ELECTRICAL CONNECTOR WITH ELECTROMAGNETIC SHIELDING AND REMOVABLE FOOLPROOFING SYSTEM

Abstract

An electrical connector with electromagnetic shielding includes a connector housing containing an insert configured to receive at least one electrical contact. The connector housing includes a connector body with a substantially cylindrical shape having a rear section, a central section and a front section. A ground ring is mounted around the front section of the connector body. A foolproofing section independent of the connector body is mounted at least partly around the front section of the connector body.

Claims

1-9. (canceled)

10. An electrical connector with an electromagnetic shielding, comprising a connector housing containing an insert configured to receive at least one electrical contact, the connector housing comprises: a connector body is substantially cylindrical in shape and comprises a rear section, a central section and a front section; a ground ring mounted around the front section of the connector body; and a foolproofing section independent of the connector body and mounted at least partly around the front section of the connector body.

11. The electrical connector according to claim 10, wherein the front section comprises a circular groove formed on a perimeter of the front section; and wherein the foolproofing section is an open ring fittable into the circular groove.

12. The electrical connector according to claim 11, wherein the foolproofing section is made of a deformable material that deforms during an installation of the foolproofing section into the circular groove and reverts to its initial shape after the installation of the foolproofing section into the circular groove.

13. The electrical connector according to claim 11, wherein the front section comprises a groove; and wherein the foolproofing section comprises a locking element or pin, that is configured to fit in the groove.

14. The electrical connector according to claim 10, wherein the front section comprises a grooved section and a smooth section; and wherein the foolproofing section is a cylinder section configured to fit around the grooved section.

15. The electrical connector according to claim 10, wherein the foolproofing section has foolproofing pins on its perimeter.

16. The electrical connector according to claim 15, wherein the foolproofing pins have shapes, dimensions and arrangements that are configured for a foolproofing system of a mating connector.

17. The electrical connector according to claim 10, wherein the ground ring is made of an electrically conductive material.

18. A method for mounting an electrical connector with an electromagnetic shielding, a connector housing of the electrical connector contains an insert configured to receive at least one electrical contact, the connector housing comprises a connector body that is substantially cylindrical in shape and comprises a rear section, a central section and a front section, the method comprising the steps of: installing a ground ring of the connector housing around the front section of the connector body by pushing the ground ring along the front section up to the central section of the connector body; and installing a foolproofing section, which is independent of the connector body, in part around the front section so that the ground ring is placed between the central section and the foolproofing section.

Description

BRIEF DESCRIPTION OF FIGURES

[0025] FIGS. 1A and 1B of the prior art represent perspective views of a conventional connector with electromagnetic shielding and a conventional connector housing with electromagnetic shielding.

[0026] FIGS. 2A, 2B and 2C represent a connector with electromagnetic shielding in accordance with a first embodiment of the invention.

[0027] FIGS. 3A, 3B and 3C represent a connector with electromagnetic shielding in accordance with a second embodiment of the invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

[0028] In one exemplary embodiment, the connector with electromagnetic shielding according to the invention comprises a connector housing in two parts: a connector body, around which a ground ring is mounted, and a foolproofing section mounted on the connector body after the ground ring is installed.

[0029] A first embodiment of the connector housing with electromagnetic shielding according to the invention is represented in FIGS. 2A and 2C. FIG. 2A is a perspective view of a connector body 100 according to the invention. FIG. 2B is a perspective view of a foolproofing section 15 designed to be mounted on that connector body 100. FIG. 2C shows the foolproofing section 15 mounted on the connector body 100 to form a connector housing 10.

[0030] The connector body 100 is a cylindrical element suitable for receiving an insert and electrical contacts (not represented in these figures). That connector body 100 is made up of several cylindrical sections 11, 12 and 14. It comprises a rear section 11 and a central section 12 that are identical with the second and third sections 12 and 11 respectively of the prior art described earlier. It further comprises a front section 14 around which the ground ring 20 is mounted.

[0031] That rear section 14 has a diameter smaller than that of the central section 12. It further has a diameter that is not even over its length. Indeed, the front section 14 comprises a circular groove 141 on its perimeter, placed substantially at the center of said front section 14. That circular groove 141 has dimensions adapted for receiving the foolproofing section 15 representing in FIG. 2B.

[0032] The foolproofing section 15 is an open ring 151 that is equipped, on its external surface, with foolproofing pins 152. That open ring 151 is made of a material that can be deformed to allow it to be installed in the circular groove 141 of the front section 14 and to revert to its original shape after it is installed. In exemplary embodiments, said ring is made of expanded shape memory material in the martensitic state, so that when heated, it reduces in diameter during the reversion to the austenitic state or alternatively in a state known as the superelastic state. In another embodiment, said ring is made of thermoplastic polymer, which may or may not be reinforced by short fibers, which makes it cost-effective to make and offers the possibility of directly showing the color code for foolproofing. That ring 151 comprises an opening 154 with an angular dimension adapted to allow said ring to fit around the circular groove 141 while preventing the accidental removal of said ring, for example when the connector is subjected to vibrations. In an exemplary embodiment, said opening corresponds to an angular opening of about 30.

