GB1588841A – Electrical terminal assemblies
– Google Patents
GB1588841A – Electrical terminal assemblies
– Google Patents
Electrical terminal assemblies
Download PDF
Info
Publication number
GB1588841A
GB1588841A
GB39914/77A
GB3991477A
GB1588841A
GB 1588841 A
GB1588841 A
GB 1588841A
GB 39914/77 A
GB39914/77 A
GB 39914/77A
GB 3991477 A
GB3991477 A
GB 3991477A
GB 1588841 A
GB1588841 A
GB 1588841A
Authority
GB
United Kingdom
Prior art keywords
assembly
terminals
terminal
block
leg
Prior art date
1976-09-30
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
GB39914/77A
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
AT&T Corp
Original Assignee
Western Electric Co Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1976-09-30
Filing date
1977-09-26
Publication date
1981-04-29
1977-09-26
Application filed by Western Electric Co Inc
filed
Critical
Western Electric Co Inc
1981-04-29
Publication of GB1588841A
publication
Critical
patent/GB1588841A/en
Status
Expired
legal-status
Critical
Current
Links
Espacenet
Global Dossier
Discuss
Classifications
H—ELECTRICITY
H01—ELECTRIC ELEMENTS
H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
H01R4/24—Connections using contact members penetrating or cutting insulation or cable strands
H01R4/2416—Connections using contact members penetrating or cutting insulation or cable strands the contact members having insulation-cutting edges, e.g. of tuning fork type
H01R4/242—Connections using contact members penetrating or cutting insulation or cable strands the contact members having insulation-cutting edges, e.g. of tuning fork type the contact members being plates having a single slot
H01R4/2425—Flat plates, e.g. multi-layered flat plates
H01R4/2429—Flat plates, e.g. multi-layered flat plates mounted in an insulating base
Description
PATENT SPECIFICATION ( 11)
( 21) Application No 39914/77 ( 22) Filed 26 Sept 1977 ( 19) (t 61) Patent of Addition to No 1 588 842 dated 26 Sept 1977 C ( 31) Convention Application No 728 337 ( 32) Filed 30 Sept 1976 in o ( 33) United States of America (US) ^ ( 44) Complete Specification published 29 April 1981 ( 51) INT CL 3 HOIR 9/24 4/24 ( 52) Index at acceptance H 2 E 124 DAB ( 72) Inventors HERBERT HENRY BIERENFELD, CHAUNCEY MORGAN HORTON JR, JOHN ALBERT KELSEY and CHARLES MCGONIGAL ( 54) IMPROVEMENTS IN OR RELATING TO ELECTRICAL TERMINAL ASSEMBLIES ( 71) We, WESTERN ELECTRIC COMPANY, INCORPORATED, of 222 (formerly of 195) Broadway, New York City, New York State, United States of America, a Corporation organized and existing under the laws of the State of New York, United States of America, do hereby declare the invention, for which we pray that a patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement:This invention relates to electrical terminal assemblies, and is an improvement in or a modification of the invention contained in our co-pending Patent Application No.
39917/77 (Serial No 1,588,842) Such assemblies are useful for either bulk cable on a single or paired-wire quick-connect basis, or connectorized cable on a multiwire connect basis, or various combinations of these two wiring methods.
It is standard practice in the installation of certain types of electrical apparatus in the field, such as telecommunications transmission equipment bays in a telephone central office, to interconnect the equipment bays to one another by suitable cabling This interconnection has been accomplished in a variety of ways including the use of: ( 1) formed cable, in which interbay cables are preformed in the factory or manufacturing location and then subsequently connected directly to equipment terminals in the field by an installer; ( 2) bulk cable, in which interbay cables are formed from a bulk cable supply in the field and connected directly to equipment terminals by the installer; ( 3) connectorized cable, in which equipment local cables are wired to the equipment terminals and provided with connector plugs in the factory, and in which interbay cables also are formed with connector plugs in the factory, with the local cables and the interbay cables subsequently being merely plugged together in the field; and ( 4) terminal strips having, for example, solderlesswrap or quick-connect terminals, in which the equipment is wired to the terminal strips in the factory, and interbay cables subsequently are formed from a bulk cable supply in the field (as noted hereinabove) and connected to the terminal strips.
Of the foregoing wiring, systems, the formed cable and the bulk cable systems generally are lowest in cost, but require longer installation intervals and extensive activities adjacent to working equipment in the field These field-wired systems also generally result in lower quality as compared to the factory-wired cables involved in the use of connectorized cables or terminal strips As between connectorized cable and terminal strips, connectorized cable generally is advantageous because of the short installation interval involved, with the least disruption to existing equipment and services, and because it usually results in the highest overall quality system at the lowest cost Connectorized cable is also desirable because it facilitates maintenance and relocation or reassociation of equipment Accordingly, in recent years the use of connectorized cable in the installation of transmission equipment, as well as other types of electrical equipment, has significantly increased.
In certain instances, however, connectorized cable is not always practical, as for example where a complex network of transmission equipment bays is to be interconnected.
Rather, it then may be preferable to interconnect the equipment bays utilizing bulk cable in association with terminal strips, or to utilize connectorized cable, bulk cable and terminal strips in various combinations with one another.
Heretofore, however, connector plugs for connectorized cable have been designed for 1 588841 1,588,841 use primarily with another mating connector plug, while terminal strips have not been designed for use in combination with connectorized cable For example, in a connector plug arrangement disclosed in U S.
Patent Specification 3,760,335, the wires of two cables which are to be interconnected are secured to quick-connect solderless terminals of respective mating connector housings each having a standard number (e.g 50) of terminals After the wires have been connected to the terminals, shields or covers are slid onto the housings over the terminals and the wire portions therein, and the covers and housings are secured together by suitable screws to produce two mating connector plugs To connect the cables together, the mating connector plugs are then plugged into one another during installation of the equipment in the field When it is desired to remove, replace or rearrange the connected wires, the covers are disassembled from the housings, and then reassembled thereto when the desired changes have been completed.
Similarly, an example of a known terminal strip is disclosed in the U S Patent Specification 3,798,587 In this patent, one set of wires, such as the wires connected to the terminals of the equipment, are dressed along an elongated insulating block into respective spaced slots in the block A second elongated insulating block has a row of elongated electrical terminals fixedly mounted therein, with the terminals having quick-connect bifurcated legs at their opposite ends In use, the bifurcated legs at first ends of the terminals, which project outward from the second insulating block are connected to the dressed wires in the first insulating block by assembling the two blocks together so that the bifurcated terminal legs receive respective ones of the dressed wires therebetween as the legs are inserted into slots in the first block A second set of wires, as for example of an interbay cable, then arc inserted into respective ones of the bifurcated legs at the other ends of the terminals to establish connections between the two sets of wires A similar terminal strip is also shown in U S Patent Specification 3,496,522, and U S Patent
Specification 3,611,264.
