A stable Ethernet interface connector
By introducing insulating posts, locking clips, and shielding housing structures into the Ethernet interface connector, the problem of loosening during connector assembly is solved, achieving stability of cable connections and reliability of electrical connections.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 广东卡迪电气科技有限公司
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-03
AI Technical Summary
Existing Ethernet connectors have high tolerance requirements during assembly. Loose connections can easily lead to poor electrical connections, affecting the normal operation of the equipment.
The structure employs insulating posts, locking buckles, and a shielded housing. Through the cooperation of limiting protrusions, limiting buckles, and protruding strips, the stability of the cable within the connector housing is ensured, and electromagnetic protection is provided by the shielded housing.
It improves the stability of the cable connection area, prevents loosening of the connector and cable connection, and ensures the reliability of electrical connections and the normal operation of the equipment.
Smart Images

Figure CN224458766U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of connector technology, specifically to a stable Ethernet interface connector. Background Technology
[0002] Ethernet connectors are devices used in computer local area network (LAN) technology. They are widely used to realize data processing information flow. Due to their characteristics such as high data transmission rate, low electromagnetic radiation, and low power consumption in the transmission of various modules, they are widely used.
[0003] The insulators of current Ethernet connectors are all of one-piece structure. During the assembly process, the tolerance requirements for Ethernet connectors and cables are relatively large. If the connection area is loose, it is very easy to cause poor electrical connection between the connector and the cable connection area, which can easily lead to overheating and damage at the interface, affecting the normal operation of computer equipment.
[0004] In light of the problems exposed during the use of current Ethernet interface connectors, it is necessary to improve and optimize the structure of Ethernet interface connectors. Utility Model Content
[0005] To address the aforementioned technical problems, this utility model provides a stable Ethernet interface connector, which effectively improves the stability of the cable connection area during connector connection.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a stable Ethernet interface connector, comprising a connector housing and a cable body. An insulating locking post is fitted inside the connector housing. The end of the cable body is inserted into the insulating locking post for positioning and fixation. A fitting groove is formed at the top of the insulating locking post, and a detachable locking buckle is fitted within the fitting groove. The bottom end of the locking buckle contacts the surface of the cable body to further pressurize and fix the cable body. A shielding shell is fitted outside the insulating locking post to shield... The housing includes a lower shielding shell disposed below the insulating post and an upper shielding shell disposed above the insulating post. The upper shielding shell is fitted into the top of the insulating post. The lower shielding shell wraps around the outside of the insulating post and the upper shielding shell to shield and protect the cable body inside the insulating post. The bottom surface of the lower shielding shell is provided with a limit protrusion extending downward by stamping. The side surface of the connector housing is fitted with a removable limit buckle. The side surface of the limit buckle facing the limit protrusion extends outward and has a protruding strip for limiting the limit protrusion.
[0007] As a preferred technical solution of a stable Ethernet interface connector of this utility model, one end of the lower shielding shell is provided with a locking tooth extending upward, and the end of the upper shielding shell is also provided with an extension piece. When the upper shielding shell and the lower shielding shell are fitted together, the extension piece is attached to the outer wall of the cable body, and the end of the locking tooth is bent and wound around the extension piece to clamp the cable body.
[0008] As a preferred technical solution of the stable Ethernet interface connector of this utility model, the connector housing also includes a pin seat that mates with it. Several sets of pins are extended from the inside of the pin seat. The pins are soldered to the Ethernet device. When the connector housing is inserted, the pins inside the pin seat are connected to the end of the insulating retainer, and the pins are electrically connected to the cable body.
[0009] As a preferred technical solution of a stable Ethernet interface connector of this utility model, a separable male and female interlocking buckle is fitted on one side of the connector housing. One end of the male and female interlocking buckle is fitted into the interior of the connector housing. The end of the male and female interlocking buckle is bent upward and extended to provide a protrusion. The interior of the pin seat is provided with a groove that fits into the protrusion.
[0010] As a preferred technical solution of the stable Ethernet interface connector of this utility model, the inner wall of the fitting groove is further provided with a protrusion extending toward the locking buckle, and the two sides of the locking buckle are provided with an inwardly tapered portion that cooperates with the protrusion.
