting device for a data network, a connecting box (15) contains a circuit board by means of which two BNC sockets (16, 17) and at least one switched socket (18) are connected to one another. In order as far as possible not to interrupt the coaxial system of the data network in the region of the connecting box (15), the circuit board is constructed as a multilayer board, with the conductor tracks (43) extending between two shielding conductor surfaces (41, 42). The switched socket (18) is surrounded for the same purpose by a tightly fitting screening plate (44). In the case of the associated connecting cable, the plug-in part (24) of the plug (23) is likewise surrounded by a screening plate (46), with the result that the coax-like conductor guidance is continued here, as well. The connecting device therefore reliably meets the transmission requirements, such as immunity to radiated interference and low signal distortion. <IMAGE>

Description

Connection socket and connection cable for data network connection equipment

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to a connection socket for a data network connection device comprising a plastic housing, a printed circuit board, a pair of BNC sockets and at least one functional socket with at least two contact tongues arranged on opposite inner sides of the plastic housing. they are electrically conductive to one another when the corresponding functional plug is not inserted between them, the central contact sockets of the BNC sockets being directly connected via the contacting tongues of the first pair of contacting tongues and the respective printed circuit board conductive connections arranged on the first flat side of the board printed circuit board, on whose second flat side, which is spaced parallel to the first flat side, a first conductive surface overlying the large-area conductive connections is formed, which is electrically conductively connected to the mains connection ami BNC sockets and simultaneously with the contact tongues of the second pair of contact tongues.

The invention further relates to a connection cable of a data processing device with a connection socket comprising a BNC plug at one end of the connection cable and a functional plug at the opposite end of the connection cable which is provided with at least two pairs of contact tongues arranged in pairs on opposite sides. wherein a signal conductor is always connected to the two contact tongues of the first pair of contact tongues, and the signal conductors are insulated and shielded from each other to a BNC plug where they are connected together to its central pin, wherein the contact tongues of the second pair of contact tongues are electrically connected shielding of signal wires.

BACKGROUND OF THE INVENTION

Both the said socket and the connection cable are known, for example, from the German utility model DE-Gm 90 00 754. The data network is used primarily to interconnect several data processing devices or to connect them to a central computer or the like. . For this purpose, a shielded coaxial cable is usually permanently installed, along which a number of connection sockets are connected along the length, so that the devices can be connected at different points in the space or throughout the building as appropriate using suitable connection cables. The advantage of the functional sockets actually developed for telephone connection sockets is that the data network is never interrupted, regardless of whether the connection cable is plugged in with its functional plug or not. Therefore, no inattention error can occur. The disadvantage lies in the fact that the solution is at the limit of the technical requirements imposed on these networks, for example in terms of the radiation level, which can only be met at the limit of the permissible framework. The reason is that the coaxial system is interrupted in the area of the connection sockets and function plugs. From the above-mentioned utility model, it is known that the conductive connections on the printed circuit board in the connection socket can be shielded in particular by means of a large opposed copper foil.

There are also known connection sockets of a similar type, the housing of which is made of die-cast zinc. Similarly, the functional plug of the connecting cable is encased in a die-cast zinc casting. Thus, by encapsulating the interfering radiation and the intrusion of interfering signals into the network, the coaxial system still remains interrupted, resulting in transmission loss and signal distortion at the very limit of admissibility. In addition, the described encapsulation is very expensive, and on the other hand, in many applications it is desirable that no grounded metal parts be freely accessible in order to avoid spark discharges of electrostatic charges.

SUMMARY OF THE INVENTION It is an object of the present invention to provide such a connection socket structure of this kind and a suitable connection cable which, in a cost-effective way, meet the conditions for signal transmission in a safer and reliable manner.