U.S Patent Specification 3,878,603 discloses a solderless cable splicing device similar to the terminal strip in the abovementioned U S Patent Specification
3,798,587, in which two sets of cable wires to be spliced initially are dressed along an elongated first electrically insulating block and fanned into respective slots between longitudinally spaced wire guide portions on opposite sides of the block An elongated electrically insulating second block, having a plurality of U-shaped terminals mounted thereon with quick-connect bifurcated legs projecting from the block, then is assembled to the first block with the legs of the terminals receiving respective ones of the fanned wires to complete the splice 70 Thus a need exists for a versatile electrical conductor terminating system in which a terminal strip assembly is capable of universal use with various types of cables, such as, bulk formed cable on a quick 75 connect basis and connectorized cable on a plug-in basis, or various combinations thereof This invention seeks to provide a block for electrical connectors which is inexpensive, reliable, capable of accommodating 80 high termination densities, easy to repair and maintain, and readily adaptable to circuit design changes.
According to the present invention there is provided an electrical terminal assembly 85 comprising an electrically insulating block having a plurality of distinct projections extending from one side thereof defining conductor-receiving slots between adjacent ones of the projections, and a plurality of 90 electrical terminals each having a first leg and a second leg extending in the same direction from a conductive interconnecting part, each leg being adapted for electrically contacting engagement with an electrical 95 conductor, the terminals and the block being mutually adapted so that the terminals can be put in place from the opposite side of the block so that the interconnecting parts are positioned against the said opposite side of 100 the block and the first legs extend beyond the said one side into communication with respective conductor-receiving slots, the block also having opposed members extending from the said opposite side for receiving 105 between them a member for retaining the terminals in place.
Some embodiments of the invention will now be described, by way of example, with reference to the accompanying drawings in 110 which:
Fig 1 is an isometric exploded view of a terminal strip assembly embodying the invention; Fig 2 is an isometric view of a terminal 115 used in the terminal strip assembly of Fig 1; Fig 3 is a cross-sectional view taken along the line 3-3 in Fig 1; Fig 4 is a cross-sectional view of the 120 terminal strip assembly of Fig 1 in assembled relationship, as viewed along the line 3-3 in Fig 1; Fig 5 is a cross-sectional view taken along the line 5-5 in Fig 4; 125 Fig 6 is an elevational view, partially in cross section, as viewed in the direction of the arrows in 6-6 in Fig 4; Fig 7 is a partial view of two terminal strip assemblies as shown in Fig 1 mounted 130 1,588,841 in end-to-end relationship, as viewed in a direction indicated by the arrows 7-7 in Fig 4; Fig 8 is an isometric view of two of the terminal strip assemblies as shown in Figs.
1 to 7, mounted in end-to-end relationship; Fig 9 is a cross-sectional view of a terminal strip assembly as shown in Figs 1 to 7, illustrating a second manner of mounting the terminal strip assembly; Fig 10 is a cross-sectional view similar to Fig 4, illustrating a first step in the connecting of an insulated electrical conductor wire to the terminal strip assembly shown in Figs 1-9.
Fig 11 is an isometric view of a wire seating-and-cutoff tool; Fig 12 is a cross-sectional view illustrating the seating and cutting of the insulated wire shown in Fig 10, utilizing the tool shown in Fig 11; Fig 13 is a cross-sectional view showing a test connector plug and its manner of use to test the terminal strip assembly after it has been wired as shown in Fig 12; Fig 14 is a partial isometric view of a communications equipment bay, illustrating one manner in which a plurality of the terminal strip assemblies shown in Figs 1 to 8 may be utilized; Fig 15 is an isometric exploded view of a terminal connector plug assembly embodying the invention; Fig 16 is an isometric view of a terminal support block of the connector plug assembly shown in Fig 15; Fig 17 is an end view, partially in cross section, of the terminal support block shown in Figs 15 and 16; Fig 18 is a view of the terminal support block shown in Figs 15-17, as seen in the direction of the arrows 18-18 in Fig 17; Fig 19 is a view of the terminal support block shown in Figs 15-17, as viewed in the direction of the arrows 19-19 in Fig.
17; Fig 20 is an isometric view of a terminal used in the connector plug assembly of Fig 15; Fig 21 is an isometric view of a terminal retaining member of the connector plug assembly shown in Fig 15; Fig 22 is an end elevational view of the terminal retaining member shown in Figs.
15 and 21; Fig 23 is a view of the terminal retaining member shown in Figs 15, 21 and 22, as seen in the direction of the arrows 23-23 in Fig 22; Fig 24 is a view of the terminal retaining member shown in Figs 15, 21 and 22 as seen in the direction of the arrows 24-24 in Fig 22; Fig 25 is a cross-sectional view of the terminal strip assembly shown in Figs 1 to 8 and the connector plug assembly shown in Figs 15 to 24 in assembled relationship, as viewed along a line as indicated by the arrows 25-25 in Fig 15; and Fig 26 is a partial cross-sectional view of 70 the connector plug assembly of Figs 15-24, illustrating the seating of an insulated wire therein utilizing the tool shown in Fig 11.
With reference to Fig 14, an electrical conductor terminating system in which ter 75 minal strip assemblies 26 (shown in detail in Figs 1 to 8) are utilized for interconnecting sets of insulated electrical conductor wires, such as sets of insulated electrical conductor wires 28 wb of one or more local equipment 80 cables 28 in a communications equipment bay 30, and sets of insulated electrical conductor wires 32 wi of one or more interbay cables 32 for connecting the equipment bay to other equipment bays (not shown) The 85 construction of each of the terminal strip assemblies 26 is such that the interbay cables 32 may be of a bulk cable type, with each of its wires 32 wi connected individually or in pairs directly to the terminal strip 90 assemblies on a quick-connect basis in the field as shown in Fig 4 Alternatively, the interbay cable(s) may be a connectorizedtype cable 321 (Fig 25) which is preformed in the factory with a 95 repeatable-type connector plug assembly 34 and then merely plugged into the terminal strip assembly 26 in the field as shown in
Fig 25.
Our co-pending Patent Application No 100 39917/77 (Serial No 1,588,842) describes a terminal strip assembly comprising an electrically insulating terminal support block and a row of U-shaped electrical terminals mounted within the support block The ter 105 minals have quick-connect bifurcated legs disposed between wire guide portions of the support block for the reception of respective wires inserted between the guide portions An electrically insulating base member is con 110 nected to the support block to retain the terminals in the support block A wire carrier-and-seating device of special construction, which retains end portions of the cable wires in proper spatial relationship for 115 insertion of the wire end portions into their respective terminal legs in the terminal strip assembly, simultaneously, or which can be provided with terminals for use as a repeatable-type connector plug, is utilized 120 where it is desired to prefabricate (i e, connectorize) the cable at the manufacturing location.
As shown in Figs 4, 14 and 25, the terminal strip assemblies 26 are mounted on 125 the frame of the equipment bay 30 by means of a series of vertically extending angle-bar mounting members 36, secured to standard frame mounting arms 38, preferably, during manufacture of the bay in the factory At 130 1,588,841 the same time, the equipment bay wiring (e.g, the local cables 28) is formed by connecting first stripped ends of the insulated electrical conductor wires 28 wb to terminals of the equipment bay (eg, by solderless wirewrapping), and connecting second unstripped opposite ends of the wire 28 wb to respective ones of the terminal strip assemblies 26 on a quick-connect basis, as shown in Figs 4 and 25 The cables 28 may rest or be suspended upon horizontally projecting shelves (Fig 14) integrally connected at their opposite ends to respective ones of the frame mounting arms 38, such as by casting or welding, if so desired Alternatively, the terminal strip assemblies 26 may be mounted in horizontal rows across the equipment bay on the shelves 40, as in the hereinbeforementioned copending application, alternatively the terminal strip assemblies may be mounted in both horizontal and vertical rows in the equipment bay, in order to achieve greater terminal connecting capacity, if desired.
