Multifunctional water positioning alarm rescue device

This multi-functional water positioning alarm device, which is activated by water pressure sensing or human touch buttons without exposed contacts, and combines LED lights and a compass, solves the problem of alarm activation upon contact with water surface in existing technologies. It achieves instant warning, extends equipment life, and improves user experience and aesthetics.

CN224457464UActive Publication Date: 2026-07-03DONGGUAN QINGHONG ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN QINGHONG ELECTRONIC TECH CO LTD
Filing Date
2025-07-07
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing water location alarm devices require contact with the water surface to activate the alarm, which leads to the inability to provide timely warnings in the early stages of water leakage, poor contact, or false alarms, thus shortening the service life of the equipment.

Method used

A multifunctional water positioning alarm and rescue device was designed. It adopts a non-exposed contact method, and the locator alarm is activated by water pressure sensing, human touch or button. It provides location guidance by combining LED light and compass, and has a hidden strap design to realize the sensor switch and button alarm sealed in the shell.

Benefits of technology

It enables alarms to be activated without contacting the water surface, preventing poor contact or false alarms, improving the service life and detection capabilities of the equipment, reducing the risk of property damage, and enhancing user experience and aesthetics.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of alarm and rescue technology, and discloses a multifunctional water positioning alarm and rescue device, including a mounting connector and a connecting fixing seat fixedly connected to the top of the mounting connector. When the user uses the product for training and does not need the water immersion alarm, the sensor can be turned off and the alarm can be manually activated. The automatic sensing settings when the sensor is turned off and on are distinguished by different indicator lights, ensuring the device's ability to detect minor water seepage or thin layers of water. This allows for timely warnings even when water leakage is not yet detected, reducing the risk of property damage. It also prevents oxidation and rust, avoids poor contact or false alarms, and extends the device's lifespan. The above modules are completely sealed in the product box. Immersion in water, human touch, or pressing the SOS button can all quickly trigger the sensor to automatically activate the alarm, notifying the APP platform of the location via SMS and telephone. This achieves accurate, effective, and real-time monitoring for drowning rescue.
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Description

Technical Field

[0001] This utility model relates to the field of alarm and rescue technology, and in particular to a multifunctional water positioning alarm and rescue device. Background Technology

[0002] With the country's strong promotion of the marine economy and the significant increase in people's water activities, products that are easy to carry, simple to operate, quick to rescue, and remotely monitored are needed for both water rescue and water training. Currently, products with locator functions on the market require exposed contact points to contact water in order to start. This product is designed to activate the locator alarm in three ways: without exposed contact points, by water pressure sensing, human touch, or button.

[0003] In existing technologies, current water immersion automatic alarm locators all require contact points to reach the water surface to trigger a short circuit and activate the alarm. Contact-type alarms require direct contact between the water surface and the electrode to be triggered, which is insufficient for detecting minute seepage or thin layers of water. For example, electrode-type sensors require a water depth of more than 1 mm to trigger an alarm. While photoelectric sensors can detect minute amounts of water, models that rely on contact points still suffer from this limitation. This limitation may lead to delayed early warnings of leaks, increasing the risk of property damage. Electrodes are prone to oxidation and rust due to prolonged contact with water, resulting in poor contact or false alarms. For example, electrode-type sensors require regular probe cleaning to maintain sensitivity; otherwise, corrosion may cause missed or false alarms. In humid or chemically-containing environments, contact corrosion accelerates, further shortening the equipment's lifespan. Therefore, a multi-functional water positioning alarm and rescue device is needed to solve these problems. Utility Model Content

[0004] To overcome the problem that the multi-functional water positioning alarm and rescue device can only activate the alarm by contacting the water surface to form a short circuit switch, which leads to the inability to provide timely warnings in the early stages of water leakage, poor contact or false alarms, and shortens the service life of the equipment.

[0005] The technical solution of this utility model is as follows: a multi-functional water positioning alarm and rescue device, including a mounting base, a connecting fixing base fixedly connected to the top of the mounting base, a locator body snapped into the connecting fixing base, a binding strap disposed inside the mounting base, a binding strap assembly disposed inside the mounting base, an SOS button disposed on the mounting base, an SOS touch or immersion sensor switch disposed on the mounting base, a magnetic charging port disposed on the mounting base, a touch-activated immersion sensor switch disposed on the mounting base, a compass disposed on the mounting base, and an LED light disposed inside the mounting base. The device achieves contact alarm through the SOS button, charges the mounting base through the magnetic charging port, and achieves contact alarm with water through the SOS touch or immersion sensor switch.

[0006] Preferably, the LED light and the compass are positioned on the left and right sides of the mounting connector, respectively.

[0007] Preferably, the SOS button and the SOS touch or immersion sensor switch are symmetrically arranged on the top of the mounting bracket.

