Bus connector and method for integrating electrical test points in the bus connector

Information

  • Patent Grant
  • 6398581
  • Patent Number
    6,398,581
  • Date Filed
    Tuesday, December 19, 2000
    23 years ago
  • Date Issued
    Tuesday, June 4, 2002
    22 years ago
Abstract
A system for electrically connecting electrical components. The system comprises a ribbon cable, a connector cap and a connector base. The connector cap includes a track area adapted to operably engage the ribbon cable, a cap alignment guide, and a cap orientation guide. The connector base has a first ribbon cable receptacle area adapted to electrically engage the first ribbon cable, a second receptacle area adapted to electrically engage a second ribbon cable, electrical interconnection means electrically interconnecting the first and second receptacles, first and second base alignment guides respectively positioned adjacent the first and second receptacle areas for alignment with the cap alignment guide, and a orientation receptacle operably positioned to receive the cap orientation guide.
Description




BACKGROUND OF THE INVENTION




The present invention is directed to a bus connector which includes a pair of bus connector caps secured to a bus connector base so that each cap secures a bus cable in operable connection with the connector base. For purposes of this application, the words “bus”, “cable” and “bus cable” are intended to encompass both a physical communications medium and the transmissions over that medium, unless it is otherwise apparent from the context.




In connecting electrical components to a communications bus or other similar bus cable, it is desirable that the connector of the bus be fixed relative to each other prior to the actual connector being completed. If the bus and the connector were slideably arranged, then the positioning of the electrical component and the connector relative to the bus could change prior to the connection being fixed.




It is also desirable that the connectors can be only assembled in one orientation so that the corresponding lines of a pair of buses being connected by the connector will be connected, as opposed to the connection of opposed lines if one of the buses were somehow reversed.




It is a problem of previous connectors that they cannot be tested on an individual connector basis since they are enclosed in a sealed insulated housing.




SUMMARY OF THE INVENTION




It is an object, feature and advantage of the present invention to solve the problem with prior electrical connectors.




It is an object, feature and advantage of the present invention to provide a bus connector including electrical test points for each of the electrical connections.




It is an object, feature and advantage of the present invention to provide a bus connector having a cap which can be placed in non-slideable relation with a communications bus.




It is a further object, feature and advantage of the present invention that the communications bus be a flat ribbon cable.




It is an object, feature and advantage of the present invention to provide an alignment guide to assist an assembler in correctly interconnecting a pair of buses with a bus connector device.




It is an object, feature and advantage of the present invention to provide projections, apertures and the like which can only be assembled in one orientation.




The present invention provides a system for electrically connecting electrical components. The system comprises a ribbon cable, a connector cap and a connector base. The ribbon cable has a first sized conductor, a second sized conductor, and a web around the first and second conductors. The connector cap includes a track area adapted to operably engage the ribbon cable, a cap alignment guide, and a cap orientation guide. The connector base has a first ribbon cable receptacle area adapted to electrically engage a ribbon cable, a second receptacle area adapted to electrically engage a second ribbon cable, electrical interconnection means electrically interconnecting the first and second receptacles, first and second base alignment guides respectively positioned adjacent the first and second receptacle areas for alignment with the cap alignment guide, and a orientation receptacle operably positioned to receive the cap orientation guide.




The present invention also provides a connector for operably connecting a first and a second communications bus. The connector comprises a connector base and a connector cap. The connector base includes first and second substantially identical cap engagement areas. Each cap engagement area includes tracks adapted to receive the first or second communications bus and contacts for each track adapted to electrically engage a portion of the communications bus. Each contact in a cap engagement area is in electrical connection with a corresponding contact in the other cap engagement area to form electrically connected pairs of contact. The first bus connector cap includes tracks sized to receive and retain the first or second communications bus. The connector base includes an external aperture in association with each pair of electrically connected contacts providing an external electrical access point thereto.




The present invention further provides an electrical connector for connecting first and second communications buses where each bus includes at least first and second conduits. The connector comprises a non-conductive housing and first and second cover portions. The non-conductive housing includes a first receptacle portion and first contacts for receiving a first bus and a second receptacle portion and second contacts for receiving a second bus. The housing further includes electrical connections operably and electrically interconnecting the first contacts with the second contacts. The first cover portion is adapted for and operably engages the first receptacle portion to form a first electrical connection between the first contacts and the first bus such that the first electrical connection is insulated from external electrical contacts. The second cover portion is adapted for and operably engages the second receptacle portion to form a second electrical connection between the second contacts and the second bus such that the second electrical connection is insulated from external electrical contacts. The housing further includes at least one electrical test point in operable connection with the first electrical connection wherein the electrical test point has an external contact surface allowing an external device to monitor at least one electrical condition of the respective connection.