As noted hereinbefore, the insulated electrical conductor wires 32 wi of each of the interbay cables 32 also may be wired to the terminal strip assemblies 26 on a quickconnect basis in the field, as shown in Fig.
4 Alternatively, the interbay cable may be the connectorized type cable 321 shown in Fig 25, in which insulated electrical conductor wires 32 wi’ of the cables are prewired to the connector plug assembly 34 (Figs.
15-24) in the factory on a quick-connect basis, with the connector plug assembly subsequently being merely plugged into one of the terminal strip assemblies 26 in the field.
With reference to Fig 1, the terminal strip assembly 26 includes a row of U-shaped electrical terminals 42, an elongated terminal support block 44 and a terminal retaining base member 46 Both the terminal support block 44 and the terminal retaining member 46 are formed of a suitable electrically insulating material, such as molded plastic, as for example that sold by General Electric Plastics Business Division of Selkirk, New York under the tradename “Noryl 225 “.
As is shown in Fig 2, each of the terminals 42 has a bight or body portion 42 a and first and second legs 42 b projecting from opposite sides of the bight portion The terminals 42 are formed from an electricallyconducting resilient material, such as phosphorous deoxidized tin bronze, in a series of blanking, coining and bending steps, as for example, in a progressive punch and die.
In this forming operation, the material for each terminal 42 is formed, while in a flat state, with a pair of elongated apertures 42 c adjacent respective opposite ends of the bight portion 42 a, to facilitate subsequent bending of the terminal into the U-shaped configuration shown Each of the legs 42 b of the terminal 42 also is bifurcated to produce resilient prongs 42 d having opposed essentially flat edges, and is formed by blanking and coining, with relatively thin inwardly converging insulation cutting edges 70 42 e adjacent its outer end The thin outer insulation cutting edges 42 e cause initial cutting through the insulation of a respective one of the insulated electrical conductor wires 28 wb or 32 wi to establish contact with 75 the wire as it is pressed between the cutting edges, after which the insulation is displaced longitudinally of the wire as it passes between the opposed flat edges of the prongs 42 d, as disclosed in U S Patent Specification 80
No 3,798,587 The spacing between the flat-faced prongs 42 d is selected so as to be slightly less than the minimum diameter (e g, 26 gage) of one of the electrical conductor wires 28 wb or 32 wi to be utilised, so that a 85 plurality of wire diameters (e g from 22 gage to 26 gage) can be accommodated by the terminal This ability of the prongs 42 d to receive wires 28 wb or 32 wi of various diameters, without severing the wire, is 90 achieved as a result of the opposed edges of the prongs being flat, and by forming notches 42 f in the outer edges of the terminal legs 42 b to facilitate flexing of the prongs as the wire is inserted therebetween 95 With reference to Fig 3, the terminal support block 44 has an essentially M-shaped configuration and includes a transversely extending bight or body portion 44 a First and second spaced parallel opposed rows or 100 sets of insulated electrical conductor wire guide portions or projections 44 b, which are spaced longitudinally (Figs 1, 5, 6 and 7) to define wire-receiving slots 44 c therebetween, have first inner sections 44 d 105 integrally connected at first lower ends to the bight portion 44 a and projecting upward in a first direction from an upper side of the bight portion Second outer sections 44 e of the wire guide portions are integrally 110 joined at their upper ends with second upper ends of the inner sections 44 d by generally arcuate third outer end sections 44 f, and are integrally joined at their lower ends with resilient side walls or legs 44 g The outer 115 wire guide sections 44 e and the resilient side legs 44 g, which form extensions of the outer sections, are spaced from the inner wire guide sections 44 d and the bight portion 44 a, respectively, for the reception of the 120 legs 42 b of the terminals 42 therebetween, as shown in Fig 4 The resilient side legs 44 g, which have outer free ends, also extend in a reverse direction downward (as viewed in Figs 3 and 4) below or outward with 125 respect to the bight portion 44 a adjacent its lower side in spaced parallel opposed relationship to permit the terminals 42 to be inserted into and removed from the support block 44, and for the reception of the ter 130 1,588,841 minal retaining base member 46 between the legs, as shown in Fig 4 Preferably, the width of the wire-receiving slots 44 c is slightly less than the diameter of the insulation on the insulated wires 28 wb or 32 wi so that the wire guide portions 44 b grip the insulation to produce an inherent strain relief which prevents the wires from pulling out of the slots when the wires are mounted therein.
With reference to Figs 3, 4 and 5, when mounting the terminals 42 on the support block 44, the legs 42 b of the terminals are positioned in passageways in communication with the wire-receiving slots 44 c of the terminal support block and defined by the bight portion 44 a, the resilient side legs 44 g and the inner and outer sections 44 d and 44 e of the wire guide portions 44 b More specifically, each terminal leg 42 b, with the exception of one leg at each end of the support block 44, as will subsequently be described, is received in an internal slot having outer end walls defined by the arcuate outer end sections 44 f of the adjacent wire guide portions 44 b, and sides defined by insulating ribs 44 h (shown in Figs 3 and 5) formed in the adjacent wire guide portions and having downwardly tapering portions integral with the adjacent resilient leg 44 g This locates the furcations 42 d of the leg 42 b adjacent opposite sides of the wire-receiving slot 44 c defined by the wire guide portions 44 b, as shown in Fig 5, for the reception of one of the insulated electrical conductor wires 28 wb or 32 wi The outer insulation cutting edges 42 e of each terminal leg 42 b are recessed (Figs 4, 5 and 6) with respect to the outer ends of the adjacent wire guide portions 44 b, so that the leg is protected against bending or other physical damage from external sources, or from inadvertent electrical contact which could cause service interruption during use.
With reference to Figs 3 and 4, the bight portion 42 a of each of the terminals 42 seats against an inner surface of the bight portion 44 a of the support block 44 in a slot defined by projecting insulating ribs 44 i (Fig 3) integral with the bight portion The interval between the insulating ribs 44 h and 44 i of the wire guide portions 44 b and the bight portion 44 a, respectively, is such that the terminals 42 are retained in spaced insulated relationship with a slight freedom of lateral movement, so that the terminals are, in effect, self-centering with respect to their respective slots 44 c (Figs 5 and 6) between the wire guide portions as the insulated electrical conductor wires 28 wb or 32 wi are pushed downward in the slots and into the legs 42 b of the terminals The terminals 42 are held in the support block 44 in their respective slots 44 c by the retaining member 46, as shown in Fig 4 The bight portion 44 a of the support block 44 also includes a row of apertures 44 j (Figs 3 and 4) extending therethrough from an elongated channel 44 k in the support block and opening through an inner surface of the bight portion between respective ones of the insulating ribs 70 44 i, to enable a test probe 48 to be engaged with the U-shaped terminals 42 for test purposes, as for example, after the electrical conductor wires 28 wb of the local equipment cables 28 (Figs 4 and 14) have been con 75 nected to the terminal strip assembly 26.