[0008] Preferably, the connecting fixing seat has an internal fixed connection of a limit fixing block, an internal sliding connection of a compression fixing block, a return spring fixedly connected between the compression fixing block and the mounting connecting seat, and an internal snap-fit ​​sealing mounting plate with a fixing bolt connected to the internal thread of the connecting fixing seat.

[0009] Preferably, a number of return springs are provided, and the return springs are evenly distributed between the limit fixing block and the mounting connection seat.

[0010] Preferably, the strap assembly includes a drive motor mounted on the mounting bracket, a rotating shaft fixedly connected to the output end of the drive motor, an isolation ring fixedly connected inside the mounting bracket, a connecting transmission belt connected to the rotating shaft, a first rotating rod and a second rotating rod fixedly connected to the rotating shaft, and a back pad mounted on the mounting bracket. The rotating shaft is rotatably connected inside the isolation ring, and the first rotating rod and the second rotating rod are rotatably connected inside the mounting bracket.

[0011] Preferably, there are two rotating shafts, which are symmetrically connected inside the mounting bracket.

[0012] Preferably, the isolation ring has a through hole at the corresponding position of the rotating shaft, and the rotating shaft rotates inside the through hole.

[0013] The beneficial effects of this utility model are:

[0014] 1. Compared to multi-functional water positioning alarm and rescue devices that can only trigger an alarm by contact with the water surface, this device, sealed within a housing, can activate the alarm without exposing the contacts to water. It achieves complete waterproofing, dustproofing, and resistance to air corrosion, preventing contact failure caused by prolonged contact with air or water. It also features a sensor switch; when the user uses the product for training and does not require water immersion alarms, the sensor can be manually turned off for manual alarm activation. Different indicator lights distinguish between automatic sensor activation and deactivation, ensuring the device's ability to detect minor leaks or thin layers of water. This prevents early warnings of leaks, reducing the risk of property damage, and prevents oxidation and rust, as well as poor contact or false alarms, extending the device's lifespan. All modules are completely sealed within the product box. Immersion in water, human touch, or pressing the SOS button will rapidly trigger the sensor to automatically activate the alarm, notifying the APP platform of the location via SMS and telephone. This achieves accurate, effective, and real-time monitoring for drowning rescue.

[0015] 2. The drive belt is connected to the rotating shaft for transmission. The rotating shaft drives the first and second rotating rods to rotate synchronously. The rotation drives the binding straps to wind up and unwind for fixation. Exposed binding straps can easily disrupt the overall design of the equipment, especially in homes, hotels, or high-end commercial spaces, where they appear out of place. The concealed design makes the equipment look cleaner, blending seamlessly with walls, furniture, or equipment cabinets, enhancing the aesthetics of the space. Concealed storage reduces the chance of the binding straps being exposed to dust and moisture, preventing adhesion failure or electrical short circuits due to dirt accumulation. The concealed binding strap design integrates the fixing straps into the equipment or a dedicated storage structure, bringing multiple improvements to the functionality, safety, and user experience of the water immersion automatic alarm locator. The locator body is designed with long slots for installing fixing straps both horizontally and vertically. It is also equipped with two short-distance telescopic binding straps with different fixing methods to meet the user's needs for installation in different locations. The short-distance telescopic binding strap design can secure the product while making the installation method more stable. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of one embodiment of the multifunctional water positioning alarm and rescue device of this utility model;

[0017] Figure 2 for Figure 1 A schematic diagram of the structure of the center positioner body;

[0018] Figure 3 for Figure 1 Schematic diagram of the structure of the intermediate connecting fixed seat;

[0019] Figure 4 This is a schematic diagram of the structure of the mounting connector in this utility model;

[0020] Figure 5 for Figure 1 A schematic diagram of the internal structure of the mounting connector.

[0021] Figure 6 for Figure 1 A schematic diagram of the structure of the locator body.

[0022] Explanation of reference numerals in the attached drawings: 1. Mounting connector; 2. Connecting fixing seat; 3. Positioner body; 4. Binding strap; 801. SOS button; 802. SOS touch or immersion sensor switch; 803. Magnetic charging port; 804. Touch-activated immersion sensor switch; 805. Compass; 806. LED light; 807. Limiting fixing block; 808. Compression fixing block; 809. Return spring; 810. Sealing mounting plate; 811. Fixing bolt; 901. Drive motor; 902. Rotating shaft; 903. Isolation ring; 904. Connecting transmission belt; 905. First rotating rod; 906. Second rotating rod; 907. Back pad. Detailed Implementation

