An adapter
By designing a multi-interface adapter, the complexity and reliability issues of device connection are solved, enabling multi-device linkage and signal aggregation, improving connection stability and protection performance, and making it suitable for industrial control and communication equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 唐远华
- Filing Date
- 2025-07-12
- Publication Date
- 2026-06-30
AI Technical Summary
In the existing technology, the connection method between devices is complex in structure, cumbersome in wiring, and has poor reliability. It cannot meet the needs of multi-device linkage or multi-signal aggregation, and the maintenance cost is high. It is also difficult to achieve multi-interface allocation and synchronous conduction.
An adapter is designed, comprising a first connecting end, a second connecting end, and a third connecting end, each with a connecting slot for mounting a connector. An electrical connection is established between the three ends through conductive components, providing multi-interface electrical connection and conduction functions. Combined with a dustproof structure, stability is improved.
It achieves reliability and stability of multi-interface electrical connections, is suitable for industrial control and communication equipment, has good protection performance and structural stability, and is suitable for multi-channel connections and complex scenarios.
Smart Images

Figure CN224438165U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of connection component technology, specifically relating to an adapter for connecting devices of different specifications or interfaces. Background Technology
[0002] With the rapid development of industrial automation, communication equipment, and power systems, the demand for data transmission and power connection between various devices is increasing. Interoperability between devices of different specifications and interface types has become an urgent problem to be solved in practical applications. Traditional connection methods usually rely on single-path connections or use dedicated conversion cables, but these methods are not only complex in structure and cumbersome in wiring, but also have poor reliability and are prone to problems such as poor contact and signal interference.
[0003] In existing technologies, some adapter devices use cable welding for electrical connection, which is not only inconvenient to install, but also results in high repair costs and difficult replacement if damage occurs. Furthermore, most existing adapter structures only support unidirectional connections and lack multi-channel interface allocation and synchronous conduction functions, failing to meet the needs of multi-device linkage or multi-signal aggregation in complex systems.
[0004] Therefore, overcoming the shortcomings of the existing technology is an urgent problem to be solved in this technical field. Utility Model Content
[0005] In view of the technical problems mentioned in the background art, the purpose of this utility model is to provide an adapter to solve the technical problems mentioned in the background art.
[0006] To achieve the above objectives, the present invention provides the following technical solution: an adapter, comprising an adapter body, wherein the adapter body is provided with a first connecting end, a second connecting end, and a third connecting end, wherein the first connecting end is provided with a first connecting slot, the second connecting end is provided with a second connecting slot, and the third connecting end is provided with a third connecting slot, wherein a first connector is fitted in the first connecting slot, a second connector is fitted in the second connecting slot, and a third connector is fitted in the third connecting slot, wherein a first conductive component and a second conductive component are respectively connected between the upper and lower ends of the first connector, the second connector, and the third connector.
[0007] Furthermore, the upper ends of the first connector, the second connector, and the third connector are all provided with first connection slots, and the edge of the first conductive component is provided with three first conductive plugs, which are respectively inserted into the corresponding three first connection slots, thereby connecting the first conductive component between the upper ends of the first connector, the second connector, and the third connector.
[0008] Furthermore, the lower ends of the first connector, the second connector, and the third connector are all provided with second connection slots, and the edge of the second conductive component is evenly provided with three second conductive plugs. The three second conductive plugs are respectively inserted into the corresponding three second connection slots, thereby connecting the second conductive component between the lower ends of the first connector, the second connector, and the third connector.
[0009] Furthermore, a positioning through post is provided in the middle between the first connecting slot, the second connecting slot and the third connecting slot, a first connecting through hole is provided in the middle of the first conductive component, a second connecting through hole is provided in the middle of the second conductive component, and the positioning through post passes through the second connecting through hole and the first connecting through hole in sequence for positioning connection.
[0010] Furthermore, a dustproof groove is provided on the upper surface of the connector body, and a dustproof cover is embedded in the dustproof groove. Several fixing holes are evenly provided on the edge of the dustproof groove, and several fixing protrusions are evenly provided on the edge of the dustproof cover. The fixing protrusions are inserted into the fixing holes one by one and locked in place.
[0011] Furthermore, the positioning through-post is provided with a positioning slot in the middle, and the dust cover is provided with a positioning plug in the middle, which is inserted into the positioning slot for connection.
[0012] Furthermore, the first conductive component and the second conductive component are conductive blocks.
[0013] The present invention has the following advantages: the connector body is provided with a first connecting end, a second connecting end and a third connecting end respectively. The first connecting end is provided with a first connecting slot, the second connecting end is provided with a second connecting slot, and the third connecting end is provided with a third connecting slot. A first connector is installed in the first connecting slot, a second connector is installed in the second connecting slot, and a third connector is installed in the third connecting slot. A first conductive component and a second conductive component are respectively connected between the upper and lower ends of the first connector, the second connector and the third connector. The adapter of the present invention can not only realize multi-interface electrical connection and conduction, but also has good protection performance and structural stability, and is suitable for various scenarios such as industrial control, power conversion, and communication equipment. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the overall three-dimensional structure of this utility model.
