(19)
(11)EP 0 356 504 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
03.11.1993 Bulletin 1993/44

(21)Application number: 89902846.8

(22)Date of filing:  24.01.1989
(51)International Patent Classification (IPC)5H01R 43/20
(86)International application number:
PCT/US8900/301
(87)International publication number:
WO 8907/850 (24.08.1989 Gazette  1989/20)

(54)

APPARATUS FOR INSERTING TERMINALS ON THE ENDS OF WIRES INTO CAVITIES IN AN ELECTRICAL CONNECTOR

APPARAT ZUM EINSTECKEN VON KABELENDSTÜCKEN IN DIE ÖFFNUNGEN EINES ELEKTRISCHEN STECKVERBINDERS

APPAREIL SERVANT A INSERER DES BORNES SE TROUVANT AUX EXTREMITES DE FILS DANS LES CAVITES D'UN CONNECTEUR ELECTRIQUE


(84)Designated Contracting States:
DE FR GB IT NL

(30)Priority: 10.02.1988 US 154745

(43)Date of publication of application:
07.03.1990 Bulletin 1990/10

(73)Proprietor: THE WHITAKER CORPORATION
Wilmington, Delaware 19808 (US)

(72)Inventor:
  • BOUTCHER, Andrew, Graham, Jr.
    Harrisburg, PA 17110 (US)

(74)Representative: Warren, Francis Charles et al
Baron & Warren 18 South End Kensington
London W8 5BU
London W8 5BU (GB)


(56)References cited: : 
GB-A- 2 003 759
US-A- 4 658 503
US-A- 3 964 147
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description


    [0001] This invention relates to inserting apparatus, of the type commonly referred to as "block loaders", for inserting terminals on the ends of wires into the cavities of an electrical connector housing. Apparatus of this type is frequently used in conjunction with automatic or semi-automatic harness making machines.

    [0002] The manufacturer of electrical harnesses and harness subassemblies usually requires that terminals on the ends of electrical wires be inserted into the cavities of an electrical connector housing. The electrical connector may have a relatively large number of cavities for the reception of terminals and the cavities are frequently arranged in parallel rows and on closely spaced centers. The design of inserting machines of the type under consideration presents several wire handling and wire feeding problems which must be overcome, particularly if the machine is to be capable of being used under a variety of circumstances with different types of wires and terminals. For example, wires are inherently limp and the electrical lead (the wire having the terminal on the end thereof) must therefore be gripped during insertion very close to the terminal or perhaps on the terminal itself. A further problem arises as a result of the close spacing of the cavities in the connector housing. It is difficult to design parts with adequate clearance to permit the insertion of terminals into cavities which have adjacent cavities that have already received terminals because of the presence of the wires extending from the previously inserted terminals. The guidance of the terminal when it is inserted into the cavity presents difficult design problems and may result in the provision of a machine which is useful only under limited circumstances. Document US-A- 3 964 147 discloses an improved machine for automatically assembling terminated wires at predetermined positions in a connector housing.

    [0003] In the machine disclosed therein a loading station is provided to receive terminated wires hand loaded by an operator. Upon loading of a terminated wire, a sensing means at the loading station operates a control means to operate a transfer assembly for movement of the terminated wire from the loading station to an insertion station. The transfer assembly includes a pair of spaced gripping devices. Arrival of a terminated wire at the insertion station begins operation of an insertion assembly including an insertion gripping device which grips the wire. The housing and the terminal move toward one another until the terminal is started into the cavity; at this time the transfer gripping device is released and insertion continues until the terminal is fully seated.

    [0004] The present invention is directed to the achievement of a terminal inserter which is capable of being used with a wide variety of harness making machines and under a wide variety of circumstances as regards the types of connectors into which the terminals are inserted and the manner in which the electrical leads are delivered to the inserter. The invention is further directed to the achievement of an inserter which is versatile with regard to the types of terminals and connector housings with which it is used.

    [0005] The invention consists in a terminal inserting means for inserting an electrical terminal on one end of an electrical conductor into a terminal receiving cavity extending inwardly from a terminal receiving face of an electrical connector housing, the conductor and the terminal constituting an electrical lead, in which the terminal inserting means comprises terminal aligning means for aligning the terminal with the cavity and a terminal inserter for moving the terminal into the cavity, the terminal inserter comprising a first set of jaws, the terminal aligning means comprising a second set of jaws, the first and second sets of jaws being normally open and being normally in aligned, side-by-side, juxtaposed positions, the second set of jaws being between the first set of jaws and the cavity into which the terminal is to be inserted, and the first and second sets of jaws being movable between their juxtaposed positions and extended positions in which the jaws are in aligned, spaced-apart relationship, the first and second sets of jaws are closable upon a lead located between the jaws of each set of jaws, the first set of jaws being in gripping engagement with the lead when in their closed positions, and the second set of jaws being in surrounding and non-gripping relationship with the terminal when in their closed positions, and actuating means is provided for closing the first and second sets of jaws, moving the second set of jaws to their extended position, and thereafter moving the first set of jaws relatively towards the second set of jaws and relatively towards the connector housing whereby, upon placing a lead between the jaws of each set of jaws and placing a connector housing adjacent to the lead with the cavity in approximate alignment with the lead, and upon closing the first and second sets of jaws and moving the second set of jaws to the extended position, the terminal is precisely aligned with the cavity, and upon thereafter moving the first set of jaws relatively towards the second set of jaws and relatively towards the connector housing, the terminal is inserted into the cavity, the second set of jaws serving as a terminal guide during insertion.

    [0006] In one embodiment, the actuating means moves the first set of jaws towards the second set of jaws and towards the connector housing during insertion of the terminal into the cavity. Alternatively, the actuating means may move the connector housing towards the first set of jaws during insertion of the terminal into the cavity.

