Intrusion warning device

By integrating communication chips and positioning modules into the early warning equipment, precise location of the accident site and multi-device linkage alarm are achieved, solving the problem of inaccurate location and linkage in the existing system and improving the ability to respond promptly to potential secondary accidents.

CN224501341UActive Publication Date: 2026-07-14HUBEI XINGHAN YANCHUANG TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI XINGHAN YANCHUANG TECHNOLOGY CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-14

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  • Figure CN224501341U_ABST
    Figure CN224501341U_ABST
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Abstract

The anti-intrusion early warning device of the application comprises a base and upper and lower warning lights and an alarm installed thereon. The base is composed of upper and lower shells, and is internally configured with a main control board, an antenna, a battery and a battery pressing plate. The main control board is located in the central area of the inside of the upper shell of the base and is electrically connected with the battery and the antenna. A communication chip is integrated on the main control board. The chip contains a positioning module, and the communication chip is responsible for transmitting data including device information, positioning information, first alarm information and device running state information to a mobile terminal. The user can query the device running state and the first alarm information in real time, and timely master the positioning information of the early warning device. If it is found that a specific early warning device frequently triggers an alarm, it indicates that there is a high risk in the area, the mobile terminal will send warning information to all early warning devices, reminding personnel to avoid approaching or expanding the warning range, and the supervision measures of the area need to be strengthened.
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Description

Technical Field

[0001] This disclosure relates to the field of security early warning technology, and in particular to an anti-intrusion early warning device. Background Technology

[0002] At the scene of a traffic accident, in order to clear the road as quickly as possible, traffic police and repair personnel usually cordon off the scene with protective cones to form a warning area after a traffic accident or when a vehicle breaks down. However, due to rain or snow, poor visibility at night, or driver negligence or failure to brake in time, vehicles may enter the warning area of ​​the accident scene, which is very dangerous for on-site staff and could potentially cause a secondary traffic accident without their knowledge.

[0003] The existing early warning system includes a main housing, which contains an alarm detection ring, a handheld wireless alarm controller, and a long-line-of-sight device.

[0004] The warning light is equipped with an alarm detection ring on the protective cone, which is carried by the on-site operator as a handheld wireless alarm controller. The alarm detection ring detects the intrusion of foreign objects into the accident scene by means of vibration and displacement. When the intrusion of foreign objects is detected, the alarm detection ring emits a wireless alarm signal. The long-range warning light and the handheld wireless alarm controller receive the alarm signal. The handheld wireless alarm controller emits an audible and visual alarm and a vibration alarm, while the long-range warning light emits an audible and visual alarm.

[0005] Existing early warning systems suffer from a certain distance between the detection zone and the handheld wireless alarm controller and long-range warning light. This makes it impossible for on-site or off-site commanders to clearly understand the specific location of the alarm, hindering accurate and timely responses to potential emergencies. Furthermore, each main unit only notifies a single operator and cannot be connected to other main units or directly notify other operators. If other operators do not notice the alarms of others in time, accidents cannot be prevented. Summary of the Invention

[0006] In view of this, the present disclosure provides an anti-intrusion warning device, including: a base, a lower warning light, an alarm and an upper warning light installed sequentially on the base;

[0007] The base includes an upper base shell and a lower base shell. Inside the base are a main control board, a battery, and a battery pressure plate. The battery pressure plate fixes the battery in the middle position inside the lower base shell, and the main control board is fixed in the middle position inside the upper base shell. The main control board is electrically connected to the battery.

[0008] The upper warning light, alarm, and lower warning light are electrically connected to the main control board.

[0009] It also includes: an antenna, which is electrically connected to the main control board and fixed to the inner edge of the upper shell of the base;

[0010] The communication chip is installed on the side of the main control board away from the alarm. The communication chip includes a positioning module, which transmits information including device information, positioning information, first-type alarm information and device operating status to the mobile terminal, and receives warning information and alarm cancellation signals sent by the mobile terminal.

