Multifunctional small-sized lorawan communication locator product
By designing a multifunctional small LoRaWAN communication locator, and adopting multiple installation methods and communication functions, the problem of limited functionality and installation methods in existing locator products has been solved, achieving flexible adaptation and stable installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN HUACHUANG HENGDA TECH CO LTD
- Filing Date
- 2025-06-17
- Publication Date
- 2026-06-23
AI Technical Summary
Existing positioner products have limited functionality and installation methods, failing to meet diverse needs.
A multifunctional small LoRaWAN communication locator was designed, which can be installed in various ways such as magnetic adsorption, hanging installation, screw fastening and adhesive bonding, and has Bluetooth communication and LoRa communication functions.
It achieves flexible adaptation to multiple installation methods, meets different functional requirements, and enhances installation stability and communication capabilities.
Smart Images

Figure CN224401807U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of locator products, and in particular to a multi-functional small LoRaWAN communication locator product. Background Technology
[0002] Currently, most tracker products on the market are boxed, which has problems such as limited functionality and limited installation methods, and cannot well meet the needs.
[0003] Therefore, existing technologies have shortcomings and need to be improved. Utility Model Content
[0004] The purpose of this invention is to overcome at least some of the shortcomings of the prior art and provide a multi-functional, compact LoRaWAN communication locator product.
[0005] The technical solution of this utility model is as follows: This utility model provides a multi-functional small LoRaWAN, including: a bottom shell, two magnets, an iron sheet, a silicone button, a spring, a waterproof ring, a battery, a PCBA assembly, light-shielding foam, a BLE antenna, a LoRa antenna, and a top shell. The bottom shell has magnet mounting slots corresponding to the magnets, and the bottom shell has holes of a predetermined thickness at the magnet mounting slots. Both magnets are mounted in the magnet mounting slots using double-sided adhesive. The iron sheet is disposed on the side of the two magnets away from the bottom shell, correspondingly covering the entire area of the two magnets. The light-shielding foam, BLE antenna, and LoRa antenna are all attached to the top shell, and the top shell has a positioning structure for positioning the BLE antenna and LoRa antenna. The battery is provided with positive and negative electrode springs. The battery is disposed in the battery compartment of the upper shell and electrically connected to the PCBA assembly through the positive and negative electrode springs. The PCBA assembly is fixed to the upper shell by screws. The springs are disposed on the bottom shell by screws. A silicone button is disposed between the bottom shell and the springs and is pressed and limited by the springs. The bottom shell has a button hole corresponding to the silicone button. The edge of the bottom shell has a waterproof ring receiving groove corresponding to the waterproof ring. The waterproof ring is disposed in the waterproof ring receiving groove and is pressed by the bottom shell and the upper shell. Several copper nuts are embedded in the upper shell. The upper shell and the bottom shell are fastened by countersunk screws and the copper nuts. Mounting parts are formed on opposite sides of the bottom shell, and the mounting parts include mounting holes.
[0006] Furthermore, the outer side of the bottom shell is also provided with several anti-slip pads.
[0007] Furthermore, foam adhesive is also attached to the outer side of the bottom shell.
[0008] The advantages of this utility model using the above solution are as follows: installation can be achieved by magnetic adsorption, and a larger magnetic force can be achieved for more stable adsorption; the mounting part can also achieve installation by hanging, screw fastening, etc., and can be adapted to hanging installation and screw installation methods; in addition, the foam adhesive on the bottom shell can be used for adhesive attachment, thus adapting to multiple installation methods, and has Bluetooth and LoRa communication capabilities to meet different functional requirements. Attached Figure Description
[0009] Figure 1 This is a schematic diagram of the structure of the present invention. Figure 1 .
[0010] Figure 2 This is a schematic diagram of the structure of the present invention. Figure 2 .
[0011] Figure 3 This is an exploded view of the present invention.
[0012] Figure 4 This is a schematic diagram of the bottom shell of this utility model.
[0013] Figure 5 This is a schematic diagram of the upper shell of this utility model.
