DE2038755C3 - Electrical connector - Google Patents

Description

The invention relates to an electrical connector that is detailed in the preamble of claim 1 designated Art.

Such connectors, also known as couplings, are available in a variety of designs Seals are made to protect them against harmful environmental influences when used as intended to protect.

Typical harmful influences are caused by moisture, salt, sand, dust, liquids and steam. Around to prevent these and other influences from being inserted into the To reach others, seals are needed to achieve the necessary insulation. Conventional Intermediate seals are primarily through parts that are affected by the pressing forces when the Connector halves are pressed together, generated. Typical seals include washers, while other types use protruding surfaces when mating the connector halves exert a sealing force. The latter method of protruding surfaces as a seal is generally the most reliable of the types of seal and seals on the same principle as a cork in the bottle.

In a connector known from DE-GM 18 69 451 with a round cross-section, each coupling half contains a housing which encloses a plug made of elastic material. Of the The plug has bores, which the slicker pins contained in or sockets to which corresponding cables can be connected. Each of the Coupling halves also contain pressure plates provided with corresponding bores, which are attached to the ends of the associated stopper, and means for, 5 pressing together the pressure plates of the type that the Plug is compressed and sealing against the housing and the connector pins or the connector sockets lays. The coupling also includes a second plug attached to the forward end of the pins or sockets one of the coupling halves is arranged The coupling halves are also with interengaging Provided locking elements by means of which they can be connected to one another in such a way that the second plug is compressed while adding an extra seal at the front end of the interconnected comes into engagement pins or sockets.

Another provided with seals against external influences connector is known from GB-PS 9 15 528. This also consists of two coupling m halves, one of which is a socket part and the other as a male part is aasgebildet The pin contacts of the plug part are stored in bores of the insulating part , on the front face of which protrudes in each case the end of the pin contact that can be brought into engagement with the complementary socket part. These free contact ends are surrounded by a collar of the insulating part. On the front of the insulating part facing the socket part, a sealing plate penetrated by the contact ends is arranged, which protects the inside of the coupling from the plug-in side against external influences, while the rear connection side is sealed by sleeves sitting on the connecting wires, which are pressed into the contact pin receptacles from behind under pressure are.

The socket contacts of the other socket part show the same rearward, made by means of sleeves Sealing on, while the front sealing when the connection of the coupling halves is established through the sealing plate of the plug part ■ ϊο takes place around the sealing effect at the seam To enlarge between the two coupling halves, another tubular seal is also provided, which apparently sits on the insulating body of the socket part and when the coupling V) is connected to one another halves engages in a corresponding recess on the inside of the connector part collar.

The sealing of the known connectors of this type is, however, not satisfactory in some applications. This is especially true if the bo tightness is to be maintained over a great length ; the length of the distance between interlocking surfaces is meant. The large spatial margin is caused because the

one half of the connector in a rack is mounted while the plug is attached to the slide-in unit As the structural quirks of such Installations that involve a large variation in connector attachment result in considerable amounts major modifications between the connector surfaces.

An electrical connector according to the generic term of patent claim 1 is known from US-PS 32 10 717 The contact elements of the connector part are provided with a touch guard. This is necessary because the associated socket and the contact elements do not have a protective collar are already energized when plugging in, but until they are fully inserted into the socket contacts are still accessible from the outside.

For this reason, the contact elements made of flat metal tongues are used in the manufacture of the made of soft elastic insulating material Handle body with overmolded. The hose-like eyelets formed in this way are removed from the insulating body when the The socket is held back and they slide together in recesses formed in the handle body for this purpose, from which they emerge again when the connector is disconnected. When making a plug connection the plug part thus has the desired protection against external contact, but it is the sealing effect against aggressive environmental influences is inadequate.

It is the object of the invention to improve the sealing of known plug connections so that a highly effective additional seal when the connector halves are plugged together is achieved and when the connector halves are separated, the seal still has a certain path preserved

This object is achieved according to the invention by what is stated in the characterizing part of claim 1 constructive measures solved.

Advantageously, this design allows the seal and its arrangement between the connector halves maximum protection, even if the distances between the Halves. In addition, the force required for the seal is less than with conventional intermediate seals. The seal can also be used on connectors with a large number of contact pins will. Furthermore, the seal is easy to remove and replace without causing damage. Beneficial Refinements of the subject matter of claim 1 can be found in the sub-claims.

