An adjustable internet of things antenna signal strength enhancement structure
By designing an adjustable IoT antenna signal strength enhancement structure, rotating the outer shell and sub-antenna angles, and adjusting the signal direction with a reflector, the problem of existing antennas being inconvenient to adjust height and enhance signal strength in specific areas is solved, thereby improving signal coverage and strength.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YILAIDIAN ENERGY TECHNOLOGY (SHENZHEN) CO LTD
- Filing Date
- 2025-07-31
- Publication Date
- 2026-07-14
AI Technical Summary
Existing IoT smart gateways using external glue rod antennas are not convenient for adjusting the signal transmission height, nor are they convenient for enhancing signal strength in specific areas.
An adjustable IoT antenna signal strength enhancement structure was designed. The transmission angle and height of the signal are adjusted by rotating the outer shell and the sub-antenna. The signal is reflected to a specific area using a reflector to enhance the signal coverage and strength.
It achieves increased signal coverage and enhanced signal strength in specific areas, is simple and convenient to use, and solves the problem of insufficient adjustment and signal strength enhancement of existing devices.
Smart Images

Figure CN224502316U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of Internet of Things (IoT) antenna technology, specifically to an adjustable IoT antenna signal strength enhancement structure. Background Technology
[0002] An IoT antenna is a radio frequency signal transceiver device specifically designed for IoT devices. It is used to enable wireless communication between IoT terminals and the network. By adjusting the orientation of the antenna, the signal strength can be adjusted.
[0003] A search revealed that patent application number 202322243224.2 discloses an external adhesive rod antenna for an IoT smart gateway, comprising a mounting component threaded onto an IoT computer; wherein: a bend is engaged at the rear of the mounting component, and a bent front-end signal line is installed inside the mounting component and the bend; a shell with an internal cavity structure is spirally mounted at the rear of the bend, and a sleeve, a connecting cylinder, a signal connector, and a rear-end signal line are installed inside the shell; the front end of the sleeve is sleeved over the rear end of the bend, the front end of the connecting cylinder is sleeved over the rear end of the sleeve, the front end of the signal connector is sleeved inside the rear end of the connecting cylinder, and the rear end of the front-end signal line is inserted into the front end of the signal connector, and the front end of the rear-end signal line is sleeved inside the rear end of the signal connector; the front-end signal line, the signal connector, and the rear-end signal line are connected into an integrated structure;
[0004] Although the external glue rod antenna of this IoT smart gateway has a waterproof sealing ring at the connection between the mounting part and the bend part, and the bend part and the outer shell are connected by threads to achieve a seamless connection of the overall antenna structure to achieve the purpose of safety and waterproofing, the external glue rod antenna of this IoT smart gateway is not convenient for adjusting the signal transmission height, and is not convenient for enhancing the signal strength in specific areas.
[0005] Therefore, we propose an adjustable IoT antenna signal strength enhancement structure. Utility Model Content
[0006] To address the shortcomings of existing technologies, this invention provides an adjustable IoT antenna signal strength enhancement structure, which solves the problems that existing devices are not convenient for adjusting the signal transmission height and for enhancing the signal strength in specific areas.
[0007] To achieve the above objectives, this utility model is implemented through the following technical solution: an adjustable IoT antenna signal strength enhancement structure, including an antenna body, wherein the antenna body includes a connector, a bending member and an outer shell, and the bending member is fixedly connected to the connector;
[0008] The end of the turning member away from the connecting member is rotatably connected to the outer shell via a damping shaft. A signal conditioning component is provided on the top of the outer shell, and a signal refraction component is provided on the side wall of the outer shell.
[0009] The signal conditioning component includes a connecting plate fixedly mounted on the outer surface of the top of the housing. The connecting plate has grooves arranged in a ring array on its arc surface. A secondary antenna is rotatably mounted inside the grooves via a damping shaft.
[0010] Preferably, the signal refraction component is disposed on a reflector on one side of the housing, the reflector is arc-shaped, and the housing and the signal conditioning component are both located on the same side of the reflector, so as to facilitate the reflector to refract the signals emitted by the antenna body and the sub-antenna to one side.
[0011] Preferably, a connecting block is fixedly installed at the middle of the bottom end of the side wall of the reflector, and a clamp is fixedly installed at the end of the connecting block away from the reflector. The clamp is movably fitted on the outer surface of the outer shell. The height of the reflector can be adjusted by adjusting the position of the clamp on the outer shell to accommodate the sub-antenna adjusted to different angles.
[0012] Preferably, one end of the clamp is open, and the open end of the clamp is connected by a bolt and nut. By adjusting the tightness of the bolt and nut, the clamp can be moved along the outer shell and fixed at a specific position on the outer shell.
[0013] Preferably, the reflector is made of aluminum, the length of the sub-antenna is half the length of the outer shell, and the length of the reflector is the same as the length of the outer shell. Aluminum can refract signals emitted by the antenna body and the sub-antenna.
[0014] This invention provides an adjustable signal strength enhancement structure for an Internet of Things (IoT) antenna. It features the following:
[0015] Beneficial effects:
[0016] This adjustable IoT antenna signal strength enhancement structure allows for adjustment of the signal transmission angle and height by rotating the outer shell and the secondary antenna, thereby increasing the signal coverage. By placing a reflector on one side of the outer shell and the secondary antenna, the reflector reflects the signal emitted by the antenna body and the secondary antenna towards a specific area, thus increasing the signal strength in that area. It is simple and convenient to use, achieving the goals of increasing signal coverage and signal strength in specific areas. It solves the problems of existing devices that are inconvenient to adjust the signal transmission height and are not convenient to enhance the signal strength in specific areas. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the structure of this utility model;
[0018] Figure 2 This is a side view of the structure of this utility model;
[0019] Figure 3 This is a schematic diagram of the signal refraction component structure of this utility model;
[0020] Figure 4 This is a schematic diagram of the signal conditioning component structure of this utility model.
