US3628228A

US3628228A - Apparatus for crimping electrical connectors to wires

Info

Publication number: US3628228A
Application number: US17411A
Authority: US
Inventors: Lodevicus Lambertus Jo Kerkhof
Original assignee: AMP Inc
Current assignee: TE Connectivity Corp
Priority date: 1969-03-28
Filing date: 1970-03-09
Publication date: 1971-12-21
Anticipated expiration: 1988-12-21
Also published as: ES377135A1; FR2040133A5; NL6904810A; DE2014494B2; GB1243312A; SE358515B; DE2014494A1; DE2014494C3; NL145405B; JPS4919909B1

Abstract

A method of and apparatus for crimping a ferrule part of an electrical connector to a wire end is disclosed for use with connectors wherein a portion of the contact part of the connector extends beyond the base of the U-section ferrule part in the opposite direction to that in which the U-arms of the ferrule part extend.

Description

H11 Mem@ [56] References Cited UNITED STATES PATENTS Inventor Lodevicus Lambertus Johannes van de Kerkhof s-Hertogenbosch, Netherlands Mme@ Seme@ @mee APPARATUS FOII CRIMPING ELEC'IIIICAI. CONNECTURS TG WIIIES This invention relates to a method of and apparatus for crimping U-section ferrule parts of electrical connectors to ends of wires. A series of electrical connectors, each having a contact part and a U-section ferrule part may be connected together by a carrier strip formed integrally with the connectors. The connectors are spaced along the carrier strip and project transversely of the strip in side-by-side form. Such a strip of connectors is most conveniently produced by a progressive die-forrning operation from a single length of sheet metal stoclr.

It is lrnown to crimp the ferrule part of such an electrical connector to an end of a wire by feeding a connector of the strip onto a crimping anvil, placing the wire end within the ferrule part, moving a die towards the anvil to crimp the ferrule part to the wire end and severing the crimped connector from the strip. Apparatus for performing this method includes a crimping die and a crimping anvil, a mechanism for feeding the strip of connectors towards the anvil to dispose the leading connector of the strip in position on the anvil, a mechanism to drive the die towards the anvil to crimp the connector to the wire end and a mechanism for severing the crimped connector from the strip.

When however, a portion at least of the contact part of the connector extends beyond the base of the U-section ferrule part in the opposite direction to that in which the U-arms of the ferrule part extend, then connectors in side-by-side form cannot be advanced onto the anvil.

According to one aspect of the present invention, an ap paratus for crimping a ferrule part of an electrical connector to a wire end, comprises means for intermittently feeding a strip of connectors along a predetermined path to position successive leading connectors at a crimping zone, a die and an anvil each having cooperable crimping surfaces for crimping the ferrule part of the connector to a wire end at the crimping zone, and each being movable between the crimping zone, and a retracted position remote from the crimping zone, the direction of movement of the anvil being at substantially 90 to the feed path of the connectors, means for maintaining the die and the anvil in their respective retracted positions while the connectors are being fed, means for advancing the anvil from its retracted position to the crimping zone to position its crimping surface adjacent the base of the ferrule part, after the connector has reached the crimping zone, to support the base during the crimping operation, means for advancing the die from its retracted position to the crimping zone after the anvil has been advanced, to cause the crimping surfaces of the die and the anvil to cooperate to crimp the ferrule part to a wire end when operatively inserted in the ferrule part and means for severing the connector from the strip after the ferrule part has been crimped to the wire end.

Such apparatus can be used to crimp a ferrule part of an electrical connector to a wire end, the connector having a contact part at least a portion of which extends beyond a base ofthe ferrule part in the opposite direction to that in which the ferrule part extends, the connector forming part of a strip of connectors arranged in side-by-side strip form.

According to a further aspect of the invention, a method of crimping a ferrule part of an electrical connector to a wire end, the connector having a contact part at least a portion of which extends beyond the base of the ferrule part in the opposite direction to that in which the ferrule part extends, the connector forming part of a strip of connectors arranged in side-by-side strip form, the method comprising the steps of intermittently feeding the strip of connectors along a predetermined path to position successive leading connectors at a crimping zone, advancing an anvil having a crimping surface, after a connector has reached the crimping zone, from a retracted position to a position in the crimping zone so that the crimping surface of the anvil lies adjacent the base of the ferrule part to support the ferrule part during crimping, the direction of movement of the anvil being at substantially 90 to the feed path of the connectors, advancing a die having a crimping surface cooperable with the crimping surface of the anvil, after the anvil has reached the crimping zone, from a retracted position to a position in the crimping zone so that the crimping surfaces of the die andl the anvil cooperate to crimp the ferrule part to a wire end operatively inserted in the ferrule part, and severing the crimped connector from the strip after the ferrule part has been crimped to the wire end.