    [0007] Electrical terminals are frequently provided with a retaining lance which engages a retaining shoulder in the connector housing cavity thereby to prevent movement of the terminal from the cavity after insertion. In accordance with a further embodiment, the actuating means has means of moving the connector housing and the first set of jaws relatively away from each other after insertion of the terminal thereby positively to engage the retaining lance with the shoulder and ensure complete insertion of the terminal into the cavity. A sensing means is provided for sensing complete insertion of the terminal into the cavity.

    [0008] The invention will now be discribed by way of example with reference to the accompanying drawings, in which:

    FIGURES 1-8 present a series of diagrammatic views which show some of the essential elements of the apparatus and illustrate the movements thereof during an operating cycle in which a terminal on the end of a wire is inserted into a cavity in a connector housing.

    FIGURE 9 is an indicator diagram of the path followed during an operating cycle.

    FIGURE 10 is a top plan view of the apparatus, this view showing the positions of the parts illustrated diagrammatically in Figure 4.

    FIGURE 11 is a top plan view showing the parts in the positions of Figure 5.

    FIGURE 12 is a side view looking in the direction of the arrows 12-12 of Figure 11.

    FIGURE 13 is an end view looking in the direction of the arrows 13-13 of Figure 10.

    FIGURE 14 is an end view looking in the direction of the arrows 14-14 of Figure 12.

    FIGURE 15 is an end view looking in the direction of the arrows 15-15 of Figure 11.

    FIGURE 16 is a sectional view looking in the direction of the arrows 16-16 of Figure 11.

    FIGURE 17 is a view looking in the direction of the arrows 17-17 of Figure 12 but showing the first set of jaws in their open position rather than their closed position.

    FIGURE 18 is a fragmentary exploded view showing the first set of jaws which grip the wire adjacent to the lead.

    FIGURE 19 is a fragmentary exploded view showing the second set of jaws.

    FIGURE 20 is an exploded perspective view showing the principal parts of the apparatus.

    FIGURES 21-25 are diagrammatic views which illustrate the operation of a pneumatic system which controls the movement of the jaws towards and away from each other.

    Figures 1-8 illustrate an operating cycle of the apparatus during which an electrical lead 2 having a terminal 4 on its end is inserted into a cavity 14 extending inwardly in the terminal receiving face 12 of an electrical connector housing 10. The terminal is crimped onto one end of a wire conductor 6 and has a retaining lance 8 extending therefrom intermediate its ends. The retaining lance engages a retaining shoulder 16 in the cavity thereby to retain the terminal after insertion.

    [0009] The apparatus comprises generally first and second sets of jaws 18, 20. The jaws 18 serve to grip the lead adjacent to the terminal while it is pushed into the cavity in the housing. The jaws 20 surround the end portion of the terminal, as will be described below, and guide the terminal into the housing during insertion. The jaws 18 comprise arms 22, 22' having wire gripping surfaces 24, 24' on their ends. The second set of jaws 20 comprises arms 26, 26' having end portions 28, 28' which surround the terminal and permit movement therethrough when these jaws are closed.

    [0010] At the beginning of an operating cycle, the electrical lead 2 will have been delivered to a lead-receiving zone and the two sets of jaws will be positioned as shown in Figure 1; that is slightly to the right of the lead 2 with the jaws in their open positions. Initially, both sets of jaws, which are juxtaposed at this stage of the operating cycle, move leftwardly to the position of Figure 2 so that they will surround or engage the lead when they are closed. The first set 18 of jaws is then closed onto the wire as shown in Figure 3. The second set of jaws is then moved in the direction of the arrow from the position of Figure 3 to the position of Figure 4 and these jaws are closed during such movement so that when the second set of jaws have arrived in the position of Figure 4, the leading end of the terminal 4 will be surrounded and confined by the ends 28, 28' of the jaws 20. Thereafter, both sets of arms are swung in a clockwise direction to the position of Figure 5 in which the terminal 4 is in substantial alignment with the cavity 14 in the connector 10. Both sets of jaws then move a short distance in unison leftwardly from the position of Figure 5 to the position of Figure 6 to bring the leading end of the terminal immediately adjacent to the entrance to the cavity 14. Thereafter, the first set of jaws 18 is moved relatively towards the second set of jaws thereby to insert the terminal into the cavity until the lance 8 has moved past a retaining shoulder 16 in the cavity. After insertion has been accomplished, the connector housing and the first set of jaws are moved relatively apart a short distance to bring the lance against the shoulder 16. This ensures that the terminal is fully inserted. When this movement of the lance against the shoulder is sensed by a sensing means, both sets of jaws are opened, thereby to release the electrical lead. The two sets of jaws then move downwardly as shown in Figure 7 and move rearwardly as shown in Figure 8. Thereafter, the jaws are swung through a counterclockwise arc of about 90 degrees to bring them to the starting position of Figure 1.

    [0011] In the foregoing description, it is stated that the first set of jaws 18 is moved relatively towards the second set of jaws 20 to bring about insertion of the terminal 4 into the cavity 14. This relative movement can be brought about either by moving the first set of jaws towards the second set of jaws and towards the housing or by moving the housing towards the first and second set of jaws; that is by moving the housing rightwardly from the position of Figure 6 and thereby moving the housing onto the terminal. During such movement of the housing, the second set of jaws 20 will be pushed by the housing back towards the first set of jaws 18 until both sets of jaws are again juxtaposed as shown in Figure 7. The rightward movement of the housing can be accomplished by a conventional robot which grips the housing and moves it from the position of Figure 6 to the position of figure 7. The specific embodiment of the invention described below does rely on the robot to effect this movement of the terminal into the housing. If desired however, the second set of jaws can be moved during the terminal insertion step and the housing can remain stationary.