BRIEF DESCRIPTION OF THE DRAWING





FIG. 1

is a perspective view of a bus connector cap in accordance with the present invention.





FIG. 2

is a off side view of the connector cap of FIG.


1


.





FIG. 3

is a guide side view of the connector cap of

FIG. 1

taken along lines


3





3


.





FIG. 4

is a view of the connector cap of

FIG. 1

taken along lines


4





4


.





FIG. 5

is a perspective view of the connector base of the present invention taken from a first upper orientation.





FIG. 6

is a perspective view of the connector base of

FIG. 5

taken from a second lower orientation.





FIG. 7

is a drawing of the connector cap of

FIG. 1

in line slideable relation with a ribbon bus.





FIG. 8

shows the cap and bus of

FIG. 7

in pre-assembly relation with the connector base.





FIG. 9

is a drawing of the bus connector of the present invention in perspective with a pair of connector caps securing a pair of ribbon buses to a connector base.





FIG. 10

shows the assembled connector of

FIG. 9

along lines


10





10


.





FIG. 11

shows the assembled connector of

FIG. 9

along lines


11





11


.











DETAILED DESCRIPTION OF THE INVENTION




Referring to all the figures of the drawing, the present invention is directed to a bus connector


10


which includes a pair of bus connector caps


12


secured to bus connector base


14


such that each cap


12


secures a bus


16


in operable connection with the base


14


.




Now referring specifically to

FIGS. 1-4

, each cap includes a bus alignment guide


18


which is preferably color coded to enable an assembler to correctly align the bus


16


with the bus connector cap


12


. The bus connector cap


12


preferably includes molded tracks


20


wherein the length of the bus connector cap


12


parallel to the direction of the guide


18


and sized to receive and retain an appropriate bus


16


. Preferably, the tracks include a sealant


22


overlaying the tracks


20


on the cap


12


in a shape preformed to the bus


16


so as to provide a relatively impermeable seal about the bus


16


when the bus connector


10


is fully assembled.




The bus connector cap


12


also includes a pair of retaining arms


26


from a first end


28


, and a second pair of retaining arms


30


on a second end


32


. The guide


18


is on a top side


34


of the bus connector cap


12


, while the tracks


20


are on a bottom side


36


of the bus connector cap


12


. The bus connector cap


12


includes a guide side


40


nearest the guide


18


and an offside


42


farthest from the guide


18


where both the guide side


40


and the offside


42


are parallel to the guide


18


. The guide side


40


includes an alignment projection


46


while the offside


42


includes an alignment projection


48


. The alignment projection


46


and the alignment projection


48


have unique shapes to ensure that the bus connector cap


12


can only be attached to a bus connector base


14


in one unique arrangement. In the preferred embodiment, the alignment projection


46


has the shape of a half circle while the alignment projection


48


has a rectangular shape.




Referring now to

FIGS. 5 and 6

, each base


14


preferably includes a first cap engagement area


60


and a second cap engagement area


62


where the first and second cap engagement areas


60


,


62


are substantially identical. Each cap engagement area


60


,


62


includes molded tracks


64


adapted to receive a bus connector


16


and are preferably overlain with a sealant


66


in a shape preformed to the bus


16


so as to seal around the bus connector


16


in a weatherproof manner. Each track


64


includes a contact


70


having one or more edges


72


adapted for engaging a particular electrical connecting line


80


in the bus connector


16


, cutting through the insulating cover and making electrical connection between the contact and the actual electrical conductive line


80


. In the preferred embodiment, the bus connector


16


includes four electrical connector lines


82


,


84


,


86


and


88


held in flat relationship by a plastic ribbon


90


to form a plastic ribbon cable


92


.




Each cap engagement area


60


,


62


includes a contact


94


adapted to engage the line


88


, a contact


96


adapted to engage the line


86


, a contact


98


adapted to engage the line


84


, and a contact


100


adapted to engage the line


82


. Within and insulated by the base


14


itself, the contact


100


of cap engagement area


60


is electrically connected to the contact


100


of cap engagement area


62


. Similarly, contacts


98


,


96


and


94


of cap engagement area


60


are respectively electrically connected within the base


14


to the contacts


98


,


96


and


94


of the cap engagement area


62


.




The cap engagement areas


60


,


62


are located on a top side


110


of the base


14


. The bottom side


112


of the base


14


includes apertures


114


,


116


,


118


and


120


. The aperture


116


provides an electrical access point to an electrical connection


122


connecting the contacts


94


. The aperture


114


provides access to an electrical connector


124


connecting the contacts


96


. The aperture


120


provides access to an electrical connector


124


connecting the contacts


98


, and the aperture


118


provides access to an electrical connector


128


providing access to the contacts


100


. The apertures


114


,


116


are generally associated with the cap engagement area


60


, while the apertures


118


,


120


are generally associated with the cap engagement area


62


so as to provide a maximum over surface distance between the lines


82


,


84


and the lines


86


,


88


and thereby minimize corrosion crossover. Each aperture


114


,


116


,


118


and


120


basically functions as an electrical test point


130


allowing the effectiveness of the bus connector


10


to be tested by testing and reading the electrical signals through the test points


30


of each line


82


,


84


,


86


and


88


of the bus


16


itself.




