DE1640464A1 - Ribbon cable connector - Google Patents

Description

Ribbon cable connector The invention relates to a connector for Ribbon cable with a multitude of parallel stripes embedded in plastic.

It is known, .` Ribbon cables with connector elements such as plugs,, Sockets and the like. to be connected in such a way that the conductor strips of the ribbon cable «s stripped and with-the contact elements by inserting and screwing or soldering get connected. This work is very time consuming and labor intensive.

The invention has the task to chafßen a connector, which can be attached at any point in a ribbon cable without the strings of conductors in this cable must be stripped individually. According to the invention this is done by placing the ribbon cable around a bar that goes into the Chamber of an Isso lierkörpers under the guidance of the projections at the ends of the bar is inserted into slots in which a number of electrical contact plates with connections, e.g. pins that protrude outwards from corresponding holes in the insulating body, are arranged, which have slots in which the bar with the ribbon cable when Pushing in, taking the top plastic layer of the ribbon cable from the corners the contact plates are attached locally and pushed back, the leiers.treifen uncovered and. brought. in close contact with the ganten :.

According to one embodiment of the invention, bind the flaps on both sides of the Slot in the contact plate elas.table, so that when pulling back: the plastic layer is rubbed off the ladder strips remain unharmed. - According to a training according to the invention the bar is made of elastic plastic. _ -According to an education According to the invention, the insulating body is attached to the rear side by a on the ribbon cable Seal sealed against moisture.

According to a further embodiment of the invention sind.die contact plates used interchangeably in the insulator.

The embodiment according to the invention has various advantages. -Of the : Connector can be used at any point on a ribbon cable. The stripping the head is omitted. Assembly can be done quickly and by unskilled labor can be made. The connector is versatile, so it can be used by others Ribbon cable connector or pressed formwork panels, devices and the like connected will.

The invention is described with reference to drawings. In the drawings show:. . 1: the ribbon cable connector according to the invention in the assembled state in a perspective illustration; Fig. 2 shows the same connector cut; Fig. 3 enlarges a cross section through the connector according to the line 3-3 in Fig. 1 '#, Fig. 4 enlarges a cross section through the connector according to the line 4-4 in Pig. 1; `Fig. 5 enlarged a longitudinal section through the connector according to the line 5-5 in Fig. 1; 6a, 6b, 6c show the stripping of the material from the conductors of the ribbon cable; Fig. 7 shows a cross section according to the line 7-7 in, Fig. 5 ; Figure 8 is a cross-section through a modified form of ribbon cable assembly in the connector. and FIG. 9 shows a cross section through another form of the connector.

In FIGS. 1 to 7, an elongated insulating body 10 is provided with a specific, programmed number of electrical contact plates 12. The end of a flexible: ribbon cable 14 is stiffened by the fact that it is wrapped around a flat, elongated strip 16 made of elastic material, which, as FIG Ribbon cable torn from Leiterstr-eten 15 # and. This creates good contact between the exposed conductor strip and the contact plate. An elastomeric seal 18 is attached to the insulating body 10 together with the elongated pressure piece 20, which simultaneously creates a seal against moisture and holds the ribbon cable 14 in the insulating body 10 'The tape camel is made of a pair of relatively soft tongues 13 and 21 of plastic material, e.g. polyester resin, which are bonded to one another and between which a number of parallel conductor strips 15, usually made of copper, are enclosed Both plastic layers are connected to one another, there is little or no adhesion between the plastic and the conductor strip, so that the material is torn open by the contact plate 12 and the conductor strip is stripped off relatively easily and without damaging the strips. The thickness of the ribbon cable is between 0.2 and 0.25 mm (0.008 and 0.0095 inches) o-der Insulating body 10, preferably from relative. stiff art. Manufactured fabric, has a chamber 22 which is delimited by the front side 24 with the bores 26 for the contact pins and by the parallel side walls 28 and the end pieces 30. The latter are. provided with bores 32 for receiving the bolts 34. The rear of the chamber is open to accommodate the ribbon cable 14, the strip 16 and the seal 18. The end pieces each have a central slot -36. The slots serve as guides for the strip 16. The side walls are provided with a series of equally spaced guides 38 for the contact plates 12, so that they are parallel and equidistant from one another in the pushed-in state. The contact plates 12 consist of a plate made of conductive material, the front edge 40 of which abuts against the front side 24 of the insulating body. The rear edge 42 is set back from the rear side of the insulating body, so that when the strip 16 cannot be tilted. The side edges 43 run in the guides 38. Furthermore, the contact plates 12 each have a connection 44 at the front, which is, for example, hard-soldered. In the drawings, the connection is shown as a pin, it can just as easily be designed as a socket, contact spring, etc. The connections protrude from the bores 26 in the front side 24 in order to be brought into engagement with mating contacts (e.g. 46). However, the connections can also be designed in such a way that contact can be made with, for example, a printed circuit board.