As shown in Figs 1, 3 and 4, the resilient side legs 44 g of the terminal support block 44, adjacent their free ends, include openings 44 m in which latching projections 46 a on the 80 terminal retaining member 46 are received when the retaining member is pressed between the legs into engagement with the terminals and assembled to the block member Thus, the terminals 42, terminal support 85 block 44 and terminal retaining member 46 can be readily assembled together and the support block and retaining member can be readily dissassembled for replacement of the terminals The resilient side legs 44 g also 90 include notches 44 N in the outer surfaces thereof for receiving latching projections 50 a on resilient side legs of a channel mounting member 50 (Fig 4) for supporting the terminal assemblies 26 in end-to-end relation 95 ship in the equipment bay shown in Fig 14.
The outer surfaces of the resilient side legs 44 g are formed with latching protrusions 44 o for mounting of the connector plug assembly 34 thereon, as shown in Fig 25 100 Referring to Figs 4 and 8, the elongated channel mounting member 50 may be formed of the same extruded plastic material (“Noryl 225 ‘) as hereinbefore mentioned for the terminal support block 44 and retaining 105 member 46 Each of the terminal assemblies 26 may be mounted in the channel mounting member 50 by pressing the terminal assembly downward between the resilient side legs of the mounting member until the 110 latches 50 a on the mounting member have seated in the notches 44 N in the side legs 44 g of the terminal support block 44.
Similarly, one of the terminal strip assemblies 26 can be removed from the channel 115 mounting member 50 for repair or replacement by flexing the legs of the channel member to an open position to release the assembly Alternatively, the channel mounting member 50 may be left open-ended so 120 that the terminal assemblies 26 can be slid into and out of the channel member longitudinally In either case, the channel mounting member 50 is secured to the angle bar mounting members 36 of the equipment bay 125 (Fig 14) by suitable screws 52, as illustrated in Fig 4 Alternatively, as is shown in Fig 9, the terminal assemblies 26 may be directly secured to the mounting members 36 by self-tapping screws 521 threaded into 130 1,588,841 cylindrical recesses 46 b (only one shown) formed in the bottom of the retaining member 46, if so desired.
As is shown in Figs 7, 8 and 14, the terminal strip assemblies 26 can be readily mounted in end-to-end relationship in the channel mounting member 50 to provide a continuous line of the U-shaped terminals 42 of any desired length For this purpose, in order that the positions of the terminals 42 will correspond to numbered designations (Fig 8) provided on the channel mounting member 50, such as by strips of preprinted adhesive-backed tape 54, it is essential that a spacing “do” (Fig 7) between the terminals in adjacent ones of the terminal strip assemblies 26 be identical to a spacing “di” (Fig.
7) between the terminals in one of the terminal strip assemblies As described herein, in view of the closeness of the terminal spacings “di”, opposite ends of each of the terminal support blocks 44 is of special construction for this purpose, as shown in Figs 1, 7 and 8 More specifically, the end wire guide portions 44 b-e on the opposite ends of each terminal support block 44 are of reduced thicknesses, with the combined thicknesses of the end guide portions in each set of the guide portions being equal to the thickness of one of the intermediate guide portions The end guide portions 44 b-e also have planar offset surfaces which mate in interlocking relationship, as shown in Fig 7, when the terminal assemblies 26 are placed in end-to-end relationship, with the mating reduced-thickness end portions cooperating to provide the same wire guiding and insulating functions provided by the intermediate wire guide portions In this connection, as shown at the top of Fig 1, a slot-defining insulating end rib 44 i-e of the bight portion 44 a of the terminal support block 44 is of half-width construction, with only its associated side of the terminal support block having a wire guide portion end insulating rib 44 h-e The other half of the end rib 44 i-e and what would be its associated insulating rib 44 h-e are eliminated to permit proper mating of two adjacent ones of the terminal strip assemblies 26 as described hereinbefore.
An advantageous feature of the terminal strip assembly 26 is that, while it normally will be molded to include a fixed number of terminals 42, such as twenty-four, by severing the terminal strip assembly (terminal support block 44 and retaining member 46) between two adjacent wire guide portions 44 b, a terminal assembly having a desired lesser number of terminals can beprovided For example, by severing the terminal strip assembly 26 in Fig 1 so as to include at least one set of the apertures 44 m in the side legs 44 g of the terminal support block 44 and their associated latches 46 a on the terminal retaining member 46, a terminal assembly containing a lesser number (e.g four) of the terminals 42 can readily be provided Similarly, it is apparent that the channel mounting member 50 (Fig 8) also 70 can be cut to any length desired, in accordance with the number of terminals to be mounted therein.
In wiring one of the terminal strip assemblies 26 in the factory, the insulated wires 75 28 wb of the associated local equipment cable 28 (Figs 4 and 14) initially are positioned in the upper portions of their respective slots 44 c between the wire guide portions 44 b, with a short excess portion 80 (several inches) of each wire extending past the guide portions to the left, as shown by one of the wires in Fig 10 Each insulated wire 28 wb then may be pushed downward in its respective slot and simultaneously cut 85 to length as illustrated in Fig 12, by the aid of a suitable tool 56, which is shown in Fig 11 For this purpose, the tool 56, which may be formed from a solid piece of tool steel by machining and heat treating, includes 90 a wire seating portion 56 a and a wire cutting portion 56 b at one end thereof During the seating of the insulated wire 28 wb in the bottom of the slot 46 c, guide grooves 56 c on opposite sides of the tool 56, and a slot 56 d 95 of the tool seating portion 56 a, receive the adjacent wire guide portion 44 b of the terminal support block 44, and the prongs 42 d of the terminal leg 42 b in the slot 44 c, respectively, to permit the seating of the 100 wire to take place As the wire 28 wb is seated, the wire cutting portion 56 b presses the wire against an upper shelf portion 44 p of the terminal support block 44, with the shelf portion, which forms an aligned exten 105 sion of the bottom of the adjacent slot 44 c, acting as an anvil, to cut the wire to length.
At the same time, the insulation of the wire 28 wb is severed by the terminal prongs 42 d to establish electrical contact with the wire, 110 as above described In the field, the insulated wires 32 wi of the associated interbay cable 32 may be connected to the terminal strip assembly 26 in the same manner Alternatively, the insulated wires 28 wb or 32 wi may 115 be seated with a non-shearing seating portion 56 e of the tool 56 and the excess portions of each of the insulated wires then trimmed off at the adjacent upper shelf portion 44 p by scribing a suitable wire-cutting tool or knife 120 (not shown) over the top of the shelf portion along the length thereof If desired, a plurality of the wires 28 wb or 32 wi also may be seated (and cut to length) simultaneously by a suitable multi-wire engaging tool (not 125 shown) Further, when a wiring change is required, since the wires 28 wb and 32 wi are on the same side of the terminal strip 26, the wires are readily accessible, and the involved wires 28 wb or 32 wi can readily be 130 1,588,841 removed from the terminal prongs 42 d of their respective terminal legs 42 b and reinserted in terminal prongs of different ones of the terminals 42, as required.