An embodiment of the invention will now be described by way of example with reference to the accompanying drawings, in which:

FIG. I is an end view of an electrical connector crimped to a wire;

FIG. 2 is a side view of the connector of FIG. I;

FIG. 3 is a plan view showing the connector in its uncrimped condition and formed integrally with a carrier strip only part of which is shown;

FIG. 4 is an end view of the connector and carrier strip of FIG. 3;

FIG. 5 is a front elevation of apparatus for crimping electrical connectors shown in FIGS. 3 and 4 to wire;

FIG. 6 is a plan view of the apparatus of FIG. 5 with some parts removed;

FIG. 7 is an end view of the apparatus of FIG. 5;

FIG. 8 is a section on the line VIlI-Vlll of FIG. 5; and

FIG. 9 is a section on the line IXL-IX of FIG. 5.

Referring to FIGS. 3 and 4, an electrical connector I comprises a substantially U-section ferrule part 2 and a contact part 3. The ferrule part 2 includes two

pairs

4, 5 of arms upstanding from a base 8 for crimping to an electrically conductive core 6 and the insulation 7 respectively of a wire as seen in FIGS. I and 2. Two spring legs 9 forming the contact part 3 of the connector I depend from base of the Usection ferrule part 2. As shown in FIG. 2, each leg 9 has an aperture II adjacent and extending into base 8 and a keyhole aperture I2 ex tending to the free end of the leg 9 to form a pair of contacts.

Each connector I is formed integrally with a carrier strip I4. The connectors l extend transversely of the carrier strip I4 and are connected to the strip I4 by an extension of base 8.

The carrier strip I4 with the side-by-side connectors I can be reeled on a drum for ease of transportation and for feeding to an apparatus for crimping lconnectors to conductor wire ends. If the connectors are arranged in in-line strip form, it has been found that due to the configuration of the connectors they are susceptible to damage when being reeled. The legs 9 tend to be pressed flat and the strip I4 tends to twist.

Apparatus 2t) for crimping a connector l as described above to a wire 6 will now be described, with reference to FIG. 5 to 9. The apparatus 20 comprises a base plate 24 adapted by means of bolts 2I to be rigidly attached to the bed (not shown) of a press tool. A base block 25 is secured to the base plate 24 and supports a lower strip guide plate 26. An upper strip guide plate 28 is mounted above the guide plate 26 and spaced from the guide plate 26, the space 23 between the guide plates 26, 28 receiving the carrier strip I4, as shown diagrammatically in FIG. 5.

A slot 22 is arranged in the guide plate 23 through which extends an arm of a strip clamp 30. Strip clamp 39 maintains a downward clamping pressure on the strip I4 by means of a spring 83. A lifter pin 33 is provided immediately below the clamp 30, the lifter pin 33 being operable by means of lever 32 to lift the clamp 30 to release thepressure on the strip I4. The lever 32 is maintained in position in a 'bore 34 in guide plate 26 by a pin 222 engaging the inside surface of bracket 36.

A further slot 29 is provided in guide plate 28 through which extends the tip 49 of a feed finger 43 for engaging the strip 14. The feed finger 48 is attached to a feed finger holder 47 by means of screw 46 and is biased counterclocltwise as seen in FIG. 5. The holder 47 is reciprocated by any conventional means but preferably by a pneumatic piston and cylinder arrangement indicated generally at 95.

A wire stop 44 is attached to the: left-hand side of guide plate 26, as seen in FIG. 5.

A die block 51 is provided for attachment to a ram 50 of the press. The die block 5l has secured thereto (FIG. 7) a wire crimping die 52, a spacer 53, an insulation crimping die 54 which is adjustably held by screws 282 and a spring loaded connector holding down tool 55. A spring 56 for biasing the tool 55 is arranged in a bore in the block Sl. Tool 55 has a recess 57 at its working tip to provide clearance for the wire to be crimped when the tool 55 holds down the connector l in position on an anvil 63 during crimping. Immediately behind the die block 51 a carrier block 58 is provided which supports depressor screws 87 for actuating

shear blades

62, 90. The die block 5l and carrier block 58 are attached to the ram by screws 186. The ram 50 is coupled to an electrical driving motor (not shown) through a one-shot clutch (not shown) which is operated by actuation of a microswitch 82 as described below, to drive the-ram 50 through a working and return stroke.