[0021] In the diagram: 1. Antenna body; 11. Connector; 12. Turning part; 13. Outer shell; 2. Signal conditioning assembly; 21. Connecting plate; 211. Groove; 22. Sub-antenna; 3. Signal refraction assembly; 31. Reflector; 32. Connecting block; 33. Clamp. Detailed Implementation
[0022] 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.
[0023] Example 1:
[0024] like Figure 1-4 As shown: It includes an antenna body 1, which includes a connector 11, a bending member 12, and an outer shell 13. The bending member 12 is fixedly connected to the connector 11. The end of the bending member 12 away from the connector 11 is rotatably connected to the outer shell 13 through a damping shaft. A signal conditioning component 2 is provided on the top of the outer shell 13, and a signal refraction component 3 is provided on the side wall of the outer shell 13. The signal conditioning component 2 includes a connecting plate 21 fixedly fitted on the outer surface of the top of the outer shell 13. Grooves 211 distributed in a ring array are opened on the arc surface of the connecting plate 21. A secondary antenna 22 is rotatably installed inside the grooves 211 through a damping shaft.
[0025] The angle and height of signal transmission can be adjusted by rotating the outer casing 13 and the sub-antenna 22, thereby increasing the signal coverage.
[0026] Furthermore, the signal refraction component 3 is disposed on the reflector 31 on one side of the housing 13. The reflector 31 is arc-shaped, and the housing 13 and the signal adjustment component 2 are both located on the same side of the reflector 31.
[0027] This allows the reflector 31 to refract the signals emitted by the antenna body 1 and the sub-antenna 22 to one side.
[0028] Furthermore, a connecting block 32 is fixedly installed in the middle of the bottom end of the side wall of the reflector 31, and a clamp 33 is fixedly installed at the end of the connecting block 32 away from the reflector 31. The clamp 33 is movably fitted on the outer surface of the outer shell 13.
[0029] The height of the reflector 31 can be adjusted by adjusting the position of the clamp 33 on the outer shell 13 to accommodate the sub-antenna 22 at different angles.
[0030] Furthermore, one end of the clamp 33 is open, and the open end of the clamp 33 is connected by a bolt and nut;
[0031] By adjusting the tightness of the bolts and nuts, the clamp 33 can be moved along the outer casing 13 and fixed at a specific position on the outer casing 13.
[0032] Furthermore, the reflector 31 is made of aluminum, the length of the sub-antenna 22 is half the length of the outer casing 13, and the length of the reflector 31 is the same as the length of the outer casing 13.
[0033] Aluminum can refract signals emitted by the antenna body 1 and the sub-antenna 22.
[0034] The working principle and usage process of this utility model: This adjustable IoT antenna signal strength enhancement structure can adjust the angle and height of signal transmission by rotating the outer shell 13 and the sub-antenna 22. Adjusting both the outer shell 13 and the signal adjustment component 2 to a vertical state increases the signal transmission height and thus the signal coverage. By adjusting the tightness of the contact between the bolt, nut, and clamp 33 and the outer shell 13, the height and angle of the reflector 31 can be adjusted, so that the reflector 31 blocks one side of the outer shell 13 and the sub-antenna 22, thereby reflecting the signal emitted by the antenna body 1 and the sub-antenna 22 to a specific area, thereby increasing the signal strength in that specific area.
[0035] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It will be apparent to those skilled in the art that this utility model is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or basic characteristics of this utility model. Therefore, the embodiments should be considered exemplary and non-limiting in all respects. The scope of this utility model is defined by the appended claims rather than the foregoing description, and thus all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this utility model. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0036] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. An adjustable IoT antenna signal strength enhancement structure, comprising an antenna body (1), wherein the antenna body (1) comprises a connector (11), a bending member (12) and an outer shell (13), wherein the bending member (12) is fixedly connected to the connector (11); Its features are: The end of the turning member (12) away from the connecting member (11) is rotatably connected to the outer shell (13) via a damping shaft. A signal conditioning component (2) is provided on the top of the outer shell (13), and a signal refraction component (3) is provided on the side wall of the outer shell (13). The signal conditioning component (2) includes a connecting plate (21) fixedly mounted on the outer surface of the top of the outer shell (13). The connecting plate (21) has grooves (211) arranged in a ring array on its arc surface. A secondary antenna (22) is rotatably mounted inside the grooves (211) via a damping shaft.
2. The adjustable IoT antenna signal strength enhancement structure according to claim 1, characterized in that: The signal refraction component (3) is disposed on a reflector (31) on one side of the outer shell (13). The reflector (31) is arc-shaped. The outer shell (13) and the signal adjustment component (2) are both located on the same side of the reflector (31).
3. The adjustable IoT antenna signal strength enhancement structure according to claim 2, characterized in that: A connecting block (32) is fixedly installed in the middle of the bottom of the side wall of the reflector (31). A clamp (33) is fixedly installed at the end of the connecting block (32) away from the reflector (31). The clamp (33) is movably fitted on the outer surface of the outer shell (13).
4. The adjustable IoT antenna signal strength enhancement structure according to claim 3, characterized in that: One end of the clamp (33) is open, and the open end of the clamp (33) is connected by a bolt and nut.
5. The adjustable IoT antenna signal strength enhancement structure according to claim 4, characterized in that: The reflector (31) is made of aluminum, the length of the sub-antenna (22) is half the length of the outer shell (13), and the length of the reflector (31) is the same as the length of the outer shell (13).