Contact element and multiple contact assembly

Abstract

A contact element for electrically connecting an electrical conductor with an electrical assembly includes two contact rails extending in a longitudinal direction. The rails are arranged one above the other and are at a distance from one another in a contact direction and are also connected to each other via a connection piece. The connection piece is arranged at a first side of the contact rails and extends in the longitudinal direction and in the contact direction so that the contact element is formed in an approximately U-shaped manner in a cross section transversely to the longitudinal direction which runs through the connection piece.

Claims

1. A multiple contact assembly for connecting an electrical conductor with an electrical assembly, comprising (a) first, second, third and fourth contact rails extending in a longitudinal direction and spaced from one another in a contact direction; and (b) first, second and third connection elements extending in the contact direction, said first connection element connecting first ends of said first and second contact rails, said second connection element connecting second ends of said second and third contact rails, and said third connection element connecting first ends of said third and fourth contact rails, said contact rails and connection elements having a serpentine configuration to define a pair of adjacent symmetrically arranged contact elements each having a U-shape in cross-section; and (c) a plurality of spaced contact prongs extending from said first, second, third and fourth contact rails, respectively, said contact prongs of said second and third rails extending a first distance from said second and third rails and said contact prongs of said first and fourth rails extending a second distance greater than said first distance from said first and fourth contact rails, said contact prongs of said first and second contact rails defining a first contact space which receives and retains a first conductor and said contact prongs of said third and fourth contact rails defining a second contact space which receives and retains a second conductor.

2. A multiple contact assembly as defined in claim 1, wherein free ends of said contact prongs of said first and fourth contact rails extend over and above free ends of said contact prongs of said second and third contact rails, respectively.

3. A multiple contact assembly as defined in claim 2, wherein said contact prongs include bearing surfaces adjacent said free ends thereof for abutment against a conductor.

4. A multiple contact assembly as defined in claim 3, wherein said contact prongs are bent in the contact direction.

5. A multiple contact assembly as defined in claim 4, wherein said contact prongs of said first and fourth contact rails are wider than said contact prongs of said second and third contact rails.

6. A multiple contact assembly as defined in claim 5, wherein at least one of said contact prongs of said second and third contact rails are arranged opposite spaces between said contact prongs of said first and fourth contact rails, respectively.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) Other objects and advantages of the disclosure will become apparent from a study of the following specification when viewed in the light of the accompanying drawing, in which;

(2) FIG. 1a is a side view of a contact element with two contact rails;

(3) FIG. 1b is a side view of a multiple contact assembly with two contact elements;

(4) FIG. 1c is a side view of the multiple contact assembly shown in FIG. 1b from the opposite side;

(5) FIG. 1d is a rear view of the multiple contact assembly of FIGS. 1b and 1c;

(6) FIG. 1e is a side view of another embodiment of a multiple contact assembly with two contact elements;

(7) FIGS. 1f and 1g are front and rear perspective views of the multiple contact assembly shown in FIGS. 1b and 1c, respectively;

(8) FIG. 1h is a sectional view of the multiple contact assembly shown in FIG. 1g taken along line A-A;

(9) FIG. 1i is a bottom perspective view of the multiple contact assembly shown in FIG. 1b; and

(10) FIG. 2 is a perspective view of a multiple contact assembly connected with an electrical assembly.

DETAILED DESCRIPTION

(11) FIG. 1a shows a first side 51 of an electrical contact element 1. The contact element 1 has two contact rails 11, 12, which extend in a longitudinal direction 31. The contact rails 11, 12 are arranged one above the other in a contact direction 32. They are at a distance from one another in the contact direction 32.

(12) In order to join the contact rails 11, 12 together, a connection element 15 is provided. The connection element 15 is arranged at the first side 51 of the contact rails 11, 12 such that the contact element 1 is formed approximately in a U-shape in a cross section transversely to the longitudinal direction 31, extending through the connection element 15 as shown in FIG. 1d. The contact rails 11, 12 form the parallel legs of the U-shape and the connection element 15 forms the junction of the legs extending transversely thereto.

(13) In a connection region 150 in which the contact rails 11, 12 are joined together by the connection element 15, the rails extend substantially parallel to each other.

(14) In order to arrange the contact rails 11, 12 one above the other without touching each other, the front or first contact rail 11 in the longitudinal direction 31 extends beyond the rear or second contact rail 12 in the contact direction 32.

(15) The contact rails 11, 12 are designed to bear against a conductor 2 and thus include a kink or bend 181, 191. In the kink 181, 191, the contact rails 11, 12 are bent at an obtuse angle 180, 190 in the contact direction 32 as shown in FIG. 1c. The kinks 181, 191 of the contact rails 11, 12 are offset from each other in the longitudinal direction 31. The kink 181 of the second contact rail 12 is situated in the longitudinal direction 31 in front of the kink 191 of the first contact rail 11. It is provided directly at the connection region 150, while the kink 191 of the first contact rail 11 is at a distance from the kink 181 in the longitudinal direction 31.

(16) The contact rails 11, 12 have a rear or first open end 1101, 1201 in the longitudinal direction 31 and a front or second open end 1102, 1202 in the longitudinal direction 31. In the longitudinal direction 31, in front of the first open end 1101, 1201, there is provided a bearing surface 110, 120, which is designed to bear against the conductor component 2.

(17) To prevent damage to the conductor 2 by the bearing surface 110, 120, the contact rails 11, 12 have an arch shape at the bearing surface 110, 120. The arches 182, 192 each have an obtuse angle 183, 193 as shown in FIG. 1c. In this way, no sharp edges are present in the bearing surfaces 110, 120.