Immediately below the die block 5l there is an anvil slide assembly which includes a slide support member 60 rigidly attached to base plate 24 by screws 172. On the upper surface of support member 60, a channel is provided in which an anvil slide 6l 4is slidably arranged. An anvil holder 64 supporting the anvil 63 is mounted on the upper surface of anvil slide 6l for movement therewith. The anvil 63 has a cross-sectional shape corresponding substantially to the space between the legs 9 of the connector 1. A shear blade 62 is slidably retained within a guide channel 65 in the anvil holder 64 and a spring 66 biases the shear blade 62 upwardly as seen in FIG. 8. A vertical slide stop 68 is attached to the rear surface of anvil holder 64. The lower end of slide stop 68 has a recess 80 which is in horizon tal alignment with a bore 81 in support member 60. Bore 81 contains a spring 67 which urges slide stop 68 rearwardly against a piston 70 of a pneumatic piston and cylinder assembly 100. In the advanced position of anvil slide 61, that is, when the piston 70 extends from the cylinder 69 under air pressure, as shown in FIG. 8, slide stop 68 abuts the rearward surface of support member 60 to prevent further forward movement of the anvil slide 6l. In this position slide stop 68 triggers the microswitch 82. The microswitch 82 is only triggered when the anvil 63 is in the correct crimping position.

Mounted on the support member 60 and extending partially across the channel containing anvil slide 61, there are provided leftand right-

hand retaining plates

78, 79 for maintaining the anvil slide 61 within the channel. Retaining plate 78 has mounted on its upper surface a block 71. It also has a bore arranged in its rear surface, the bore forming the cylinder 77 of a pneumatic piston and cylinder arrangement 200. A second bore 76 in its front surface contains a spring 72 which engages an arm 75 depending from a strip clamp 74 slidably mounted within a guideway in block 71 to bias the strip clamp 74 to the right as seen in FIG. 9. A retaining plate 99 is provided for maintaining strip clamp 74 in its guideway, the retaining plate 99 having a recess 86 for receiving the carrier strip 14. Piston 73 of the piston and cylinder arrangement 200 is bolted to a flange 83 depending from the rear edge of strip clamp 74. Piston 73 has a central bore 84 to allow air into the front working end of cylinder 77. When air enters the working end of the cylinder 77, piston 73 bolted to flange 83 moves the strip clamp 74 rearwardly so that a surface 85 of ann 75 engages the edge of the carrier strip 14.

IA carrier strip shear blade 90 is mounted on retaining plate 78 adjacent block 71 and cooperates with a shear plate 96 to shear the carrier strip 14. Shear blade 90 is urged upwardly, as seen in FIG. S, by a spring 91.

Shear blades

62 and 90 are both actuated by depressor screws 87 mounted on carrier block 58.

Shear blade 62 has a shearing edge which cooperates with a shear surface of the anvil 63 to shear the connector 1 from the carrier strip 14 while leaving the carrier strip 14 intact to be gripped by the strip clamp 74 downstream of the anvil 63.

To prepare the apparatus for operation, the end of a strip of electrical connectors 1, is led from a storage spool (not shown) into the space 23 between guide plates 26, 28. The carrier strip l4 extends beneath the clamp plate 30 and the leading end of the carrier strip is located in slot 86 formed in retaining plate 99. To enable the strip to be inserted into space 23, the feed finger 48 is lifted clockwise as seen in FIG. 5 against the action of the biasing means and the strip clamp 30 is lifted by means of lever 32.

In operation, with the ram in its raised position and a connector l in position in front of the anvil 63, the end of an insulated conductor wire, the terminal portion of the electrically conductive core of which has been stripped of insulation, is located in the

arms

4, 5 of the connector l by positioning it against a surface of the stop plate 44, so that the stripped portion of the core lies between the arms 4 and the terminal part of the insulation of the wire lies between the arms 5. A foot pedal (not shown) is then depressed which initiates the operation of the piston and

cylinder arrangements

100 and 200. Air enters cylinder 77 via bore 84 and piston 73 bolted to flange 83 moves surface 85 of the arm 75 of the strip clamp 74 against the edge of the carrier strip 14 downstream of the crimping station. At the same time, air enters cylinder 69 to actuate piston 70. Piston 70 engages the rear surface of slide stop 68 and pushes slide stop 68 together with anvil slide 61 forward against the action of spring 67 until slide stop 68 abuts the rear face of support member 60 (see FIG. 8).

Movement of anvil slide 61 forwardly, positions the anvil 63 between the legs 9 and under the ferrule part 2 of the connector l. When the slide stop 68 reaches its abutting position against the support member 60, it triggers the microswitch 82 which actuates the oneshot clutch to move the ram 50 through a working stroke and a return stroke. Ram 50 descends on its working stroke and towards the end of the working stroke, dies 52, 54 cooperate with anvil 63 to crimp the pairs of

arms

4, 5 to the electrically conductive core and insulation of the wire respectively. The depressor screws 87 during the crimping operations, depress

shear blades

62, 90 downwardly against the action of

springs

66, 91. Shear blade 62 shears the crimped connector 1 from the carrier strip 14 whereby the conductor wire and the connector 1 crimped thereto can be removed from the apparatus 20. Shear blade 90 cuts the carrier strip 14 upstream of the strip clamp 74 to reduce the carrier strip into easily handled scrap pieces.

