DE1615551B2 - Coaxial electrical connector for coaxial electrical cables - Google Patents

Description

The present invention relates to coaxial FIGS. 5 and 6 partial sectional views of part of the

electrical connection terminals and has in particular the sealing area shown in Figure 4 in front of and whose improved sealing features are for counter-pressure after pressing.

stood, which in such connecting terminals a In the arrangement 10 of FIG. 1 consists of an equal

Protection against the disturbance of the connection as a result of 5 axis cable 100 from an outer conductive Moisture or corrosive media cause jacket 104 and an inner conductive core 110, are to have access to the comparison during operation and are arranged coaxially and through an insulating connection point to have. tion 106 are separated from each other. The cable man-

An equiaxed electrical tel 104 according to the invention is located within an insulating sheath connecting terminal for an equiaxed cable, io 102. The arrangement 10 comprises an outer and a middle conductive core and a conductive 40 separated from this sheath 30 and a central conductive pin core by insulating material , which has jacket in electrical and mechanical connection, consists of an insulating input to the conductors 104 and 110 respectively. Those trimmings which are fitted into a tubular, conductive man- ufacture of the connecting arrangement, which has a seal, a central conductive pin, which require protection against moisture or corrosive media to be fastened in an axial bore of the insert are shown in FIG. 1 is generally _{denoted by C 1} , C ₂ and C ₃ and protrudes forward, with the front being denoted. The area C ₁ represents the connection of the ends of the tubular jacket and the middle-middle conductive pin 40 with the pin that is suitable for connecting pins, with the complementary mating connection arrangement, which is shown in broken lines in formed parts of a connection terminal . The area C ₂ represents to be plugged together, and wherein the rear, the pressure zone of the central conductor 110 at the end of the central pin is a hole for the pin 40. The area C ₃ is the location of the cable drawing of the cable core; the insert is the entry into the connecting terminal arrangement, on opposing recesses, the risk of moisture and / det entering the thin uninterrupted wall parts of the inlet or of corrosive media, e.g. B. by small sentence piece near the middle pin, openings or breaks in the outer cable insulation and the jacket has opposite openings at L and along the dashed line shown, which coincide with the recesses, over the metal mesh 104, the as a way of providing an access for pressure jaws to act as wick, which draws moisture to the force of the pressing of the pin around the cable core by the binding clip assembly,
to allow the thin wall portions of the insert. The outer jacket 30 of the connector

th; the rear end of the tubular jacket has a front part 12, a middle part 33 and an extension, around the conductive a rear extension 50. To take up the front cable jacket on the outside, the part 12 on this connector has the shape of a socket with an inner extension by means of an external clamping part 35, bore 14, the diameter of which is fastened through to the outer; A resiliently deformable annular knife of an insulating insert 84 is positioned at the end of the rear pledge that is attached to the mating clamp half, shown in the string extension of the jacket and around its circled lines, to the rear-facing front runs. At its inner end is the Boh surface of the extension and the isolation of the ₄₀ tion 14 with an annular shoulder 16 ausgebil cable inside the cable sheath conductive Toggle det and extends therefrom further to the rear zuliegen. through the middle part 33 as a bore 31 with a reduced

When the device is in operation, the conductive catheter becomes the diameter. An insulating insert 36 belmantel against the seal at the rear end of generally cylindrical shape is snug into the the extension pressed so that the seal 45 bore 31 fitted. The insert 36 is in seigegen the rear-facing surface of the request middle part with opposite recess and formed against the insulation of the cable inside gene 38.

of the cable jacket is pressed to thereby act. The central portion 33 of the jacket 30 is with it

sam the connecting terminal is formed against the ingress of opposing access openings 34-moisture or corrosive media from the 50 det that onto the corresponding recesses 38 Seal the cable entry end. are aligned in order to provide access for

The invention is described below by way of example with pressing jaws for pressing the central pin 40 on with reference to the partially schematic to the conductor 110 through thin wall portions of the A-drawings described in which set piece 36 on the bottoms of the recesses 38

Fig. 1 is a longitudinal section of an equiaxed connection 55 to form. The shell part 33 is at its rear tie clip is that on an equiaxed end with an outwardly protruding flange Cable is arranged and in which a part is provided with a 46 which does not darder the engagement with a Connecting clamp matching adjusted clamping sleeve for fastening the Binding arrangement in dashed lines showing the matching connecting terminal arrangement is, 60 to 10.80 serves to each other.

