A wild boar trap that avoids accidental capture and provides timely feedback.

By designing a wild boar trap with double one-way doors and a switching mechanism, the trap effectively lures and captures wild boars by utilizing their rooting behavior. It also provides timely feedback through detectors and transmitters, solving the problems of accidental capture and lack of feedback in existing technologies, and improving capture efficiency and safety.

CN119867051BActive Publication Date: 2026-06-30SHAANXI INST OF ZOOLOGY NORTHWEST INSTOF ENDANGERED ZOOLOGICAL SPECIES

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
SHAANXI INST OF ZOOLOGY NORTHWEST INSTOF ENDANGERED ZOOLOGICAL SPECIES
Filing Date
2024-11-26
Publication Date
2026-06-30

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Abstract

This invention provides a wild boar trap that avoids accidental capture and provides timely feedback. Because the second one-way door on the trap is located on the same side of the containment space as the first one-way door, and the second and first one-way doors are connected to form a groove of a preset depth, when a wild boar is attracted by the bait in the bait trough and tries to enter the trap, it uses its rooting behavior to reach into the groove with its snout and touch the second one-way door. Then, it uses its snout to push the second one-way door open in the direction of opening. As the wild boar continues to enter the trap, its entire head pushes up the first one-way door, allowing it to pass through and enter the trap. Ultimately, the wild boar is trapped inside the trap, achieving trapping specifically for wild boars and avoiding accidental capture of other animals. After the wild boar is captured, a detector and transmitter work together to promptly send a capture signal to the terminal, alerting staff to take timely action.
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Description

Technical Field

[0001] This invention relates to the field of capture tool technology, and more specifically, to a wild boar capture cage that avoids accidental capture and provides timely feedback. Background Technology

[0002] Currently, with the protection of the ecological environment, the number of protected animals such as wild boars is increasing year by year, leading to the appearance of wild boars in forest areas. Therefore, it is necessary to capture wild boars in forest areas.

[0003] However, there are currently no effective traps for catching wild boars.

[0004] It should be noted that the information disclosed in the background section above is only used to enhance the understanding of the background of the present invention, and therefore may include information that does not constitute prior art known to those skilled in the art. Summary of the Invention

[0005] The purpose of this invention is to provide a wild boar trap that avoids accidental capture and provides timely feedback, enabling effective trapping of wild boars.

[0006] Other features and advantages of the invention will become apparent from the following detailed description, or may be learned in part by practice of the invention.

[0007] According to one aspect of the present disclosure, a wild boar trap is provided to avoid accidental capture and provide timely feedback, the wild boar trap comprising:

[0008] A cage, the containment space formed by the cage, the cage having an entrance that connects the periphery of the cage to the containment space;

[0009] A bait trough, which is provided in the containment space, is used to place food to lure wild boars into the cage.

[0010] A first one-way door is located on the entrance and blocks the entrance. The opening direction of the first one-way door is the direction from the outer perimeter of the cage towards the accommodating space. An opening is provided on the first one-way door.

[0011] A second one-way door is disposed on the opening and blocks the opening. The opening direction of the first one-way door is the direction from the outer periphery of the cage towards the receiving space. In the direction from the outer periphery of the cage towards the receiving space, the second one-way door is located on the side of the receiving space relative to the first one-way door, and the second one-way door and the first one-way door are connected to form a groove of a preset depth, the preset depth being greater than 5 centimeters. When the first one-way door is opened, it can drive the second one-way door to move.

[0012] A switching mechanism includes a trigger switch and a latch. The trigger switch has a closed state and a triggered state. When the trigger switch is in the closed state, the latch is in the closed position. When the trigger switch is in the triggered state, the latch is in the open position. When the latch is in the closed position, it closes the first one-way door. When the latch is in the open position, the first one-way door can be opened. Utilizing the characteristic of wild boars rooting for food, the wild boar can insert its snout into the groove and touch the second one-way door to avoid accidentally catching other animals. When the second one-way door moves towards the opening direction, it can trigger the trigger switch to the triggered state, thereby placing the latch in the open position. Then, as the wild boar continues to enter the cage, its entire head will arch the first one-way door, allowing it to enter the cage through the first one-way door, ultimately trapping the wild boar in the cage, thus achieving the trapping of the wild boar.