[0011] In some embodiments, the outer wall of the base housing facing the alarm is provided with three switch buttons; the three switch buttons are electrically connected to the main control board, and control the three switch buttons to set the stand-alone mode and online mode of the anti-intrusion warning device.

[0012] In some embodiments, the upper warning light includes an upper lamp PCBA (Printed Circuit Board Assembly) and an upper lamp cover. The upper lamp PCBA is electrically connected to the main control board. The upper lamp PCBA is also equipped with an infrared detector, a signal receiver, and a 433 wireless communication chip. The upper lamp cover is fitted over the upper lamp PCBA, and the size of the end of the upper lamp cover closer to the alarm is larger than the size of the end farther away from the alarm.

[0013] In some embodiments, the communication chip is a 4G communication chip or a 5G communication chip, and the antenna includes a 4G / 5G antenna, a Bluetooth WiFi antenna, and a 4G / 5G antenna enhancement module.

[0014] In some embodiments, a display screen is also installed on the outer wall of the base upper shell, and a display screen adapter plate and a display screen pressure plate are installed at corresponding positions on the inner edge of the base upper shell.

[0015] In some embodiments, the lower warning light includes a lower light PCBA and a lower light cover. The lower light PCBA is electrically connected to the main control board, and the lower light cover is fitted over the lower light PCBA. The size of the lower light cover at the end closer to the alarm is larger than the size of the end farther away from the alarm.

[0016] In some embodiments, the alarm includes a buzzer and a middle housing fitted over the buzzer, with a waterproof cover and a sealing ring between the middle housing and the lower lamp cover at one end near the lower lamp cover.

[0017] In some embodiments, the anti-intrusion warning device is a roly-poly structure with a wide hemispherical base. The lower lampshade of the lower warning light, the middle shell of the alarm, and the upper lampshade of the upper warning light are all made of transparent and semi-transparent materials to form a columnar structure.

[0018] In some embodiments, a counterweight is provided inside the lower shell of the base, an anti-slip pad is provided outside the lower shell of the base, and multiple fluorescent stickers are installed on the outer wall of the upper shell of the base.

[0019] This disclosure provides an anti-intrusion warning system, including multiple anti-intrusion warning devices as described above. Each anti-intrusion warning device has "transmit" and "receive" labels on both ends of its top. All anti-intrusion warning devices are arranged sequentially one after another, with the "transmit" label of the first anti-intrusion warning device being closer to the "receive" label of the next nearest anti-intrusion warning device, the "receive" label of the next next nearest anti-intrusion warning device being closer to the "transmit" label of the next nearest anti-intrusion warning device, and so on, up to the furthest anti-intrusion warning device.

[0020] The intrusion prevention warning device provided in this application includes a base and upper and lower warning lights and an alarm mounted on it. The base consists of upper and lower shells, internally housing a main control board, antenna, battery, and battery holder. The battery holder secures the battery to the center of the lower shell, while the antenna is fixed to the edge of the inner wall of the upper shell. The main control board is located in the central area inside the upper shell and is electrically connected to the battery and antenna. A communication chip is integrated on the main control board, which includes a positioning module and is mounted on the back of the main control board, away from the alarm. The communication chip is responsible for transmitting data to the mobile terminal, including device information, location information, first alarm information, and device operating status information. The mobile terminal user can query the device operating status and first alarm information in real time and promptly obtain the location information of the warning device. If a specific warning device frequently triggers an alarm, indicating a high level of danger in the area, the mobile terminal will send a warning message to all warning devices, reminding personnel to avoid approaching or expanding the warning area, and necessitating strengthened monitoring measures in the area. Furthermore, the device is designed with both standalone and online modes to adapt to diverse application scenarios, enhancing its applicability and versatility. Attached Figure Description

[0021] Figure 1 Here are some examples of structural diagrams of intrusion prevention warning devices;