F i g. Figure 2 is a partial cross-section along the line 2-2 in Figure The rear end of the bore 31 is at 48 on

F i g. 1 of a central part of the arrangement is, a bore of smaller diameter conically ver

F i g. 3 is a perspective view of the for those in jungt who are seen to the rear through the rear ver-F i g. The arrangement shown in the prepared end of an extension 50 of the jacket 30 runs. The insulating coaxial cable is, 65 insert piece 36 comprises a socket-shaped rear

FIG. 4 shows an enlarged partial section of a sealed extension 37 which is inserted into the bore in FIG area of the in F i g. 1 arrangement shown is fitted jacket extension 50, and this book is and sen-shaped extension 37 has an internal bore

39, which has an inner diameter that corresponds to the forward outside of the seal 70, so that the outer diameter of the insulation 106 almost seal 70 under the braid 104 with its inner same is. The insert 36 is in the bore 31 surface against the outer surface of the insulation 106 anso arranged that a rear conical part is ordered in.

the conical taper 48 sits to a rear 5 The seal 70 is made of elastically deformable

downward movement of the insert piece to material such. B. silicone or neoprene rubber, formed

prevent, and that the socket-shaped extension det, which is much softer than the insulating material 106

37 rearward within extension 50 of the is. As in Fig. 5 indicated, includes the transverse

Jacket 30 runs. sectional formation of the seal 70 in the axial direction

The jacket part 50 forms a pressure support and wall sections 72 which are displaced relative to one another

is on the outside with a series of annular indentations and 74, which extend radially outwards from a transversely

Bungs 52 are formed, which run along a raised gripping base section 76. The three

serve against the braided cable 104, the cuts 72,74,76 form an annular groove 78,

arranged around the part 50 and arranged on the ver so that it is in engagement with a

extension 50 by means of an outer clamping ring 60 15 at the rear end of the jacket extension 50

is pressed. formed, inwardly protruding rim 54

The clamping ring 60 extends from the jacket stands. The front wall section 72 is of low

part 50 backwards over a considerable part of the lower height than the rear wall section 74 and in the

Cable insulation 102 away to an appropriate substantial level with rim 54, so

mechanical mounting of the cable 100 to form and 20 that the seal on the jacket portion 50 through

also, in order to partially seal the cables, the collar 54 engages in the channel 78

the entry point to prevent the ingress of moisture,

works. The rear wider wall part 74 is used

Three seals 18, 36 and 70 are provided. Seal. If the clamping ring 60 is pressed, which creates a contact area between the forces, then the forces indicated by arrows in FIG. 6, which form a connection clamps 10, 80, are generated the deformation of the seal 70 and compression of the front end of the pin 40 in the area C ₁ and effect of the wall part 74. The main forces are protected by the insulating insert 36, act, as indicated, radially around the circumference of the clamping ring 60, which is tightly fitted into the bore 31 of the casing part 30, and are fitted over the braid 104. An additional seal 18 is transferred to the wall part 74 of the seal, in order to place the rear end of the bore 14 in abutment with the inner annular surface of the seal against the insulating shoulder 16 and is to be driven as a washer 106. Furthermore, transversely directed seals act formed, which have a central opening encircling the pin 40 due to the pressure of the cable braid, and the tip of the insert 36 and 70 and the pressure on the tip of the insert 36 and 70 and the pressure pointing forward to 35 104 forwards against the rear end of the seal of the end of the outer insulation rests against the shoulder 16 with its edge. When contact 102, which drove forward through the clamping ring 60, the seal 18 is driven by the engagement of the. The resulting compression connecting clamp half 12 with the compression and deformation of the wall part 74 of the sealing-fitting clamp half 80 is compressed so that the seal is axially axial against the wall of the bore 14 and the rear end face of the jacket extension 50 is pressed against the shoulder 16. Is the presence suppressed, as shown in Figure 6, so as the pressing portion C ₂ is protected by the insulating material entire assembly against the entry of Feuchtigdes insert piece 36, which encloses ness the forcing or corrosive media from the mesh area and the Cover part 30 of the 45 104 or under the clamping ring 60 through the binding clamp on both sides of the press-on seal. The clamping ring 60 is filled at its rear opening 34. The further seal 70 is bent inwardly at the end in order to firmly encompass the insulating jacket 102 of the cable to the rear end of the jacket extension 50, which is arranged to help the moisture to enter the area, to additionally seal the entry point The binding clamp assembly on the cable entry 50 also prevents the outer insulating jacket 102 and the cable location. F i g. 3 shows the annular braid being pushed forward to compress the gasket formation of gasket 70 and its location against the rearward end face of the jacket extension over insulation 106, braid 104 and iung50 of the connector,
The surfaces of the Andrückbacken for Andriikdientnur of illustration, since the seal 70 55 ken become the connecting terminal in the range C ₂ to the outer shell 102 100. the cable Fig. 3 to the jacket part 50 of the connecting terminal loading preferably designed such that the in F i g. 2 is consolidated. The cable end is thus produced by the insulation shown in the form of the pressure connection, being exposed, as shown in FIG the pressing area C _{2 to the} rear end of a bore 42 of the pin 40 60 is not pierced or penetrated to be able to be introduced. Part of the insulation while the metal pin is deformed. For this 106 protrudes in such a way that it is the radii of the opposite extension 37 of the insert 36 and can be inserted appropriately larger than the radius ring seal 70 by pressing jaw surfaces, and the cross section of the pin 40. The surfaces of the cable mesh 104 stands outwards behind the 6g pressure jaws for pressing the outer seal 70 in the vicinity of the front end of the clamping ring 60 around the jacket extension 50 insulation 102 protrudes. As in Fig. 1 and still clearly designed in such a way that the effective translucent in FIG. 4, the braid 104 knife of the clamping ring 60 runs in this area

