FR2954609A1 - COAXIAL CONNECTOR WITH METALLIC PLASTIC BODY - Google Patents

Abstract

The present invention relates to a coaxial connector (1), comprising: - a body, - a ground contact, - a central contact (17), and. an insulator (20) interposed between the central contact (17) and the ground contact, characterized in that the insulator (20) and the body are two distinct pieces and in that said body comprises a metallized coating defining mass contact.

Description

The present invention relates to a coaxial connector. This coaxial connector is for example of the type (MA or MCX type, but the invention is not limited to a particular type of coaxial connector.The invention applies for example to coaxial connectors in the medical field, in the field of aeronautics or transport, in the field of space or in the field of telecommunications Coaxial connectors comprise a body, a contact of mass and a central contact received in the body with the interposition of an insulator. to make such coaxial connectors, to use separate parts 10, and for some metal, to make the body, the center contact, the ground contact and the insulator Such connectors can be relatively complex to assemble, a relatively high production cost and a high weight US Patent 5,860,812 discloses a connector intended to be mounted on a device, for example a printed circuit board or a circuit board. n panel, comprising a body made in one piece with the insulator and a mass contact made by metallization portions of the body. There is a need for coaxial connectors, for example for coaxial cable mounting, which are relatively simple in design, inexpensive to manufacture, and lightweight. The invention aims to meet this need and it achieves, in one of its aspects, through a coaxial connector comprising: a body, a ground contact, a central contact, and an insulator interposed between the central contact and the mass contact, characterized in that the insulator and the body are two separate parts and in that the body has a metallized coating defining the mass contact. Such a connector has a small number of parts, thereby reducing the number of assembly steps and the manufacturing cost. Thanks to the invention, the assembly step between the body and the mass contact is thus eliminated. In addition, the absence of space between the body and the mass contact makes it possible to reduce the risks of the connector being subjected to the multipactor effect, which corresponds to a discharge phenomenon occurring in microwave or radio frequency components. . The body is advantageously made by molding at least one plastic material. The plastics are for example selected from thermoplastic materials such as PEI, PS, PET, PEEK, LCP. The use of plastic material to make the body which is the largest part of a coaxial connector reduces the weight of the connector. It is also easy to adapt the coaxial line of such a connector by geometric modification of the body structure, complex geometric configurations that can be obtained. The manufacture of the body by molding can make it possible to produce complex shapes incorporating numerous changes in external diameters of the mass contact adapted to the production of certain coaxial microwave components, for example filters or attenuators. These complex shapes are relatively expensive and difficult to manufacture by machining because of the large number of operations then required. The use of a plastic material in place of metallic materials can also give the coaxial connectors obtained a better resistance to corrosion, to reduce the risk of degradation of the contact resistances of the connector, the connector or parts of the connector plastic being not susceptible) to aggravate the corrosion when corrosion points appear at the metallized coating of the coaxial connector, contrary to the case where metal parts are used and where propagation, pitting, corrosion or Galvanic corrosion can occur. A body and a ground contact as described above can further reduce the number of internal diameter changes of the connector for the mechanical assembly of the insulator into the connector, thereby improving the standing wave ratio of the connector. coaxial connector. When the coaxial connector is intended to be mounted on a coaxial cable, the use of one or more plastics may also make it possible to improve the retention performance on the cable of the connector, the plastics having, for example, elastic properties after fixation, for example by crimping, of the connector on the coaxial cable.

In addition, the mass contact being defined by the metallized coating of the body of plastic material (s), this mass contact can have a satisfactory elasticity, making the connector less subject to the risk of rupture. This is particularly advantageous when the ground contact has a flexible and resilient end necessary for the latching function. With connectors according to the invention, the electrical continuity between connectors of complementary connected types is improved compared to the connectors with machined metal parts, because of this elasticity. A connector according to the invention is advantageously recyclable, being for example composed of one or more plastics themselves recyclable and a metal coating that can be recovered and eliminated. The metal coating is advantageously in compliance with the RoHS Directive. The plastics material is advantageously filled with fibers, for example fibers chosen from glass fibers or carbon fibers. The fibers may or may not include metal additives. The glass and carbon fibers make it possible to reinforce the mechanical and thermal resistance of the plastic material and the metal additives can render said plastic material metallizable. The metallized coating advantageously covers the entire surface of the body. The body is for example immersed in a plating bath, so that after immersion, the entire outer and inner surface of the body is covered by the metallized coating.