[0022] Figure 2 Schematic diagrams of the opening structure of anti-intrusion warning devices provided for some examples;

[0023] Figure 3 Cross-sectional views of some example intrusion prevention warning devices are provided;

[0024] Figure 4 Structural diagrams of LED PCBAs are provided for some examples;

[0025] Figure 5 Enlarged structural diagrams of the base cover provided for some examples;

[0026] Figure 6 Structural diagrams of the base are provided for some examples;

[0027] Figure 7 A schematic diagram of an anti-intrusion warning system is provided for some examples. Detailed Implementation

[0028] The technical solutions of the embodiments of this disclosure will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this disclosure, and not all of them. Based on the embodiments in this disclosure, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this disclosure.

[0029] In the accompanying drawings, for clarity, the dimensions of layers, regions, and elements, as well as their relative dimensions, may be exaggerated. The same reference numerals denote the same elements throughout. To fully understand this disclosure, detailed steps and structures will be presented in the following description to illustrate the technical solutions of this disclosure. Preferred embodiments of this disclosure are described in detail below; however, other embodiments may be implemented in addition to these detailed descriptions.

[0030] Figure 1 Here are some examples of structural diagrams of intrusion prevention warning devices; Figure 2 Schematic diagrams of the opening structure of anti-intrusion warning devices provided for some examples; Figure 3 Cross-sectional views of some example intrusion prevention warning devices are provided; Figure 4 Structural diagrams of LED PCBAs are provided for some examples; Figure 5 Enlarged structural diagrams of the base cover provided for some examples; Figure 6 A schematic diagram of the base provided for some examples.

[0031] The early warning equipment in this application can be used by public security, traffic police, road administration, fire, and emergency rescue personnel in complex rescue and operation sites, or it can be one of the personal safety protection equipment, applicable to large-area operations and rescue sites on land and in forests.

[0032] refer to Figure 1-3 and Figure 5The anti-intrusion warning device in this embodiment includes: a base 1, a lower warning light 2, an alarm 3, and an upper warning light 4 installed sequentially on the base 1 from top to bottom. The base 1 includes an upper shell 11 and a lower shell 12. The base 1 contains a main control board 15, an antenna 19, a battery 13, a battery pressure plate 14, and a communication chip 17 mounted on the main control board 15. The communication chip 17 includes a positioning module (not shown). The battery pressure plate 14 fixes the battery 13 to the middle position inside the lower shell 12. The antenna 19 is fixed to the inner edge of the upper shell 12. The main control board 15 is fixed to the middle position inside the upper shell 12. The communication chip 17 is mounted on the side of the main control board 15 away from the alarm 3. The main control board 15 is electrically connected to the battery 13, and the antenna 19 is electrically connected to the main control board 15. The upper warning light 4, the alarm 3, and the lower warning light 2 are electrically connected to the main control board 15.

[0033] In some embodiments, the upper warning light 4 and the lower warning light 2 illuminate with different colors. A gasket 81 is also installed between the main control board 15 and the interior of the base upper shell 12; the gasket 81 can be made of stainless steel. The battery 13 can be a lithium battery, and the battery pressure plate 14 can be made of stainless steel. Both the base upper shell 11 and the base lower shell 12 can be made of high-strength engineering plastic, possessing wear-resistant and impact-resistant properties, ensuring that they are not easily damaged in complex outdoor environments. The base upper shell 11 also has a hidden handle on its side, facilitating movement, hanging, or fixing when needed, expanding its usage scenarios.