SUMMARY OF THE INVENTION

This object is achieved and the drawbacks of the known connection sockets are largely eliminated by a connection socket for a data network connection device according to the invention, characterized in that an insulating layer is provided above the first flat side of the base circuit board. a surface extending over a large area over the conductive joints at a distance from the first flat side and the parallel third flat side thereof, the second conductive surface being electrically connected to the first conductive surface and to at least three outer sides of the plastic housing of the first functional receptacle perpendicular to the base plate, adjoins a first shield plate, which is electrically connected to the conductive surfaces.

Preferably, the printed circuit board is multilayered and consists of outer layers formed by a first conductive surface and a second conductive surface and a central layer formed by conductive joints.

It is further preferred that the first shielding sheet is approximately U-shaped and overlaps two parallel flat sides and one perpendicularly oriented narrow side of the plastic housing, the first shielding sheet having a plurality of solder tongues formed therewith, with which it is connected with conductive surfaces.

In addition, it is advantageous if the narrow side of the plastic housing encased by the first shielding sheet is directly adjacent to the first pair of contact tabs.

Preferably, the first shielding plate is provided with a plurality of integrally formed and resilient lamellas extending away from the housing of the plastic for projecting the inner wall of the third shielding plate of the functional fork.

Advantageously, the first functional receptacle is provided with two adjacent pairs of contact tongues which in parallel form a connection with the BNC sockets and are arranged near the narrow side of the plastic housing encased by the first shield plate, while the other pairs of contact tongues contact the connections The shielding is provided at the narrow side of the plastic housing with a recess in the first shielding sheet.

Furthermore, it is advantageous if the connection socket is provided with two functional sockets, the contact tabs of which are electrically connected in series, each of these functional sockets being separately encircled by the first shielding plate. ·

Finally, it is advantageous if the plastic housing is of two parts and comprises a printed circuit board together with a first functional socket arranged thereon, which is surrounded by a first shielding plate.

The drawbacks of the known connection cables are then largely overcome by the connection cable of the data processing device with a connection socket according to the invention, which is characterized in that the male plug portion of the functional plug is encircled by a plastic sleeve. further comprising a third shielding sheet between which and the plug portion is a gap, wherein at least the first pair of contact tabs are arranged to overlap and are electrically conductively connected to the second shielding of the signal wires.

It is preferred that the third shielding sheet abuts on two opposed inner flat sides and one right-angled inner narrow side of the plastic sleeve, wherein the inner narrow side of the plastic sleeve lined with the third shielding sheet is adjacent the first pair of contact languages.

It is furthermore advantageous if the functional fork is provided with two adjacent pairs of contact tongues which are connected in parallel to the individual signal conductors and are arranged at an inner narrow side lined with a third shielding plate, the other pair of contact tongues being connected to the second shielding. It is arranged at the inner narrow side of the plastic sleeve, where the third shielding sheet is selected.

In addition, it is advantageous if the third shielding sheet is bent to approximately U-shape, its arc extends at least partially over the loosely arranged second shields of the signal wires and is in contact with them and the two U-shaped legs of the third shielding sheet substantially parallel and spaced from The contact tabs extend to the front edge of the functional fork and overlap the two inner flat sides, with first bends projecting from the two arms of the third shielding sheet towards the common central plane, the surfaces complementing each other covering the inner narrow side of the plastic sleeve.

The plastic sleeve preferably consists of two moldings connectable to each other in the central plane, which also insulate the entire third shielding sheet including the cable terminal, the plastic sleeve having a rectangular outer contour when viewed from the insertion side.

The conductive connections on the printed circuit board are thus closed on both sides between the shielding surfaces, thus creating a situation similar to that in the coaxial cable. Also, the shield plates placed close to each of the functional sockets are at a distance which is characteristic of the coaxial system from the contact tabs. Similarly, the plug part of the functional plug is encircled by the shielding plate. It is understood that the shield plates of the functional socket and the functional plug are interlocked in the manner of the socket and the plug. In this way, the coaxial system of the data network is, as far as possible, continually maintained at the connection points of other devices. On the outside, the entire system is insulated and the connection socket can still be made with a plastic housing in the usual way. The connection sockets of this design are also compatible with unshielded functional plugs.