[0015] Figure 2 This is a schematic diagram of the overall exploded structure of this utility model.
[0016] Figure 3 This is a schematic diagram of the main structure of the connector of this utility model.
[0017] Figure 4 This is a schematic diagram of the dust cover structure of this utility model.
[0018] Reference numerals: Connector body 1; First connecting end 10; Second connecting end 20; Third connecting end 30; First connecting slot 11; Second connecting slot 21; Third connecting slot 31; First connector 40; Second connector 50; Third connector 60; First conductive component 70; Second conductive component 80; First connecting slot 41; First conductive plug 71; Second connecting slot 42; Second conductive plug 81; Positioning through post 12; First connecting through hole 72; Second connecting through hole 82; Dustproof slot 13; Dustproof cover 90; Fixing through hole 131; Fixing protrusion 91; Positioning slot 121; Positioning insert 92. Detailed Implementation
[0019] like Figures 1 to 4 As shown, an adapter includes a connector body 1, which has a first connecting end 10, a second connecting end 20, and a third connecting end 30. The first connecting end 10 has a first connecting slot 11, the second connecting end 20 has a second connecting slot 21, and the third connecting end 30 has a third connecting slot 31. A first connector 40 is fitted into the first connecting slot 11, a second connector 50 is fitted into the second connecting slot 21, and a third connector 60 is fitted into the third connecting slot 31. A first conductive component 70 and a second conductive component 80 are respectively connected between the upper and lower ends of the first connector 40, the second connector 50, and the third connector 60. The first conductive component 70 and the second conductive component 80 can be copper foil bars, elastic contact pieces, or gold-plated conductive blocks, used to establish a reliable electrical connection path in the connected state, thereby realizing signal transmission or current transfer between the three ends. In use, users can insert the plugs of different devices into the first connector 10, the second connector 20, or the third connector 30 according to the location and specifications of the actual device interface. After insertion, the plugs are firmly fixed by the slot positioning structure, and a stable conductive path is established between the three connectors by means of the first conductive component 70 and the second conductive component 80. This structure not only ensures the reliability of the connection but also improves the conductivity, making it suitable for complex scenarios such as multi-channel connection, current splitting, or switching.
[0020] In practical implementation, the upper ends of the first connector 40, the second connector 50, and the third connector 60 are all provided with first connection slots 41. The edge of the first conductive component 70 is evenly provided with three first conductive plugs 71, which are respectively inserted into the corresponding three first connection slots 41. This connects the first conductive component 70 between the upper ends of the first connector 40, the second connector 50, and the third connector 60. Through this structural design, the first conductive component 70 is physically and securely engaged with the upper ends of the three connectors, achieving electrical conductivity between them. In use, the user plugs the three devices into the first connector 10, the second connector 20, and the third connector 30 respectively. After insertion, each connector is positioned and fixed by the slot structure. The three first conductive plugs 71 of the first conductive component 70 are inserted into the first connection slots 41 of each connector, thus establishing an electrical connection path between the three ends.
[0021] In practical implementation, the lower ends of the first connector 40, the second connector 50, and the third connector 60 are all provided with second connection slots 42. The edge of the second conductive component 80 is evenly provided with three second conductive plugs 81, which are respectively inserted into the corresponding three second connection slots 42. This allows the second conductive component 80 to be connected between the lower ends of the first connector 40, the second connector 50, and the third connector 60. Through the above structural design, the second conductive component 80 is stably connected to the lower ends of the three sets of connectors, forming another set of electrical paths. Together with the upper first conductive component 70, it forms a double-layer conductive structure, which helps to improve the overall current carrying capacity and connection redundancy. In use, the three sets of external devices are respectively inserted into the first connection end 10, the second connection end 20 and the third connection end 30. After each connector is fixed by the snap-fit structure, the first conductive component 70 and the second conductive component 80 respectively achieve electrical connection between their upper and lower ends through their corresponding conductive plugs and the connection slots of the connectors, ensuring effective connection and synchronization between the three electrical or signal paths.
[0022] In specific implementation, a positioning through post 12 is provided in the middle between the first connecting slot 11, the second connecting slot 21 and the third connecting slot 31. A first connecting through hole 72 is opened in the middle of the first conductive component 70 and a second connecting through hole 82 is opened in the middle of the second conductive component 80. The positioning through post 12 passes through the second connecting through hole 82 and the first connecting through hole 72 in sequence, so as to realize the vertical alignment and positioning connection of the first conductive component 70 and the second conductive component 80. This structure makes the upper and lower conductive components keep the center aligned during assembly, which helps to improve the insertion accuracy and connection stability of the conductive components and prevent the conductive plug from being misaligned or shifted during the connection process.