[0034] In the embodiments of this application, reference is made to Figure 5 The communication chip 17 may include a 4G communication chip or a 5G communication chip, and the antenna 19 may include a 4G / 5G antenna 191, a Bluetooth / WiFi antenna 192, and a 4G / 5G antenna enhancement module 193. The communication chip 17 integrates a positioning module, which may employ a GPS module and / or a BeiDou positioning module. The communication chip 17 can be used to transmit data to a mobile terminal (e.g., a mobile phone or computer) and receive warning messages and alarm cancellation signals sent by the mobile terminal. The transmitted data may include: device information, location information, first-type alarm information, and operational status information. In the event of a second-type emergency, the communication chip 17 can also be used to receive warning messages and alarm cancellation signals sent by the mobile terminal. When the warning device manually presses a switch button or receives an alarm cancellation signal, all displays return to normal display content.

[0035] In some embodiments, device information may include user information and device number, with user information including user name and organization. The location information of the warning device may include latitude and longitude information. First-type alarm information includes the alarm start time, alarm duration, and alarm end time. Warning device operational status information includes, but is not limited to, battery level, frequency of first-type accidents occurring within a specific time period, changes in the surrounding environment of the device, and location information (e.g., whether the online warning device is within a specified range).

[0036] In this embodiment, the intrusion warning device can be used in temporarily controlled areas, such as to prevent secondary accidents at traffic accident scenes, protect other accident scenes from damage, or prohibit other personnel from entering work and living areas. The first type of unexpected situation includes, but is not limited to, situations where a single warning device is knocked down, impacted, thrown, or squeezed, or where a person, animal, or object passes between two warning devices. The second type of unexpected situation includes, but is not limited to, changes in the surrounding environmental information of the temporarily controlled area, such as sudden severe weather, including but not limited to heavy rain, flash floods, landslides, dense fog, earthquakes, etc.; or, other sudden accidents occurring within a certain distance of a traffic accident scene; or, when several warning devices experience multiple incidents in a short period, indicating that the location is a high-risk area and further incidents may occur. Warning information may include audible and visual alarms, accompanied by text warnings or call information. Call information may include single or group call prompts, or forced alarm prompts. The audible and visual alarm setup is as follows: the warning light and alarm work simultaneously, with the warning light flashing once per second and the alarm sounding once per second, synchronized with the alarm.

[0037] The mobile terminal can be used to store information transmitted by the early warning devices and generate alarm records, which can be saved on the mobile terminal in the form of logs for later review. It should be noted that other early warning devices that have not yet experienced a Category I accident will also periodically send their device information and location information to the management terminal. The management terminal can also generate operational status information for each early warning device based on the aforementioned alarm records and the device information and location information of other early warning devices that have not yet experienced a Category I accident, and monitor the status of each early warning device in real time.

[0038] In one implementation, such as Figure 1-3As shown, the warning device can have a self-righting structure. The base 1 adopts a wide hemispherical structure, and the lower lampshade 22 of the lower warning light 2, the middle shell 31 of the alarm 3, and the upper lampshade 42 of the upper warning light 4 are all made of translucent material in a columnar structure. This unique self-righting structure, with its innovative mechanical design, makes the warning device less prone to tipping over when subjected to external impacts, ensuring it remains operational. It is suitable for densely populated and complex environments, such as construction sites and temporary warning areas, ensuring the continuity and reliability of the warning function. In other implementations, the warning device can also be cone-shaped, cuboid, etc.

[0039] In some embodiments, the lower warning light 2 includes a lower light PCBA (Printed Circuit Board Assembly) 21 and a lower light cover 22. The lower light PCBA 21 is electrically connected to the main control board 15. The lower light cover 22 is fitted over the lower light PCBA 21, and the size of the end of the lower light cover 22 near the alarm 3 is larger than the size of the end away from the alarm 3. The alarm 3 includes a buzzer and a middle shell 31 fitted over the buzzer. A waterproof cover 5 and a sealing ring 6 are provided between the middle shell 31 and the lower light cover 22. A sound outlet is also provided on the hollow end of the middle shell 31 near the lower light cover 22 so that the sound emitted by the alarm 3 can be diffused in all directions. The upper warning light 4 includes an upper light PCBA 41 and an upper light cover 42. The upper light PCBA 41 is electrically connected to the main control board 15. The upper light PCBA 41 also houses an infrared detector, a signal receiver, and a 433 wireless communication chip. The upper light cover 42 is fitted over the upper light PCBA 41, with the end of the upper light cover 42 closer to the alarm 3 having a larger dimension than the end farther from the alarm 3. The lower light PCBA 21 includes multiple LED beads and PCBAs at both ends of the LED beads. (Reference) Figure 4 The upper lamp PCBA 41 includes multiple LED beads and PCBAs at both ends of the beads. The upper lamp cover 42 can be a frustum (or a truncated cone). The middle shell 31 is threaded to the upper lamp cover 42, and the middle shell 31 is bolted to the lower lamp cover 22.