Embodiments of the invention are described in more detail below with reference to a drawing. It shows

Fig. 1 is a perspective view, partly in section, a socket and a plug with the seal ready to be plugged in;

F i g. 2 the plug connection according to FIG. 1 in longitudinal section and half pushed together, and

F i g. 3 completely plugged together;

F i g. 4 shows a modification of the intermediate seal in longitudinal section and the plug ready for assembly and

F i g. 5 the finished plug connection with the intermediate seal.

In FIG. 1, a plug device 12 is shown, which consists of a plug socket 14 and a plug 16 The socket 14 includes an outer housing 22 which is on its front outer side 24 is beveled and on the rear side merges into an outwardly projecting flange 26 The inside the housing 22 includes a front bore 28 which is adjacent to an inwardly facing flange 32, the one front shoulder 34 and a rear shoulder 36. Housing 22 further includes a rear shoulder Bore 38 connected to the rear shoulder 36 of the flange

ίο 32 adjoins

In the housing 22, an insulating part 42 is inserted from the front, the outer dimensions of which are somewhat smaller than the inner dimensions of the flange 32. The insulating part 42 includes a plurality of bores 44 which at the front end with a widening part 46. The rear end of the bores 44 borders on Drilled part or bore 48 and both bores 44 and 48 thereby form a shoulder 52. A rear bore 54 is slightly larger in diameter than the bore 48 and both Phrungen 48 and 54 thereby form a shoulder 56.

An insulating part 62 is introduced into the bore 38 of the housing 12. The front surface 64 of the insulating part 62 adjoins the rear shoulder 36 of the shell and the rear surface 66 of the insulating part 62 closes flush with it the surface of the flange 26. A final locking ring 68, the outer diameter of which is larger than the bore 38 and its inner diameter smaller than the outer dimensions of the insulating part 62 is used to hold the insulating part 62 in the bore 38. The insulating part 62 includes a plurality of bores 72 directed at the front, which are axially aligned with the bores in the front insulating part 42. the Bores 72 adjoin forward facing shoulders 74. Insulated 62 also includes rear bores 76 that adjoin the shoulders 74. Electrical socket contacts 82 are in the Insulating parts 42 and 62 mounted, the front contact parts 84 provided with bores 86. the Front contact parts are provided with larger cap parts 88, which are attached to the rear shoulders 56 adjoin. The rear surfaces of the cap portions 88 are flush with the front surface of the rear insulating part 62 from. A clamping cup 92 on the

«Contact part 84 is with the cap part 88 hitegriei i. The clamping cup 92 is mounted in the front bore 72 of the rear insulating part 62. Lines 94 extend rearward through the rear bores 76, the wires 96 of which extend into the clamping cups 92

vi are depressed.

The plug 16 consists of an outer housing 102 which has an outwardly facing flange 104 on the The housing 102 is at the front 106 with a beveled edge provided, which merges into a bore 108 and up to a forward-facing shoulder 11? enough. the Shoulder 112 is part of an inwardly facing flange 114 which forms a shoulder 116 rearward. A smaller diameter hole 118 is in attached to the rear of the housing 102 and extends to the shoulder 116. To the rear surface 122 of the The housing is bounded by a locking ring 124, the outer shape of which is flush with the outer surface of the shell 102 and the inner diameter of which is slightly smaller than the bore 118.

In the rear end of the conductive shell 102, an insulating part 126 is inserted through the locking ring 124 is held. The rear surface 128 of the

The insulating part 126 is flush with the rear surface 122 of the shell 102 and the front surface 130 ends with shoulder 116. The insulating part 126 includes smaller rear bores 132 and larger front bores 134, which one to the front ι pointing shoulder 136 form. A front insulating part 142 closes flush with its front surface 144 the forward facing shoulder 112. The front one, outer surface 146 of the insulating part 142 is slightly smaller in its dimensions than the inner dimensions of the in Flange 114 and the rear part is slightly smaller than the internal dimensions of flange 114 and the rear part is slightly smaller than the bore 118 and forms a forward-facing shoulder 152, the the rear shoulder 116 of the housing 102 is adjacent. ii Furthermore, the rear surface 154 of the front insulating part 142 adjoins the front surface of the rear Insulating part 126. The front insulating part 142 also contains a plurality of larger bores 162 and smaller bores 164. The connection of bores 162 and 164 forms a rearward facing Shoulder 166.