The body extends for example along a first longitudinal axis and advantageously comprises a barrel (front portion of the connector coming into contact with the complementary type connector) extending around said first axis. The barrel can extend all around the first axis of the body. Alternatively, the barrel is defined by a plurality of cantilevered beams extending along the first longitudinal axis of the body. The plurality of beams may comprise at least one first beam comprising a locking means of the connector on a complementary type coaxial connector and at least one second beam comprising a guide and centering means of the connector when connecting the latter to the connector coaxial type.

The body of the connector advantageously has at its end at a distance from the barrel at least one cutout formed in the wall of the body, this cutout allowing for example to dissipate the heat over a larger surface of the body during the brazing of the braid of a coaxial cable on the body when mounting the connector on said cable. The risks of body melting related to the fact that the heat is concentrated on the circular section of the end of the body during welding when the body is made of plastic material are then reduced.

The connector can be bent, in which case the first longitudinal axis makes an angle, substantially equal to 90 ° for example, with a second longitudinal axis of the body. Alternatively, the connector is straight, in which case the first longitudinal axis is the only longitudinal axis of the body. The connector advantageously comprises a cavity extending along the first longitudinal axis in a median zone of the body. The central contact is advantageously a separate piece reported in said cavity. Such a coaxial connector may be intended to be mounted on a coaxial cable. Alternatively, such a coaxial connector is for example intended to be mounted on a printed circuit board or a panel. The coaxial connector advantageously comprises a plug intended to be placed around the fit. The coaxial connector is for example of the CFA or MCX type. Other advantageous and characteristic properties of the invention can be better understood from the following description of nonlimiting examples of implementation thereof and from the examination of the attached drawing in which: FIG. 1 schematically represents in axial section a coaxial connector according to an embodiment of the invention, and - FIG. 2 is an isolated representation of the body of the connector shown in FIG. 1. FIG. coaxial connector generally designated 1 according to an exemplary implementation of the invention. This connector 1 is in the example described a bent connector, for example QM.A type, but the invention is not limited to such an example. This connector 1 comprises a body generally designated 2, an insulator 20 and a central contact 17.

The body 2 is made of one or more plastics, for example selected from thermoplastic materials such as PEI, PPS, PET, PEEK, LCP. The plastics may be loaded with fibers and may be selected to combine the performance of high resistance to mechanical stress and thermal stresses. The body 2 comprises in the example of Figure 1 a first tubular portion 3 having an end 5 intended to come into contact with a coaxial type of complementary connector when connecting these two coaxial connectors. The first tubular portion 3 extends along a first longitudinal axis X. As can be seen, the first tubular portion 3 may comprise at its longitudinal end 5 a shaft 6 extending cantilever about the axis X, the barrel 6 has an inner wall 7 and an outer wall 8, the latter may or may not extend continuously around the axis X. As described later, the barrel extends for example discontinuously around the axis X. The first tubular portion 3 has in the example described at its longitudinal end 50 opposite the end 5 an opening 51 for the insertion of tools for welding the core of a cable coaxial on the central contact 1.7 of the connector 1.

This opening 51 can be closed off by a removable cover 35. As can be seen, locking means 10, for example a shoulder, can be formed on the inner wall 7 of the shank 6 to cooperate with complementary locking means, for example for example a groove and a shoulder, formed on the outer surface of the complementary type connector.

The body 2 comprises in the example described a second portion 11 extending along a second longitudinal axis Y, which here perpendicular to the axis X. As shown, a housing 12 for receiving the coaxial cable may be provided to the inside the second portion 11, this housing 12 extending along the Y axis to a cavity 13 formed inside the first tubular portion 3, at the longitudinal end 50. One or more cutouts 54 may, as shown in Figure 1, be formed in the wall of the second portion 11 of the body at the end 55 of the second portion I l outwardly of the body 2. In the example shown, the body surface 2 has a metallized coating, this coating being deposited on the entire outer and inner surface of the body 2, for example by immersion in a plating bath. The metallized coating defines the ground contact of the coaxial connector 1.