[0033] The thickness of the open ring 151 (excluding foolproofing pins), is approximately equal to the height of the circular groove 141 of section 14. Thus, when the open ring 151 is installed in the circular groove 141, the surface of the rear area 16 of the connector body 100 is substantially uniform over its entire length. Only the foolproofing pins 152 protrude in this rear area 16.

[0034] In an exemplary embodiment, the foolproofing section 15 comprises a locking element 153 known as a pin, which protrudes from the edge of the open ring 151. That locking element 153, which is shaped like a parallelepiped, has dimensions adapted to fit in a groove 143 of the front section 14. Said groove 143 is a recess formed in the surface of the end area 142 of the front section 14, with a height approximately identical to the thickness of the locking element 153 so that when the foolproofing section 15 is installed around the front section 14, the end area 142 has a uniform surface. That locking element 153 associated with the groove 143 holds the foolproofing section 15 within the front section 14 and prevents said foolproofing section from rotating, including in the presence of vibrations.

[0035] In this embodiment, the connector with electromagnetic shielding according to the invention is manufactured as follows: [0036] a ground ring 20 is pushed along the front section 14 from the end area 142 until it presses against the central section 12; [0037] the foolproofing section 15 is then mounted in the circular groove 141 and made to rotate around the front section 14 until the locking element 153 fits in the groove 143.

[0038] The connector housing of the invention is thus formed. A mating connector with a foolproofing system adapted to the foolproofing pins 152 can then be coupled with the connector according to the invention.

[0039] A second embodiment of the connector housing with electromagnetic shielding according to the invention is represented in FIGS. 3A and 3C. FIG. 3A is a perspective view of a connector body 200 according to the invention. FIG. 3B is a perspective view of a foolproofing section 17 designed to be mounted on the connector body 200. FIG. 3C shows the foolproofing section 17 mounted on the connector body 200 to form a connector housing 10.

[0040] The connector body 200 is a cylindrical element suitable for receiving an insert and electrical contacts (not shown in these figures). That connector body 200 comprises several cylindrical sections 11, 12 and 18. It comprises a rear section 11 and a central section 12 that are identical with the second and third sections 12 and 11 respectively of the prior art described earlier. It further comprises a front section 18 around which the ground ring 20 is mounted.

[0041] That front section 18 comprises a grooved section 181 and a smooth section 182. The smooth section 182 has a diameter larger than that of the grooved section 181 and is suitable for receiving the ground ring 20. The grooved section 181 is a cylinder with an external surface bearing a plurality of ribs parallel to each other. The grooved section 181 is designed to receive the foolproofing section 17. Those two sections 181 and 182 are manufactured in a single piece in the same material.

[0042] The foolproofing section 17 is a section of a cylinder 171 where the inner diameter is slightly larger than the outer diameter of the grooved section 181 of the front section 18. In other words, the inner diameter of the foolproofing section 17 is adapted to the outer diameter of the grooved section 181 of the front section 18 so that said foolproofing section can be fitted onto said grooved section 181. Once the foolproofing section 17 is fitted, said foolproofing section is held in position, with no risk of rotation, by the grooving of the grooved section 181.

[0043] The foolproofing section 17 comprises a plurality of foolproofing pins 172 placed on the perimeter of the cylinder section 171. As in the first embodiment, the foolproofing pins 172 may have shapes, dimensions and distributions that are different, depending on the foolproofing systems of the mating connectors.

[0044] In this second embodiment, the thickness of the cylinder section 171 is such that the outer diameter of said cylinder section is equal to the outer diameter of the smooth section 182 of the rear section 18. Thus, when the foolproofing section 17 is installed around the grooved section 181, the surface of the front area 16 of the connector body 200 is substantially uniform over its entire length. Only the foolproofing pins 172 protrude in this front area 16.

[0045] In this embodiment, the foolproofing section 17 and the connector body 200 may be made in the same material or in different materials.

[0046] In this second embodiment, the connector with electromagnetic shielding according to the invention is manufactured as follows: [0047] a ground ring 20 is pushed along the front section 18 from the grooved section 181 up to the smooth section 182. The ground ring 20 is in position when it is around the smooth section 182 and presses against the central section 12; [0048] the foolproofing section 17 is then force fitted around the grooved section 181 until it presses against the smooth section 182.

[0049] The connector housing of the invention is thus formed. A mating connector with a foolproofing system adapted to the foolproofing pins 172 can then be coupled with the connector according to the invention.

[0050] It can be understood from the above that regardless of the embodiment, the ground ring 20 is merely pushed along the front section 14 or 18 without a foolproofing pin hindering its installation or deforming it, as said pins are installed after the ground ring has been put in place. The ground ring 20 is made with a diameter adapted to that of the front section 14 or 18 and does not risk being deformed permanently. As a result, there is no need for particular visual inspections.

[0051] Further, regardless of the embodiment, the foolproofing section is an element independent of the connector body. Many forms of foolproofing pins with different dimensions and arrangements may thus be mounted on the connector, which makes it possible to multiply the types of connector while retaining a standard connector body. It is therefore possible to manufacture unique mechanical arrangements for all the foolproofing systems required by standards and add the selected system when the connector is installed. To make it easier to recognize the different foolproofing systems, a color code may be associated with them: each form of foolproofing system is molded in a different color, which constitutes a foolproofing key that is easily recognized by the operator.