An intermediate seal 172 which is made of% silicone rubber or other elastic material, is adjacent to its rear surface 174 to the ^ front surface 144 of the front insulating part 142. The seal includes a plurality of forwardly projecting tubular members 176, extending from the Each of the tubular members includes a bore 182 which extends from the front end to the rear surface 174 of the gasket and which is flush with the bores in the front and rear insulating members 142 and 126. Furthermore, an annular opening or notch 184 is formed approximately in the center of the tubular parts in the surface of the bore 182 J5

Pin contacts 186 with front contact surfaces 188 for the interaction with the Koniaküeiien 84 are mounted within housing 102. The pin contacts protrude forward from tubular members 176 out and end at the rear end in cap parts 192, which are in the bores 162 of the front insulating part 142 are attached. The rear surface of the cap pieces 192 is flush with the rear surface of the front Isolating part 142 from and the front throat adjoin the rear side of the shoulder 166. the Contact surfaces 188 of the pin contacts protrude from the cap parts 192 to the front and sit in the Bores 164 of the front insulating part 142 and the bores 182 of the intermediate seal 172. A Clamping cup 194 is fastened in the bore 134 of the rear insulating part 126 and the front end is with the rear surface of the cap portion 192 is integrated. The rear end of the clamping cup 194 is adjacent to the after Forward shoulder 136 in insulating part 126. Lines 196 with wires 198 are in the clamping cups 194 and run through the bores 132 of the rear insulating part 126.

When the two parts of the plug connection, the socket 14 and the plug 16, into each other are inserted, the pin contacts 186 slide into the contact parts 84. Furthermore, the front ends border of the tubular parts 176 to the chamfered parts 46 of the insulating part 42 and on further Compression of the connector shown in FIG. 3, the desired seal is formed between the connector parts. What is more, the notch 184 of the hole 182 supports the Seal and allow her to move outward, so that a smaller sealing force is required.

In the F i g. 4 and 5 is an alternative embodiment of the Intermediate seal shown in which the notch or opening in the tubular part has been omitted. The seal 200 is formed from a forward facing surface 202 and tubular members 204. A bore 206 is made in the tubular members. The front end 208 of the tubular Parts pushes into the beveled part 46 of the insulating part 42 and bends during the mating process then radially apart to the axis of the plug.

It can be seen that in both designs, the seal through the interaction of the front opening of the Isolating part 42 and the front end of the sealing part is made. As a result, the seals over a large width of the connector reliable and effective. As the connector spacing decreases, the seal expands into the open space between the connector parts and according to the Due to the properties of the material, the seal will continue to function as the connector spacing increases. As a result, all through vibration, Load fluctuations, temperature, expansion, compression or a change in the orientation caused inclinations, the connector spacing to change, are absorbed by the resilient properties of the sealing material.

Furthermore, it will be understood that individual tubular seals can be better used than Seals in which all sealing parts are combined into one.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Electrical connector, the connector part of which is fixed by several in a dimensionally stable insulating body Contains pin contacts, each of which has a hose-like, carries the pin tightly encompassing body made of soft elastic material, which when plugged from the socket part is compressible, characterized in that all of the pin contacts (186) comprising body of tubular parts (176, 204) of a one-piece seal (172,200), the rear surface (116, 174) of which at least completely covers the front surface (144) of the insulating body (142) 2. Electrical connector according to claim 1, characterized in that the rear part the seal (172,200) is attached to the front surface (144) of one of the insulating parts (142) and it a variety of protruding parts (176,204) which are tubular and with the inner surfaces of their bores (206) the Enclose pin contacts (186) of the plug part (16), and that on the insulating part (42) of the socket part (14) Openings at the entrance of the pin contact receiving bores (206) are formed in which the front parts \ 176, 204) of the seal (172, 200) when assembling the connector (12) penetrate, while the parts (176,204) located between the plug and socket part (16,14) expand sideways. 3. Electrical connector according to claim 2, characterized in that (cJ3 the inner surface of the Bore (206) of the reddish-shaped part (176, 204) the seal (172, 200) has a color (184) or groove has along which the tubular parts (176, 204) extend radially to the plug part (16) expand. 4. Electrical connector according to one of claims 1 to 3, characterized in that the rear part of the seal (172,200) at least the entire front surface (144) of the insulating part (142), on which it is mounted, covered.