[0013] A detector connected to the switching mechanism is configured to detect the position of the latch; when the latch is in the open position, the detector outputs a capture information.

[0014] A transmitter connected to the detector is configured to send the captured information to a terminal and to promptly provide feedback on the captured information to staff.

[0015] In one exemplary embodiment of this disclosure, the wild boar trap further includes:

[0016] A locator is mounted on the cage and configured to acquire the location information of the capture cage; the locator is connected to a transmitter that can send the location information to a terminal.

[0017] In one exemplary embodiment of this disclosure, the trigger switch includes a first elastic element, and the switch mechanism further includes a second elastic element. One end of the first elastic element is connected to the first one-way door, and the other end is connected to the latch. One end of the second elastic element is connected to the latch, and the other end is connected to the second one-way door.

[0018] When the second one-way door is not subjected to external force, the first elastic element is in a stretched state to block the opening of the second one-way door, and the second elastic element is in a stretched state to limit the latch to the closed position; when the latch is in the closed position, a limiting structure is formed on the cage body, the limiting structure is located on the side of the latch facing the opening direction, and the latch is located in the limiting space between the limiting structure and the first one-way door;

[0019] When the second one-way door is opened, the second one-way door causes the first elastic element to stretch, and the first elastic element causes the latch to move to the open position against the elastic force of the second elastic element, so that the first one-way door can open towards the receiving space; when the latch is in the open position, the latch retracts from the limiting space between the limiting structure and the first one-way door.

[0020] In one exemplary embodiment of this disclosure, the first elastic element and the second elastic element are elastic elements of the same type.

[0021] In one exemplary embodiment of this disclosure, the elastic coefficient of the second elastic element is greater than that of the first elastic element.

[0022] In one exemplary embodiment of this disclosure, the trigger switch includes a first elastic element, one end of which is connected to the first one-way door and the other end is connected to the latch.

[0023] When the second one-way door is not subjected to external force, the first elastic element is in a stretched state, so that the second one-way door blocks the opening; when the latch is in the closed position, a limiting structure is formed on the cage body, the limiting structure is located on the side of the latch facing the opening direction, the latch is located in the limiting space between the limiting structure and the first one-way door, and a damping structure is formed in the limiting space to form damping of the latch from the closed position to the open position;

[0024] When the second one-way door is opened, the second one-way door causes the first elastic element to stretch, and the first elastic element causes the latch to move against the damping structure to the open position, so that the first one-way door can open towards the receiving space; when the latch is in the open position, the latch retracts from the limiting space between the limiting structure and the first one-way door.

[0025] In one exemplary embodiment of this disclosure, the switching mechanism further includes a driving component connected to the latch, which is used to drive the latch to move from the closed position to the open position;

[0026] When the second one-way door moves toward the opening direction, the trigger switch is in the trigger state; when the trigger switch is in the trigger state, the drive component responds to the trigger switch to drive the bolt to move from the closed position to the open position.

[0027] In one exemplary embodiment of this disclosure, the switching mechanism further includes a solar panel disposed on the top surface of the cage, the solar panel being connected to the trigger switch and the drive assembly, and the solar panel being used to supply power.

[0028] In one exemplary embodiment of this disclosure, the second one-way door is located on the side of the first one-way door near the bottom of the cage, the top of the second one-way door is rotatably connected to the first one-way door, and the latch is disposed opposite to the bottom of the second one-way door.

[0029] In one exemplary embodiment of this disclosure, the top of the first one-way door is pivotally connected to the cage body, and the latch is disposed opposite to the bottom of the first one-way door.

