DE3721045C1 - Device for mounting plug pins in the insulating body of a plug connector - Google Patents

Abstract

A device is described for mounting plug pins (76) in the insulating body (72) of a plug connector, the insulating body (72) having plug openings (74) which are directed parallel to one another and have latching elements (86) in which those plug pins (76) which have mating latching elements (80) can latch. In order to enable quick and defect-free mounting of the plug pins (76), the device comprises a holding device (18), which is guided on a base (10) such that it can be displaced linearly, for holding the insulating body (72) in such a manner that the plug pins (76) loosely inserted into the plug openings (74) project out of the holding device, directed parallel to the displacement device of said holding device, a clamping device (52, 54), which is arranged on the base (10), for fixing the plug pins (76) on the base (10) during a movement of the holding device (18) relative to the base (10), and a contact arrangement, which is provided thereon, with contact elements (58, 60) which are assigned to the plug pins (76), are connected to a test circuit arrangement (68) and can be operated by the plug pins (76) when they are located together with the insulating body in the holding device (18). <IMAGE>

Description

The invention relates to a device for mounting Connector pins in the insulating body of a connector, the insulator facing parallel to each other Has plug openings with locking elements in which the Plug pins having counter-locking elements can be locked are.

Such connectors are with the cores of flat cables and round cables connectable, the wire strands with the Connector pins are connected by crimping or soldering. The connector pins of such connectors often have very small external dimensions (external diameter 1.5 mm) and are connected with correspondingly thin cable strands. The installation such pins in the connector housing or the insulating body of the connector must be done carefully, since the pins and the strands are not injured during assembly may be. For the proper functioning of the plug connector after assembly must be ensured that the mechanical and electrical connection between the wires stranded and the connector pins is perfect.

The invention has for its object a Montagevor to indicate the direction of the type mentioned, with which the Connector pins quickly and without the risk of damage are reliably mountable in the insulating body and at there is a possibility of the proper functioning of the Connector before and / or during assembly gangs to check and monitor.  

This object is achieved by an assembly solved direction of the type mentioned, comprising a linearly adjustable holding device on a base device for holding the insulating body in such a way that the plug pins loosely inserted into the plug openings directed parallel to the holding device out of this protrude, a arranged on the base clamping device for Hold the connector pins to the base when moving supply of the holding device relative to the base and one at the Basic contact arrangement with the connector pins assigned and connected to a test circuit arrangement those contact elements actuated by the connector pins are bar if they are together with the insulating body are in the holding device.

When using the mounting device according to the invention the insulating body is inserted into the holding device, wherein either loosely fitted with the connector pins or is then inserted into the insulating body will. The connector pins actuate the contact elements of the Contact arrangement, so close switches, for example. The contact elements are preferably arranged so that they can only be operated by the connector pins when this is the lowest position in the insulator have taken that possible before the connector pins snap into place is. In this way, by means of the test circuit be checked whether all plug pins are present and whether they have an appropriate position in the insulator have taken. With a suitable design of the test circuit If necessary, it can also be checked whether the plug pins to the right one for the wire connected to them strands are arranged in certain places and whether their ver connections with the strands are flawless. Should the  Check result in an error, it can still without Trouble can be fixed as the connector pins are not yet included the insulator are captively connected. Leave that On the other hand, if the test result does not recognize an error, the Connector pins by means of the clamping device opposite the Base held. The insulating body is adjusted the holding device relative to the base and thus to the Plug pins adjusted until they are in the insulating body are engaged.

With the device according to the invention it is thus possible the functionality of the connector before the endgül assembly and then carefully all plug pins in one step to mount the insulator.

A simple holding device can be obtained by this a carrier is formed, which has a cup-shaped recess to accommodate the insulating body in the bottom of the recess trained through openings for the connector pins points. For mounting the connector pins in the insulation body is therefore sufficient to keep the wearer relative to the firm the male pins until the male pins are on rest. The adjustment of the carrier can be done by means of a pressure-actuated working cylinder, for example one pneumatic cylinder.

The design of the clamping device is generally from the configuration of the connector pins in the insulating body hang. In the simplest case, all plug pins are sufficient jointly assigned base-fixed abutment and a mov Lich clamping element that all in the clamping position Pushes the connector pins against the base-fixed abutment. A  however, such an arrangement is generally only possible if the connector pins are arranged in a row next to each other are. For a connector where the connector pins for example in a circular arrangement, possibly by one middle connector pin are arranged around, it is appropriate moderately, each connector pin has its own movable clamp assignment. The abutment can easily by one with through openings for the connector pins verse that base-fixed plate be formed, the connector pins in the clamping position of the clamping elements of these against the edges or side walls of the passage openings be pressed. The clamping elements are useful pressure cylinder operated by the piston rods formed parallel to the plate forming the abutment are adjustable.

If after checking the connector assembly for final Assembly of the connector pins adjusts the holding device this can be done either by hand or it can be provided a control device that automatically depending on the test result, the holding device be does.