    [0012] Any one of a number of commercially available robots can be used with the apparatus 30 shown in the drawing. Good results have been obtained using a Pana Robo made by Matsushita Electric, Model MG6620. This model is a four-axis scara-type robot. In practice, the robot would be placed to the left of the apparatus as viewed in Figures 10-12 and the arm 178 and grippers 180 are shown in Figure 12. The robot would be programmed to pick up the housing 10 from a bin or the like and transport it to the position shown in Figure 12. The robot would also be programmed to index the housing 10 after each insertion cycle and position an empty cavity in position for insertion of a terminal during the next operating cycle. After all of the cavities in a housing had been filled, the robot would carry the housing to a discharge station and deposit it in a suitable receptacle or transfer it to a further handling apparatus.

    [0013] Figure 9 is an indicator diagram which illustrates the movement of the sets of jaws during an operating cycle. The diagram does not indicate the movements of the jaws relatively away from and back towards each other as shown in Figures 3 and 4. The lines shown in Figure 9 can be taken to indicate the movement of the pivot point of the second set of jaws 20 although it does not show the movement of this point away from the first set of jaws. At the beginning of the operating cycle, this pivot point will be in position 9 and will move leftwardly along line 9-11 when the jaws are moved to the position of Figure 2. The arcuate movement of both sets of jaws from the position of Figure 4 to the position of Figure 5 is indicated by the arcuate line 11-13. The downward movement of both sets of jaws (Figures 6 and 7) is indicated by the line 13-15 and the return movement to the position of Figure 1 is indicated by the line 15-9.

    [0014] The disclosed embodiment of the apparatus 30, Figures 10-12, comprises a jaw assembly 51 which is mounted on a fixed base plate assembly 32 and is supported by a movable support plate 31 which is above the base plate and movable with respect thereto. The support plate 31 is movable in order to move both sets of jaws after they are in alignment with the cavity in the connector towards the connector, thereby to bring the leading end of the terminal adjacent to the cavity 14 as shown in Figures 5 and 6. Such movement of support plate 31 is brought about by a piston cylinder 34 which is mounted on the base plate 32 by a bracket 36 as shown in Figure 12. The piston rod 38 which extends from the cylinder is coupled by a coupling 40 to a control rod 42. This control rod extends through bearings 44 fixed to the base plate 32 and through bearing surfaces in ears 46 which are secured to the underside of the support plate 31. The control rod is pinned or otherwise secured to at least one of these ears 46 so that the support plate 31 will be moved.

    [0015] A pair of spaced-apart vertical support plates 48, 50 (Figures 12 and 14) extend upwardly from the upper surface of support plate 31 and the supporting and actuating assembly 52 (Figure 16) for the first and second sets of jaws 18, 20 is supported by vertical plates 48, 50. This assembly comprises a main mounting block 54 which is carried by a trunnion block 56 which is between the opposed surfaces of the vertical plates 48, 50. The trunnion block 56 has gudgeons 58 which are rotatably supported by suitable bearings in the vertical plates as shown in Figure 16. On its lower side in Figure 16, a piston cylinder 60 is secured to the trunnion block 56 and the piston rod 62 of this cylinder is secured as shown at 64, 66 and by a retaining key 67 to the mounting block 54. This piston cylinder 60 provides the motion of the mounting block 54 and the two sets of arms indicated in Figures 1 and 2, and in Figures 6 and 7, that is, the leftward movement shown in Figures 1 and 2 and the downward movement shown in Figures 6 and 7. It will be apparent that this motion is controlled by the piston rod 62. The block 54 is guided during movement by guide rods 59 (Figure 20) which extend through block 56.

    [0016] The pivoting motion of the jaws from the position of Figure 4 to the position of Figure 5 and from the position of Figure 8 to the position of Figure 1 is brought about by a piston cylinder 68 (Figures 13 and 14) which extends beside the vertical support plate 50 and downwardly past the horizontal support plate 31. The piston rod 70 which extends from cylinder 68 extends upwardly as viewed in Figure 14 and is pivotally connected at 82 to a coupling block 80 which is secured to block 54. At its lower end, the cylinder 68 has a mounting rod secured thereto which is pivotally supported at 74 between ears 76 which extend from the bracket 78. Movement of the piston which is within the cylinder 68 thus causes arcuate movement of the mounting block 54 between the positions of Figures 13 and 14, thus moving the two sets of jaws between their two positions. It is desirable to provide a stop 71 and a shock absorber or dash pot 73 for the trunnion block 56 as shown in Figure 14. The stop determines the vertical position of the trunnion block and the shock absorber prevents the trunnion block from being moved abruptly against the stop. The shock absorber and the stop are supported on plate 31 as shown in Figure 14 and are engaged by an ear 75 which extends from the trunnion block 56.

    [0017] Referring now to Figures 17, 18, and 20, the arms 22, 22' of the first set of jaws 18 have enlarged lower ends 100, 100' which are pivotally mounted on spaced-apart pivotal axes 102, 102' on a jaw mounting block 84. Extension blocks 96, 96' are secured to the outwardly facing ends of the enlarged portions 100, 100' of the arms by fasteners 98 and the lower ends of these extensions 96 are pivoted at 94, 94' to toggle links 92, 92'. The toggle links in turn are commonly connected on a pivotal axis 90 to a control rod 88 which can be moved upwardly from the position shown in Figure 17 by a piston cylinder 86. Such upward movement of the pivotal axis 90 will cause the ends of the arms 22, 22' to close onto each other and grip the wires. During closure, a relatively stiff spring 104, which is between the arms, is compressed. As will be explained below, the first set of jaws 18 are opened by this spring rather than by movement of the control rod 88.