Fig 7 illustrates the flexibility of the terminal strip assembly 26 from the standpoint of connecting the insulated cable wires 28 wb and 32 wi to the terminals 42 of the terminal strip assemblies 26 Thus, a wire designated 28 wb-1 and a wire designated 32 wi-1 may be connected to respective terminals and simultaneously cut to length utilizing the tool 56 (Fig 11) as described hereinbefore Another wire designated 28 wb-2 may be connected to a pair of the terminals 42 on opposite sides of the terminal connected to the wire 28 wb 1, as shown on the right-hand side of the figure.
Similarly, a wire designated 32 wi-2 may be connected to a series of three of the terminals 42 in a serpentine fashion, as shown on the left-hand side of the figure It is apparent that the other wire connecting arrangements may be utilized as desired.
Referring to Fig 13, a connector plug 58 for testing one of the terminal strip assemblies 26 after it has been wired to the terminals of the equipment bay 30 as shown in Fig 14, includes a terminal support block 60 which may be similar to the terminal support block 44 of the terminal strip assembly The test connector plug 58, however, includes a row of essentially T-shaped (inverted, as viewed in Fig 13) test terminals 62 (only one shown) having a crossarm 62 a and a projecting stem 62 b Opposite end portions of the terminal cross-arms 62 a are received in slots corresponding to the wire-receiving slots 44 c between the guide portions 44 b of the terminal support block 44 of the terminal strip assembly 26 The stem 62 b of each T-shaped terminal 62 extends through an aperture in the terminal support block 60 corresponding to one of the test apertures 44 j in the terminal support block 44 of the terminal strip assembly 26, and includes a resilient tongue 62 c for retaining the terminal in position in the support block 60 so that its interior can be filled with a suitable potting material 64 An outer end of the stem 62 b of each T-shaped terminal 62 is connected to a lead wire 66 running to a test set, not shown In testing the wired terminal strip assembly 26, the test connector plug 58 is inserted over the wire guide portions 44 b on the unwired side of the assembly, as illustrated by broken lines in Fig 13, so that central portions of the terminal cross-arms 62 a are received between the prongs 42 d of the terminal legs 42 b associated with these wire guide portions, thereby connecting the wired side of the terminal strip assembly to the test set through the U-shaped terminals 42 of the terminal strip assembly for test purposes.
Fig 25 discloses the use of one of the terminal strip assemblies 26 with the connector plug assembly 34, when it is desired to utilize the connectorized interbay cable 32 ‘ which has been prewired to the con 70 nector plug assembly in the factory As is shown in disassembled relationship in Fig.
15, the connector plug assembly 34 includes an elongated terminal support block 64, a row of essentially J-shaped terminals 66 75 mounted in the support block, a terminal retaining member 68 and a terminal cap 70 for the support block.
Referring to Figs 15-19, the terminal support block 64 includes a body portion 80 64 a (Figs 15-17) and a row of projecting longitudinally spaced wire guide portions or projections 64 b The wire guide portions 64 b, which project horizontally from one side of the body portion 64 a, as viewed in 85 Fig 17, define wire-receiving slots 64 c therebetween and are of the same general construction as the wire guide portions 44 b of the terminal support block 44 of the terminal strip assembly 26 (Figs 1-8 and 25) 90 A first resilient side wall or leg 64 d (Figs.
15-18) of the terminal support block 64 projects in a vertical downward direction with respect to the body portion 64 a, as viewed in Fig 17, perpendicular to the direc 95 tion of projection of the wire guide portions 64 b The leg 64 d releasably retains the connector plug assembly 34 on the terminal strip assembly 26 by means of a pair of slots 64 e (Figs 16-18) therein adjacent an outer free 100 end thereof, and in which the latching projections 44 o one one side of the terminal strip assembly’s terminal support block 44 are receivable, as shown in Fig 25 An undercut unlatching slot 64 f (Figs 17 and 18) 105 is formed in the first resilient leg 64 d adjacent the center thereof, to permit a suitable tool (e g, screw driver) to be inserted beneath the leg to pry it outward from the terminal strip assembly 26 to a released position 110 The first resilient side leg 64 d (Figs 1518) of the terminal support block 64, and an inner leg 64 g (Figs 15-17) which projects from the body portion 64 a of the support block and whose upper surface (as shown in 115 Fig 16) forms a part of the said opposite side of the block, define a channel therebetween which opens downward (as viewed in Fig 17) through the lower side of the block and which is suitably recessed intern 120 ally for receiving one of the rows of wire guide portions 44 b of the terminal support block 44 of the terminal strip assembly 26 (Fig 25) when the connector plug assembly 34 is mounted on the terminal strip assembly 125 The internally recessed portions of the terminal support block 64 include a plurality of projecting ribs 64 h (Figs 17 and 18) receivable between respective ones of the wire guide portions 44 b of the terminal support 130 8 1,588,841 8 block 44 (Fig 25) to locate and retain the connector plug assembly 34 in proper position thereon As in the case of the terminal support block 44 of the terminal strip assembly 26, the terminal support block 64 of the connector plug assembly 34 has a row of test apertures 64 i (Figs 15 and 19) formed therein through which the probe 48 may be inserted into engagement with the terminals 66 for test purposes, as shown in Fig 25 Further, as in the case of the terminal strip assemblies 26, to produce proper spacing of the terminals 66 in adjacent ones of the connector plug assemblies 34 when the plug and terminal strip assemblies are mounted in end-to-end relationship, the opposite ends of the terminal support block 64 are formed with planar offset surfaces 64 j (Figs 15-18), which mate in interlocking relationship in a manner similar to the surfaces of the end wire guide portions 44 b e of the terminal blocks 44 of the terminal strip assemblies 26, as shown in Figs.
7 and 8.
The inner leg 64 g (Figs 15-17) of the terminal support block 64 includes an offset portion 64 k having a plurality of projecting locating lugs 64 m which are received in the elongated slot 44 k (Fig 25) of the terminal support block 44 of the terminal strip assembly 26 when the connector plug assembly 34 is mounted thereon, as shown in Fig 25 The offset portion 64 k has a plurality of longitudinally extending slots 64 n (Figs 16, 17 and 19) formed therein for receiving respective ones of a plurality of inner latching portions 68 a (Figs 21-24) of the terminal retaining member 68 A second resilient side leg 64 o (Figs 15-17) of the terminal support block 64, in which the aforementioned test apertures 64 i are formed, projects horizontally outward with respect to the body portion 64 a as viewed in Fig 17, in a reverse direction to the direction of projection of the wire guide portions 64 b The side leg 64 o cooperates with the offset portion 64 k and the slots 64 n therein to releasably hold the terminal retaining member 63 in assembled relationship with the terminal support block 64, by means of a series of slots 64 p in the side leg adjacent an outer free end thereof, and associated latching portions 68 b (Figs 15, 22 and 23) on the retaining member Thus, the terminal support block 64 and retaining member 68 can be readily assembled to hold the terminals 66 in the support block, and can be readily disassembled to permit replacement of the terminals The retaining member 68, as in the case of the terminal support member 64, also is suitably recessed internally to receive the second row of wire guide portions 44 b of the terminal support block 44 of the terminal strip assembly 26 (Fig 25), and includes a plurality of internal projecting locating ribs 68 c (Figs 21-24) and suitable reinforcing ribs 68 d The retaining member 68 also includes a projecting ridge 68 e which may be utilized as a “handle” for manually removing the con 70 nector plug assembly 34 from the terminal strip assembly 26.