Further features and advantages of the invention result from the following description, which in connection with the accompanying drawings, the invention based on an embodiment Example explained. Show it:

Fig. 1 is a schematic partially sectioned plan view of a mounting device according to the invention,

Fig. 2 shows a section through the mounting device taken along line II-II in Fig. 1,

Fig. 3 is a schematic partial section through an insulating body of a connector accommodated in the holding device with a loose plug pin to explain the function of the mounting device and

Fig. 4 is a representation corresponding to FIG. 3 with the plug pin locked in the insulating body.

The exemplary embodiment of a mounting device shown in FIGS . 1 and 2 comprises a block-shaped base 10 with a hexagonal top view, with a base lower part 12 and a base upper part 14 . The hexagonal shape was chosen in view of the special shape of the connector that is to be assembled with this mounting device and that has six connector pins, five of which are arranged in a circular arrangement around a central sixth connector pin. However, the function of the mounting device is in no way tied to this hexagonal shape of the exemplary embodiment presented. In a different arrangement of the plug pins of a connector, a different shape of the mounting device may be appropriate.

In the upper base part 14 , an elongate recess 16 open at the top is formed in the form of a parallelepiped. It is used to hold an elongated carrier 18 , which has an upwardly open pot-shaped recess 20 in its longitudinal center, into which the insulating body of a connector to be mounted can be inserted. The carrier 18 has on its side facing the bottom 22 of the recess 16 two cylindrical recesses 24 , in each of which a piston rod 26 engages, which is guided in corresponding bores in the base part 12 and in the base part 14 and is each connected to a piston 28 , which is guided slidably in a cylindrical recess 30 in the base base 12 ver. The cylinders 30 are connected to each other via a line 32 and via a line 34 to a pressure medium source, not shown, for example a compressed air source. If 30 pressure medium is supplied to the cylinders, the carrier 18 is raised by a predetermined distance by the displacement of the pistons 28 and the piston rod 26 . When venting of the cylinder 30, the carrier 18 returns to its initial position under the action of coil compression springs 36 back, on the one hand, on the other hand are supported in holes 38 at the longitudinal ends of the carrier 18 and the arms 40 of the holding pieces 42, which are also in the recess 16 of the upper base part 14 are firmly mounted.

In the bottom of the recess 20 , passage openings 44 are formed for the plug pins to be mounted, which are aligned with corresponding passage openings 46 in the bottom 22 of the recess 16 from the base upper part 14 . The holes 46 lead to a cavity 48 on the underside of the base part 14th In this cavity 48 open straight bores 50 , which run in a star shape along the central perpendicular of the six corners of the base 10 . They serve to guide piston rods 52 of working cylinders 54 which are arranged on the outer side walls of the base upper part 14 . Each of the piston rods 52 is assigned to a plug pin and serves to press it against the wall of a bore 46, which acts as a fixed abutment, and thus to hold the respective plug pin on the base 10 .

In a to the upper base part 14 open recess 56 of the lower base part 12 two contact elements 58 , 60 are arranged below each bore 46 , of which one contact element 58 is fixed and the other above the fixed contact element 58 is mounted on a spring 62 movable Lich. The two contact elements 58 and 60 are each connected via lines 64 , 66 indicated by dashed lines to a test circuit arrangement 68 with which the completeness of the connector pins, their perfect connection to the wire strands and the correct position of the connector pins can be checked. The test circuit arrangement 68 is connected to a control device 70 , which in turn controls the working cylinder 54 and the pressure medium supply to the cylinders 30 .

The function of the assembly device described so far will now be explained in more detail with reference to FIGS. 3 and 4, in which the parts which correspond to the parts in FIGS. 1 and 2 visually in terms of their function are provided with the same reference symbols.

In FIGS. 3 and 4 to 72 recognizes a part of the sentlichen we cylindrical insulation binders a Steckver. Parallel to the cylinder axis, the insulating body 72 has a plurality of through bores or plug-in channels 74 , only one of which is shown in FIGS . 3 and 4. A plug pin 76 is inserted into this bore 74 and was previously connected to a stranded wire 78 by soldering or crimping. The plug pin 76 has an annular collar 80 which is delimited on its side facing the pin by a conical surface 82 and on its axially opposite side by a radial annular surface 84 . On the wall limiting the bore 74 , on the other hand, a radially inwardly projecting ring 86 is formed, which on its side pointing toward the entry end of the bore 74 is delimited by a conical surface 88 and on its side pointing towards the exit end of the bore 74 by a radial ring surface 90 is. The ring 86 and the collar 80 form locking or counter-locking elements which hold the respective connector pin 76 in the Iso lierkörper 72 captive when the connector pin 76 is inserted so far into the bore 74 that the collar 80 slides over the ring 86 and this engages in the annular groove 92 between the radial annular surface 84 and a larger-diameter section 94 of the plug pin 76 , as shown in FIG. 4.