The insulation 20 is a separate part of the body 2. The insulation is for example made of a plastic material different from that of the body, for example PTFE. The insulator has a through internal cavity 14 and is held inside a through cavity 56 formed inside the first portion 3 of the body 2 by harpoons 57 protruding from the body 2 inwards of the cavity 56. The central contact 17 is intended to cooperate with the central contact of the coaxial connector of the complementary type. In the example of FIG. 1, the central contact 17 is a metal piece, for example made of CuBe2, attached to the cavity 14. This central contact 17 has on its lateral surface harpoons 18 making it possible to maintain it at a constant distance. 14. The coaxial connector 1 may also comprise a plug 21 intended to be mounted on the barrel 6, this plug having for example an opening for the passage of the complementary type connector during a connection. This plug 21 provides an additional locking function of the interconnection thus made between the two connectors and also improves the retention of the connector 1 relative to the complementary type connector. In an example not shown, the coaxial connector 1 is a straight connector, for example of the MCX type, extending along a single longitudinal axis X. The second portion 11 is then a rear portion intended to be received in a sleeve (ferrule in English) for attachment to the coaxial cable. FIG. 2 shows the body of the coaxial connector 1 of FIG. 1. In this example, the barrel 6 does not extend continuously over the periphery of the X axis and comprises a plurality of first beams 40 and second beams 41 which are in the example described arranged alternately all around the X axis of the connector. The first beams 40 comprise, as can be seen, on their side facing the inside of the body a locking relief 10 intended to cooperate, for example by snapping, with a groove of the complementary type connector. The second beams 41 comprise for example a portion 42 projecting inwards from the body 2 and extending along the axis X, the distance between the axis X and this portion 42 being for example equal to the outer radius of the complementary type connector part intended to be received inside the fact 6 when connecting the two connectors. In the example shown in FIG. 2, the body 2 is an angled coaxial connector body of the QUA type but, in a variant not shown, a straight connector body could comprise first and second beams as represented in FIG. The invention makes it possible to obtain a coaxial connector having a number of parts and a reduced cost and is intended, for example, for the market of the comice-tick in the medical field, providing a solution to the non-magnetic behavior, because of the control complete material and coating in terms of magnetic pollution (no contamination from ferrous particles from the machining process). The invention can also be applied to the market of aeronautical connectivity or for transport, in particular because of the weight gain it brings and which can reduce the overall consumption of the equipment in which it is used. The invention can still be applied to the connectivity industry for the space domain, making it possible to compensate for multi-factor effects and to reduce the payload of the satellites. The invention can still be applied to the telecommunications connectors market, because of the gain in terms of manufacturing, transport and assembly costs. The connector according to the invention can also be presented in a duplex, three-part, quadriplex version ... by duplicating the internal structure, that is to say the insulation and the central contact, within the same body presenting thus different interfaces.

The phrase "having one" should be understood as "having at least one" except when the opposite is specified.

Claims (11)

REVENDICATIONS1. Coaxial connector (1), comprising: a body (2), a ground contact, a central contact (17), and an insulator (20) interposed between the central contact (17) and the ground contact, characterized by the fact that the insulator (20) and the body (2) are two separate parts and in that said body (2) has a metallized coating defining the mass contact. 0 2. Connector according to the preceding claim, characterized in that the body (2) is made by molding plastic material (s) (s). 3. Connector according to claim 2, characterized in that the plastic or plastics are loaded with fibers with or without metal additives. 4. Connector according to any one of the preceding claims, characterized in that the metallized coating covers the whole. body surface (2). 5. Connector according to any one of the preceding claims, characterized in that the body (2) comprises a shaft (6) extending around a first longitudinal axis (X) of the body. 6. Connector according to claim 5, characterized in that the shaft (6) extends over the entire periphery of the first axis (X) of the body (2). 7. Connector according to claim 5, characterized in that the shaft (6) is defined by a plurality of beams (40, 41) extending cantilever along the first axis (X) of the body. 8. Connector according to claim 7, characterized in that the plurality of beams 25 comprises at least one first beam (40) having a locking means (10) of the connector on a coaxial connector (4) of complementary type and at least a second beam (41) comprising means for guiding and centering the connector when connected to the complementary type coaxial connector. 9. Connector according to any one of claims 5 to 8, characterized in that the body (2) has at its end away from the barrel (6) at least one cutout (54) formed in the wall of the body. 10. Connector according to any one of claims 1 to 9, characterized in that the central contact (17) is a separate part reported in a cavity (14) of the body. 11. Connector according to any one of claims 1 to 10, characterized in that the body (2) has a housing for receiving a coaxial cable.