Furthermore, the contact plates 12 are each provided with a slot 48, as can best be seen from FIG. The slit extends forward from the rear edge 42 and lies between the side edges 43 at midday. The size of the slot is determined by the conductor strips that are inserted between the edges 50 up to the base 49 . The two tabs 51 are relatively elastic, so that when the ribbon cable 14 and the strip 16 are pushed in, their tolerances are absorbed. The guide slots 36 of the insulating body 10 and the slots 48 of the contact plates 12 lie in one plane. The slots 48 are chamfered (5?) On both sides of the mouth in such a way that the corners 54 are obtuse-angled. These corners 54 push the plastic layer 13 of the ribbon cable 14 back and expose the conductor strip 15: The obtuse angle is expediently between 1050 and 1650, preferably at -135.0e. the conductor strip 15 iui Baaldkabel 14 match. As a result, when inserting the plastic 13 is torn open and pushed back only locally over the conductor strip, while the. remaining plastic part remain unchanged.

The electrical contact plates 12 are depending on the circuit in more necessary Number used in the insulating body 10. Eat this for the recording, for example of twelve contact plates, all assembly combinations are suitable for one up to twelve contact plates possible.

The coding of the connections 44 is also carried out by the offset of the Holes 26. in the front 24 of the insulator from the center and corresponding Offset of the connections 44 on the contact plates 12. The connections are thus in place distributed arbitrarily on both sides, as shown in FIG. 3.

In order to compensate for thickness tolerances of the ribbon cable 14, the bar is 16 expediently made of elastic plastic, e.g. a polycarbonate or a polyamide, manufactured.

The ribbon cable 14 is laid over the front edge 56 of the strip 16 in such a way that the frame 13 points outwards. The two parallel lateral ends 58 of the strip: 16 slide in the corresponding slots 36. The -'- rear edge 60 runs parallel to the front edge. The protrusions 62 at the ends protrude beyond the leading edge 56 and improve the insertion of the ribbon cable. The leading edge 56 reaches the slot base 49 of the contact plates 12 before the projections 62 reach the end of the slots 36 (Fig. 5).

FIGS. 6a, 6b and 6c show how the plastic layer 13 of the ribbon cable 14 is torn open and pushed back one after the other when it is pushed in, so that a good electrical contact is made between the conductor strip 15 and the edges 50 of the slots 48. Fig. 6a shows the parts before they are nested. In order for the corners 54 to tear open the plastic and push it back, it has been proven that the slot 48 and the strip 16 are dimensioned such that the difference corresponds approximately to twice the thickness of the conductor strip plus twice the thickness of the plastic layer. This applies to the ribbon cable at its lower tolerance limit. Greater thicknesses of the ribbon cable within its tolerance limits are compensated for by the elasticity of the contact plate 12 and the strip 16 :.

FIG. 6b shows how the ribbon cable is being pushed in in the slot 48 the bracket 13 is cut and pushed away. With further insertion any oxidation products are also rubbed off the conductor strip 15.

In Fig. 6c the parts are completely pushed into one another; Plastic strips that have been pushed off are pent up in front of the corners 54.

Before inserting the ribbon cable 14, the pressure piece 20 and the Seal 18 is attached to the ribbon cable as shown in FIG. The seal'is out. made of an elastic material, preferably rubber.

The seal 18 vreist a section 63: the into the chamber 22 and in which the free end 64 of the ribbon cable is held. -Of the Section 66 of the seal protrudes from the opening 68 of the pressure piece 20 and acts there as kink protection for the ribbon cable.

The pressure piece 20 consists of a strip 70 which is provided with the opening 68 and which presses the section 63 of the seal 18 ... into the chamber 22. The flange 72 surrounds the portion 66 of the seal. The two ends 74 of the strip 70 are provided with bores 76 which correspond to the bores 32 in the end pieces 30 of the insulating body 10 and which receive the thread 78 of the bolt 34. A nut 80 is screwed onto the thread 78 which, when tightened, presses the pressure piece 20 against the insulating body 10, the strip 70 deforming the section 63 of the seal. This deformation is also propagated into section 66, so that no moisture can penetrate into chamber 22 on the pressure piece.