[0040] In this embodiment, the lower warning light 2 can be a blue warning light, and the upper warning light 4 can be a red warning light. The red warning light uses a high-brightness LED, and the flashing mode can effectively attract attention and convey warning information; the light strip of the blue warning light can be customized with various display modes (such as constant light, breathing light, etc.), which can distinguish different working states or convey different types of warning signals, enhancing the diversity and efficiency of information transmission.

[0041] The upper lampshade 42 is made of semi-transparent red acrylic (also known as plexiglass), which has a bright and long-lasting color and maintains high visibility under various lighting conditions, effectively attracting attention. The lower lampshade 22 is made of semi-transparent PC material, which has both high light transmittance and impact resistance, protecting the internal circuit components while allowing the lighting effect to be perfectly presented.

[0042] In some embodiments, reference 3 and Figure 5 A counterweight 121 is provided inside the lower shell 12 of the base, located between the battery 13 and the lower shell 12. An anti-slip pad 122 is provided on the outside of the lower shell 12. In some embodiments, the ratio of the length (i.e., the diameter of the circumscribed circle of the floor area) to the height of the roly-poly structure ranges from 0.25 to 0.4, with a preferred range of 0.3 to 0.32. The counterweight 121 can be made of cast iron or cast stainless steel. The surface of the cast iron can be galvanized to increase corrosion resistance. The counterweight 121 is U-shaped, and the battery 13 is placed in the groove of the counterweight 121. Screw holes are provided on the battery pressure plate 14, the edge of the counterweight 121, and the corresponding positions on the lower shell 12. The battery is fixed in the groove of the counterweight 121 with screws in conjunction with the battery pressure plate 14, and the counterweight 121 is also fixed to the lower shell 12. The counterweight 121 is embedded and fixed in the inner wall of the lower shell 12. The anti-slip pad 122 can be made of silicone. The counterweight 121 ensures the weight distribution of the early warning equipment and enhances the stability of the roly-poly structure. The anti-slip mat 122 further strengthens the stability of the roly-poly structure.

[0043] refer to Figure 2 , Figure 3 and Figure 5 The warning device in this embodiment includes multiple screw holes 72 and screws 71. The upper base shell 11 and the lower base shell 12 are fixed by screws, and a waterproof gasket 82 is provided at the joint. The waterproof cover 5 is fixed to the inner wall of the middle shell 31 by screws, and a sealing ring 6 is provided at the joint. The waterproof cover 5 is also used to concentrate and reflect the sound emitted by the alarm, so that the sound is concentrated and more is transmitted from the sound outlet on the middle shell, thereby preventing the sound from leaking from the lower lamp cover, which would cause the alarm sound to diffuse and decrease in volume.

[0044] It is easy to understand that, for safe and normal use, the lower shell 12 of the base is sealed except at the joint with the upper shell 11 of the base. The upper shell 11 of the base is open at both ends so that it can be fixed to the lower shell 12 and the middle shell 31 of the base by screws, and a sealing ring is also provided at the joint.

[0045] In this embodiment, multiple fluorescent stickers 114 are installed on the outer wall of the base shell. Made of fluorescent material, these stickers enhance product visibility in low-light environments, while also adding visual depth and a modern feel.