[0030] The wild boar trap provided in this disclosure has a first one-way door and a second one-way door nested together at the entrance of the trap. When the second one-way door moves toward the opening direction, the trigger switch is in the trigger state, and only then can the first one-way door move toward the opening direction, allowing the wild boar to enter the trap's containment space through the first one-way door. When a wild boar needs to enter the cage through the first one-way door, a second one-way door is located on the side of the cage facing the containment space. The second one-way door and the first one-way door are connected to form a groove of a preset depth. That is, the wild boar needs to insert a part of its body into the groove to move the second one-way door in the opening direction before the first one-way door can be opened by the switching mechanism. For example, when the wild boar is attracted by the bait in the cage and wants to enter the cage, taking advantage of the wild boar's rooting behavior, the wild boar can insert its long snout into the groove and touch the second one-way door. It can then use its snout to push the second one-way door open in the opening direction. Then, as the wild boar continues to enter the cage, its entire head will push up the first one-way door, allowing it to enter the cage through the first one-way door. Finally, the wild boar is trapped in the cage, thus achieving the trapping of the wild boar.

[0031] It should be understood that the above general description and the following detailed description are exemplary and explanatory only, and are not intended to limit the invention. Attached Figure Description

[0032] The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and, together with the description, serve to explain the principles of the invention. It is obvious that the drawings described below are merely some embodiments of the invention, and those skilled in the art can obtain other drawings based on these drawings without any inventive effort. In the drawings:

[0033] Figure 1A schematic diagram of a wild boar trap provided in one embodiment of this disclosure;

[0034] Figure 2 A schematic diagram showing the latch in the closed position according to an embodiment of this disclosure;

[0035] Figure 3 A side view of the latch in the closed position according to an embodiment of this disclosure;

[0036] Figure 4 A schematic diagram showing the latch in the open position according to an embodiment of this disclosure;

[0037] Figure 5 A side view of the latch in the open position, provided for one embodiment of this disclosure.

[0038] Explanation of reference numerals in the attached figures:

[0039] 10. Wild boar trap;

[0040] 100. Cage;

[0041] 200, First one-way door; 210, Opening; 220, Recess; 230, Rotating column;

[0042] 300. Second one-way door;

[0043] 410 Locking tongue; 420 First elastic element; 430 Second elastic element; 440 Slide groove. Detailed Implementation

[0044] Exemplary embodiments will now be described more fully with reference to the accompanying drawings. However, these exemplary embodiments can be implemented in many forms and should not be construed as limited to the embodiments set forth herein; rather, they are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the exemplary embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and therefore their detailed description will be omitted.

[0045] Although relative terms such as "upper" and "lower" are used in this specification to describe the relative relationship of one component of an icon to another, these terms are used only for convenience, such as the orientation of the examples shown in the accompanying drawings. It is understood that if the device of the icon is flipped upside down, the component described as "upper" will become the component described as "lower." When a structure is "upper" of another structure, it may mean that the structure is integrally formed on the other structure, or that the structure is "directly" mounted on the other structure, or that the structure is "indirectly" mounted on the other structure through another structure.

[0046] The terms “a,” “one,” “the,” “the,” and “at least one” are used to indicate the existence of one or more elements / components / etc.; the terms “including” and “having” are used to indicate an open-ended inclusion and to mean that there may be other elements / components / etc. in addition to the listed elements / components / etc.; the terms “first,” “second,” etc. are used only as markers and are not a limitation on the number of objects.

[0047] Embodiments of this disclosure provide a wild boar trap that avoids accidental capture and provides timely feedback, such as... Figures 1-5 As shown, the wild boar trap 10 includes: a cage body 100, a bait trough, a first one-way door 200, a second one-way door 300, and a switching mechanism. The cage 100 forms a receiving space, and the cage 100 has an entrance that connects the outer perimeter of the cage 100 with the receiving space. A bait trough is located in the receiving space. A first one-way door 200 is located on the entrance and blocks the entrance. The opening direction of the first one-way door 200 is the direction from the outer perimeter of the cage 100 towards the receiving space. The first one-way door 200 has an opening 210. A second one-way door 300 is located on the opening 210 and blocks the opening 210. The opening direction of the first one-way door 200 is the direction from the outer perimeter of the cage 100 towards the receiving space. In the direction from the outer perimeter of the cage 100 towards the receiving space, the second one-way door 300 is located on the side of the receiving space relative to the first one-way door 200, and the second one-way door 300 and the first one-way door 200 are connected to form a groove 220 of a preset depth, which is greater than 5 cm. When the first one-way door 200 is opened, it can drive the second one-way door 300 to move.