is wrung to clamp the braid 104 between the clamping ring 60 and the jacket extension 50 by compression. The connecting terminal is expediently pressed on by means of a tool which is able to carry out the pressing simultaneously via pressing jaw surfaces which act both in the area C ₂ and in the area C ₃ .

Claims (7)

Claims: IO 1. Equiaxed electrical connector for an equiaxed cable coming from consists of a cable core and a conductive cable sheath that isolates from the core Substance is separate, consisting of an insulating insert that is inserted into a tubular conductive Sheath is fitted, and a central conductive pin which is in an axial bore of the Insert piece is attached and protrudes forward from the insert piece, the front Ends of the tubular jacket and central pin are suitable with mating Parts of a corresponding connecting clamp to be assembled, and wherein the rear end of the center pin has a hole for receiving the cable core and the rear end of the tubular jacket is formed with an extension that corresponds to the receptacle of the conductive cable jacket is used, the outside around this extension by means of an outer Clamping ring is attached, characterized in that the insert (36) with opposing recesses (38) is formed, the thin, uninterrupted wall parts of the insert (36) in the vicinity of the central pin (40) form that the conductive jacket (30) is formed with opposing openings (34) which are aligned with the recesses (38) are to provide access for pressing jaws for pressing the pin (40) around the cable core (110) through the thin wall parts of the To form insert piece (36), and that an elastically deformable annular seal (70) attached to the end of the rear extension (50) of the tubular jacket (30) and around the circumference of which is arranged around so that it is on a rearwardly facing surface of the extension (50) and on the insulation (106) of the cable (100) inside the cable jacket (104) is applied. 2. Connection terminal according to claim 1, characterized in that the rear extension (50) of the tubular jacket (30) at its end with an inwardly protruding one Ring (54) is formed and that the seal (70) has two different wall sections (72 and 74), which run radially, lie apart and through a radially inner base wall (76) are connected, whereby a channel section (78) is formed which the rim (54) to attach the seal (70) to the extension (50). 3. Connecting terminal according to claim 2, characterized in that the width of the channel (78) is substantially equal to the thickness of the rim (54), and that the front wall part (72) is of less height than the rear wall part (74). 4. Connection terminal according to one of claims 1 to 3, characterized in that the tubular conductive jacket (30) from the insert (36) extends forward that the The forward part (12) has an enlarged diameter so that an annular shoulder (16) is formed in the vicinity of the front end of the insert piece (36), and that an elastic deformable insulating sealing ring (18) enclosing a front part of the central pin (40) and on the annular shoulder (16) and on the forward end of the insert (36) is applied. 5. Connection terminal according to one of claims 1 to 4, characterized in that the Insert (36) is formed with a rear tubular extension (37) which located within the rear extension (50) of the conductive jacket (30) and one Has inner bore (39), the diameter of which is greater than that of the center pin conductor (40). 6. Connection of a connecting terminal according to one of claims 1 to 5 with an equiaxed one Cable, which has a central cable core and a conductive cable jacket, which is of the The core is separated by insulation, characterized in that the front end of the cable core (110) is pressed in the center pin (40) that the front end of the conductive cable jacket (104) outside around the rear extension (50) of the jacket (30) of the connecting clamp and inside a clamping ring (60) extends that surrounds the extension (50) that the insulation (106) of the cable (100) that the Core (110) separates from the conductive sheath (104), has an outer diameter that is in is substantially equal to the inner diameter of the sealing ring (70), which on the rear The end of the extension (50) of the clamp jacket (30) is attached, and through the seal (70) extends therethrough, and that the cable jacket (104) is pressed against the seal (70) that it this against the rear surface (54) of the extension (50) and against the outer surface of the Cable insulation (106) presses. 7. The connection of claim 6, wherein the cable has an outer insulating jacket, characterized in that the clamping ring (60) which surrounds the extension (50) of the Extension (50) extends to the rear and the outer insulating jacket (102) encloses and on its rear end is bent inwardly to tightly encompass the insulation (102). 1 sheet of drawings