While the ram 50 descends, the feed finger 48 is retracted to the right (FIG. 5).

During the earlier part of the return stroke of the ram 50, the strip clamp 74 is moved forwardly by means of spring 72 to release the carrier strip 14, anvil slide 6l is moved rearwardly by spring 67 to retract the anvil 63, and depressor screws 87 release the

shear blades

62, 90. During the later part of' the return stroke, feed finger 48 engages the strip 14 and feeds it to the left (FIG. 5) to position the lead connector l in front of' the anvil 63. The apparatus is then ready for the next cycle of operation.

The invention is claimed in accordance with the following:

1. An apparatus for crimping a ferrule part of an electrical connector to a wire end, the apparatus comprising means for intermittently feeding a strip of connectors along a predetermined path to position successive leading connectors at a crimping zone, a die and an anvil each having cooperable crimping surfaces for crimping the ferrule part of the connector to a wire end at the crimping zone, and each being movable between the crimping zone and a retracted position remote from the crimping zone, the direction of movement of the anvil being at substantially 90 to the feed path of the connectors, means for maintaining the die and the anvil in their respective retracted positions while the connectors are being fed, means for advancing the anvil from its retracted position to the crimping zone to position its crimping surface adjacent the base of the ferrule part, after the connector has reached the crimping zone, to support the base during the crimping operation, means for advancing the die from its retracted position to the crimping zone after the anvil has been advanced, to cause the crimping surfaces of the die and the anvil to cooperate to crimp the ferrule part to a wire end when operatively inserted in the ferrule part and means for severing the connector from the strip after the ferrule part has been crimped to the wire end.

2. An apparatus as claimed in claim l, in which the anvil is supported on a movable anvil slide to which is attached a slide stop for limiting the advance movement of the anvil slide, a spring maintaining the slide stop in a first position corresponding to the retracted position of the anvil, and a piston and cylinder arrangement engaging the slide stop and operable to advance the slide stop against the action of the spring into a second position corresponding to the position of the anvil in the crimping zone.

3. An apparatus as claimed in claim 2, in which in the second position, the slide stop engages a member which initiates operation of a die support means to move the die towards the crimping zone.

d. An apparatus as claimed in claim ll, in which a strip clamp is provided for clamping the strip when a connector is at the crimping zone, the strip clamp being movable from a first retracted position in which the strip is free to move, to a second clamping position in which it engages the carrier strip.

5. An apparatus as claimed in claim 4l, in which the strip clamp is engaged by a spring to bias the strip clamp towards the iirst position and a piston and cylinder position is provided for moving the strip clamp from the rst to the second position against the biasing action of the spring.

Claims

1. An apparatus for crimping a ferrule part of an electrical connector to a wire end, the apparatus comprising means for intermittently feeding a strip of connectors along a predetermined path to position successive leading connectors at a crimping zone, a die and an anvil each having cooperable crimping surfaces for crimping the ferrule part of the connector to a wire end at the crimping zone, and each being movable between the crimping zone and a retracted position remote from the crimping zone, the direction of movement of the anvil being at substantially 90* to the feed path of the connectors, means for maintaining the die and the anvil in their respective retracted positions while the connectors are being fed, means for advancing the anvil from its retracted position to the crimping zone to position its crimping surface adjacent the base of the ferrule part, after the connector has reached the crimping zone, to support the base during the crimping operation, means for advancing the die from its retracted position to the crimping zone after the anvil has been advanced, to cause the crimping surfaces of the die and the anvil to cooperate to crimp the ferrule part to a wire end when operatively inserted in the ferrule part and means for severing the connector from the strip after the ferrule part has been crimped to the wire end.

2. An apparatus as claimed in claim 1, in which the anvil is supported on a movable anvil slide to which is attached a slide stop for limiting the advance movement of the anvil slide, a spring maintaining the slide stop in a first position corresponding to the retracted position of the anvil, and a piston and cylinder arrangement engaging the slide stop and operable to advance the slide stop against the action of the spring into a second position corresponding to the position of the anvil in the crimping zone.

4. An apparatus as claimed in claim 1, in which a strip clamp is provided for clamping the strip when a connector is at the crimping zone, the strip clamp being movable from a first retracted position in which the strip is free to move, to a second clamping position in which it engages the carrier strip.

5. An apparatus as claimed in claim 4, in which the strip clamp is engaged by a spring to bias the strip clamp towards the first position and a piston and cylinder position is provided for moving the strip clamp from the first to the second position against the biasing action of the spring.