[0011] As a preferred technical solution of a stable Ethernet interface connector of this utility model, a guide strip is integrally formed on the upper surface of the connector housing facing the pin socket, and the guide strip extends downward to form a slope at the end near the pin socket.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows: In this technical solution, a limiting protrusion is stamped at the bottom of the lower shield shell. Through the cooperation of the limiting protrusion, the limiting buckle, and the protrusion, the insulating pin remains stable when inserted into the inside of the connector shell, which can further improve the contact stability of the cable connector during connection. The limiting buckle in this technical solution adopts a detachable design, which makes it easier to install the cable body in the connector shell and facilitates the assembly of the connector by the staff. Attached Figure Description
[0013] To make the contents of this utility model easier to understand, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings.
[0014] Figure 1 This is a schematic diagram of the structure of this utility model;
[0015] Figure 2In this utility model Figure 1 Another perspective structural diagram;
[0016] Figure 3 This is a schematic diagram of the connector in this utility model when it is detached;
[0017] Figure 4 This is a schematic diagram of the exploded structure of the connector in this utility model;
[0018] Figure 5 In this utility model Figure 4 A further schematic diagram of the explosion structure;
[0019] In the diagram: 1. Cable body; 2. Connector housing; 3. Male and female interlocking buckle; 4. Pin socket; 5. Insulating pin; 6. Limiting buckle; 7. Raised strip; 8. Lower shielding shell; 9. Upper shielding shell; 10. Limiting protrusion; 11. Locking buckle; 12. Extension piece; 13. Fitting groove; 14. Locking tooth; 15. Guide strip. Detailed Implementation
[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0021] Example
[0022] like Figure 1-5As shown, the present invention provides a stable Ethernet interface connector, comprising a connector housing 2 and a cable body 1. An insulating locking post 5 is fitted inside the connector housing 2. The end of the cable body 1 is inserted into the insulating locking post 5 for positioning and fixation. A fitting groove 13 is formed at the top of the insulating locking post 5, and a detachable locking buckle 11 is fitted within the fitting groove 13. The bottom end of the locking buckle 11 contacts the surface of the cable body 1 to further pressurize and fix the cable body 1. A shielding shell is fitted outside the insulating locking post 5, comprising a lower shielding shell 8 positioned below the insulating locking post 5 and an upper shielding shell positioned above the insulating locking post 5. The upper shielding shell 9 is fitted onto the top of the insulating post 5. The lower shielding shell 8 wraps around the outside of the insulating post 5 and the upper shielding shell 9 to shield and protect the cable body 1 inside the insulating post 5. The bottom surface of the lower shielding shell 8 is provided with a limiting protrusion 10 extending downward by stamping. The side surface of the connector housing 2 is fitted with a movable limiting buckle 6. The side surface of the limiting buckle 6 facing the limiting protrusion 10 extends outward and is provided with a protruding strip 7 for limiting the limiting protrusion 10. In this technical solution, by providing a locking structure at the bottom of the insulating post 5, the stability of the insulating post 5 inserted into the connector housing 2 can be further improved.
[0023] Specifically, one end of the lower shield 8 is provided with a locking tooth 14 extending upwards, and the end of the upper shield 9 is also provided with an extension piece 12. When the upper shield 9 and the lower shield 8 are fitted together, the extension piece 12 is attached to the outer wall of the cable body 1. The end of the locking tooth 14 is bent and wrapped around the extension piece 12 to clamp the cable body 1. In this embodiment, the shield hull is made of metal components.
[0024] Specifically, the connector housing 2 also includes a pin seat 4 that mates with it. Several sets of pins are extended inside the pin seat 4. The pins are soldered to the Ethernet device. When the connector housing 2 is inserted, the pins inside the pin seat 4 are connected to the end of the insulating post 5. The pins are electrically connected to the cable body 1. The pins are made of sheet-like components or cylindrical components.
[0025] Specifically, a separable male and female interlocking buckle 3 is fitted on one side of the connector housing 2. One end of the male and female interlocking buckle 3 is fitted into the interior of the connector housing 2. The end of the male and female interlocking buckle 3 is bent upward and extended to provide a protrusion. The interior of the pin seat 4 is provided with a groove that fits into the protrusion. In this embodiment, the male and female interlocking buckle 3 facilitates the connection between the connector housing 2 and the pin seat 4.
[0026] Specifically, the inner wall of the fitting groove 13 is also provided with a protrusion extending toward the locking buckle 11, and the two sides of the locking buckle 11 are provided with inwardly tapered portions that cooperate with the protrusion. In this embodiment, the locking buckle 11 is used to further pressurize and lock the cable. By providing a protrusion in the fitting groove 13, the stability of the locking buckle 11 can be further improved, making it easier for the locking buckle 11 to continuously pressurize the cable end.