The base


14


includes cap alignment guides


140


aligned with the track


64


holding the contacts


94


. Both a first side


142


and a second side


144


preferably include the guides


140


.




The base


14


includes projections


150


for engaging mating indentations on bus connector caps


12


. The base


14


also includes a receptacle


160


in each cap engagement area


60


,


62


adapted to receive the projection


46


. Similarly, the base


14


includes a second receptacle


162


adapted to receive the projection


48


.




To assemble the bus connector


10


, a bus connector cap


12


is aligned with and placed on a bus


16


such that the electrical lines


80


are in the tracks


20


. In the preferred embodiment, the electrical lines


94


,


96


are of a different gauge than the lines


98


,


100


and there are two sizes of tracks


170


,


172


to help ensure that the bus


16


and the bus connector cap


12


are aligned in a single alignment. Additionally, the guide


18


is aligned with the electrical line


88


thru the use of color coding the line


88


and the guide


18


. The retainers


30


and the sealant


22


engage the flat ribbon cable


92


in an interfering manner so as to prevent the sliding of the bus connector cap


12


with relation to the cable


16


in a frictional manner.




As is shown in

FIG. 8

, the bus


16


and the bus connector cap


12


are then moved over the desired cap engagement area


60


,


62


, the projection


46


is aligned with the retention area


160


, the projection


48


is aligned with the rejection area


48


, and the bus retainer cap


12


is pressed into engagement with a cap engagement area


62


such that the projections


150


retain and operably engage the receptacles


152


. The same procedure is repeated with a second receptacle connector cap


12


and a second bus


16


. This completed bus connector


10


is shown in

FIGS. 9

,


10


and


11


. Correct assembly is assured by aligning the guides


18


, the electrical lines


88


and the guides


140


of the respective bus connector cap


12


, the bus


16


, and the bus connector base


14


.




In the preferred embodiment the electrical line


88


provides power, the line


86


is also part of the power circuit acting as a ground or common line, while the lines


84


and


82


provide a conventional two line RS-


485


communications protocol.




What has been shown is a bus connector for connecting two ribbon cable buses operably and electrically using a pair of connector caps and a connector base. It will be apparent to a person of ordinary skill in the art that many changes and modifications could be made. The nature of the bus itself could be varied to a variety of conventional media including increasing or decreasing the number of electrical connecting lines in the ribbon bus, changing from a ribbon bus to other forms of electrical connecting buses or other conventional modifications. Additionally, the alignment and orienteering guides can be modified to other shapes and arrangements. Moreover, the electrical test points are shown in the preferred embodiment to include half of the test points relating to each connector cap. A person of ordinary skill in the art would recognize that all of the test points could be in direct relation to either cap or in various proportions thereto. All such modifications and alterations are contemplated to fall within the spirit and scope of the claimed invention.




What is desired to be secured for Letter Patent of the United States is set forth in the following claims.



