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CN-121986418-A - Circular plug connector with receptacle for a data plug connector

CN121986418ACN 121986418 ACN121986418 ACN 121986418ACN-121986418-A

Abstract

The invention relates to a system consisting of a circular plug connector and a data plug connector (6), wherein the circular plug connector has an insulator (1, 1') in which an opening (10) for receiving a contact element and at least one receiving region (13) for the data plug connector (6) or a data plug connector socket (15) are provided.

Inventors

  • Sebastian Gripenstero
  • MEIER HEIKO
  • Yonutz Traian Moses

Assignees

  • 浩亭电子基金会两合公司

Dates

Publication Date
20260505
Application Date
20241120
Priority Date
20231205

Claims (14)

  1. 1. A system consisting of a circular plug connector and a data plug connector (6), Wherein the circular plug connector has an insulator (1, 1') in which an opening (10) for receiving the contact element and at least one receiving region (13) for the data plug connector (6) or the data plug connector socket (15) are provided.
  2. 2. The system according to claim 1, It is characterized in that the method comprises the steps of, The data plug connector (6) and the data plug connector socket (15) each have a latching arm (7, 7 '), by means of which the data plug connector (6) or the data plug connector socket (15) can each be reversibly latched in the receiving region of the insulator (1, 1').
  3. 3. The system according to the preceding claim, It is characterized in that the method comprises the steps of, At least one latching edge (12) is provided in the receiving region (13) of the insulator (1'), at which latching edge the latching arm (7) of the data plug connector (6) latches.
  4. 4. The system according to claim 2, It is characterized in that the method comprises the steps of, A locking opening (16) is provided in the receiving region (13) of the insulator (1), in which the locking arm (7') of the data plug connector socket (15) is locked.
  5. 5. The system according to any of the preceding claims, It is characterized in that the method comprises the steps of, In the pushed-in state, the data plug connector (6) is flush with the insulator (1') on the plug side.
  6. 6. The system according to any of the preceding claims, It is characterized in that the method comprises the steps of, In the pushed-in state, the data plug connector socket (15) protrudes axially from the insulator (1) on the plug-in side.
  7. 7. The system according to any of the preceding claims, It is characterized in that the method comprises the steps of, The data plug connector (6) is an RJ45 plug connector and/or the data plug connector socket (15) is an RJ45 plug connector socket.
  8. 8. The system according to any of the preceding claims, It is characterized in that the method comprises the steps of, The data plug connector (6) is a commercially available RJ45 type plug connector and/or the data plug connector socket (15) is a commercially available RJ45 type plug connector socket.
  9. 9. A round plug connector has an insulator (1, 1') with an opening (10) for receiving a contact element and exactly one receiving region (13) for a data plug connector (6).
  10. 10. The circular plug connector according to claim 9, It is characterized in that the method comprises the steps of, The data plug connector (6) is an RJ45 type plug connector.
  11. 11. The circular plug connector according to claim 9, It is characterized in that the method comprises the steps of, The data plug connector socket (15) is an RJ45 type plug connector socket.
  12. 12. The circular plug connector according to any one of the three preceding claims, It is characterized in that the method comprises the steps of, The insulator (1, 1') is essentially cylindrical and has an essentially circular cross section.
  13. 13. The circular plug connector according to any one of the four preceding claims, It is characterized in that the method comprises the steps of, The insulator (1, 1') is formed in one piece.
  14. 14. The circular plug connector according to any one of the four preceding claims, It is characterized in that the method comprises the steps of, At least one insertion edge (14) is provided in the receiving region (13) of the insulator (1, 1'), which delimits the insertion depth of the data plug connector (6) or the data plug connector socket (15).

Description

Circular plug connector with receptacle for a data plug connector Technical Field The invention is based on a system of the type according to independent claim 1, which consists of a circular plug connector and a data plug connector. Furthermore, the invention relates to a circular plug connector of the type according to independent claim 9. Circular plug connectors are used in particular in device connection technology. The round plug connector enables not only energy but also signals to be transmitted to the machine. Background DE 203 18 593 U1 shows a circular plug connector in which the individual wires of the connected multi-core cables are each contacted or connected in an electrically conductive manner via insulation displacement connections. For data transmission, fine contact elements with a small cross section are usually used, while for energy transmission, more solid contact elements with a larger cross section are used. As a result of the different contact elements being installed in the plug connector, the contact elements are limited in terms of their field of application. The German patent and trademark office in the priority application of the application retrieves the following prior art, U.S. Pat. No. 6,175,078 B1,US 6,257,923 B1 and EP 1 830 437 A2. Disclosure of Invention The object of the invention is to provide a circular plug connector which can be produced flexibly and advantageously. The object is achieved by the subject matter of the independent claims. Advantageous embodiments of the invention are specified in the dependent claims and in the following description. The system according to the invention consists of a circular plug connector and a data plug connector. The circular plug connector has an insulator in which an opening for receiving the contact element is provided. The opening is also referred to as a contact element receptacle. The insulator further has at least one receiving region which is provided for receiving a data plug connector or a data plug connector socket. This means that the data plug connector or the data plug connector socket can be inserted or pushed into the receiving area and preferably snapped into it. The data plug connector according to the invention and the data plug connector socket according to the invention each have a latching arm. The latching arm is suitable (and preferably also provided for) reversibly latching the data plug connector according to the invention and the data plug connector socket according to the invention to one another in the plugged state. However, with the present invention, the latching arms serve to reversibly latch the data plug connector or the data plug connector socket, respectively, in the insulator. Thus, the locking arm can no longer fulfil the originally intended function, i.e. locking the plug connection between the data plug connector and the data plug connector socket. The locking of the plug connection between the circular plug connector and the corresponding mating plug connector is achieved by a locking collar at the housing of the circular plug connector. The locking collar then also takes on the function of the locking arm of the data plug connection, which is provided for this purpose. Preferably, in the pushed-in or fixed state, the data plug connector is flush with the insulator on the plug side. In particular, a good guidance during the plugging process with the mating plug connector is thereby ensured. Advantageously, in the pushed-in state, the data plug connector socket protrudes axially from the insulator on the plug-in side. Thereby, an insertion area for the mating plug connector is achieved. Preferably, the receiving region of the insulator has at least one latching edge, at which latching edge the latching arms of the data connector or of the data connector socket latch. The latching edge preferably cooperates with a latching arm of a commercially available data plug connector. Preferably, the insulator is essentially cylindrical in shape and has an essentially circular cross section. In an advantageous embodiment of the invention, the data plug connector is an RJ45 plug connector and the data plug connector socket is an RJ45 plug connector socket. Advantageously related to a commercial RJ45 type plug connector and/or a commercial data plug connector jack. Commercial in this case means that such plug connectors are well known and available from different manufacturers. The RJ45 type plug connector and RJ45 type plug connector jack are compatible and have the same latching mechanism. The invention thus allows the use of data plug connectors of different manufacturers and optionally to combine them with one another. Preferably, the insulator is formed in one piece. The insulator can thus be produced in an injection molding process from plastic at a cost that is advantageous. It is furthermore advantageous if the receiving region of the insulator has at least one insertion edge which delimits t