[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0024] Please see Figure 1 - Figure 5This utility model provides an embodiment of a multifunctional water positioning alarm and rescue device, including a mounting base 1, a connecting fixing base 2 fixedly connected to the top of the mounting base 1, a locator body 3 snapped into the connecting fixing base 2, a binding strap 4 disposed inside the mounting base 1, a binding strap assembly disposed inside the mounting base 1, an SOS button 801 disposed on the mounting base 1, an SOS touch or immersion sensor switch 802 disposed on the mounting base 1, a magnetic charging port 803 disposed on the mounting base 1, a touch-activated immersion sensor switch 804 disposed on the mounting base 1, a compass 805 disposed on the mounting base 1, and an LED light 806 disposed inside the mounting base 1. The device uses the SOS button 801 for contact alarm, the magnetic charging port 803 for charging the mounting base 1, and the SOS touch or immersion sensor switch 802 for contact alarm with water. When a user is trapped in water, the SOS touch or immersion sensor switch 802 will sense the water pressure and trigger an alarm. When the alarm is triggered on the locator body 3, the LED light 806 will flash, indicating the user's location. If lost in the wild, the locator body 3 can be triggered to alarm by touching the SOS touch or immersion sensor switch 802 or pressing the SOS button 801. The immersion sensor switch 804 can be touched to turn off the alarm on the locator body 3. The locator body 3 can be wirelessly charged via the magnetic charging port 803. The LED light 806 can provide directional guidance for the user. The locator body 3 is designed with long slots for mounting straps both horizontally and vertically. It is also equipped with two short-distance telescopic straps with different fixing methods to facilitate installation in different locations. The short-distance telescopic straps can secure the product while making the installation more stable.

[0025] Please see Figure 2 - Figure 3In this embodiment, LED lights 806 and compasses 805 are respectively disposed on the left and right sides of the mounting connector 1. The LED lights 806 and compasses 805 on the left and right sides of the mounting connector 1 facilitate user observation. SOS buttons 801 and SOS touch or immersion sensor switches 802 are symmetrically disposed on the top of the mounting connector 1. The SOS touch or immersion sensor switches 802 and SOS buttons 801 facilitate user operation. A limit fixing block 807 is fixedly connected inside the connecting fixing base 2. A pressing fixing block 808 is slidably connected inside the connecting fixing base 2. A return spring 809 is fixedly connected between the pressing fixing block 808 and the mounting connector 1. A sealing mounting plate 810 is snapped into the inside of the connecting fixing base 2. The plate 810 has internal threaded connections with fixing bolts 811. By inserting the locator body 3 into the upper limit fixing block 807 of the connecting fixing seat 2, the set return spring 809 pushes the upper limit fixing block 807 to contact the locator body 3, thereby fixing the locator body 3. By inserting the sealing mounting plate 810 into the connecting fixing seat 2 and contacting the locator body 3, the set fixing bolts 811 fix the sealing mounting plate 810, thereby limiting and fixing the locator body 3. Several return springs 809 are provided, and the several return springs 809 are evenly arranged between the upper limit fixing block 807 and the mounting connecting seat 1. The several return springs 809 make the contact between the pressing fixing block 808 and the locator body 3 more even.

[0026] Please see Figure 4 - Figure 5In this embodiment, the strap assembly includes a drive motor 901 mounted on the mounting connector 1, a rotating shaft 902 fixedly connected to the output end of the drive motor 901, an isolation ring 903 fixedly connected inside the mounting connector 1, a connecting transmission belt 904 connected to the rotating shaft 902, a first rotating rod 905 and a second rotating rod 906 fixedly connected to the rotating shaft 902, and a back pad 907 mounted on the mounting connector 1. The rotating shaft 902 is rotatably connected inside the isolation ring 903, and the first rotating rod 905 and the second rotating rod 906 are rotatably connected inside the mounting connector 1. By placing the position to be fixed inside the strap 4, the drive motor 901 drives the rotating shaft 902, which in turn drives the connecting transmission belt 904 to move along the rotating shaft 902. The isolation ring 903 limits the transmission of the rotating shaft 902. The rotating shaft 902 drives the first rotating rod 905 and the second rotating rod 906 to rotate. The rotation of the first rotating rod 905 and the second rotating rod 906 drives the binding strap 4 to be wound up, so that the binding strap 4 connects to the arm. There are two rotating shafts 902, and the two rotating shafts 902 are symmetrically connected inside the mounting connection seat 1. The two rotating shafts 902 can drive the first rotating rod 905 and the second rotating rod 906 to rotate synchronously. The isolation ring 903 has a through hole at the corresponding position of the rotating shaft 902. The rotating shaft 902 rotates inside the through hole. The through hole in the isolation ring 903 makes the rotating shaft 902 more stable when rotating inside the mounting connection seat 1.

