A portable drone countermeasure device
By introducing an anti-accidental touch component into the portable drone countermeasure device, the control circuit can be disconnected in the protected state, avoiding drone obstruction caused by accidental touch and ensuring the safety and reliability of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HEFEI YUFEIMEN ELECTRONIC TECH CO LTD
- Filing Date
- 2025-08-28
- Publication Date
- 2026-06-26
Smart Images

Figure CN224415890U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of unmanned aerial vehicle (UAV) technology, specifically relating to a portable UAV countermeasure device. Background Technology
[0002] Portable drone countermeasures equipment includes a signal source, an amplifier, and an antenna. The signal source generates an interference signal and transmits it to the amplifier. The interference signal is amplified by the amplifier and then transmitted to a certain spatial range through the antenna, forcing the drone to land or move away.
[0003] While drone countermeasures devices can effectively deter drones, their use should be limited and should not interfere with drones in their normal flight. Most existing drone countermeasures devices rely on control buttons to activate and deactivate the countermeasure components. Accidental button presses during operation can obstruct a drone's flight, potentially causing uncontrollable damage to others. Therefore, this application proposes a portable drone countermeasure device with internal anti-accidental button press components to prevent accidental button presses from hindering the flight of a drone. Utility Model Content
[0004] The purpose of this invention is to provide a portable drone countermeasure device to solve the problem mentioned in the background art that existing drone countermeasure devices lack the function of preventing accidental touches, and that accidental touches of control buttons may cause losses to others.
[0005] To achieve the above objectives, the present invention provides the following technical solution: a portable anti-drone device, comprising a countermeasure device body, a countermeasure component disposed within the countermeasure device body, a power supply and a control button for controlling whether the countermeasure component is turned on, and a control circuit including the control button for controlling the opening and closing of the countermeasure component disposed within the countermeasure device body.
[0006] The countermeasure device body has a sliding pull-out box in the housing, and the pull-out box is equipped with an anti-accidental touch component;
[0007] The anti-accidental touch component has at least two states, including a protective state and a ready-to-complete state. When the anti-accidental touch component is in the protective state, the control circuit is disconnected except for the control button. When the anti-accidental touch component is in the ready-to-complete state, the control circuit is connected except for the control button.
[0008] Preferably, the pull-out box is provided with anti-slip textures to improve friction.
[0009] Preferably, the pull-out box has a storage slot at the position corresponding to the anti-accidental touch component.
[0010] Preferably, the anti-accidental touch component includes a guide rod installed on the pull-out box, a pull plate that slides with the guide rod, an elastic component for giving the pull plate a force to move into the depth of the storage slot, and a switching block that rotates with the pull plate.
[0011] Preferably, the outer wall of the switching block is provided with a square, and the square is provided with a first power terminal electrically connected to the control button. The pull-out box is provided with a second power terminal disconnected from the control circuit and a third power terminal connected to the control circuit.
[0012] Preferably, the pull plate is provided with a rotating block with a convex cross-section, the rotating block is connected to the pull plate by a first pin, and the rotating block abuts against the end face of the switching block.
[0013] Preferably, the switching block is provided with a pressure ring that presses against the switching block and rotates in coordination with the rotating block.
[0014] Preferably, the pressure ring and the rotating block are engaged by a second pin.
[0015] Preferably, the guide rod is fixedly installed inside the pull-out box by bolts.
[0016] Preferably, the housing of the countermeasure device body is provided with a pressing plate aligned with the switching block, and the pressing plate is staggered from the guide rod.
[0017] Beneficial effects:
[0018] This utility model provides a portable drone countermeasure device. The anti-accidental touch component has at least two states, including a protected state and a ready-to-complete state. When the anti-accidental touch component is in the protected state, the control circuit is disconnected except for the control button, that is, the first power terminal is connected to the second power terminal. At this time, regardless of whether the control button is open or closed, the entire control circuit is in a disconnected state. When the anti-accidental touch component is in the ready-to-complete state, the control circuit is interconnected except for the control button, that is, the first power terminal is connected to the third power terminal. At this time, the entire control circuit is in a connected state except for the control button. The control button can control the opening and closing of the countermeasure component. In this way, the opening of the countermeasure component requires adjusting the state of the anti-accidental touch component, which can avoid the situation where the normal flight of the drone is hindered due to accidental touch of the control button. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the portable drone countermeasure device of this utility model;
[0020] Figure 2This is a schematic diagram of the internal structure of the portable drone countermeasure device of this utility model;
[0021] Figure 3 This is one of the structural schematic diagrams of the anti-accidental touch component in this utility model;
[0022] Figure 4 This is the second schematic diagram of the anti-accidental touch component in this utility model;
[0023] Figure 5 This is the third structural schematic diagram of the anti-accidental touch component in this utility model.