As shown in Fig 20, each of the J-shaped terminals 66 includes a bight portion 66 a having a long leg 66 b and a short leg 66 c 75 at its opposite ends The long legs 66 b of the J-shaped terminals 66 are received in respective slots defined by a row of insulating ribs 64 q (Figs 15-17 and 19) of the wire guide portions 64 b of the terminal sup 80 port block 64 in the same manner that the legs 42 b of the U-shaped terminals 42 are received in their respective elongated slots defined by the insulating ribs 44 h (Figs 3, 4 and 5) in the terminal support block 44 85 of the terminal strip assembly 26 The long.
legs 66 b of the J-shaped terminals 66 also are identical in construction to the legs of the U-shaped terminals 42 (shown in Fig 2), with each leg having prongs 66 d (Fig 20) 90 and insulation cutting edges 66 e (Fig 20) disposed on opposite sides of a respective one of the wire-receiving slots 66 c (Figs.
15-19) defined by the adjacent wire guide portions 64 b for the establishing of electrical 95 contact with one of the insulated wires 32 wi 1 (Fig 25) when the wire is pushed downward and seated in the slot The bight portions 66 a of the J-shaped terminals 66 also are received in slots defined by a row of insulat 100 ing ribs 64 r (shown in Figs 15 and 16) of the terminal support member 64.
Referring to Figs 17, 18, 20, and 25, the short leg 66 c (Figs 20 and 25) of each Jshaped terminal 66 extends through a respec 105 tive one of a plurality of openings 64 S (Figs.
17, 18 and 25) in the inner leg 64 g of the terminal support block 64 and into the channel defined by the inner leg and the first resilient side leg 64 d of the terminal 110 support block The short terminal leg 66 c also has a flattened spade-like portion 66 f (Figs 20 and 25) at its free end, which may be formed by coining and, if so desired, plated with a long-wearing precious metal 115 contact material (e g gold) The spade-like portion 66 f is received between the prongs 42 d of the adjacent terminal leg 42 b to establish an electrical connection with its respective terminal 42 when the connector 120 plug assembly 34 is mounted on the terminal strip assembly 26, as shown in Fig 25.
By way of example, in utilizing the connector plug assembly 34, the insulated wires 32 wi P of the interbay cable 321 are prewired 125 to the connector plug assembly at the manufacturing location by mounting the connector plug assembly in a suitable fixture (not shown) and then positioning each wire in its respective wire-receiving slot 64 c with a 130 1,588,841 1,588,841 short length of excess wire (several inches) extending beyond the wire guide portions 64 b, as described hereinabove in connection with the seating of the wires 28 wb in the terminal strip assembly 26, and as shown in Fig 10 Each of the wires 32 wi’ then may be pushed into and seated in its respective slot 64 c, as illustrated in Fig 26, utilizing the tool 56 shown in Fig 11, so as to make electrical contact with the furcations 66 d of the long leg 66 b of the J-shaped terminal 66 associated with the slot At the same time, the excess portion of the wire 32 wi’, as shown by broken lines in Fig 26, is cut off adjacent the wire guide portion 64 b by engaging the wire between the tool shearing blade 56 b and one of a plurality of elongated anvil portions 64 t (shown in Fig 15), which provide aligned extensions of the bottoms of the slots 64 c Alternatively, the wires 32 wi’ may be positioned in the wire-receiving slots 64 c from the opposite direction (top of Fig.
25), in which case each wire is cut by engaging it between the tool shearing blade 56 b and an anvil surface 64 u (Figs 25 and 26) of the terminal support block 64.
The cap member 70 then is positioned over the wire guide portions 64 b by camming a pair of resilient latching legs 70 a (Fig 15) thereof over the anvil portions 64 t of the terminal support block 64, so that the legs extend through slots between the anvil portions with hook portions 70 b of the legs in releasably latched engagement with the anvil portions to retain the cap member on the terminal support block, as shown in Fig 25 Subsequently, in the field the connector plug assembly 34, with the cable wires 32 wi’ connected thereto, is inserted over the terminal strip assembly 26, which also has had a respective set of the insulated cables wires 28 wb connected thereto as above described, to establish electrical connections between the wires of the connector plug assembly and the wires of the terminal strip assembly through the U-shaped terminals 42 and the J-shaped terminals 66, as shown in Fig 25.
In summary, a new and improved electrical conductor terminating system has been provided in which electrical apparatus, such as the communications equipment bay (Fig 14), can be installed in the field utilizing the terminal strip assemblies 26 (Figs 1-8) and bulk cable, such as the interbay cable 32 (Fig 4) on a single or paired wire quick-connect basis Alternatively, the equipment bay 30 can be installed in the field utilizing the terminal strip assemblies
26 and connectorized cable, such as the interbay cable 321 (Fig 25) which has been fabricated to the connector plug assembly 34 (Figs 15-24) in the factory, with the connector plug assembly subsequently being merely plugged to a respective one of the terminal strip assemblies in the field, as shown in Fig 25 Various combinations of these two wiring methods in association with the equipment bay 30 also may readily be utilized, if desired In either instance, the 70 wires 28 wb of the equipment bay local cables 28 can readily be fabricated to the terminal strip assemblies 26 on a quick-connect basis as illustrated in Figs 10 and 12.
In addition to the versatility of the ter 75 minal strip assembly 26, wherein it can be readily utilized with either bulk-type or connectorized-type cable, the terminal strip assembly, consisting only of the molded terminal support block 44 and molded ter 80 minal retaining member 46, and the row of associated U-shaped quick-connect terminals 42, may be readily fabricated and assembled at low cost The connector plug assembly 38, consisting of the molded terminal sup 85 port block 64, terminal retaining member 68 and cap 70, and the row of associated Jshaped terminals 66, is advantageous for the same reason Further, when the terminals 42 and 66 are mounted in their respective 90 terminal support blocks 44 and 64, bending or other physical damage to the terminals from external sources, or inadvertent electrical contact with the terminals which could cause service interruption during use, is 95 precluded as a result of the terminals being essentially encased in the support block and recessed with respect to the outer ends of the respective adjacent wire guide portions 44 b and 66 b The terminal strip assembly 26 100 also is capable of accommodating high termination densities as a result of the close spacing of the terminals 42 which can be achieved in the terminal support block 42 In this connection, the terminal strip assemblies 105 26 may be mounted in end-to-end relationship in an elongated continuous row in the elongated channel 50, as shown in Figs 4 and 10, or individually by the screws 521 as shown in Fig 9 110 Referring to Figs 7 and 8, the mating offset planar surfaces of the end guide portions 44 b-e of the terminal support block 44 permit this mounting of the terminal strip assemblies 26 with the terminals 42 in adja 115 cent assemblies having a spacing “d,'” (Fig.