BRIEF DESCRIPTION OF THE DRAWINGS

The principles of the invention and other advantages and advantages achieved by this solution will be further elucidated on non-limiting examples of its embodiment, which are described on the basis of the attached drawings, which show:

Fig. 1 is a cross-sectional side view of the printed circuit board of the invention; Fig. 3 shows a side view of a connection socket according to the invention for flush-mounting, with only some schematically indicated components; 4 is an exploded perspective view of a functional drawer with shielding plate prior to installation; FIG. 5 is a side view of a functional plug according to the invention with the upper housing half removed;

Fig. 6 is a cross-sectional view of the receptacle and plug just prior to insertion, with a portion to the right of the median plane showing a section in the plane 6r-6r of Fig. 5 and a portion to the left of the median plane showing a section in plane 61-61 in Fig. 5.

DETAILED DESCRIPTION OF THE INVENTION

In the wiring diagram shown in FIG. 1, the incoming data bus 11 is connected to the first BNC plug 12. The outgoing data bus 13 is connected to the second BNC plug 14. Among these BNC plugs 12, 14 there is only schematically indicated here. connection socket 15, which mainly comprises two BNC sockets 16, 17 for connecting BNC plugs 12, 14. The connection socket 15 further comprises two functional sockets 18, 19.

These functional sockets 18, 19, which are identical, have a first pair of contact tongues formed in a pair of opposed contact tongues 21, 22, which electrically contact each other electrically when no functional plug is inserted, as shown in the second functional socket .19. However, when the functional plug 23 is inserted, as shown in the first functional socket 18 on the left side, the contact tongues 21, 22 are spaced apart.

The functional fork 23 is provided with a first pair of contact tongues formed by two contact tongues 25, 26 arranged opposite each other on opposite outer sides of the first plug portion 24. These contact tongues 25, 26 are connected with signal conductors 27, 28 which are insulated from each other and electrically shielded. Opposite ends of these signal wires 27, 28 are interconnected with the central pin 29 of the third BNC plug 31. The two signal wires 27, 28 together with the functional plug 23 and the third BNC plug 31 form a prefabricated duplex connection cable 32 which serves to connect the device 33. for data processing to the data network.

The signal path here proceeds from the incoming data bus 11 via the central pin 34 of the first BNC plug 12 to the central contact tube 35 of the first BNC socket 16 and from there to the first contact tongue 21 of the first functional socket 18 and through the third contact tongue 25 the first signal conductor 27 to the central pin 29 of the third BNC plug 31. Here the signal path jumps to both the data processing device 33 and the second signal conductor 28 back to the fourth contact tab 26, from where it leads through the second contact tab 22 of the first functional socket 18 and through the contact tongues 21, 22 of the second functional socket 19 to the central contact cavity 36 of the second BNC socket 17, from where the signal path finally passes through the central pin 37 of the second BNC plug 14 to the outgoing data bus 13.

It is not shown in FIG. 1 that each of the functional sockets 18, 19 is provided with a further pair of contact tongues located in a plane below the illustrated contact tongues 21, 22 which need not have any switching functions and are electrically connected to the first shields 38 of the BNC sockets. Similarly, the functional fork 23 is provided with a second pair of contact tabs which are connected in parallel to the second shields 39 of the signal wires 27, 28 and are electrically connected to the first shields 38 via the second pair of contact tabs.

Furthermore, it is not shown in FIG. 1 that each of the functional sockets 18, 19 is advantageously provided with a further pair of contact tongues arranged in a plane above the illustrated contact tongues 21, 22, which are electrically connected in parallel with the illustrated contact tongues 21, 22. . The functional fork 23 is also provided with another corresponding pair of contact tongues. Therefore, if there is a faulty contact at some point, the parallel contact will reliably assume its function - also not shown.