[0024] Explanation of reference numerals in the attached figures:
[0025] 1. Countermeasure device body; 2. Control button; 3. Pull-out box; 4. Anti-accidental touch component; 401. Guide rod; 402. Elastic component; 403. Pull plate; 404. Pressure ring; 405. Switching block; 406. Block; 407. First power terminal; 408. Second power terminal; 409. Third power terminal; 410. Squeezing plate; 5. Storage slot. Detailed Implementation
[0026] The specific embodiments of this utility model are described in detail below, but it should be understood that the protection scope of this utility model is not limited to the specific embodiments.
[0027] like Figures 1-5 As shown in the figure, this utility model provides a portable drone countermeasure device, including a countermeasure device body 1, a countermeasure component inside the countermeasure device body 1, a power supply for providing power to the electrical component, a control button 2 for controlling whether the countermeasure component is turned on, and a control circuit including the control button 2 for controlling the on and off of the countermeasure component. A drone countermeasure device is a system used to interfere with, intercept, or control drones. It typically consists of multiple key components that work together to effectively counter the drone. Internally, it includes a radio spectrum detection device for monitoring surrounding radar systems, identifying signals and locating signal sources, and a radio frequency jammer that emits high-power jamming signals to block the communication link (image transmission, remote control) between the drone and the operator, as well as GPS / GLONASS navigation signals, forcing the drone to hover, return, or land. Specifically, the control button 2 controls the radio frequency jammer (i.e., the control component). The radio frequency jammer can specifically be DroneShield's "DroneGunTactical," which can force the drone to land or return.
[0028] To prevent accidental touches of the control button 2 from hindering the normal operation of the drone, a sliding pull-out box 3 is provided in the housing of the countermeasure device body 1. The pull-out box 3 is provided with anti-slip texture to improve friction, and an anti-accidental touch component 4 is provided at the pull-out box 3.
[0029] For details, please refer to Figures 2-5 The pull-out box 3 is provided with a storage slot 5 at the position corresponding to the anti-accidental touch component 4. The anti-accidental touch component 4 includes a guide rod 401 installed on the pull-out box 3, a pull plate 403 that slides with the guide rod 401, an elastic component 402 for giving the pull plate 403 a force to move into the storage slot 5, and a switching block 405 that rotates with the pull plate 403.
[0030] A block 406 is provided on the outer wall of the switching block 405. A first power terminal 407 electrically connected to the control button 2 is provided on the block 406. A second power terminal 408 disconnected from the control circuit and a third power terminal 409 connected to the control circuit are provided inside the pull-out box 3.
[0031] The control circuit consists of a power supply, control button 2, first power terminal 407, second power terminal 408, third power terminal 409, and countermeasure components. The second power terminal 408 is in an open circuit state, i.e., the end is wrapped with an insulating sleeve. The third power terminal 409 is electrically connected to the countermeasure components. After the first power terminal 407 and the third power terminal 409 are connected, pressing the control button 2 will activate the countermeasure components, forcing the drone to return to base or make an emergency landing.
[0032] Specifically, the anti-accidental touch component 4 has at least two states, including a protected state and a ready-to-complete state. When the anti-accidental touch component 4 is in the protected state, the control circuit is disconnected except for the control button 2, that is, the first power terminal 407 is connected to the second power terminal 408. At this time, regardless of whether the control button 2 is open or closed, the entire control circuit is in a disconnected state. When the anti-accidental touch component 4 is in the ready-to-complete state, the control circuit is interconnected except for the control button 2, that is, the first power terminal 407 is connected to the third power terminal 409. At this time, the entire control circuit is in a connected state except for the control button 2. The control button 2 can control the opening and closing of the countermeasures component. In this way, the opening of the countermeasures component requires adjusting the state of the anti-accidental touch component 4, which can prevent the normal operation of the drone from being hindered due to accidental touch of the control button 2.
[0033] Specifically, the elastic component 402 can be a spring, specifically a non-metallic spring with a length of 15mm and a wire diameter of 5mm. A rotating block with a convex cross-section is provided at the pull plate 403. The rotating block is connected to the pull plate 403 via a first pin. The rotating block abuts against the end face of the switching block 405, and a pressure ring 404 is provided at the switching block 405, pressing against it and rotating in cooperation with the rotating block. The pressure ring 404 and the rotating block are engaged via a second pin. This ensures that the spring does not rotate during the rotation of the switching block 405, preventing spring torsion.