    [0018] As can be seen in Figure 18, the ends of the arms 22, 22' are contoured to grip the wire tightly adjacent to the terminal and the arm 22 in addition has a gathering ear 106 which guides the wire into a receiving recess means in the opposed surfaces of the arms.

    [0019] In order to permit the pull test, which is described above, to be carried out, the block 84, on which the jaws 18 are carried, is pivotally mounted on a pivot pin 154 which extends through block 84 and through arms 156 which extend through spaced apart arms 156 on the block 54. The block 84 is resiliently biased to the position shown in Figure 12 but can be swung through a slight counterclockwise arc from the position shown in Figure 12. The pull test is carried out by moving the housing away from the jaws 18 so that when the lance on the terminal engages the shoulder in the cavity, the housing will pull the wire and the jaws leftwardly in Figure 12 and the jaws 18 and the block will be swung through a slight arc. The movement of the jaws is detected by a Hall effect sensor 158 (Figure 11) which is supported by a bracket 160 mounted on block 54. The sensor then sends a signal to cause the piston cylinder 86 to be exhausted and the jaws 18 are opened and the wire is released.

    [0020] The arms 26, 26' of the second set of jaws 20 (Figure 19) also have ends 28, 28' which are formed in a manner such that they will surround the wire, even if it is not perfectly positioned at the outset of the operating cycle, and center it between opposed notches in the ends of the arms. The arm 26' comprises a relatively thin section which is dimensioned to enter a slot in the relatively wider end portion of the arm 26 to facilitate the gathering of the terminal or location of the terminal.

    [0021] The lower ends 108,108' of the arms 26, 26' are enlarged and are recessed as shown at 110, 110' so that they can overlap each other. The dimensions are such that the arms can be pivoted towards and away from each other on a pivotal axis 112. A spring 111 is also provided to bias the arms apart.

    [0022] The opening and closing of the second set of jaws is accomplished by means of cam rollers 114, 114' and fixed cam blocks 124, 124'. The cam followers or cam rollers 114 are mounted on pins which are threaded as shown at 116 into threaded openings 118 in the outwardly facing edge surfaces 120 of the enlarged lower ends 108, 108'. The cam blocks 124, 124' have camming surfaces 122,122' which are contoured such that as the followers 114, 114' move over these surfaces, from right to left in Figure 10, the arms will arcuately be swung towards each other and the jaws thereby closed. The cam blocks 124, 124' are supported on the block 54 by supports 126 and are not movable with respect thereto. Therefore, the entire second set of jaws 20, which are also part of the supporting and actuating assembly 52, must move relatively over these camming surfaces rightwardly and leftwardly. This movement also brings about the movement of the second set of jaws away from and towards the first set of jaws as shown in Figure 3 and Figure 8.

    [0023] The relative movement of the second set of jaws is accomplished by the control rod 112 which is secured at its end to the jaws and which acts as a pivotal support for the jaws. This control rod extends through suitable bearings 130 (Figure 16) in block 54 and has a right-hand end 132 as viewed in Figure 21, which extends beyond the vertical support plate 50. The end portion 132 is clamped as shown at 134 to a bracket 136 which is secured to the cylinder 138 of a piston-cylinder assembly. This cylinder 138 and the piston 139 which is within the cylinder are both movable during the operating cycle. The piston rod 140 extends from the cylinder head into a cylindrical cavity 142 in the frame block 54 and has an enlarged stop 144 on its end. The cavity 142 has an end wall 146 which limits the movement of the piston rod 140. The operating cycle for the actuating system shown in Figures 21-25 is as follows.

    [0024] Figure 21 shows the positions of the parts at the beginning of the cycle. Both sets of jaws are open and the jaws 20 are in the retracted positions against the jaws 18. The jaws 20 are moved to their extended positions as shown in Figure 22 by pressurizing the cylinder 138 on the left-hand side 150 of the piston 139. Initially upon pressurizing the side 150 of the piston 139, the piston moves rightwardly until stop 144 is against endwall 146. Since the piston 139 cannot move further rightwardly, the cylinder 138 is forced to move leftwardly to the position of Figure 22. This movement of the cylinder 138 and the rod 112,132 is limited by a stop member 133 on the rod which engages a fixed stop 135 as shown in Figures 16 and 22. During such movement of the cylinder, the jaws 20 are closed into surrounding and guiding relationship with the terminal 4 by camming surfaces 122,122'. Also during this portion of the cycle, the jaws 18 are closed and grip the wire, closure of the jaws 18 being brought about by the piston cylinder 86 as previously explained and as shown in Figure 17. The entire assembly is then swung through a 90 degree arc as shown in Figures 4 and 5. The assembly is then moved leftwardly by piston-cylinders 34 (Figure 12) so that the leading end of the terminal 4 is located adjacent to the face of the housing 10 and is in alignment with the cavity in the housing as shown in Figure 23. Thereafter, the cylinder 138 is pressurized on the right hand side 152 of the piston 139 and the piston is moved leftwardly to the position of Figure 24 thereby moving the stop 144 away from the endwall 146. The robot then moves the housing 10 rightwardly so that the terminal is moved relatively into the cavity. The housing in turn pushes the jaws 20 rightwardly during this portion of the cycle and the jaws 20 are opened by virtue of the fact that they are moved rightwardly over the camming surfaces 122,122'. The rightward movement of the jaws 20 causes the rod 112 and the cylinder 138 to be moved rightwardly to the position of Figure 25. During this portion of the cycle, the jaws 18 are opened by exhausting the pressure from the cylinder 86 (Figure 17) so that the spring 104 can move the jaws apart. The jaws 18,20 are then moved downwardly after the parts have reached the positions of figure 25 as previously explained and as shown in Figure 8.

