A line connector structure

By designing the fit between the socket, post, groove, and connector, the problem of misalignment and displacement during the insertion and removal of male and female connectors is solved, thus achieving stable power transmission and equipment power supply.

CN224355612UActive Publication Date: 2026-06-12SHANDONG MINGQI LIGHTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG MINGQI LIGHTING CO LTD
Filing Date
2025-06-10
Publication Date
2026-06-12

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  • Figure CN224355612U_ABST
    Figure CN224355612U_ABST
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Abstract

The utility model discloses a kind of line connector structures, including female head, the inside of female head is provided with male head, the inside of male head is opened with first recess, the inside of male head is fixedly connected with inserting post, the inside of female head is opened with second recess, the inside of female head is fixedly connected with connecting head, the inside of connecting head is opened with jack, the bottom of female head is fixedly connected with first terminal.The utility model relates to line connector technical field, the line connector structure, by the cooperation between jack, inserting post, first recess, second recess and connecting head, the interface connection stability of accurate butt joint two is realized, lack the positioning guide structure of accurate between male head and female head is solved, the interface structure of accurate butt joint two cannot be achieved, deviation and misplacement are prone to in plugging process, leading to unstable connection, not only affect electric energy transmission efficiency, make equipment unable to stably obtain power problem.
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Description

Technical Field

[0001] This utility model relates to the field of line connector technology, specifically to a line connector structure. Background Technology

[0002] A line connector is a device that connects two active devices to transmit current or signals. It includes a male terminal and a female terminal. The male and female terminals can transmit information or current after making contact.

[0003] In practical applications, the female connector is often connected to a multi-functional DC power strip, the male connector is connected to a solar energy storage device, and then the male connector is inserted into the female connector for use.

[0004] However, due to the lack of a precise positioning and guiding structure between the male and female connectors, and the simple interface design that relies solely on simple plugging and unplugging, it is impossible to accurately align the interface structures of the two. Misalignment and displacement are prone to occur during plugging and unplugging, resulting in unstable connections. This not only affects the efficiency of power transmission but also prevents the device from obtaining power stably. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a line connector structure that solves the problem that, due to the lack of a precise positioning and guiding structure between the male and female connectors, relying solely on simple plugging and unplugging cannot accurately align their interface structures. This leads to misalignment and displacement during plugging and unplugging, resulting in unstable connections that not only affect power transmission efficiency but also prevent devices from obtaining stable power.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a line connector structure, including a female head, a male head inside the female head, a first groove inside the male head, a pin fixed inside the male head, a second groove inside the female head, a connector fixed inside the female head, and a socket inside the connector.

[0007] Preferably, a first terminal block is fixedly connected to the bottom of the female connector, the top of the first terminal block is connected to the socket, and a first partition is fixedly connected to the bottom of the female connector.

[0008] Preferably, the top of the male connector is fixedly connected to an end, the outer wall of the end is fixedly connected to a second terminal, and the inner wall of the end is fixedly connected to a second partition.

[0009] Preferably, the outer wall of the female head is provided with external threads.

[0010] Preferably, a sealing ring is fixedly attached to the upper part of the outer wall of the female head.

[0011] Beneficial effects

[0012] This utility model provides a line connector structure. It has the following advantages: This line connector structure, through the cooperation of the socket, post, first groove, second groove, and connector head, achieves precise docking of the interfaces of the male and female connectors, resulting in a stable connection. It solves the problem that the lack of a precise positioning and guiding structure between the male and female connectors, relying solely on simple plugging and unplugging, makes precise docking impossible. Misalignment and displacement easily occur during plugging and unplugging, leading to unstable connections, which not only affects power transmission efficiency but also prevents equipment from obtaining stable power. Attached Figure Description

[0013] Figure 1 This is a schematic diagram of the structure of this utility model;

[0014] Figure 2 for Figure 1 Exploded view;

[0015] Figure 3 for Figure 1 Schematic diagram of the structure of the middle female connector, the first terminal block and the first partition;

[0016] Figure 4 for Figure 1 Schematic diagram of the middle terminal, the second wiring terminal, and the second partition.

[0017] In the diagram: 1. Female connector; 2. First terminal block; 3. First partition; 4. External thread; 5. Connector; 6. Socket; 7. Sealing ring; 8. Male connector; 9. Insert post; 10. First groove; 11. End; 12. Second terminal block; 13. Second partition; 14. Second groove. Detailed Implementation

[0018] 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.

[0019] The lack of a precise positioning and guiding structure between the male and female connectors, relying solely on simple plugging and unplugging, makes it impossible to accurately align their interface structures. Misalignment and displacement can easily occur during plugging and unplugging, leading to unstable connections. This not only affects power transmission efficiency but also prevents the device from obtaining power stably.

[0020] In view of this, the present invention provides a line connector structure that achieves precise docking of the interfaces of the male and female connectors through the cooperation of the socket, the post, the first groove, the second groove and the connector head, resulting in a stable connection. This solves the problem that the lack of a precise positioning and guiding structure between the male and female connectors, relying solely on simple plugging and unplugging, makes it impossible to accurately dock the interface structures of the two connectors. During the plugging and unplugging process, offset and misalignment are prone to occur, leading to unstable connection. This not only affects the power transmission efficiency but also makes the equipment unable to obtain power stably.