[0027] Specifically, a guide strip 15 is integrally formed on the upper surface of the connector housing 2 facing the pin seat 4. The guide strip 15 extends downward near the pin seat 4 to form a slope. In this embodiment, this structure makes it easier for the connector housing 2 to be inserted into the pin seat 4.
[0028] The working principle and usage process of this utility model: In the process of using the interface connector in this utility model, the cable body 1 is inserted into the interior of the insulating post 5. The outer wall of the insulating post 5 is wrapped with a lower shielding shell 8 and an upper shielding shell 9. Then, the insulating post 5 is inserted into the interior of the pin seat 4. After that, the limiting buckle 6 is fitted and placed inside the connector housing 2. When the limiting buckle 6 is inserted into the interior of the connector housing 2, the protrusion 7 at its end pushes against the limiting protrusion 10, so that the lower shielding shell 8 with the insulating post 5 remains stable inside the connector housing 2.
[0029] When the connector housing 2 is inserted into the pin seat 4, the protrusion at the end of the male and female interlocking buckle 3 engages with the pin seat 4, ensuring a tight connection between the connector housing 2 and the pin seat 4 and effectively preventing loosening of the connection area.
[0030] The above description is only a preferred embodiment of the present utility model and is not intended to further limit the present utility model. All equivalent changes made based on the description and drawings of the present utility model are within the protection scope of the present utility model.
Claims
1. A stable Ethernet interface connector, characterized by, The cable body includes a connector housing (2) and a cable body (1). An insulating locking post (5) is fitted inside the connector housing (2). The end of the cable body (1) is inserted into the insulating locking post (5) for positioning and fixation. A fitting groove (13) is provided at the top of the insulating locking post (5), and a detachable locking buckle (11) is fitted in the fitting groove (13). The bottom end of the locking buckle (11) contacts the surface of the cable body (1) to further pressurize and fix the cable body (1). A shielding shell is fitted outside the insulating locking post (5). The shielding shell includes a lower shielding shell (8) located below the insulating locking post (5). The upper shielding shell (9) is set above the insulating post (5). The upper shielding shell (9) is fitted into the top of the insulating post (5). The lower shielding shell (8) wraps around the outside of the insulating post (5) and the upper shielding shell (9) to shield and protect the cable body (1) inside the insulating post (5). The bottom surface of the lower shielding shell (8) is provided with a limit protrusion (10) that extends downward by stamping. The side surface of the connector housing (2) is fitted with a removable limit buckle (6). The side surface of the limit buckle (6) facing the limit protrusion (10) extends outward and is provided with a protruding strip (7) for limiting the limit protrusion (10).
2. The stable Ethernet interface connector of claim 1, wherein: One end of the lower shield (8) is provided with a locking tooth (14) extending upward, and the end of the upper shield (9) is also provided with an extension piece (12). When the upper shield (9) and the lower shield (8) are fitted together, the extension piece (12) is attached to the outer wall of the cable body (1). The end of the locking tooth (14) is bent and wrapped around the extension piece (12) to clamp the cable body (1).
3. The stable Ethernet interface connector of claim 1, wherein: The connector housing (2) also includes a pin seat (4) that cooperates with it. Several sets of pins are extended inside the pin seat (4). The pins are soldered to the Ethernet device. When the connector housing (2) is inserted, the pins inside the pin seat (4) are connected to the end of the insulating post (5). The pins are electrically connected to the cable body (1).
4. The stable Ethernet interface connector of claim 3, wherein: A separable male and female interlocking buckle (3) is fitted on one side of the connector housing (2). One end of the male and female interlocking buckle (3) is fitted into the interior of the connector housing (2). The end of the male and female interlocking buckle (3) is bent upward and extended to provide a protrusion. The interior of the pin seat (4) is provided with a groove that fits into the protrusion.
5. The stable Ethernet interface connector of claim 1, wherein: The inner wall of the fitting groove (13) is also provided with a protrusion extending toward the locking buckle (11), and the two sides of the locking buckle (11) are provided with an inwardly tapered portion that cooperates with the protrusion.
6. The stable Ethernet interface connector of claim 1, wherein: The connector housing (2) has a guide strip (15) integrally formed on the upper surface of one end facing the pin seat (4), and the guide strip (15) extends downward to form a slope at the end near the pin seat (4).