1 schematically shows a first conductive surface 41 and a second conductive surface 42 on both sides of the printed circuit boards 43, as well as shielding plates 44, 45 in the area of the functional sockets 18, 19. All these shielding elements are connected to the first shielding. 38. The functional fork 23 is also provided with a third shielding plate 46, which is electrically connected to the second shielding 39.

FIG. 2 is a schematic cross-sectional view of a printed circuit board 47 that is multilayered. Conductive joints 43 are applied on the first flat side 48 of the base plate 49, while on the second flat side 51 there is a first conductive surface 41. Above the first flat side 48 there is an insulating layer 52, on whose outer flat side 53 a second conductive surface 42 is arranged. In the two conductive surfaces 41, 42, which extend across the entire surface of the printed circuit board 47, islands are formed in which the first through connections 54 are arranged to the internally arranged conductive connections. Conversely, the outer conductive joints bypass the second through joints 55 that connect the two outer layers.

FIG. 3 shows the overall construction of the connection socket 15. The printed circuit board 47 is provided on its upper side with at least one functional socket 18 and the BNC sockets 16, 17, which are designed as angular sockets, protrude from the underside of the printed circuit board 47. The printed circuit board 47 is housed in a two-piece first plastic housing 60 consisting of a plate-shaped bottom 56 and a lid 57. In the lower part 56, recesses 58 are provided for the passage of the connection sleeves 59 of the BNC sockets 16, 17. A metal fastening ring 61 is fixedly connected to the two-piece plastic housing 60, which serves to be fastened in the box 62 in the wall. At the top is a cover plate 63 on which a panel 64 of even greater contour is attached. The first functional drawer 18 is encased on three sides by the first shielding plate 44, as can be seen more clearly from the illustration in FIG. 4.

According to FIG. 4, the first functional drawer 18 is provided with a second prism-shaped plastic casing 66 with a pair of parallel, larger flat sides 67, 68 and a pair of narrow sides 69, 71 perpendicular to said flat sides 67, 68.

In the upper side of the second plastic sleeve 66, an opening for receiving the respective functional fork 23 is provided, and FIG. 4 also shows the inwardly extending contact tongues 21, 22 whose solder tips protrude from the underside of the second plastic sleeve 66. The first shielding sheet 44 is approximately U-shaped and consists of two large-area side arms 72, 73 which immediately abut the flat sides 67, 68, and a transverse arm 74 which abuts the narrow side 69. Said arms 72, 73, 74 are further provided with an inwardly curved skirt 75 which extends somewhat over the upper side of the second plastic housing 66. Said skirt 75 serves for reinforcement. The first shield sheet 44 is provided with a plurality of solder tabs 76 that are integrally formed with the first shield sheet 44 and protrude downward. The arms 72, 73, 74 are embossed with approximately E-shaped slats 77 which are each slightly bent away from the second plastic housing 66. These lamellas 77 serve to resiliently contact the shielding sheath of the functional plug 23, which will be described in more detail later.

The first shielding sheet 44 can be easily bent due to the U-shaped design shown in FIG.

In the region of the open side of the U-shaped section is the narrow side 71 of the second plastic housing 66, in which the already described second pair of contact tabs are provided which are connected to the shield and thus complement the shielding of the first function socket 18 The pairs of contact tabs through which the signal passes, on the other hand, are arranged within the space shielded by the first shielding sheet 44 which rests as a thin layer on the second plastic housing 66 and therefore occupies a minimum space.