[0046] In some embodiments, reference 5 and Figure 6 A display screen 112 is also mounted on the outer wall of the base upper shell 11, and a display screen adapter plate 1121 and a display screen pressure plate are mounted at corresponding positions on the inner edge of the base upper shell. In this embodiment, the display screen may include an OLED display screen, which has a backlight function and can be clearly displayed even in dark environments.

[0047] In some embodiments, reference 5 and Figure 6 The outer wall of the base shell 11, facing the alarm, has three switch buttons 17, a charging port 113, and a discharging port 115. The three switch buttons 17 are electrically connected to the main control board 15, controlling the operation of the anti-intrusion warning device in stand-alone or online mode. Figure 6 As shown, switches 17 are respectively a power switch (also called the first switch), a button marked "M" (also called the second switch), and a button marked "S" (also called the third switch). Display screen 112 displays the second type of alarm information, device information, and operating mode. In this embodiment, a discharge interface 115, such as a USB interface, is also provided above the charging interface 113. In an emergency, the warning device can charge devices such as mobile phones, watches, and walkie-talkies. The vertical positions of the charging interface 113 and the discharge interface 115 can be interchanged.

[0048] In some embodiments, when a user powers on the device for the first time using the first switch button, it defaults to standalone mode. After powering on, when the user selects to press the second or third switch button, the warning device enters online mode. When all three switch buttons are pressed, the warning device remains in standalone mode. In standalone mode, the infrared detection sensor is not operational.

[0049] In some embodiments, when multiple early warning devices are set to online mode, the total number of early warning devices should be greater than or equal to two. The first early warning device to connect to the early warning system is the host device, and at least one other early warning device is an online device. When at least one online device experiences a Type I unexpected situation, the host device's display screen shows the device information and alarm information of the online device experiencing the Type I unexpected situation. For example, the alarm information could be "Device XX is abnormal," along with a 60-second countdown.

[0050] In this embodiment of the application, reference is made to Figure 7When multiple early warning devices are used in conjunction with each other, they can form an intrusion prevention early warning system. All early warning devices have "Transmit" and "Receive" labels on both ends of their tops. The devices are arranged sequentially, one after another, with the "Transmit" label of the main device (the first early warning device) closer to the "Receive" label of the nearest connected device, and so on, up to the furthest connected device. This ensures that the transmitter of each early warning device is closer to the receiver, effectively guaranteeing the quality of wireless communication. Simply put, the "Transmit" label corresponds to the location of the infrared detection sensor, and the "Receive" label corresponds to the location of the signal receiver.

[0051] When the early warning devices are in online mode, when a person, animal, or object passes between two early warning devices, the two or more adjacent early warning devices will transmit and receive infrared detection signals to each other. The early warning devices that transmit or receive infrared detection signals will issue an audible and visual alarm and transmit the corresponding device information, location information, and first-type alarm information to the mobile terminal. The early warning device in this embodiment can use an infrared detection sensor and signal receiver, which has high detection sensitivity, a wide detection angle, and uninterrupted signal reception.

[0052] The following is a brief introduction to the operation of the three switch buttons, upper and lower warning lights, and alarm of a single or multiple early warning devices in stand-alone and online modes. The following example uses warning light 2 as a blue light and warning light 4 as a red light.

[0053] (1) Standalone mode:

[0054] When the first switch is pressed for the first time to turn on (i.e., the first power-on of the warning device), the red and blue warning lights flash frequently; when the first switch is pressed for the second time, the red and blue warning lights flash frequently and the alarm sounds; when the switch is pressed for the third time, the device is turned off, and so on. In this embodiment, the red and blue warning lights on the upper and lower layers are turned on synchronously and at the same frequency. The frequency of the warning lights can be red flashing twice, blue flashing twice, red and blue flashing twice at the same time, and so on, and the frequency can be 5-10Hz.