[0034] More specifically, the guide rod 401 is fixedly installed in the pull-out box 3 by bolts. After the switching block 405 is inserted into the storage slot 5, it cannot be pried out by hand. The housing of the countermeasure device body 1 is provided with a pressing plate 410 aligned with the switching block 405. The pressing plate 410 is staggered from the guide rod 401.
[0035] After the switching block 405 is inserted into the storage slot 5, it cannot be pried out by hand. Only by pushing the pull-out box 3 can the squeezing plate 410 on the pull-out box 3 pull out the switching block 405, the pull plate 403 and other components from the storage slot 5. Then, rotate the switching block 405 so that the first power terminal 407 is aligned with the position of the third power terminal 409. Then release the switching block 405. Under the pulling force of the elastic component 402, the switching block 405 and other components enter the storage slot 5. The first power terminal 407 and the third power terminal 409 are connected. At this time, the anti-accidental touch component 4 is switched to the ready-to-complete state. Repeat the above operation to adjust the state of the anti-accidental touch component 4.
[0036] In summary, this utility model provides a portable drone countermeasure device. The anti-accidental touch component 4 has at least two states, including a protected state and a ready-to-complete state. When the anti-accidental touch component 4 is in the protected state, the control circuit is disconnected except for the control button 2, that is, the first power terminal 407 is connected to the second power terminal 408. At this time, regardless of whether the control button 2 is open or closed, the entire control circuit is in a disconnected state. When the anti-accidental touch component 4 is in the ready-to-complete state, the control circuit is interconnected except for the control button 2, that is, the first power terminal 407 is connected to the third power terminal 409. At this time, the entire control circuit is in a connected state except for the control button 2. The control button 2 can control the opening and closing of the countermeasure component. In this way, the opening of the countermeasure component requires adjusting the state of the anti-accidental touch component 4, which can avoid the situation where the normal flight of the drone is hindered due to accidental touch of the control button 2.
[0037] The above-disclosed embodiments are only a few specific examples of the present utility model. However, the embodiments of the present utility model are not limited thereto. Any changes that can be conceived by those skilled in the art should fall within the protection scope of the present utility model.
Claims
1. A portable anti-drone device, comprising an anti-drone body (1), wherein the anti-drone body (1) contains anti-drone components, characterized in that, The countermeasure device body (1) is equipped with a power supply and a control button (2) for controlling whether the countermeasure component is turned on. The countermeasure device body (1) is equipped with a control circuit including the control button (2) for controlling the opening and closing of the countermeasure component. The countermeasure device body (1) is provided with a sliding pull-out box (3) in the housing, and the pull-out box (3) is provided with an anti-accidental touch component (4); The anti-accidental touch component (4) has at least two states, including a protective state and a ready-to-complete state. When the anti-accidental touch component (4) is in the protective state, the control circuit is disconnected except for the control button (2). When the anti-accidental touch component (4) is in the ready-to-complete state, the control circuit is interconnected except for the switch inside the control button (2).
2. The portable anti-drone device as described in claim 1, characterized in that, The pull-out box (3) is provided with anti-slip textures to improve friction.
3. The portable anti-drone device as described in claim 1, characterized in that, The pull-out box (3) is provided with a storage slot (5) at the position corresponding to the anti-accidental touch component (4).
4. A portable anti-drone device as described in claim 3, characterized in that, The anti-accidental touch component (4) includes a guide rod (401) installed on the pull-out box (3), a pull plate (403) that slides with the guide rod (401), an elastic component (402) for giving the pull plate (403) a force to move deeper into the storage slot (5), and a switching block (405) that rotates with the pull plate (403).
5. A portable anti-drone device as described in claim 4, characterized in that, A block (406) is provided on the outer wall of the switching block (405). A first power terminal (407) electrically connected to the control button (2) is provided on the block (406). A second power terminal (408) disconnected from the control circuit and a third power terminal (409) connected to the control circuit are provided inside the pull-out box (3).
6. A portable anti-drone device as described in claim 5, characterized in that, A rotating block with a convex cross-section is provided at the pull plate (403). The rotating block is connected to the pull plate (403) by a first pin, and the rotating block abuts against the end face of the switching block (405).
7. A portable anti-drone device as described in claim 6, characterized in that, A pressure ring (404) is provided at the switching block (405) and is pressed against the switching block (405) and rotates in coordination with the rotating block.
8. A portable anti-drone device as described in claim 7, characterized in that, The pressure ring (404) is engaged with the rotating block by a second pin.
9. A portable anti-drone device as described in claim 8, characterized in that, The guide rod (401) is fixedly installed in the pull-out box (3) by bolts.
10. A portable anti-drone device as described in claim 9, characterized in that, The countermeasure device body (1) has a pressing plate (410) aligned with the switching block (405) at its housing, and the pressing plate (410) is staggered from the guide rod (401).