FIG. 5 shows the known form of the functional fork 23, shown by the weak and partially dashed lines. The downwardly extending second plug portion 78 is spaced by a plastic sleeve 79 which is rectangular in shape as viewed from the insertion direction. A third shielding plate 46 is disposed on the inside of this sleeve 79, between which and the second plug portion 78 with the contact tabs 25, 26 is an annular gap of rectangular shape. The outline of the third shielding sheet 46 is drawn with bolder lines to emphasize it. This third shielding plate 46 is bent to approximately U-shape as shown in cross-section in FIG. 6, with the U-profile arc 82 partially overlapping the second shields 39 of the signal conductors 27, 28 of FIG. The two arms 83, 84 of the third shielding sheet 46 extend flat and substantially parallel to the contact tongues 25, 26 almost to the edge 85 of the functional fork 23 while covering the two inner flat sides 86, 87 of the plastic sleeve 79. It can be seen from Fig. 5 that these arms 83, 84 extend from the right inner narrow side 88 to almost the opposite left inner narrow side 89, namely just far enough to laterally overlap the other pair of contact tongues which is towards the left inner narrow Also in this case, the second pair of contact tabs assumes the function of shielding instead of the third shielding plate 46 in which there is a recess at this point. This solution greatly simplifies the bending operations in the manufacture of the third shield sheet 46, from whose arms 83, 84 extend the first bends 91 toward the common center plane 92, the surfaces of which complement the right inner narrow side lining 88. Also above the second plug portion 78 in the area of attachment of the contact tongues 25, 26, second bends 93 protrude from the arms 83, 84, thus complementing the shielding sheath there.

The plastic sleeve 79 consists of a pair of moldings 94, 95 which can be connected to each other in the central plane 92 and which also insulate the entire third shielding sheet 46 including the cable end 96. Moldings 94, 95 of sleeve 79 are provided with a plurality of inwardly extending sheets or projections that center and support the third shield sheet 46. This is particularly a pair of moldings 97, 98 that extend into cutouts 99 in the arms 83, 84.

It can further be seen from FIG. 6 that the third shielding plate 44 of the first functional drawer 18 is in the manner of a socket and a plug in contact with the third shielding plate 46 of the functional fork 23, the existing slats being compensated by the slats 77.

Represented by:

, S -9 .....- ' ^:

UNIPA 7 E NT ing. Jiří C íi! usti π and patent attorney J. Masaryk 4o-a7, 12Q 00 Prtsfta 2 ^r ai. 255404, 25270a fux IX-IV

29.06.94

- 14 Z 01353/94-GB

Claims (13)