The bores 32 in the insulating body 10 have a hexagonal recess provided for receiving the hexagon 81 on the bolt 34. Extends from this hexagon a pin 82 extends in the same direction as the terminals 44.

Fig. 8 shows that the application is not limited to a Place the end of the ribbon cable 14 around the strip 16. The bar can do the same on everyone earth any point on the ribbon cable so that a series of "T" or branch connections can be produced. With suitable programming of the contacts Different conductors or groups of conductors are connected to different ones in the connector Points of the ribbon cable tapped. Such branch connectors are suitable for others Ribbon cable connectors and other electrical assemblies. Another form of ribbon cable connector shows Figo 9. It differs from the type described above in that that here the holes for the connections in the side walls 86 of the insulating body 84 are attached instead of in the Vorderviand 88. -The same are also attached to the Contact plates 90 fasten the connections 92 to the side edges 94. Naturally can they only protrude on one side or, Srie, depicted, on both sides. With the arrangement shown, it is possible to attach two matching connector links. It is also possible to produce the insulating body 84 from two identical halves. The connector according to Fig. 9 can also be used to accommodate other ribbon cable connectors, printed circuit boards or the like. Executed.

Claims (1)

Ribbon cable connector for ribbon cable with a plurality of parallel, equally spaced conductor strips embedded in plastic layers, characterized in that the ribbon cable (14) is laid around a bar (16) which is inserted into the chamber (22) of an insulating body (10 ) under guidance of the projections (62) at the ends of the strip (16) in slots (36) .eineschoben is in which a series of electrical contact plates (12, 90) with connections (e.g. pins 44, 92), which come from corresponding bores protruding outward in the insulating body, are arranged, which have slots (48) into which the strip (16) with the ribbon cable (14) penetrates during insertion, the upper plastic layer (13) of the ribbon cable from the corners (54) of the contact plates (12, 90) locally cut and pushed back, the conductor strip (15) is exposed and brought into close contact with the edges (50). z. Ribbon cable connector according to Claim 1, characterized in that the tabs (51) on both sides of the slot (48) in the contact plates are elastic, so that when they are pushed back. the plastic layer (13) the conductor strips (15) remain intact. 3. Ribbon cable connector according to claim 1, characterized in that the strip (16) is made of elastic plastic. 4. Ribbon cable connector according to claim 1 and 3, characterized marked. net that the back of the insulating body (10) is sealed against moisture by a seal (18) attached to the sand cable (14). 5. Ribbon cable connector according to claim 1, characterized in that the contact plates (12, 90) are inserted in the insulating body (10) so that they can be exchanged. 6. Ribbon cable connector according to claim 1 to 5, characterized in that it can be used at any point on the ribbon cable (14). Title: Ribbon Cable Connector Strip cable connector List of terms used Reference original language D / E Translation E / D sign - - 1_9 _ - 10 insulator body insulating body 11 - - 12 contact plate contact plate 13 sheet location 14 strip cable ribbon cable 15 conductor ribbons conductor strips 16 iredge groin 17 _ _ 18 seal seal _ _ 19th 20 Pressure member pressure piece 21 sheet location 22 compartment chamber 23 - - 24 front wall 26 opening bore 27 - _ - 28 side wall 29 _ - 3P end viall end piece 31 - - 32 opening bore 33 - - 34 stud bolts -'35 - _ 36 slot .slot 37 - - 38 guide List of terms used Reference original language D / E Translation E / D -sign 39 _ _ 40 front edge leading edge 41 _ _ 42 back edge 43 side edge 44 terminal connection 45 - _ 46 Bocket terminal mating contact 47 _ _ 48 slot = slot 49 bottom base 50 side edge. 51 put rag 52 (Location) 54 corner 55 _ _ 56 front edge leading edge 57 .- 58 end end 59 - _ 60 back edge trailing edge 61 _ - 62 projeetion projection 63 porton section , 64 free end free end 65 _ _ 66 portion 67 _ _ 68 opening opening List of terms used Reference original language D / E translation E / D -sign 69 _ _ 70 base strips 71 - - 72 (long flange 73 - - 74 end end 75 _ _ 76 opening bore 77 - - 78 threated end thread 79 - - 80 nut mother 81 hexagonal collar hexagon 82 pin pin 83 _ _ 84 body insulating body 85 _ _ 86 side wall 87 - 88 front wall 89 - 901 contact plate contact plate 91 _ _ 92 terminal connection 93 - 94 side narrow side edge