    [0025] The pull test which is conducted to ensure complete insertion of the terminal is conducted immediately prior to the time the parts reach the positions shown in Figure 25. This test is conducted as follows: after the housing has been moved by the robot rightwardly from the position of Figure 24 a distance sufficient to cause the terminal to be fully inserted, the robot causes the housing to be moved leftwardly for a very short distance. If the terminal is fully inserted, the lance 8 will engage the shoulder 16 in the cavity 14 and a slight tension will be imposed on the wire. At this stage, the wire will be gripped by the jaws 18 and the jaws will be pivoted through a slight arc with respect to the pivotal axis 154. This arcuate movement will be detected by the sensor 158 and the control system will cause the pressure to be exhausted from the cylinder 86 thereby allowing the spring 104 to open the jaws 18 and release their grip on the wire. Thereafter, both sets of jaws are lowered.

    [0026] A sensor 164 (Figure 10) is provided to determine when the jaw assembly 51 is in its forward position (Figure 10) rather than in its retracted position. This sensor is mounted on the plate 32 by means of a bracket as shown in Figure 10 and detects movement of a vane or arm 162 which extends from a plunger 165. The plunger is supported by bearings 166,169 and is biased rightwardly as viewed in Figure 10 by a spring 168 which bears against a collar on the plunger. When the jaw assembly is moved from its retracted position to its forward position, the enlarged head 161 of a screw, which is part of jaw assembly 51, engages the arm 162 and moves it with respect to the sensor. When the movement of the arm is detected, the sensor sends a signal to the control system to proceed with the subsequent steps of the insertion process.

    [0027] An inserting apparatus in accordance with the invention is extremely versatile in that it can be used with a wide variety of harness making or lead making machines and under other circumstances where harnesses are manufactured. The disclosed embodiment is shown as being mounted adjacent to the unloading end of a conveyer 170, Figure 14. Conveyers of the type shown comprise a pair of belts 172, 174 which are side-by-side and which have feeding courses that are against each other. As the belts are indexed, the electrical leads are delivered to a lead pickup station. The ends of the belts constitute the lead pickup station for the apparatus. The disclosed embodiment is also shown with portions of a robot arm 178, Figure 12, which has gripping arms 180 by means of which the connector housing is held. The robot or other device used for holding the connector can take any suitable form. A fully programmable versatile robot device is highly desirable in that the connector housing can be indexed by a small amount during each operating cycle so that each of the cavities in the housing can be located in alignment with a terminal presented to it by the insertion apparatus.

    [0028] The apparatus, the robot, and the conveyer are preferably controlled by a suitable microprocessor. Sensors, in addition to the sensors 158,164 described above, can be provided to ensure that none of the operations or movements in the operating cycle take place until the previous operations have been completed. For example, sensor can be provided to sense the movement of the mounting block 54, the arcuate movement of the entire jaw assembly 51, and the indexing of the conveyer 170. All of the sensors are connected to the control system so that the apparatus will be stopped in the event of a malfunction.


    Claims

    1. A terminal inserting means (30) for inserting an electrical terminal (4) on one end of an electrical conductor (6) into a terminal receiving cavity (14) extending inwardly from a terminal receiving face (12), of an electrical connector housing (10), the conductor and the terminal constituting an electrical lead (2), in which the terminal inserting means comprises terminal aligning means for aligning the terminal (4) with the cavity (14) and a terminal inserter for moving the terminal into the cavity (14),
       the terminal inserter comprising a first set of jaws (18), the terminal aligning means comprising a second set of jaws (20), the first and second sets of jaws being normally open and being normally in aligned, side-by-side, juxtaposed positions, the second set of jaws (20) being between the first set of jaws (18) and the cavity (14) into which the terminal (4) is to be inserted, and the first and second sets of jaws being movable between their juxtaposed positions and extended positions in which the jaws are in aligned, spaced-apart relationship,
       the first and second sets of jaws (18, 20) are closable upon a lead (2) located between the jaws of each set of jaws, the first set of jaws (18) being in gripping engagement with the lead when in their closed positions, and the second set of jaws (20) being in surrounding and non-gripping relationship with the terminal (4) when in their closed positions, and
       actuating means (86,88,114,132,138,178,180) is provided for closing the first and second sets of jaws, moving the second set of jaws (20) to their extended position, and thereafter moving the first set of jaws (18) relatively towards the second set of jaws (20) and relatively towards the connector housing (10) whereby,
    upon placing a lead (2) between the jaws of each set of jaws (18, 20) and placing a connector housing (10) adjacent to the lead (2) with the cavity (14) in approximate alignment with the lead (2), and upon closing the first and second sets of jaws (18, 20) and moving the second set of jaws (20) to the extended position, the terminal (4) is precisely aligned with the cavity (14), and upon thereafter moving the first set of jaws (18) relatively towards the second set of jaws (20) and relatively towards the connector housing (10), the terminal (4) is inserted into the cavity (14), the second set of jaws (20) serving as a terminal guide during insertion.
     
    2. A terminal inserting means (30) as set forth in claim 1, in which the actuating means moves the first set of jaws (18) towards the second set of jaws (20) and towards the connector housing (10) during insertion of the terminal (4) into the cavity (14).
     
    3. A terminal inserting means (30) as set forth in claim 1, in which the actuating means moves the connector housing (10) towards the first set of jaws (18) during insertion of the terminal (4) into the cavity (14).
     
    4. A terminal inserting means (30) as set forth in claim 1, 2 or 3, in which a connector housing holding means (178, 180) is provided for holding a connector housing (10) adjacent to the inserting means (30).
     
    5. A terminal inserting means (30) as set forth in claim 4, which is intended to insert terminals (4) into a connector housing (10) having a plurality of terminal receiving cavities extending into its terminal receiving face (12), and in which the connector housing holding means (178, 180) has means for indexing the connector housing (10) parallel to the plane of the terminal receiving face (12) thereby to position each of the cavities (14) in approximate alignment with a load (2) located between the jaws of both sets of jaws (18, 20).
     