(18) The contact rails 11,12 each have two opposite narrow sides 171, 171 and two opposite broad sides 172, 172. FIG. 1a shows one of the two narrow sides 171. The bearing surface 110, 120 of the contact rails 11, 12 is provided on one of the broad sides 172 of the contact rails 11, 12.

(19) In order to manufacture the contact element 1 inexpensively, it is formed as a single element from a flat strip material. The connection element 15 is arranged at one of the narrow sides 171, 171 of the contact rails 11, 12, in the present case at the narrow side 171 of the first side 51. The flat strip material is bent around a connection angle 195 shown in FIG. 1d. The connection angle 195 between the contact rails 11, 12 and the connection element 15 is around 90. The connection element 15 therefore extends substantially in the longitudinal direction 31 and the contact direction 32.

(20) In order to increase the number of bearing surfaces 110, 120, the contact rails 11, 12 each have at least two contact prongs 111-113, 121-125 as shown in FIGS. 1d and 1e. The contact prongs 111-113, 121-125 are arranged alongside each other in a transverse direction 33, which extends transversely to the longitudinal direction 31 and transversely to the contact direction 32. The prongs are formed by groove-like incisions (not shown) in the contact rails 11, 12.

(21) In order to connect the contact element 1 to an electrical assembly, a terminal 16 is arranged on the second contact rail 12. The second contact rail 12 therefore extends beyond the connection element 15 by the terminal 16 against the longitudinal direction. On the contrary, the second open end 1102 of the first contact rail 11 is provided flush with the connection element 15 in the longitudinal direction 31.

(22) The terminal 16 is formed as a single element with the second contact rail 12. In this way, the second open end 1202 of the second contact rail 12 is arranged before the second open end 1102 of the first contact rail 11 in the longitudinal direction 31.

(23) FIGS. 1b-1d show a multiple contact socket or assembly 10 formed from two such contact elements 1, 1. The two contact elements 1, 1 of the multiple contact assembly 10 are symmetrically arranged relative to a center plane M. FIG. 1b shows the first side 51 of the multiple contact assembly 10 where a first of the two narrow sides 171 of the contact rails 11, 12, 13, 14 of the contact elements 1, 1 can be seen. FIG. 1c shows the second side 52 of the multiple contact assembly 10, situated opposite the first side 51, so that the second narrow side 171 the contact rails 11, 12, 13, 14 of the contact elements 1,1 situated opposite the first narrow side 171 can be seen. FIG. 1d shows a rear end face 42 of the multiple contact assembly 10. A front end face 41 of the multiple contact assembly 10 is shown in

(24) The multiple contact assembly 10 has two contact rails for each contact element 1, 1 for a total of four rails 11-14. The contact rails 11-14 each extend in the longitudinal direction 31. They are arranged one above another in the contact direction 32, and at a distance from one another. The first contact rails 11, 14 of the two contact elements 1,1, extending in the longitudinal direction 31 beyond the other second contact rails 12, 13, are arranged on the outside of the multiple contact assembly 10. The second contact rails 12, 13 are accordingly arranged on the inside.

(25) The bearing surfaces 110, 120 are arranged opposite each other. The conductor 2 can therefore be moved in a sliding direction, which extends against the longitudinal direction 31, from the front end face 41 into the multiple contact assembly 10. It is clamped between the contact rails 11-14 by the contact force of the rails. A contact space 100 to receive the conductor 2 is centrally arranged within the multiple contact assembly 10 between the contact elements 1, 1.

(26) The adjacent contact rails 11-14 are joined together by a connection element 15. The connection elements 15 are arranged at mutually opposite narrow sides 171, 171 of the same contact rail 11-14. In this way, the multiple contact assembly 10 has an approximately W shape in a cross section running transversely to the longitudinal direction 31 and in the connection region 150 as shown in FIG. 1d. In this way, the conductor 2 can be inserted as far as the connection region 150 into the multiple contact assembly 10.

(27) For connection of the multiple contact assembly 10 to an electrical assembly, one of the two contact elements 1 has a second contact rail 12 with a terminal 16. No additional terminal 16 is provided on the other contact element 1. In the contact element 1 with no terminal 16, the second open ends 1302, 1402 of the contact rails 13, 14 are therefore arranged flush with each other and with the connection element 15.

(28) In FIG. 1d the contact prongs 111-113, 121-125, 131-135, 141-143 of the contact rails 11-14 are shown. In this sample embodiment, the first contact rails 11, 14 each have three contact prongs 111-113, 141-143. The second contact rails 12, 13 on the other hand each have five contact prongs 121-125, 131-135. This is also shown in the perspective views of FIGS. 1f to 1i.

(29) Furthermore, the roughly W-shaped arrangement of the contact rails 11-14 and the connection elements 15 to each other is shown in FIGS. 1f to 1i.

(30) FIG. 1e shows another side view of another embodiment of a multiple contact assembly 10. The multiple contact assembly 10 differs from the multiple contact assembly 10 of FIGS. 1b, 1c, 1d, 1f, 1g, 1h and 1i by the number of contact prongs 121-122, 131-132 provided at the second contact rails 12, 13. Here, the second contact rails 12, 13 each only have two contact prongs 121,122, 131, 132.

(31) FIG. 2 shows an exemplary arrangement with the multiple contact assembly 10 of FIGS. 1b, 1c and 1d, a contact part 4 of an electrical assembly not otherwise shown, and a conductor 2. The conductor 2 is a printed circuit board, which is moved in the sliding direction 30 into the contact space 100 between the two contact elements 1, 1 of the multiple contact assembly 10 and clamped therein. The contact part 4 of the electrical assembly lies against or is connected with the terminal 16 in electrical contact.

(32) While the preferred forms and embodiments of contact element and multiple contact assembly have been illustrated and described, it will be apparent to those of ordinary skill in the art that various changes may be made.