[0055] When the second switch is pressed for the first time to activate it, the red and blue warning lights flash synchronously, but the alarm does not activate. When a single warning device is dropped, impacted, thrown, or squeezed, the red and blue warning lights flash synchronously at 5-10Hz, and the alarm sounds simultaneously. The alarm sound lasts for 60 seconds and then automatically shuts off. If the device is touched again within the 60-second alarm period, the 60-second timer resets. To deactivate the alarm within 60 seconds, the second switch must be pressed manually or the alarm sound must be deactivated via a mobile terminal; otherwise, the device will continue to flash red and blue lights and sound the alarm. The synchronous flashing pattern of the red and blue warning lights is the same as that of the first switch. Pressing the second switch again deactivates the warning device, and this cycle repeats.

[0056] When the third switch is pressed, the working process is the same as that of the second switch, and will not be described again here.

[0057] It should be noted that when the warning device is used in stand-alone mode, only one of the first, second, and third switches is active after the device is powered on; both cannot be active simultaneously. For example, when the first switch is on, the second and third switches are inactive; when the second switch is on, the first and third switches are inactive; and when the third switch is on, the first and second switches are inactive. When all three switches are on, the first switch functions by default.

[0058] (2) Online mode usage:

[0059] Press the first switch to turn on (i.e., the first power-on of the warning device), and the red and blue warning lights will flash. Press the second switch to turn on (this warning device is the main unit by default), and the red and blue warning lights will flash synchronously (the red and blue warning lights on both the upper and lower layers will flash synchronously at the same frequency, with the red flashing twice, the blue flashing twice, and both flashing twice simultaneously), but the alarm will not be activated. When a person, animal, or object passes between the two warning devices, or when a single warning device falls, is hit, or is thrown, the red and blue warning lights will flash synchronously at 5-10Hz, and the alarm will sound simultaneously. The alarm sound will automatically turn off after 60 seconds. If the device is touched again within the 60-second alarm sound, the 60-second timer will reset. To deactivate the alarm within 60 seconds, the second switch must be pressed manually or the alarm sound must be deactivated via a mobile terminal; otherwise, the device will continue to flash red and blue and sound the alarm. Press the second switch again to turn off the warning device, and this cycle will repeat.

[0060] Press to turn on the first switch (i.e., the first power-on of the warning device), and the red and blue warning lights will flash. Press to turn on the third switch (this warning device is the first connected device by default), and the red and blue warning lights will flash synchronously. The rest is the same as the second switch in the connected mode, and will not be described again here.

[0061] It should be noted that if the user only turns on the first switch and not the second or third switch, this warning device can only be used in standalone mode. If the first and second switches are turned on simultaneously, the warning device will default to the function of the second switch. If the first and third switches are turned on simultaneously, the warning device will default to the function of the third switch. When all three switches are accidentally turned on at the same time, the warning device will default to the function of the first switch, and only standalone mode will be available; online mode will not be available, and one of the switches must be deactivated.

[0062] This disclosure discloses an anti-intrusion warning device comprising a base and upper and lower warning lights and an alarm mounted thereon. The base consists of upper and lower housings, internally housing a main control board, an antenna, a battery, and a battery holder. The battery holder secures the battery to the center of the lower housing, while the antenna is fixed to the edge of the inner wall of the upper housing. The main control board is located in the central area inside the upper housing and is electrically connected to the battery and antenna. A communication chip is integrated on the main control board, containing a positioning module, and is mounted on the back of the main control board, away from the alarm. The communication chip is responsible for transmitting data to a mobile terminal, including device information, location information, first alarm information, and device operating status information. Mobile terminal users can query the device operating status and first alarm information in real time and promptly obtain the location information of the warning device. If a specific warning device frequently triggers an alarm, indicating a high level of danger in the area, the mobile terminal will send a warning message to all warning devices, reminding personnel to avoid approaching or expanding the warning area, and necessitating strengthened monitoring measures in the area. Furthermore, the device is designed with both standalone and online modes to adapt to diverse application scenarios, enhancing its applicability and versatility.

