Claims
- 1. A method of positioning leading portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, comprising the steps of:
- providing first and second surfaces, said first surface having a primary groove capable of substantially accommodating therein a trailing portion of each of said wires in a bunched together condition and a plurality of secondary grooves which emanate from said primary groove along separate, spaced apart paths, each of said secondary grooves capable of substantially accommodating therein said leading portion of only one of said wires;
- positioning said trailing portions of said wires in said bunched together condition in said primary groove of said first surface;
- introducing an application of compressive forces on said wires at said trailing portions thereof by bringing said second surface and said primary groove of said first surface into close proximity to each other while said trailing portions are so positioned in said primary groove of said first surface; and
- continuing said application of said compressive forces simultaneously along said wires by moving at least one of said first and second surfaces relative to the other such that said application of said compressive forces simultaneously progresses along each of said wires from said trailing portion toward said leading portion of each of said wires whereby said leading portions of said wires are forced individually into respective secondary grooves and thereby positioned in spaced apart relationships with respect to each other.
- 2. A method as defined in claim 1 further comprising the step of:
- moving at least one of said first and second surfaces relative to the other with the direction of movement being in a transverse relationship to the longitudinal extent of said trailing portions of said wires and said primary groove, simultaneously as said application of compressive forces is being introduced on said trailing portions, to thereby cause arrangement of said trailing portions of said wires in side-by-side dispositions with respect to each other within said primary groove and facilitate subsequent forcing of individual leading portions of said wires into respective secondary grooves by said continuation of said application of compressive forces simultaneously along said wires.
- 3. A method of positioning leading portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, comprising the steps of:
- stationarily positioning a first surface having a primary groove capable of substantially accommodating therein a trailing portion of each of said wires in a bunched together condition and a plurality of secondary grooves which emanate from said primary groove along separate, spaced apart paths, each of said secondary grooves capable of substantially accommodating therein a leading portion of only one of said wires;
- positioning said trailing portions of said wires in said bunched together condition in said first groove of said first surface;
- bringing a second surface into closed proximity to said stationarily-positioned first surface such that said second surface overlies said primary groove and acts therewith to apply compressive forces on said trailing portions of said wires so positioned in said primary groove of said first surface; and
- continuing said application of said compressive forces simultaneously along said wires by moving said second surface relative to said first surface such that said application of said compressive forces simultaneously progresses along each of said wires from said trailing portion toward said leading portion of each of said wires whereby said leading portions of said wires are forced individually into respective secondary grooves and thereby positioned in spaced apart relationships with respect to each other.
- 4. A method as defined in claim 3 further comprising the step of:
- moving said second surface relative to said stationarily-positioned first surface with the direction of movement being in a transverse relationship to the longitudinal extent of said trailing portions of said wires and said primary groove, simultaneously as said second surface is being brought into close proximity to said first surface, to thereby cause arrangement of said trailing portions of said wires in side-by-side dispositions with respect to each other within said primary groove and facilitate subsequent forcing of individual leading portions of said wires into respective secondary grooves by said continuation of said application of compressive forces simultaneously along said wires.
- 5. A method as defined in claim 4 wherein said moving of said second surface is carried out in a reciprocatory fashion relative to said first surface.
- 6. A method of positioning leading portions of individual detached flexible wires of a plurality of relatively movable wires in spaced apart relationships with respect to each other, comprising the steps of:
- providing a template having a plurality of elongated grooves, each groove being capable of receiving only a single detached flexible wire, and one end of the grooves being in spaced apart relationships to each other;
- holding portions of the plurality of wires in fixed relationship to each other adjacent the other end of the grooves; and
- positioning portions of the wires which extend away from the held portions of the wires in said plurality of grooves whereby portions of said positioned wires are disposed in spaced apart relationships with respect to each other.