[0023] In practical implementation, a dustproof groove 13 is provided on the upper surface of the connector body 1, and a dustproof cover 90 is embedded in the dustproof groove 13. This is used to protect the internal connection structure when the adapter is not in use or idle, preventing dust, moisture or other foreign objects from entering, and ensuring the cleanliness and stable performance of the internal conductive structure. A plurality of fixing holes 131 are evenly provided on the edge of the dustproof groove 13, and a plurality of fixing protrusions 91 are evenly provided on the edge of the dustproof cover 90. The fixing protrusions 91 are inserted one-to-one into the fixing holes 131 and locked in place, so that the dustproof cover 90 is stably embedded in the dustproof groove 13.
[0024] In practical implementation, the positioning through post 12 is provided with a positioning slot 121 in the middle, and the dust cover 90 is provided with a positioning plug 92 in the middle. The positioning plug 92 is inserted into the positioning slot 121 for connection. Thus, while the dust cover 90 covers the dustproof slot 13, it further achieves axial positioning and cooperation with the positioning through post of the connector body 1 through the middle insertion structure, thereby enhancing the installation stability and vibration resistance of the dust cover.
[0025] In summary, the connector body 1 is provided with a first connecting end 10, a second connecting end 20, and a third connecting end 30. The first connecting end 10 has a first connecting slot 11 inside, the second connecting end 20 has a second connecting slot 21 inside, and the third connecting end 30 has a third connecting slot 31 inside. A first connector 40 is fitted in the first connecting slot 11, a second connector 50 is fitted in the second connecting slot 21, and a third connector 60 is fitted in the third connecting slot 31. A first conductive component 70 and a second conductive component 80 are respectively connected between the upper and lower ends of the first connector 40, the second connector 50, and the third connector 60. The adapter of this utility model can not only realize multi-interface electrical connection and conduction, but also has good protection performance and structural stability, and is suitable for various scenarios such as industrial control, power conversion, and communication equipment.
Claims
1. An adapter, characterized in that It includes a connector body (1), which is provided with a first connecting end (10), a second connecting end (20) and a third connecting end (30). The first connecting end (10) is provided with a first connecting slot (11), the second connecting end (20) is provided with a second connecting slot (21), and the third connecting end (30) is provided with a third connecting slot (31). A first connector (40) is installed in the first connecting slot (11), a second connector (50) is installed in the second connecting slot (21), and a third connector (60) is installed in the third connecting slot (31). A first conductive component (70) and a second conductive component (80) are respectively connected between the upper and lower ends of the first connector (40), the second connector (50) and the third connector (60).
2. The adapter of claim 1, wherein, The upper ends of the first connector (40), the second connector (50) and the third connector (60) are all provided with first connection slots (41). The edge of the first conductive component (70) is provided with three first conductive plugs (71). The three first conductive plugs (71) are respectively inserted into the corresponding three first connection slots (41), so that the first conductive component (70) is connected between the upper ends of the first connector (40), the second connector (50) and the third connector (60).
3. The adapter of claim 2, wherein, The lower ends of the first connector (40), the second connector (50) and the third connector (60) are all provided with second connection slots (42). The edge of the second conductive component (80) is provided with three second conductive plugs (81). The three second conductive plugs (81) are respectively inserted into the corresponding three second connection slots (42), so that the second conductive component (80) is connected between the lower ends of the first connector (40), the second connector (50) and the third connector (60).
4. The adapter of claim 3, wherein, A positioning post (12) is provided in the middle between the first connecting slot (11), the second connecting slot (21) and the third connecting slot (31). A first connecting hole (72) is provided in the middle of the first conductive component (70), and a second connecting hole (82) is provided in the middle of the second conductive component (80). The positioning post (12) passes through the second connecting hole (82) and the first connecting hole (72) in sequence for positioning connection.
5. The adapter of claim 4, wherein, The upper surface of the connector body (1) is provided with a dustproof groove (13), a dustproof cover (90) is embedded in the dustproof groove (13), a number of fixing holes (131) are evenly provided on the edge of the dustproof groove (13), and a number of fixing protrusions (91) are evenly provided on the edge of the dustproof cover (90), and the number of fixing protrusions (91) are inserted into the number of fixing holes (131) one by one to lock and fix.
6. The adapter according to claim 5, characterized in that, The positioning through post (12) has a positioning slot (121) in the middle, and the dust cover (90) has a positioning plug (92) protruding in the middle. The positioning plug (92) is inserted into the positioning slot (121) for connection.
7. The adapter of claim 1, wherein, The first conductive member (70) and the second conductive member (80) are conductive blocks.