In the position of the insulating body 72 shown in FIG. 3 with the plug pins 76 in the carrier 18 forming the holding device, the plug pin 76 hits the movable contact element 60 so that it comes into contact with the fixed contact element 58 .

If the thus enabling testing in the Prüfschal processing assembly 68 that all the plug pins ordnungsge are arranged Mäss and connected with its litz wires, the test circuitry 68 outputs a match of the enable signal to the control device 70, in their turn initially causes an actuation of the cylinder 54 with pressurized air . The piston rods 52 are moved in Rich direction on the associated connector pins 76 and press them against the wall acting as an abutment of the respective bore 46 in the upper base part 14th Another possibility is that each individual Stec kerstift is depressed until it closes the Kontaktele elements 58 and 60 , whereupon he clamped immediately in this position via a corresponding pulse of the test circuit arrangement 68 or via a manual actuation of the Steuerervor device 70 becomes. The plug pins 76 are thus fixed axially. Then the Steuerervor device 70 causes a compressed air supply to the cylinders 30 , so that the carrier 18 is raised by the piston rods 26 . He lifts the insulating body 72 until the respective ring 86 of the bore 74 in the annular groove 92 snaps onto the associated connector pin 76 . Then the cylinders 54 are aerated so that they release the connector pins 76 . The insulating body with the captive plug pins th can be removed from the carrier 18 .

As can be seen in Fig. 2, the recess 56 in the base 12 is connected via a channel 96 of small diameter to one of the cylinders 30 , so that when the cylinder 30 is loaded with compressed air, this also flows into the savings 56 . As long as the holes 46 in the base part 14 are closed by plug pins, practically no compressed air can escape from the recess 56 . However, at the moment when the plug connector is removed from the carrier 18 after assembly, the compressed air can escape from the recess 56 through the bores 46 , these being blown free. This is to prevent impurities such as small Litzenab cuts or the like from settling into the holes 46 , which impede the insertion of the plug pins into these holes or be pierced by them into the recess 56 , where they lead to unintentional contact between the Contact elements 58 and 60 could lead. If the cylinder 30 is pressurized with a pressure medium other than compressed air, it is expedient to guide the channel 96 to an external connection to which a compressed air source can be connected.

Claims (8)

1. Device for mounting plug pins ( 76 ) in the insulating body ( 72 ) of a connector, the insulating body ( 72 ) having plug openings ( 74 ) directed parallel to one another with latching elements ( 86 ) in which the counter-latching elements ( 80 ) have plug pins ( 76 ) can be latched, characterized by a linearly adjustable holding device ( 18 ) for holding the insulating body ( 72 ) on a base ( 10 ) in such a way that the plug pins ( 76 ) inserted loosely into the plug-in openings ( 74 ) parallel to the adjustment direction protruding from the holding device, a clamping device ( 52 , 54 ) arranged on the base ( 10 ) for holding the connector pins ( 76 ) on the base ( 10 ) when the holding device ( 18 ) moves relative to the base ( 10 ) and a provided on this contact arrangement with the connector pins ( 76 ) and connected to a test circuit arrangement ( 68 ) connected contact elements ( 58 , 60 ), which can be actuated by the plug pins ( 76 ) when they are located together with the insulating body in the holding device ( 18 ). 2. Device according to claim 1, characterized in that the holding device is formed by a carrier ( 18 ) which has a cup-shaped recess ( 20 ) for receiving the insulating body ( 72 ) with through openings ( 44 ) formed in the bottom of the recess ( 20 ). for the connector pins ( 76 ). 3. Apparatus according to claim 1 or 2, characterized in that the holding device ( 18 ) by means of at least one pressure medium-operated working cylinder ( 26 , 28 , 30 ) is adjustable. 4. Device according to one of claims 1 to 3, characterized in that the clamping device a the plug pins ( 76 ) associated base fixed abutment and radially to the plug pins ( 76 ) adjustable clamping elements ( 52 ) for pressing the plug kerstifte ( 76 ) includes the abutment. 5. The device according to claim 4, characterized in that the abutment is formed by one with through openings ( 46 ) for the plug pins ( 76 ) verses hen base plate ( 14 ). 6. Apparatus according to claim 4 or 5, characterized in that the clamping elements are formed by the piston rods ( 52 ) pressure medium actuated cylinder ( 54 ) which are adjustable parallel to the plate ( 14 ) forming the abutment. 7. Device according to one of claims 1 to 6, characterized in that the contact arrangement for each connector pin comprises a base-fixed contact element ( 58 ) and a movable contact element ( 60 ) which by the respective connector pin ( 76 ) against spring force to the base-fixed contact element ( 58 ) can be pressed. 8. Device according to one of claims 1 to 7, characterized in that a control device ( 70 ) for controlling the adjustment of the holding device ( 18 ) and / or the clamping device ( 54 , 52 ) is provided as a function of a release signal of the test circuit arrangement ( 68 ) .