    6. A terminal inserting means (30) as set forth in claim 5, in which the connector housing holding means (178, 180) comprises a robot arm, the actuating means having means for indexing the robot arm thereby to index the connector housing (10).
     
    7. A terminal inserting means (30) as set forth in any one of the proceeding claims, in which a lead delivery means (170) is provided for delivering a succession of leads to a lead receiving zone, a lead positioned in the lead receiving zone being between the jaws of both sets of jaws (18, 20) when the jaws are in their normal positions.
     
    8. A terminal inserting means (30) as set forth in any one of the preceding claims, which is intended to insert terminals of the type having a retaining lance (8) which is engageable with a retaining shoulder (16) in the cavity (14) thereby to prevent movement of the terminal (4) from the cavity after insertion, and in which the actuating means has means for moving the connector housing (10) and the first set of jaws (18) relatively away from each other after insertion of the terminal (4) thereby to engage the retaining lance (8) with the shoulder (16) and ensure complete insertion of the terminal (4) into the cavity (14), and sensing means (164) are provided for sensing complete insertion of the terminal into the cavity.
     
    9. A terminal insertion means (30) as set forth in claim 4, 5 or 6, in which a lead receiving zone is provided which is angularly offset from the connector housing holding means (178, 180), and means (170) is provided for delivering an electrical lead (2) to the lead receiving zone, the first and second sets of jaws (18, 20) being between the lead receiving zone and the connector housing holding means (178, 180), and the actuating means comprises jaw positioning means for moving the first and second sets of jaws (18, 20) between a loading position and a terminal inserting position, the first and second sets of jaws being positioned to receive a lead in the lead receiving zone when in the lead receiving position and being positioned to insert the terminal (4) on the lead (2) into the cavity (14) in the connector housing (10) when in the terminal inserting position.
     
    10. A terminal inserting means as set forth in claim 9, in which the jaw positioning means comprises means for pivotally moving the first and second sets of jaws (18, 20) between the lead receiving position and the terminal inserting position.
     


    Ansprüche

    1. Anschlußeinsetzvorrichtung (30) zum Einsetzen eines elektrischen Anschlusses (4), welcher an einem Ende eines elektrischen Leiters (6) angeordnet ist, in einen Anschlußaufnahmehohlraum (14), der sich von einer Anschlußaufnahmefläche (12) eines elektrischen Verbindergehäuses (10) nach innen erstreckt, wobei der Leiter und der Anschluß eine elektrische Leitung (2) bilden.

    - wobei die Anschlußeinsetzvorrichtung Ausrichtungsmittel zum Ausrichten des Anschlusses (4) mit dem Hohlraum (14) und einen Anschlußeinführer zum Bewegen des Anschlusses in den Hohlraum (14) aufweist;

    - wobei der Anschlußeinführer einen ersten Klemmensatz (18) und die Anschlußausrichtemittel einen zweiten Klemmensatz (20) umfassen;

    - die ersten und zweiten Klemmensätze sind normalerweise geöffnet und befinden sich normalerweise in ausgerichteten Positionen Seite an Seite nebeneinander, wobei der zweite Klemmensatz (20) zwischen dem ersten Klemmensatz (18) und dem Hohlraum (14), in den der Anschluß eingeführt werden soll, angeordnet ist, und wobei der erste und der zweite Klemmensatz zwischen ihren nebeneinanderliegenden Positionen und ihren auseinanderliegenden Positionen, in denen die Klemmen in einem Abstand zueinander ausgerichtet sind, beweglich angeordnet sind;

    - die ersten und zweiten Klemmensätze (18, 20) sind um eine Leitung (2), die sich zwischen den Klemmen jedes Klemmensatzes befindet, schließbar, wobei der erste Klemmensatz (18), wenn er geschlossen ist, sich mit der Leitung in Eingriffsverbindung befindet und der zweite Klemmensatz (20) sich in den Anschluß umgebendem und nicht greifendem Zustand befindet, wenn er geschlossen ist; und

    - ein Betätigungsmittel (36, 88, 114, 132, 138, 178, 180) ist zum Schließen des ersten und zweiten Klemmensatzes vorgesehen, zum Bewegen des zweiten Klemmensatzes (20) in die entfernte Stellung und danach zum Bewegen des ersten Klemmensatzes (18) relativ zum zweiten Klemmensatz (20) hin und relativ zum Verbindergehäuse (10 hin, wodurch

    - wenn eine Leitung (2) zwischen die Klemmen jedes Klemmensatzes (18, 20) gebracht wird und ein Verbindergehäuse (10) neben die Leitung (2) gebracht wird, wobei der Hohlraum (14) mit der Leitung (2) etwa in Flucht gebracht wird und wenn der erste und der zweite Klemmensatz (18, 20) geschlossen wird, und der zweite Klemmensatz (20) in die entfernte Stellung gebracht wird, der Anschluß (4) exakt mit dem Hohlraum (14) gefluchtet wird, und danach wird durch das Bewegen des ersten Klemmensatzes (18) relativ zum zweiten Klemmensatz (20) hin und relativ zum Verbindergehäuse (10) hin der Anschluß (4) in den Hohlraum (14) eingesetzt, wobei der zweite Klemmensatz (20) während des Einsetzens als Anschlußführer dient.


     
    2. Anschlußeinsetzvorrichtung (30) nach Anspruch 1, wobei das Betätigungsmittel während des Einsetzens des Anschlusses (4) in den Hohlraum (14) den ersten Klemmensatz (18) zum zweiten Klemmensatz (20) und zum Verbindergehäuse (10) hin bewegt.
     