- 7. A method of positioning portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, comprising the steps of:
- providing a template having a plurality of spaced apart grooves, each groove being capable of receiving only a single wires;
- holding portions of the wires in fixed relationship to each other adjacent one end of the grooves; and
- applying a compressive force to said portions of the wires over said one end of the grooves and moving the compressive force from one end of said grooves to the other end to progressively position said portions of the wires into said grooves whereby they are positioned in spaced apart relationships with respect to each other.
- 8. A method of positioning leading portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, comprising the steps of:
- providing first and second surfaces, said first surface having a plurality of grooves, the terminal end portion of the grooves being in spaced apart relationshp with respect to each other, and each of said grooves being capable of substantially accommodating therein said leading portions of only one of said wires;
- holding portions of said wires adjacent the other end of said plurality of grooves; and
- introducing an application of compressive force on said wires by bringing said second surface and said first surface into close proximity to each other while portions of the wires are being held adjacent said other end of said grooves and continuing the application of said compressive force simultaneously along the wires by moving at least one of said first and second surfaces relative to the other such that the application of the compressive force simultaneously progresses along each of said wires from the portion being held toward said leading portion of each of the wires whereby said leading portions of said wires are forced individually into respective grooves and are thereby positioned in spaced apart relationships with respect to each other.
- 9. A template for a wire separating mechanism being capable of positioning leading portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, said template comprising:
- a block made of resilient material and having a generally planar top surface;
- said surface having a primary groove defined therein, said primary groove capable of substantially accommodating therein a trailing portion of each of said wires in a bunched together condition and including a rearward region capable of substantially accommodating therein a rearward trailing portion of each of said wires in a randomly bunched together condition and a forward region having a shallower depth than that of said rearward region and capable of substantially accommodating therein a forward trailing portion of each of said wires arranged in a side-by-side bunched together condition; and
- said surface also having a plurality of secondary grooves defined therein which emanate from said forward region of said primary groove along separate, spaced apart paths, each of said secondary grooves capable of substantially accommodating therein said leading portion of only one of said wires.
- 10. A template as defined in claim 9 wherein:
- said primary groove is defined by a recessed step formed in said surface of said block;
- said rearward region of said primary groove is comprised by a lower thread of said step; and
- said forward region of said primary groove is comprised by an upper thread of said step.
- 11. A template for a wire separating mechanism being capable of positioning leading portions of individual wires of a plurality of wires in spaced apart relationships with respect to each other, said template comprising:
- a block made of resilient material and having a generally planar top surface;
- said surface having a primary groove defined therein, said primary groove capable of substantially accommodating therein a trailing portion of each of said wires in a randomly bunched together condition;
- said surface also having a plurality of secondary grooves defined therein which emanate from said primary groove along separate, spaced apart paths, each of said secondary grooves capable of substantially accommodating therein said leading portion of only one of said wires; and
- a plunger element yieldably mounted in a forward end of said primary groove contiguous to rearward ends of said plurality of secondary grooves and having an upper wire-confining region capable of substantially accommodating therein a forward trailing portion of each of said wires when arranged in a side-by-side bunched together condition, said plunger element capable of being forced to move toward into said primary groove from a normal rest position in which said upper wire-confining region of said plunger element is displaced above said rearward ends of said secondary grooves to a depressed position in which said wire-confining region is aligned with said rearward ends of said secondary grooves,
- whereby when said forward trailing portions of said wires are arranged in said side-by-side bunched together condition within said upper wire-confining region of said plunger element with said element being in its normal rest position, forced movement of said plunger element to its depressed position results in leading portions of said wires adjacent to said forward trailing portions thereof being individually deposited into respective rearward ends of said secondary grooves.
Parent Case Info
This is a division, of application Ser. No. 389,924 filed Aug. 20, 1973, now U.S. Pat. No. 3,891,013.
US Referenced Citations (9)
Foreign Referenced Citations (1)
Number |
Date |
Country |
1,078,548 |
Aug 1967 |
UK |
Non-Patent Literature Citations (1)
Entry |
IBM Technical Disclosure Bulletin, Vol. 4, pp. 28-29. |
Divisions (1)
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Number |
Date |
Country |
Parent |
389924 |
Aug 1973 |
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