7) equal to the spacing “di” (Fig 7) of the terminals within the terminal strip assemblies, with the spacings “d ” and “di” corresponding to equally spaced terminal 120 number designations on the numbered strips 54 (Fig 8) on the channel mounting member Similarly, the offset end surfaces 44 j of the connector plug assemblies 34 also permit mounting thereof in the same relationship 125 when the connector plug assemblies are mounted on the terminal strip assemblies 26.
The terminal strip assemblies 26 and the connector plug assemblies 34 also can be severed between two adjacent wire guide 13 1,588,841 portions 44 b or 64 b into intermediate lengths as desired Testing of the connection of the wires 28 wb of the equipment bay cables 28 also may readily be accomplished using the test probe 48 in the test apertures 44 j of the terminal strip assemblies 26 (Fig 4) or the test apertures 64 i of the connector plug assemblies 34 (Fig 25) Further, removal and replacement of the wires 28 wb, 32 wi or 32 wil, in the quick-connect terminals 42 and/or 66 of the terminal strip assemblies 26 and/or the connector plug assemblies 34 for repair or rewiring purposes, and/or replacement of the terminals 42 and 66, can A 5 readily be accomplished.
Claims (1)
WHAT WE CLAIM IS: –
1 An electrical terminal assembly comprising an electrically insulating block having a plurality of distinct projections extending from one side thereof defining conductorreceiving slots between adjacent ones of the projections, and a plurality of electrical terminals each having a first leg and a second leg extending in the same direction from a conductive interconnecting part, each leg being adapted for electrically contacting engagement with an electrical conductor, the terminals and the block being mutually adapted so that the terminals can be put in place from the opposite side of the block so that the interconnecting parts are positioned against the said opposite side of the block and the first legs extend beyond the said one side into communication with respective conductor-receiving slots, the block also having opposed members extending from the said opposite side for receiving between them a member for retaining the terminals in place.
2 An assembly as claimed in claim 1 wherein when the terminals are in place, the second legs also extend beyond the said one side into communication with respective conductor-receiving slots.
3 An assembly as claimed in claim 2 wherein the block has leg-receiving slots, extending from the said opposite side of the block and communicating with respective conductor-receiving slots, to accommodate respective legs of the terminals when the terminals are in place.
4 An assembly as claimed in claim 2 or claim 3 wherein each leg of the terminals is bifurcated for receiving and gripping a conducting wire between the prongs of the bifurcation.
An assembly as claimed in claim 4 wherein each leg has a pair of inwardly converging insulation-piercing portions, one at the tip of each prong of the bifurcation.
6 An assembly as claimed in any of the preceding claims wherein the terminals are substantially as herein described with reference to Fig 2 of the accompanying drawings.
7 An assembly as claimed in any of the preceding claims including a retaining member adapted to be received between the opposed members for retaining the terminals in place 70 8 An assembly as claimed in claim 7 wherein the opposed members and the retaining member include mutually interlocking means to hold the retaining member in position when it is received between the 75 opposed members.
9 An assembly as claimed in claim 8 wherein the block and retaining member are substantially as herein described with reference to Figs 1 and 3 to 9 of the accompany 80 ing drawings.
An assembly as claimed in claim 1 wherein the insulating block has a channel such that when the terminals are in place the second legs extend into the channel 85 11 An assembly as claimed in claim 10 wherein the block has first-leg-receiving slots extending from the said opposite side of the block and communicating with respective conductor-receiving slots and 90 second-leg-receiving slots extending from the said opposite side of the block and communicating with the channel.
12 An assembly as claimed in claim 1, or 11 wherein the block includes wire 95 cutting anvil portions adjacent to ends of the conductor-receiving slots.
13 An assembly as claimed in claim 1 or any of claims 10 to 12 including a cap member positionable over the projections 100 and mutually interlocking means on the block and the cap member for holding the cap member in position.
14 An assembly as claimed in any of claims 10 to 13 including a retaining member 105 adapted to be received between the opposed members for retaining the terminals in place.
An assembly as claimed in claim 14 wherein the opposed members and the retaining member include mutually interlock 110 ing means to hold the retaining member in position when it is received between the opposed members.
16 An assembly as claimed in claim 15 wherein the block and retaining member are 115 substantially as herein described with reference to Figs 15 to 19 and 21 to 25 of the accompanying drawings.
17 An assembly as claimed in any of claims 10 to 16 wherein the first leg of each 120 terminal is bifurcated for receiving and griping a conducting wire between the prongs of the bifurcation.
18 An assembly as claimed in claim 17 wherein each first leg has a pair of inwardly 125 converging insulation-piercing portions, one at the tip of each prong of the bifurcation.
19 An assembly as claimed in any of claims 10 to 18 wherein the terminals are substantially as herein described with refer 130 1,588,841 ence to Fig 20 of the accompanying drawings.
An assembly as claimed in any of the preceding claims with the terminals in place and the retaining member in position between the opposed members.
DR C M K WATTS, Chartered Patent Agent.
Western Electric Company Limited, Mornington Road, Woodford Green, Essex.
Agent for the Applicants.
Printed for Her Majesty’s Stationery Office by Burgess & Son (Abingdon), Ltd -1981.
Published at The Patent Office, 25 Southampton Buildings, London, WC 2 A l AY from which copies may be obtained.
GB39914/77A
1976-09-30
1977-09-26
Electrical terminal assemblies
Expired
GB1588841A
(en)
Applications Claiming Priority (1)
Application Number
Priority Date
Filing Date
Title
US05/728,337
US4066317A
(en)
1976-09-30
1976-09-30
Electrical conductor terminating system
Publications (1)
Publication Number
Publication Date
GB1588841A
true
GB1588841A
(en)
1981-04-29
Family
ID=24926439
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
GB39914/77A
Expired
GB1588841A
(en)
1976-09-30
1977-09-26
Electrical terminal assemblies
Country Status (6)
Country
Link
US
(1)
US4066317A
(en)
JP
(1)
JPS5343889A
(en)
CA
(1)
CA1085013A
(en)
DE
(1)
DE2743759A1
(en)
FR
(1)
FR2366712A1
(en)
GB
(1)
GB1588841A
(en)
Families Citing this family (26)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
DE2725551C2
(en)
*
1977-06-07
1983-11-17
Krone Gmbh, 1000 Berlin
Electrical clamp connector
DE2804478C2
(en)
*
1978-01-31
1982-11-25
Krone Gmbh, 1000 Berlin
Electrical clamp connector for the production of a contact on a fixed connection element without soldering, screwing or stripping, in particular for telecommunication line technology
US4143935A
(en)
*
1978-03-13
1979-03-13
International Telephone And Telegraph Corp.
Electrical connector
DE2814069C3
(en)
*
1978-03-30
1982-03-25
Krone Gmbh, 1000 Berlin
Device and method for producing a contact free of soldering, screwing and stripping on a fixed connection element, in particular for telecommunications line technology
US4254547A
(en)
*
1979-04-17
1981-03-10
Bell Telephone Laboratories, Incorporated
Methods and apparatus for automatic jumper placement
US4360792A
(en)
*
1980-09-02
1982-11-23
Western Electric Company, Inc.