[0021] Those skilled in the art can connect the components in this case sequentially. The specific connection and operation sequence should refer to the working principle below. The detailed connection methods are well-known technologies in the field. The working principle and process are mainly introduced below.

[0022] Example 1, by Figure 1-4 It is known that a line connector structure in this case includes a female head 1, a male head 8 is provided inside the female head 1, a first groove 10 is provided inside the male head 8, a plug 9 is fixedly connected inside the male head 8, a second groove 14 is provided inside the female head 1, a connector 5 is fixedly connected inside the female head 1, and a socket 6 is provided inside the connector 5.

[0023] In the specific implementation process, it is worth noting that the staff connects the female connector 1 to the external multi-functional DC power strip and the male connector 8 to the external solar energy storage device. During use, the staff moves the male connector 8, and the pin 9 and the first groove 10 of the male connector 8 move to align the male connector 8 with the second groove 14, thereby inserting the male connector 8 into the second groove 14. At this time, the first groove 10 is inserted into the connector 5, and the male connector 8 drives the pin 9 to be inserted into the socket 6, connecting the female connector 1 and the male connector 8 together. When the male connector 8 and the female connector 1 are inserted into place, the circuit connected to the first terminal 2 and the circuit connected to the second terminal 12 are electrically connected through the socket 6 and the pin 9, thereby completing the transmission of current or signal between the two active devices. When it is necessary to disconnect, the male connector 8 is pulled out in the opposite direction, the pin 9 is separated from the socket 6, the electrical connection is broken, and the interface of the two is accurately connected and the connection is stable.

[0024] Furthermore, a first terminal 2 is fixedly connected to the bottom of the female connector 1, the top of the first terminal 2 is connected to the socket 6, and a first partition 3 is fixedly connected to the bottom of the female connector 1.

[0025] In the specific implementation process, it is worth noting that the staff connects the first terminal 2 to the circuit wires in the external multi-functional DC power strip. The socket 6 of the first terminal 2 is responsible for connecting the external wires to the internal conductive structure of the female connector 1. It is the key interface for introducing electrical energy or signals from the outside into the female connector 1. The first partition 3 separates and protects two adjacent first terminals 2 to avoid short circuits between different terminals, while enhancing the stability and regularity of the bottom structure of the female connector 1.

[0026] Furthermore, the top of the male head 8 is fixedly connected to an end 11, the outer wall of the end 11 is fixedly connected to a second terminal 12, and the inner wall of the end 11 is fixedly connected to a second partition 13.

[0027] In the specific implementation process, it is worth noting that the staff connects the wires of the solar energy storage device to the second terminal 12. The second partition 13 separates the internal space of the end 11 and the second terminal 12 to prevent short circuits and ensure the orderliness and stability of the internal electrical connection of the male head 8.

[0028] Example 2, by Figure 1-3 It can be seen that the outer wall of the female head 1 is provided with an external thread 4;

[0029] In the specific implementation process, it is worth noting that, firstly, the staff uses the external thread 4 on the outer wall of the female head 1 to screw the female head 1 into the adapter interface of the multi-functional DC power strip. During the screwing process, the external thread 4 engages with the internal thread of the interface and is gradually tightened, so that the female head 1 is securely installed on the power strip.

[0030] Furthermore, a sealing ring 7 is fixedly attached to the upper part of the outer wall of the female head 1;

[0031] In the specific implementation process, it is worth noting that the sealing ring 7 is made of nitrile rubber. When the male connector 8 is inserted into the female connector 1, the sealing ring 7 can fill the gap between the two, play a sealing role, prevent dust, moisture and other substances from entering the connection part, ensure the reliability of electrical connection and extend the service life of connector.

[0032] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A line connector structure, comprising a female head (1), characterized in that: The female head (1) has a male head (8) inside, the male head (8) has a first groove (10) inside, the male head (8) has a plug (9) fixed inside, the female head (1) has a second groove (14) inside, the female head (1) has a connector (5) fixed inside, and the connector (5) has a socket (6) inside.

2. The circuit connector structure according to claim 1, characterized in that: The bottom of the female connector (1) is fixedly connected to a first terminal (2), the top of the first terminal (2) is connected to a socket (6), and the bottom of the female connector (1) is fixedly connected to a first partition (3).

3. The line connector structure according to claim 1, characterized in that: The male connector (8) has an end (11) fixedly connected to its top, a second terminal (12) fixedly connected to the outer wall of the end (11), and a second partition (13) fixedly connected to the inner wall of the end (11).

4. The circuit connector structure according to claim 1, characterized in that: The outer wall of the female head (1) is provided with an external thread (4).

5. The circuit connector structure according to claim 1, characterized in that: A sealing ring (7) is fixedly attached to the upper part of the outer wall of the female head (1).