[0014] Figure 6 This is a cross-sectional view of the present invention. Detailed Implementation
[0015] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
[0016] Please refer to the following: Figures 1 to 6In this embodiment, the present invention provides a multi-functional small LoRaWAN communication locator product, including: a bottom shell 4, two magnets 7, an iron sheet 9, a silicone button 8, a spring 11, a waterproof ring 13, a battery 14, a PCBA assembly 18, light-shielding foam 19, a BLE antenna, a LoRa antenna, and a top shell 20. The bottom shell 4 has magnet mounting grooves 402 corresponding to the magnets, and the bottom shell 4 has a pre-determined thickness at the magnet mounting grooves 402, making the bottom shell 4 thinner at this location, ensuring that the magnets 7 have stronger magnetic attraction. Both magnets 7 are attached to the magnet mounting grooves 402 using double-sided adhesive 6. The iron sheet 9 is attached to the two magnets 7. On the side of the magnet 7 away from the bottom shell 4, the iron sheet 9 covers the entire area of the two magnets 7. The function of the iron sheet 9 is to optimize the magnetic field distribution to achieve a better magnetic attraction effect. The light-shielding foam 19, BLE antenna, and LoRa antenna are all attached to the upper shell 20, and the upper shell 20 has a positioning structure to position the BLE antenna and LoRa antenna to ensure proper installation. Through the BLE antenna and LoRa antenna, the product can realize the corresponding Bluetooth communication transmission and reception functions and LoRa communication transmission and reception functions. The installation position of the light-shielding foam 19 corresponds to the indicator light setting position of the upper shell 20 and the indicator light position of the PCBA assembly 18. The upper shell 20 is provided with positive and negative electrode springs 15 for the battery 14. The battery 14 is disposed in the battery compartment of the upper shell 20 and electrically connected to the PCBA assembly 19 through the positive and negative electrode springs 15. Battery foam 12 is also provided between the battery 14 and the iron plate 9. The PCBA assembly 18 is fixed to the upper shell 20 by PCBA screws 17. The springs 11 are disposed on the bottom shell 4 by screws 10. The silicone button 8 is disposed between the bottom shell 4 and the springs 11 and is pressed and limited by the springs 11 to ensure waterproof and dustproof protection. The bottom shell 4 has a button hole corresponding to the silicone button 8, through which the silicone button can be pressed. 8 triggers the button function on PCBA assembly 18. The edge of the bottom shell 4 is provided with a waterproof ring receiving groove 403 corresponding to the waterproof ring 13. The waterproof ring 13 is set in the waterproof ring receiving groove 403 and is pressed by the bottom shell 4 and the upper shell 20 during assembly. Several copper nuts are embedded on the upper shell 20. The upper shell 20 and the bottom shell 4 are fastened by the cooperation of countersunk screws 3 and copper nuts. Due to the copper nuts, the fastening effect can be maintained even after multiple disassemblies and reassemblies, thus improving durability. Mounting parts 401 are formed on opposite sides of the bottom shell 4. The mounting parts include mounting holes. The product can be installed by setting locking slide screws 5 at the mounting holes for fastening.
[0017] Furthermore, the outer side of the bottom shell 4 is also provided with several anti-slip pads 2, which can play a role in buffering and anti-slip when setting up the product.
[0018] Furthermore, foam adhesive 1 is also attached to the outer side of the bottom shell 4, which can enable the product to be set by adhesive bonding.
[0019] In summary, the advantages of this solution are as follows: it can be installed via magnetic adsorption, achieving a strong magnetic force for a more stable attachment; the mounting section also allows for hanging, screw fastening, and other installation methods, making it compatible with both; furthermore, the foam adhesive on the bottom shell enables adhesive bonding, thus accommodating various installation methods; and it features Bluetooth and LoRa communication capabilities to meet diverse functional requirements.
[0020] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A multi-purpose, compact LoRaWAN communication locator product, characterized in that, include: The system comprises a bottom shell, two magnets, an iron sheet, a silicone button, a spring, a waterproof ring, a battery, a PCBA assembly, light-shielding foam, a BLE antenna, a LoRa antenna, and a top shell. The bottom shell has magnet mounting slots corresponding to the magnets, and the bottom shell has holes of a predetermined thickness at the magnet mounting slots. Both magnets are attached to the magnet mounting slots using double-sided adhesive. The iron sheet is positioned on the side of the two magnets away from the bottom shell, covering the entire area of each magnet. The light-shielding foam, BLE antenna, and LoRa antenna are all attached to the top shell, and the top shell has a positioning structure for positioning the BLE antenna and LoRa antenna. The top shell has positive and negative terminal springs for the battery, and the battery is positioned within the... The battery compartment of the upper shell is electrically connected to the PCBA assembly via positive and negative electrode springs. The PCBA assembly is fixed to the upper shell by screws. The springs are fixed to the bottom shell by screws. The silicone button is located between the bottom shell and the spring and is limited by the spring. The bottom shell has a button hole corresponding to the silicone button. The edge of the bottom shell has a waterproof ring receiving groove corresponding to the waterproof ring. The waterproof ring is located in the waterproof ring receiving groove and is pressed by the bottom shell and the upper shell. Several copper nuts are embedded in the upper shell. The upper shell and the bottom shell are fastened by countersunk screws and the copper nuts. Mounting parts are formed on opposite sides of the bottom shell, and mounting holes are formed on the mounting parts.
2. The multi-purpose compact LoRaWAN communication locator product according to claim 1, characterized in that, The outer side of the bottom shell is also provided with several anti-slip pads.
3. The multi-purpose compact LoRaWAN communication locator product according to claim 1 or 2, characterized in that, Foam adhesive is also attached to the outside of the bottom shell.