Contact element for a plug arrangement in a bus system, more particularly an externally routed bus system

The invention claimed is: 1. A resilient electrical contact for connecting an electrical component with a bus bar system arranged externally of a housing, comprising: (a) a contact spring formed from a sheet of resilient conductive material, said contact spring being reversely bent to define at least three open-ended generally tulip-shaped receptacles each having a pair of generally parallel longitudinal leg portions connected at one end by a transverse connecting portion, (b) said contact spring being operable to electrically connect a conductor inserted in one receptacle of said contact spring with a bus bar inserted into another receptacle of said contact spring; and (c) at least two bus bars arranged collinearly longitudinally in end-to-end relation, the adjacent ends of said bus bars extending into a single common receptacle of, and in electrical engagement with, said contact spring. 2. A resilient electrical contact for connecting an electrical component with a bus bar system arranged externally of a housing, comprising: (a) a contact spring formed from a sheet of resilient conductive material, said contact spring being reversely bent to define at least three open-ended generally tulip-shaped receptacles each having a pair of generally parallel longitudinal leg portions connected at one end by a transverse connecting portion, (b) said contact spring being operable to electrically connect a conductor inserted in one receptacle of said contact spring with a bus bar inserted into another receptacle of said contact spring; and (c) at least two parallel laterally-spaced bus bars arranged in end-overlapping relation, the adjacent ends of said bus bars extending into separate receptacles of, and in electrical engagement with, said spring contact. 3. A resilient electrical contact for connecting an electrical component with a bus bar system arranged externally of a housing, comprising: (a) a contact spring formed from a sheet of resilient conductive material, said contact spring being reversely bent to define at least three open-ended generally tulip-shaped receptacles each having a pair of generally parallel longitudinal leg portions connected at one end by a transverse connecting portion, (b) said contact spring being operable to electrically connect a conductor inserted in one receptacle of said contact spring with a bus bar inserted into another receptacle of said contact spring; and (c) a resilient generally U-shaped cover spring partially enclosing said contact spring and operable to bias together the outermost longitudinal legs of said contact spring, said cover spring having: (1) a pair of longitudinal leg portions extending adjacent the outer surfaces of the outermost longitudinal leg portions of said contact spring, and (2) a transverse portion connected between a pair of adjacent ends of said cover longitudinal leg portions. 4. A resilient electrical contact as defined in claim 3 , and further including: (c) a housing containing a chamber in which is mounted an electrical component, said housing having a wall opening communicating with said chamber; (d) a bus bar system comprising a plurality of bus bar lines arranged externally of and adjacent said housing; (e) a support socket arrangement supporting said contact spring externally of said housing adjacent said wall opening, at least one bus bar line of said bus bar system extending into one of the receptacles of said contact spring; and (f) an electrical connector having a first end connected with said electrical component, said electrical connector extending through said housing wall opening toward electrical engagement within another receptacle of said contact spring, whereby said electrical component is connected by said contact spring with said at least one bus bar line. 5. A resilient electrical contact as defined in claim 3 , wherein said contact spring has a generally W-shaped cross-sectional configuration defining three receptacles. 6. A resilient electrical contact as defined in claim 3 , wherein said contact spring has a generally double-W-shaped cross-sectional configuration defining five receptacles. 7. A resilient electrical contact as defined in claim 3 , wherein successive receptacles of said contact spring have openings facing in opposite directions. 8. A resilient electrical contact as defined in claim 3 , wherein the opposed surfaces of at least two successive longitudinal contact spring portions define a receptacle including inwardly directed projections for engaging a conductor that is inserted into that receptacle. 9. A resilient electrical contact as defined in claim 3 , wherein said contact spring is formed from a single sheet of strip material. 10. A resilient electrical contact as defined in claim 3 , wherein said cover spring transverse portion contains an opening receiving at least one bent portion of said contact spring. 11. A resilient electrical contact as defined in claim 10 , wherein the longitudinal side walls of said cover spring include tongue portions that extend into said opening, said tongue portions having end portions that are biased toward engagement with the outer surfaces of the outermost longitudinal leg portions of said contact spring.