    3. Anschlußeinsetzvorrichtung (30) nach Anspruch 1, wobei während des Einsetzens des Anschlusses (4) in den Hohlraum (14) das Betätigungsmittel das Verbindergehäuse (10) in Richtung auf den ersten Klemmensatz (18) zu bewegt.
     
    4. Anschlußeinsetzvorrichtung (30) nach Anspruch 1, 2 oder 3 mit einer Verbindergehäuse-Haltevorrichtung (178, 180) zum Halten des Verbindergehäuses (10) benachbart zur Einsetzvorrichtung (30).
     
    5. Anschlußeinsetzvorrichtung (30) nach Anspruch 4, zum Einsetzen von Anschlüssen (4) in ein Verbindergehäuse (10), das eine Mehrzahl von Anschlußaufnahmehohlräumen aufweist, welche sich in ihre Anschlußaufnahmefläche (12) erstrecken, und wobei die Verbindergehäuse-Haltevorrichtung (178, 180) Mittel zum Parallelschalten des Verbindergehäuses (10) zu der Ebene der Anschlußaufnahmefläche (12) aufweist, um damit jeden der Hohlräume (14) etwa in Ausrichtung mit einer Leitung (2), welche zwischen den Klemmen beider Klemmensätze (18, 20) plaziert ist, zu bringen.
     
    6. Anschlußeinsetzvorrichtung (30) nach Anspruch 5, bei der die Verbindergehäuse-Haltemittel (178, 180) einen Roboterarm aufweisen, wobei die Betätigungsmittel Mittel zum Steuern des Roboterarms aufweisen, um das Verbindergehäuse (10) zu positionieren.
     
    7. Anschlußeinsezvorrichtung (30) nach einem der vorhergehenden Ansprüche, welche Mittel (170) zur Lieferung von Leitung aufweist, um eine Aufeinanderfolge von Leitungen zu einer Leitungsaufnahmezone zu liefern, wobei eine Leitung in der Leitungsaufnahmezone zwischen den Klemmen beider Klemmensätze (18, 20) positioniert ist, wenn sieh die Klemmen in ihrer normalen Position befinden.
     
    8. Anschlußeinsetzvorrichtung (30) nach einem der vorhergehenden Ansprüche, zum Einsetzen von Anschlüssen, die eine Rückhaltezunge (8) aufweisen, welche mit einer Rückhalteschulter (16) in den, Hohlraum (14) in Verbindung gebracht werden kann, wodurch die Bewegung des Anschlusses (4) aus dem Hohlraum nach dem Einsetzen verhindert wird, und bei der das Betätigungsmittel Mittel zur Bewegung des Verbindergehäuses (10) und des ersten Klemmensatzes (18) relativ voneinander nachdem der Anschluß eingesetzt worden ist aufweist, um hierdurch die Rückhaltezunge (8) mit der Schulter (16) zu verbinden und das vollständige Einsetzen des Anschlusses (4) in den Hohlraum (14) zu sichern, und die Fühlermittel (164) zum Feststellen des vollständigen Einsetzens des Anschlusses in den Hohlraum aufweist.
     
    9. Anschlußeinsetzvorrichtung (30) nach den Ansprüchen 5 oder 6, wobei eine Leiteraufnahmezone vorgesehen ist, welche winkelig von dem Verbindergehäuse-Haltermittel (178, 180) versetzt angeordnet und wobei ein Mittel (170) zum Liefern einer elektrischen Leitung (2) in die Leiteraufnahmezone vorgesehen ist, wobei der erste und der zweite Klemmensatz (18, 20) zwischen der Leiteraufnahmezone und dem Verbindergehäuse-Haltemittel (178, 180) angeordnet sind und die Betätigungsmittel Klemmenpositioniermittel zuin Bewegen des ersten und zweiten Klemmensatzes (18, 20) zwischen einer Ledeposition und einer Anschlußeinsetzposition aufweisen, wobei der erste und der zweite Klemmensatz zur Aufnahme eines Leiters in der Leiteraufnahmezone angeordnet sind, wenn sie sich in der Leiteraufnahmeposition befinden und dann positioniert werden, um den Anschluß (4) auf dem Leiter (2) in den Hohlraum (14) im Verbindergehaus (10) einzusetzen, wenn sich dieses in der Anschlußeinsetzposition befindet.
     
    10. Anschlußeinsetzvorrichtung (30) nach Anspruch 9, bei der die Klemmenpositioniermittel Mittel zur verschwenkbaren Bewegung des ersten und zweiten Klemmensatzes (18, 20) zwischen der Leiteraufnahmeposition und der Anschlußeinsetzposition aufweisen.
     