[0027] During operation, the locator body 3 is first installed by inserting the sealing mounting plate 810 into the connecting fixing seat 2 and contacting the locator body 3. The sealing mounting plate 810 is then fixed with the fixing bolts 811, thus limiting and fixing the locator body 3. When the locator body 3 is worn, the drive motor 901 drives the rotating shaft 902, which in turn drives the connecting transmission belt 904. The isolation ring 903 limits the transmission of the rotating shaft 902. The rotating shaft 902 drives the first rotating rod 905 and the second rotating rod 906 to rotate. The rotation of the first rotating rod 905 and the second rotating rod 906 causes the binding strap 4 to rewind, thus connecting the binding strap 4 to the arm. When the locator body 3 is in use, an SOS touch or water immersion sensor switch can be activated if the user is trapped in water. The locator 802 will sense water pressure and trigger an alarm. When the locator body 3 alarms, the LED 806 will flash, indicating the user's location. If lost in the wild, the locator body 3 can be triggered to alarm by touching the SOS touch or immersion sensor switch 802 or pressing the SOS button 801. The alarm of the locator body 3 can be turned off by lightly touching the immersion sensor switch 804. The locator body 3 can be wirelessly charged through the magnetic charging port 803. The LED 806 can provide directional guidance for the user. The SOS button 801, SOS touch or immersion sensor switch 802, immersion sensor switch 804, compass 805, and LED 806 are all sealed inside the locator body 3.

[0028] Through the above steps, the alarm system is activated by contact detection via SOS touch or immersion sensor switch 802, by button alarm via SOS button 801, and by immersion sensor switch 804 which can be turned off by light touch. This solves the problem that the multi-functional water positioning alarm and rescue device can only trigger an alarm by contacting the water surface, which leads to the inability to provide timely warnings in the early stages of water leakage, poor contact or false alarms, and shortens the service life of the equipment.

Claims

1. A multi-functional positioning and alarm device for water area, comprising a mounting connecting seat (1), characterized in that: It also includes a connecting fixing seat (2) fixedly connected to the top of the mounting connecting seat (1), a locator body (3) snapped into the connecting fixing seat (2), a binding strap (4) set inside the mounting connecting seat (1), a binding strap assembly set inside the mounting connecting seat (1), an SOS button (801) set on the mounting connecting seat (1), an SOS touch or immersion sensor switch (802) set on the mounting connecting seat (1), a magnetic charging port (803) set on the mounting connecting seat (1), a touch-to-close immersion sensor switch (804) set on the mounting connecting seat (1), a compass (805) set on the mounting connecting seat (1), and an LED light (806) set inside the mounting connecting seat (1). The SOS button (801) enables contact alarm, the magnetic charging port (803) enables charging of the mounting connecting seat (1), and the SOS touch or immersion sensor switch (802) enables contact alarm with water.

2. The multi-functional water positioning alarm and rescue device according to claim 1, characterized in that: The LED light (806) and the compass (805) are respectively installed on the left and right sides of the mounting connector (1).

3. The multi-functional water positioning alarm and rescue device according to claim 1, wherein: The SOS button (801) and the SOS touch or immersion sensor switch (802) are symmetrically arranged on the top of the mounting connector (1).

4. The multi-functional water positioning alarm and rescue device according to claim 1, wherein: The connecting fixing seat (2) is internally fixedly connected to a limiting fixing block (807), and the connecting fixing seat (2) is internally slidably connected to a pressing fixing block (808). A return spring (809) is fixedly connected between the pressing fixing block (808) and the mounting connecting seat (1). The connecting fixing seat (2) is internally snapped with a sealing mounting plate (810), and the sealing mounting plate (810) is internally threaded with a fixing bolt (811).

5. The multi-functional water positioning alarm and rescue device, according to claim 4, wherein: A number of reset springs (809) are provided, and the number of reset springs (809) are evenly arranged between the limit fixing block (807) and the mounting connection seat (1).

6. The multi-functional water positioning alarm rescue device according to claim 1, wherein: The strap assembly includes a drive motor (901) mounted on the mounting connector (1), a rotating shaft (902) fixedly connected to the output end of the drive motor (901), an isolation ring (903) fixedly connected inside the mounting connector (1), a connecting transmission belt (904) connected to the rotating shaft (902), a first rotating rod (905) and a second rotating rod (906) fixedly connected to the rotating shaft (902), and a back pad (907) mounted on the mounting connector (1). The rotating shaft (902) is rotatably connected inside the isolation ring (903), and the first rotating rod (905) and the second rotating rod (906) are rotatably connected inside the mounting connector (1).

7. The multi-functional water positioning alarm and rescue device, according to claim 6, wherein: There are two rotating shafts (902), and the two rotating shafts (902) are symmetrically connected to the inside of the mounting connector (1).

8. The multi-functional water positioning alarm and rescue device, according to claim 6, wherein: The isolation ring (903) has a through hole at the corresponding position of the rotating shaft (902), and the rotating shaft (902) rotates inside the through hole.