[0063] It should be understood that phrases such as "in one embodiment" or "in one embodiment" appearing throughout this specification do not necessarily refer to the same embodiment. The sequence numbers of the embodiments disclosed above are for descriptive purposes only and do not represent the superiority or inferiority of the embodiments.

[0064] The above description is only a preferred embodiment of this disclosure and does not limit the patent scope of this disclosure. All equivalent structural transformations made using the contents of this specification and drawings under the inventive concept of this disclosure, or direct / indirect applications in other related technical fields, are included within the patent protection scope of this disclosure.

Claims

1. An anti-intrusion early warning device, characterized in that, include: The base, the lower warning light, the alarm and the upper warning light are installed on the base in sequence; The base includes an upper base shell and a lower base shell, and contains a main control board, a battery, and a battery clamping plate. The battery clamping plate fixes the battery in the middle position inside the lower base shell, and the main control board is fixed in the middle position inside the upper base shell. The main control board is electrically connected to the battery. The upper warning light, alarm, and lower warning light are electrically connected to the main control board. It also includes: an antenna, which is electrically connected to the main control board and fixed to the inner edge of the upper shell of the base; The communication chip is installed on the side of the main control board away from the alarm. The communication chip includes a positioning module, which transmits data including device information, positioning information, first-type alarm information and device operating status to the mobile terminal, and receives warning information and alarm cancellation signals sent by the mobile terminal.

2. The anti-intrusion early warning device according to claim 1, characterized in that, The outer wall of the base shell facing the alarm has three switch buttons; the three switch buttons are electrically connected to the main control board, and control the three switch buttons to set the stand-alone mode and online mode of the anti-intrusion warning device.

3. The anti-intrusion early warning device according to claim 1, characterized in that, The communication chip is a 4G communication chip or a 5G communication chip, and the antenna includes a 4G / 5G antenna, a Bluetooth WiFi antenna, and a 4G / 5G antenna enhancement module.

4. The anti-intrusion early warning device according to claim 1, characterized in that, A display screen is also installed on the outer wall of the base shell, and a display screen adapter plate and a display screen pressure plate are installed at the corresponding positions on the inner edge of the base shell.

5. The anti-intrusion early warning device according to claim 1, characterized in that, The upper warning light includes an upper light PCBA and an upper light cover. The upper light PCBA is electrically connected to the main control board. The upper light PCBA is also equipped with an infrared detector, a signal receiver, and a 433 wireless communication chip. The upper light cover is fitted over the upper light PCBA, and the size of the end of the upper light cover closer to the alarm is larger than the size of the end farther away from the alarm.

6. The anti-intrusion early warning device according to claim 1, characterized in that, The lower warning light includes a lower light PCBA and a lower light cover. The lower light PCBA is electrically connected to the main control board, and the lower light cover is fitted over the lower light PCBA. The size of the lower light cover at the end closer to the alarm is larger than the size of the end farther away from the alarm.

7. The anti-intrusion early warning device according to claim 6, characterized in that, The alarm includes a buzzer and a middle housing that is fitted over the buzzer. A waterproof cover and a sealing ring are provided between the middle housing and the lower lamp cover at the end near the lower lamp cover.

8. The anti-intrusion early warning device according to claim 7, characterized in that, The anti-intrusion warning device has a self-righting structure. The base adopts a wide hemispherical structure. The lower lamp cover of the lower warning light, the middle shell of the alarm, and the upper lamp cover of the upper warning light are all made of semi-transparent material in a columnar structure.

9. The anti-intrusion early warning device according to claim 1, characterized in that, The base has a counterweight inside the lower shell, located between the battery and the lower shell. The lower shell has an anti-slip pad, and the upper shell has multiple fluorescent stickers installed on its outer wall.