    Revendications

    1. Moyens (30) d'insertion de bornes destiné à insérer une borne électrique (4) sur une extrémité d'un conducteur électrique (6) dans une cavité (14) de réception de borne s'étendant vers l'intérieur d'une face (12) de réception de bornes d'un boîtier (10) de connecteur électrique, le conducteur et la borne constituant une ligne électrique (2),
       dans lesquels les moyens d'insertion de bornes comprennent des moyens d'alignement de borne destinés à aligner la borne (4) avec la cavité (14) et un dispositif d'insertion de borne destiné à introduire la borne dans la cavité (14),
       le dispositif d'insertion de borne comportant un premier jeu de mâchoires (18), les moyens d'alignement de borne comportant un second jeu de mâchoires (20), les premier et second jeux de mâchoires étant normalement ouverts et étant normalement dans des positions alignées, côte à côte, juxtaposées, le second jeu de mâchoires (20) étant entre le premier jeu de mâchoires (18) et la cavité (14) dans laquelle la borne (4) doit être insérée, et les premier et second jeux de mâchoires étant mobiles entre leurs positions juxtaposées et des positions en extension dans lesquelles les mâchoires sont dans une disposition alignée, espacée,
       les premier et second jeux de mâchoires (18,20) peuvent être fermés sur une ligne (2) placée entre les mâchoires de chaque jeu de mâchoires, le premier jeu de mâchoires (18) étant en engagement de préhension avec la ligne lorsqu'elles sont dans leurs positions fermées, et le second jeu de mâchoires (20) étant dans une disposition entourant et ne saisissant pas la borne (4) lorsqu'elles sont dans leurs positions fermées, et
       des moyens d'actionnement (86, 88, 114, 132, 138, 178, 180) sont prévus pour fermer les premier et second jeux de mâchoires, amener le second jeu de mâchoire (20) dans leur position en extension, et rapprocher ensuite le premier jeu de mâchoires (18) du second jeu de mâchoires (20) et du boîtier (10) de connecteur, grâce à quoi
       on plaçant une ligne (2) entre les mâchoires de chaque jeu de mâchoires (18, 20) et en plaçant un boîtier (10) de connecteur à proximité immédiate de la ligne (2) de façon que la cavité (14) soit en alignement approximatif avec la ligne (2), et en fermant les premier et second jeux de mâchoires (18, 20) et en amenant le second jeu de mâchoires (20) dans la position en extension, la borne (4) soit alignée avec précision avec la cavité (14) et, ensuite, on rapprochant le premier jeu de mâchoires (18) du second jeu de mâchoires (20) et du boîtier (10) de connecteur, la borne (4) soit insérée dans la cavité (14), le second jeu de mâchoires (20) servant de guide pour la borne pendant l'insertion.
     
    2. Moyens (30) d'insertion de bornes selon la revendication 1, dans lesquels les moyens d'actionnement déplacent le premier jeu de mâchoires (18) vers le second jeu de mâchoires (20) et vers le boîtier (10) de connecteur durant l'insertion de la borne (4) dans la cavité (14).
     
    3. Moyens (30) d'insertion de bornes selon la revendication 1, dans lesquels les moyens d'actionnement déplacent le boîtier (10) de connecteur vers le premier jeu de mâchoires (18) pendant l'insertion de la borne (4) dans la cavité (14).
     
    4. Moyens (30) d'insertion de bornes selon la revendication 1, 2 ou 3, dans lesquels des moyens (178, 180) de maintien d'un boitier de connecteur sont prévus pour maintenir un boîtier (10) de connecteur à proximité immédiate des moyens d'insertion (30).
     
    5. Moyens (30) d'insertion de bornes selon la revendication (4), qui sont prévus pour insérer des bornes (4) dans un boîtier (10) de connecteur présentant plusieurs cavités de réception de bornes s'enfonçant dans sa face (12) de réception de bornes, et dans lesquels les moyens (178, 180) de maintion d'un boîtier de connecteur comprennent des moyens pour indexer le boîtier (10) de connecteur parallèlement au plan de la face (12) de réception de bornes afin de positionner chacune des cavités (14) approximativement en alignement avec une ligne (2) placée entre les mâchoires des deux jeux de bornes (18, 20).
     
    6. Moyens (30) d'insertion de bornes selon la revendication 5, dans lesquels les moyens (178, 180) de maintien d'un boîtier de connecteur comprennent un bras de robot, les moyens d'actionnement comportant des moyens pour indexer le bras de robot afin d'indexer ainsi le boîtier (10) de connecteur.
     
    7. Moyens (30) d'insertion de bornes selon l'une quelconque des revendications précédentes, dans lesquels des moyens (170) d'amenée de lignes sont prévus pour amener une suite de lignes à une zone de réception de lignes, une ligne placée dans la zone de réception de lignes se trouvant entre les mâchoires des deux jeux de mâchoires (18, 20) lorsque les mâchoires sont dans leurs positions normales.
     
    8. Moyens (30) d'insertion de bornes selon l'une quelconque de revendications précédentes, qui sont destinés à insérer des bornes du type ayant une pointe (8) de retenue pouvant être engagée avec un épaulement (16) de retenue dans la cavité (14) afin d'empêcher la borne (4) de sortir de la cavité après l'insertion, et dans lesquels les moyens d'actionnement comprennent des moyens pour éloigner l'un de l'autre le boîtier (10) de connecteur et le premier jeu de mâchoires (18) après l'insertion de la borne (4), afin d'engager la pointe (8) de retenue avec l'épaulement (16) et d'assurer une insertion complète de la borne (4) dans la cavité (14), et des moyens (164) de détection sont prévus pour détecter une insertion complète de la borne dans la cavité.
     
    9. Moyens (30) d'insertion de bornes selon la revendication 4, 5 ou 6, dans lesquels une zone de réception de ligne est prévue, laquelle est décalée angulairement des moyens (178, 180) de maintien d'un boîtier de connecteur, et des moyens (170) sont prévus pour amener une ligne électrique (2) à la zone de réception de ligne, les premier et second jeux de mâchoires (18, 20) étant entre la zone de réception de ligne et les moyens (178, 180) de maintien d'un boîtier de connecteur, et les moyens d'actionnement comprennent des moyens de positionnement de mâchoires destinés à déplacer les promier et second jeux de mâchoires (18, 20) entre une position de déchargement et une position d'insertion de borne, les premier et second jeux de mâchoires étant positionnés de façon à recevoir une ligne dans la zone de réception de ligne lorsqu'ils sont dans la position de réception de ligne et étant positionnés pour insérer la borne (4) sur la ligne (2) dans la cavité (14) du boîtier (10) de connecteur lorsqu'ils sont dans la position d'insertion de borne.
     
    10. Moyens d'insertion de bornes selon la revendication 9, dans lesquels les moyens de positionnement des mâchoires comprennent des moyens destinés à faire pivoter les premier et second jeux de mâchoires (18, 20) entre la position de réception de ligne, et la position d'insertion de borne.
     




    Drawing