NO810982L - PROCEDURE AND APPARATUS FOR INTRODUCING A FLAT CONNECTOR SINGLE LEADERS IN A MACHINE - Google Patents

Description

The invention relates to a device and a method for inserting the individual conductors of a flat ribbon cable into a processing machine. The problem of feeding the individual conductors of a flat ribbon cable into a processing machine was until now solved by an operator looking for individual conductors from the ribbon cable and feeding them into the processing machine by hand. In this connection, it is first necessary to strip the cable carefully so that the individual wires are not cut or chipped. The stripping must be chosen so that the conductor end protrudes somewhat outside the shrink sleeve into the interior of the contact and the beginning of the insulation lies between the shrink sleeve and the insulation holder. The stripped wire is then fed into the stop via the prism of a covering guard. A pedal switch is then operated, with the help of which the crimping piston presses the wire into the crimp connections and crimps it on. After the crimping operation is completed, the crimped-on contact is pulled out. In this connection, this sometimes also has to be turned 90° if it concerns contacts with locking hooks above or below.

With this method, it is unfortunate that a relatively simple operation becomes very labor-intensive, so it involves a large cost in terms of both time and price.

The task of the present invention is to provide guidance

on a device and a method by which the introduction of individual conductors of a flat ribbon cable into a processing machine is automated.

The invention provides instructions for solving this task

on such a design of the packaging machine that there is arranged a first pusher which can be maneuvered in the forward and backward direction and in its basic position stands in front of one. ladder shaft in which the flat band wire can be moved from below upwards or vice versa by means of a holder which is located next to the ladder shaft, that the pusher at its front corner facing the holder has a quarter-circular convex continuous recess and the front edge of the first pusher runs gently falling from this recess in direction backwards, that behind the ladder shaft and laterally offset in the direction of the holder, another pusher is arranged which is movable across the direction of movement of the first pusher,

and whose leading edge is vaulted approximately quarter-circle outwards and is adapted to the first pusher with regard to its design, that the holder is connected to a palisade, and that

the processing machine is arranged behind the second pusher seen in the direction of movement of the first pusher.

The method according to the invention proceeds in such a way that initially, in a first step, the pusher is moved towards the top conductor until a stop is reached and the processing machine is operated, that the first pusher is then brought back to the basic position and the second pusher is shifted across it first pusher's direction of movement, that in a following step a paling is activated whereby the holder and thus the flat band cable is moved one conductor thickness upwards or downwards, and that the second pusher is then brought back to the basic position.

The processing machine can here either be a crimping machine or a soldering machine.

With the help of this device and this method, one achieves the advantage that it becomes possible to process significantly more individual conductors per unit of time. Furthermore, disposal is due to of human failure is largely ruled out, and there the same stability of approval is ensured for each individual leader. Also with this method, the flat ribbon cable must be suitably extended and spliced. However, it can also happen in an automatic operation.

The device and method according to the invention will be explained in more detail below with reference to the drawing which illustrates the successive stages of the method.

Fig. 1 shows the basic position.

Fig. 2 shows the position after a conductor has been bent at an angle. Fig. 3 shows the position after the processing operation in the processing machine. Fig. 4 shows the position after forwarding the holding magazine, and

fig. 5 shows the final position before the next machining cycle.

In fig. 1 shows the machine components in their position before the start of the work cycle. The right part of the figure is a front view and the left part a side view. The pusher 1 is in the basic position and is arranged behind the ladder shaft 4. In the ladder shaft 4 is the stripped flat ribbon cable 5, which is held by a magazine designed as a holder 6. This holder 6 is simultaneously combined with a palisade 3 which, after each work cycle, lifts the flat ribbon cable up a conductor width. Behind the ladder shaft is another pusher 2, laterally offset in relation to pusher 1. Processing machine 9

is arranged behind the two pushers. The first pusher 1 has, on its front facing the holder, a quarter-circle-shaped recess, while the pusher 2 has a corresponding quarter-circle-shaped vault 10. While the pusher 1 can be moved back and forth, the pusher 2 is moved across this direction of movement, but time-shifted.

Fig. 2 shows the first processing step in the work cycle. The pusher 1 is here moved up to a stop, whereby between the pusher 1 and the pusher 2, which is still in the basic position, a slide guide appears with the help of which the conductor 8 of the ribbon cable 5 is bent approximately at a right angle. At the same time, the end of the conductor 8 is pushed under the respective tool of the processing machine 9, which can be either a crimping machine or a soldering machine. The processing machine is operated, and the processing operation is triggered. The third step of the method is shown in fig. 3. In the meantime, first pusher 1 has again been driven back to the basic position, and then pusher 2

driven out across the direction of movement of the first pusher 1, whereby the conductor 9, which has now been provided with a cable shoe 11, is again bent back into the ladder shaft 4.

Fig. 4 shows the stage of the process where the pallet 3 has lifted the magazine 6 a step corresponding to the diameter of a conductor 8 of the flat band line 5. The processed conductor leaves the supply channel, and the next conductor is brought into place in the ladder shaft and now lies in front of the supply channel.

The last stage of the method can be seen in fig. 5. Slider 2 is likewise driven back to the basic position, and the entire work cycle can now begin again.

Claims (4)

1. Assembly machine for introducing the individual conductors of a flat ribbon cable into a processing machine, characterized in that a first pusher (1) is arranged which can be maneuvered in the forward and backward direction and in its basic position stands in front of a ladder shaft (4) in which the flat ribbon cable (5) can is moved from below upwards or vice versa with the help of a holder (6) which sits next to the ladder shaft (4), that the pusher at its front corner facing the holder (6) has a quarter- circular, convexly extending cut-out (7) and the front edge of the first pusher (1) runs slightly downwards from this cut-out (7) in a backward direction, so that behind the ladder shaft and laterally offset in the direction of the holder (6) another pusher (2) is arranged which is movable across the direction of movement of the first slider (1), and whose front edge is roughly quarter-circularly vaulted and is adapted to the first pusher (1) with respect to its shape, that the holder (6) is connected to a paling (3), and that the processing machine (9) is arranged behind the second pusher (2) seen in the direction of movement of the first pusher (1). 2. Procedure for introducing the individual conductors of a flat ribbon cable into a processing machine, characterized in that the pusher (1) in a first step with the flat ribbon cable (5) clamped in is first maneuvered in the direction of extension towards the uppermost conductor (8) until a stop and the processing machine is operated, that. the first pusher (1) is then brought back to the basic position and the second pusher (2) is displaced across the direction of movement of the first pusher (1), that in a following step a paling mechanism (3) is activated, whereby the holder (6) and thus the flat ribbon cable (5) is shifted one conductor width upwards or downwards, and that the second pusher (2) is then again brought to the basic position. 3. Vending machine or method as stated in claim 1 or 2, characterized in that the processing machine is a crimping machine. 4. Vending machine or method as specified in claim 1 or 2, characterized in that the processing machine is a soldering machine.