PATENT CLAIMS l. Connection socket for data network connection equipment consisting of a plastic housing, a printed circuit board, a pair of BNC sockets and at least one functional socket with at least two contact tongues arranged on opposite sides of the plastic housing, electrically conductive contact if the corresponding functional plug is not inserted between them, the central contact tubes of the BNC sockets being directly connected through the contacting tongues of the first pair of contact tongues and the respective conductive printed circuit boards arranged on the first flat side of the printed circuit board the first flat side, which is spaced parallel to the first flat side, forms a first conductive surface over the large-area conductive connections, which is electrically conductively connected to the BNC socket outlets and simultaneously with the contact tongues of the second pair of contact tongues, characterized in that an insulating layer (52) provided with a second conductive surface (42) is arranged above the first flat side (48) of the base plate (49) with the conductive connections (43). which, over a distance from the first flat side (48) and the parallel third flat side (53), overlap the conductive connections (43) over a large area, the second conductive surface (42) being electrically connected to the first conductive surface (41) and to at least three an outer side (67, 68, 69) of the second plastic housing (66) of the first functional drawer (18) substantially perpendicular to the base plate (49) adjoins the first shielding plate (44), which is electrically connected to the conductive surfaces (41,42). Connection socket according to claim 1, characterized in that the printed circuit board (47) is multilayered and consists of outer layers formed by a first conductive surface (41) and a second conductive surface (42) and a middle layer formed by conductive connections (43). Connection socket according to claim 1, characterized in that the first shielding sheet (44) is approximately U-shaped and overlaps two parallel flat sides (67, 68) and one perpendicularly oriented narrow side (69) of the second housing. (66) of plastics material, the first shielding sheet (44) being provided with a plurality of solder tongues (76) formed thereon to connect it to the conductive surfaces (41, 42). Connection socket according to claim 3, characterized in that the narrow side (69) of the second plastic housing (66), which is encircled by the first shielding sheet (44), is directly adjacent to the first pair of contact tongues (21, 22). Connection socket according to claim 1, characterized in that the first shielding plate (44) is provided with a plurality of integrally formed and resiliently directed from the second housing (66) of the protruding lamellas (77) for contact with the inner wall of the third a functional fork (23). Connection socket according to claim 1, characterized in that the first functional socket (18) is provided with two adjacent pairs of contact tongues which in parallel form a connection with the BNC sockets (16, 17) and are arranged near the narrow side (69) of the second housing (66) a plastics material encased by the first shielding plate (44), while another pair of contact tongues in contact with the shielding connections is arranged at the narrow side (71) of the second plastic housing (66) where it is in the first shielding plate (66). the recess plate (44). Connection socket according to claim 1, characterized in that it is provided with two functional sockets (18, 19) whose contact tabs (21, 22) are electrically connected in series, each of these functional sockets (18, 19) being separately enclosed by the first shielding plate (44). Connection socket according to claim 1, characterized in that the first plastic housing (60) is two-piece and comprises a printed circuit board (47) together with a first functional socket (18) arranged thereon, which is surrounded by a first shield plate (60). 44). Connection cable of a data processing device with a connection socket, in particular with a connection socket according to any one of the preceding claims, which consists of a BNC plug at one end of the connection cable and a functional plug at the opposite end of the connection cable. the male parts are provided with at least two pairs of contact tongues arranged in pairs, the signal contacts being connected to the two contact tongues of the first pair of contact tongues and the signal wires being insulated and shielded from each other to the BNC plug where they are connected to its central pin; the signal conductor shields are electrically connected to the contact tongues of the second pair of contact tongues, characterized in that the second plug portion (78) of the functional plug (23) is surrounded by a plastic sleeve (79) between The circumference and circumference of the second plug portion (78) is an annular gap and further encircles the third shield plate (46) between which and the second plug portion (78) is a gap, at least the first pair of contact tongues (25, 26) being 2. The method according to claim 1, characterized in that it overlaps and is electrically conductively connected to the second shield (39) of the signal conductors (27, 28). Connection cable according to claim 9, characterized in that the third shielding sheet (46) abuts on two opposite inner flat sides (86, 87) and on one of the inner narrow sides (88) of the sleeve (79) oriented at right angles thereto. plastic, wherein the inner narrow side (88) of the plastic sleeve (79), which is lined with the third shielding sheet (46), is adjacent the first pair of contact tongues (25, 26). Connection cable according to claim 10, characterized in that the functional plug (23) is provided with two side-by-side pairs of contact tongues which are connected in parallel to the individual signal conductors (27, 28) and are arranged near the inner narrow side (88) lined with a third shielding sheet (46), wherein a further pair of contact tongues, which is connected to the second shielding (39), is arranged on the inner narrow side (89) of the plastic sleeve (79), where the third shielding sheet (46) is selected. Connection cable according to claim 10, characterized in that the third shielding sheet (46) is approximately U-shaped, its arc (82) extends at least partially over the loosely arranged second shields (39) of the signal conductors (27, 28) and is in contact with them and both arms (83, 84) In the profile of the third shielding plate (46) substantially parallel and spaced from the contact tongues (21, 22) extend to the front edge (85) of the functional fork (23) and overlap both inner flat sides (86, 87), the first bends (91) projecting from the two arms (83, 84) of the third shielding sheet (46) towards the common central plane (92), whose surfaces complement each other complement the inner narrow side (88) ) plastic sleeves (79). Connection cable according to claim 12, characterized in that the plastic sleeve (79) consists of two moldings (94, 95) connectable to each other in the central plane (92), which also insulate the entire third shielding sheet (46), including the cable terminals (96), the plastic sleeve (79) having a rectangular outer contour when viewed from the insertion side.