Separable multi-unit crystal network device
US4400874A
(en)
*
1981-07-30
1983-08-30
Western Electric Company
Wiring connector plugs to produce a wire mult
US4522459A
(en)
*
1981-12-17
1985-06-11
At&T Technologies, Inc.
Systems for and methods of making electrical connections
DE3201894C1
(en)
*
1982-01-22
1983-06-09
Krone Gmbh, 1000 Berlin
Modular terminal block
US4499648A
(en)
*
1982-09-29
1985-02-19
Amp Incorporated
Automatic wiring apparatus with rotatable insertion tooling
US4509813A
(en)
*
1983-11-01
1985-04-09
Allied Corporation
Retaining clip for holding a connector to a panel
US4586775A
(en)
*
1984-08-03
1986-05-06
General Motors Corporation
Duplex insulation displacement terminal
JPS6376352U
(en)
*
1986-11-10
1988-05-20
DE3726741C1
(en)
*
1987-08-07
1988-09-01
Krone Ag
Terminal block of telecommunications technology
DE3929928C1
(en)
*
1989-09-08
1990-11-22
Stocko Metallwarenfabriken Henkels Und Sohn Gmbh & Co, 5600 Wuppertal, De
FR2667991B1
(en)
*
1990-10-12
1992-11-27
Mars Actel
HIGH RELIABILITY CONNECTION RULE ASSEMBLY AND ASSOCIATED GARTER STORAGE DEVICE.
US5061203A
(en)
*
1991-04-15
1991-10-29
Amp Incorporated
Magnetic ballast connector system
ATE163808T1
(en)
*
1991-06-12
1998-03-15
Mod Tap W Corp
ELECTRICAL CONNECTORS
JPH097651A
(en)
*
1995-06-09
1997-01-10
Minnesota Mining & Mfg Co <3M>
Contractor and terminal connector with that contractor
US6050842A
(en)
*
1996-09-27
2000-04-18
The Whitaker Corporation
Electrical connector with paired terminals
US6739919B2
(en)
*
2001-12-27
2004-05-25
The Furukawa Electric Co., Ltd.
Wiring base and electrical connection box
EP2259111B1
(en)
2009-06-03
2013-04-17
CCS Technology Inc.
Device for receiving a subassembly with an optical fibre cable and for fastening the same to a mounting
US8559786B2
(en)
2009-09-28
2013-10-15
Ccs Technology, Inc.
Device for receiving subassemblies assigned to at least one optical fiber cable and for fastening the same to a mounting
EP2302430A1
(en)
*
2009-09-28
2011-03-30
CCS Technology Inc.
Device for receiving subassemblies assigned to at least one optical fiber cable and for fastening the same to a mounting
CN106575829B
(en)
*
2014-06-12
2020-11-03
安费诺富加宜(亚洲)私人有限公司
Cable connector
WO2018232761A1
(en)
*
2017-06-23
2018-12-27
深圳市爱夫卡科技股份有限公司
Diesel engine diagnostic connector
Family Cites Families (7)
* Cited by examiner, † Cited by third party
Publication number
Priority date
Publication date
Assignee
Title
US3239796A
(en)
*
1961-08-01
1966-03-08
Connectors Cons Inc
Unitary rigid wire connectors and method of making wire connections
US3363223A
(en)
*
1966-08-12
1968-01-09
Western Electric Co
Plug connector having snap mounting blade
US3496522A
(en)
*
1967-04-28
1970-02-17
Bell Telephone Labor Inc
Wire connecting blocks
US3518618A
(en)
*
1968-03-21
1970-06-30
Bell Telephone Labor Inc
Telephone type connector block and mounting bracket
US3611264A
(en)
*
1968-12-27
1971-10-05
Bell Telephone Labor Inc
Wire connecting blocks
US3860318A
(en)
*
1973-04-04
1975-01-14
Amp Inc
Pre-loaded electrical connector
US3919495A
(en)
*
1974-10-15
1975-11-11
Bell Telephone Labor Inc
Feeder distribution interface for rural areas
1976
1976-09-30
US
US05/728,337
patent/US4066317A/en
not_active
Expired – Lifetime
1977
1977-09-21
CA
CA287,227A
patent/CA1085013A/en
not_active
Expired
1977-09-26
GB
GB39914/77A
patent/GB1588841A/en
not_active
Expired
1977-09-28
FR
FR7729167A
patent/FR2366712A1/en
active
Granted
1977-09-29
DE
DE19772743759
patent/DE2743759A1/en
not_active
Withdrawn
1977-09-30
JP
JP11695477A
patent/JPS5343889A/en
active
Pending
Also Published As
Publication number
Publication date
US4066317A
(en)
1978-01-03
FR2366712B1
(en)
1981-12-31
DE2743759A1
(en)
1978-04-06
FR2366712A1
(en)
1978-04-28
CA1085013A
(en)
1980-09-02
JPS5343889A
(en)
1978-04-20
Similar Documents
Publication
Publication Date
Title
US4066317A
(en)
1978-01-03
Electrical conductor terminating system
US5314350A
(en)
1994-05-24
Pluggable modular splicing connector and bridging adapter
US3702456A
(en)
1972-11-07
Electrical terminal block for interconnecting a plurality of conductors
US3985416A
(en)
1976-10-12
Opposed edge slotted terminal electrical connector
US3617983A
(en)
1971-11-02
Terminal junction interconnection system
CA1067592A
(en)
1979-12-04
Electrical terminal and modular electrical connector assembly
US4820192A
(en)
1989-04-11
Connecting block construction
US3634605A
(en)
1972-01-11
Connecting device
US4066320A
(en)
1978-01-03
Electrical conductor terminating system
US4255009A
(en)
1981-03-10
Two row electrical connector
US5044979A
(en)
1991-09-03
Connector block and terminal
US4221445A
(en)
1980-09-09
Cross connect distribution system and apparatus
US5547391A
(en)
1996-08-20
Commoning electrical connector
EP0311263B1
(en)
1994-05-11
Voice/data communication termination connector
US4070548A
(en)
1978-01-24
Modular interconnection system
US5302137A
(en)
1994-04-12
Insulation displacement connector terminal block
US4508410A
(en)
1985-04-02
Electrical termination system and connector member
JPH0834111B2
(en)
1996-03-29
Wire holding device
US4822297A
(en)
1989-04-18
Junction block
US4274198A
(en)
1981-06-23
Self-stripping electrical terminal
US5114362A
(en)
1992-05-19
High density electrical connector and method of making a high density electrical connector
US4946406A
(en)
1990-08-07
Electrical connector which requires no application tool
US4212507A
(en)
1980-07-15
Selective interconnection system and connector
US4909753A
(en)
1990-03-20
Patch connector
GB2103434A
(en)
1983-02-16
Electrical connector
Legal Events
Date
Code
Title
Description
1981-07-15
PS
Patent sealed [section 19, patents act 1949]
1986-05-21
PCNP
Patent ceased through non-payment of renewal fee