Claims
  • 1. A system for electrically connecting electrical components, the system comprising:a first ribbon cable; a connector cap including a track area adapted to operably engage the ribbon cable, a cap alignment guide, and a cap orientation guide; and a connector base having a first ribbon cable receptacle area adapted to electrically engage a first ribbon cable, a second receptacle area adapted to electrically engage a second ribbon cable, electrical interconnection means electrically interconnecting the first and second receptacles, first and second base alignment guides respectively positioned adjacent the first and second receptacle areas for alignment with the cap alignment guide, and a orientation receptacle operably positioned to receive the cap orientation guide.
  • 2. The system of claim 1 wherein the base includes a first electrical test point in operable connection with the electrical connectors and having a first external access point.
  • 3. The system of claim 2 wherein the orientation guide for the connector cap includes a projection having a first shape and wherein the connector base orientation receptacle is of a corresponding shape and position to receive the orientation guide.
  • 4. The system of claim 3 wherein the orientation guide includes a second projection having a second shape and the orientation receptacle includes a second aperture of a similar shape as the second projection and adapted to receive same, and wherein the orientation guide and the orientation receptacle are positioned such that a connector cap can only be assembled to a connector base in one orientation.
  • 5. The system of claim 4 further including a second ribbon cable wherein the first and second flat ribbon cables include electrical connecting wires of different gauges and wherein the connector base and the connector cap respectively include cap and base tracks having varying size portions operatively adapted to receive the varying gauge electrical lines of the first and second ribbon cables.
  • 6. The system of claim 5 further including a second, a third and a fourth electrical test point in operable connection with the electrical connectors and having second, third and fourth external access ports respectively.
  • 7. The system of claim 5 wherein the electrical test points are in two groupings: a first grouping physically associated with the first receptacle area and a second grouping physically associated with the second receptacle area.
  • 8. The system of claim 7 wherein the first group is spaced in distance from the second grouping.
  • 9. The system of claim 5 wherein the connector cap includes retainer arms adapted to frictionally engage the web.
  • 10. The system of claim 3 wherein the cap alignment guide, and the first and second base alignment guides are color coded to match a color of a particular conductor in the flat ribbon cable.
  • 11. The system of claim 2 wherein the first ribbon cable includes first sized conductor, a second sized conductor, and a web around the first and second conductors.
  • 12. A connector for operably connecting a first and a second communications bus, the connector comprising:a connector base including first and second substantially identical cap engagement areas, each cap engagement area including tracks adapted to receive the first or second communications bus and contacts for each track adapted to electrically engage a portion of said communications bus, each contact in a cap engagement area being in electrical connection with a corresponding contact in the other cap engagement area to form electrically connected pairs of contact; a first bus connector cap including tracks sized to receive and retain the first or second communications bus; wherein the base includes an external aperture in association with each pair of electrically connected contacts providing an external electrical access point thereto.
  • 13. The connector of claim 12 wherein the first and second communications bus are flat ribbon cables.
  • 14. The connector of claim 13 wherein the bus connector cap includes an outer surface having an alignment guide and wherein the connector base includes first and second base alignment guides on an external surface of the base respectively associated with the first and second cap engagement areas.
  • 15. The connector of claim 14 wherein the flat ribbon cable, the cap alignment guide and the first and second base alignment guides include a visual indicia to aide in assembly and aligning a portion of the flat ribbon cable, a cap alignment guide, and either a first or second base alignment guide.
  • 16. The connector of claim 15 the connector cap further including retaining arms adapted to engage and retain said communication bus.
  • 17. The connector of claim 16 including a second bus connector cap substantially identical to the first bus connector cap wherein the first connector cap operatively engages the first cap engagement area and the second connector cap operatively engages the second cap engagement area.
  • 18. The connector of claim 17 wherein the connector cap tracks and the connector base tracks include portions of two different sizes, and wherein the flat ribbon cable includes electrical connecting lines of different gauges such that the different portions of the tracks are sized to receive the different gauges of the electrical lines.
  • 19. The connector of claim 18 wherein the connector base and the first and second connector caps are formed of a non-conductive material.
  • 20. The connector of claim 19 wherein when the connector caps and the connector bases each include means for assembling a cap to a connector base in a single orientation.
  • 21. The connector of claim 12 wherein when the connector caps and the connector bases each include means for assembling a cap to a connector base in a single orientation.
  • 22. An electrical connector for connecting first and second communications buses, each bus including at least first and second conduits, comprising:a non-conductive housing including a first receptacle portion and first contacts for receiving a first bus and a second receptacle portion and second contacts for receiving a second bus, the housing further including electrical connections operably and electrically interconnecting the first contacts with the second contacts; first cover portion adapted for and operably engaging the first receptacle portion to form a first electrical connection between the first contacts and the first bus such that the first electrical connection is insulated from external electrical contacts; second cover portion adapted for and operably engaging second receptacle portion to form a second electrical connection between the second contacts and the second bus such that the second electrical connection is insulated from external electrical contacts; the housing further including at least one electrical test point in operable connection with the first electrical connection wherein the electrical test point has an external contact surface allowing an external device to monitor at least one electrical condition of the respective connection.
  • 23. The electrical connector of claim 22 including an alignment guide on the first cover portion and corresponding alignment guides adjacent to the first and second electrical connection areas.
  • 24. The electrical connector of claim 23 wherein the cover portion includes an anti-slide feature.
  • 25. The electrical connector of claim 23 wherein the cover portion includes means for assembling the cover portion to the housing in a single orientation.
  • 26. The electrical connector of claim 22 wherein the at least one electrical test point comprises first, second, third and fourth electrical test points each having a respective electrical contact surface with respective first, second, third and fourth electrical lines in the first and second buses.
US Referenced Citations (8)
Number Name Date Kind
3736505 Sankey May 1973 A
5174782 Bogiel et al. Dec 1992 A
5199899 Ittah Apr 1993 A
5371323 Schneider et al. Dec 1994 A
5498172 Noda Mar 1996 A
5606150 Radliff et al. Feb 1997 A
5722851 Onizuka et al. Mar 1998 A
5759065 Hatagishi et al. Jun 1998 A
Foreign Referenced Citations (1)
Number Date Country
WO 9705682 Feb 1997 WO