[0048] The switching mechanism includes a trigger switch and a latch 410. The trigger switch has a closed state and a triggered state. When the trigger switch is in the closed state, the latch 410 is in the closed position. When the trigger switch is in the triggered state, the latch 410 is in the open position. When the latch 410 is in the closed position, it closes the first one-way door 200. When the latch 410 is in the open position, the first one-way door 200 can be opened. When the second one-way door 300 moves in the opening direction, it can trigger the trigger switch.

[0049] The wild boar trap 10 disclosed herein, which avoids accidental capture and provides timely feedback, has a first one-way door 200 and a second one-way door 300 nested together at the entrance of the trap body 100. When the second one-way door 300 moves toward the opening direction, the trigger switch is in the triggered state, at which time the first one-way door 200 can move toward the opening direction, and the wild boar can enter the containment space of the trap body 100 through the first one-way door 200. When a wild boar is attracted by the food placed in the bait trough in the cage 100, and needs to enter the cage 100 by opening the first one-way door 200, a second one-way door 300 is located on the side of the cage 100 relative to the first one-way door 200 in the direction facing the receiving space. The second one-way door 300 and the first one-way door 200 are connected to form a groove 220 of a preset depth. That is, the wild boar needs to insert a part of its body into the groove 220 to move the second one-way door 300 in the opening direction before the first one-way door 200 can be opened by the switching mechanism. Example: For example, when a wild boar is attracted by the bait in the cage and tries to enter the cage 100, taking advantage of the wild boar's rooting behavior, the wild boar can reach into the groove 220 through its long snout and touch the second one-way door 300. It can then use its snout to push the second one-way door 300 open in the direction of opening. Then, as the wild boar continues to enter the cage 100, its entire head will push up the first one-way door 200, allowing it to enter the cage 100 through the first one-way door 200. Finally, the wild boar is trapped in the cage 100 through the first one-way door 200 and the second one-way door 300, thus achieving the trapping of the wild boar. However, when pandas or other animals are attracted by the bait in the cage and try to enter the cage 100, because the panda's mouth and nose are relatively short and the overall area is relatively flat, it cannot reach into the groove 220 to push the second one-way door 300 to move, and thus cannot trigger the opening and closing mechanism. Therefore, the first one-way door 200 cannot be opened, which prevents the panda from being trapped in the cage 100, avoids accidental capture of the panda, and ensures the panda's survival safety.

[0050] In one embodiment, the wild boar trap further includes a detector and a transmitter. The detector is connected to a switching mechanism and configured to detect the position of the locking tongue. When the locking tongue is in the open position, the detector outputs capture information. The transmitter is connected to the detector and configured to send the capture information to a terminal. After the wild boar is finally trapped in the cage 100 through the first one-way door 200 and the second one-way door 300, the capture information can be sent to the terminal via the transmitter to alert staff that a wild boar is trapped in the cage 100, thus facilitating timely handling of the wild boar in the trap.

[0051] The detector is used to obtain the position of the bolt. The detector can be a trigger switch. When the bolt is in the open position, the trigger switch is in the on state and outputs an electrical signal as the capture information.

[0052] The transmitter can be a wireless transmission module or a wired transmission module. The wireless transmission module can be, for example, a 4G module, a 5G WiFi module, or other wireless transmission modules.

[0053] In one embodiment, the wild boar trap further includes: a locator disposed on the trap body, the locator being configured to acquire the location information of the trap; the locator being connected to a transmitter, the transmitter being able to send the location information to a terminal.

[0054] Once the trap catches a wild boar, the transmitter sends the location information obtained from the locator, such as latitude and longitude coordinates or the wild boar trap code, to the terminal so that staff can determine the exact location of the wild boar trap in a timely and accurate manner.

[0055] In one embodiment, such as Figure 1 As shown, the second one-way door 300 is connected to the first one-way door 200 to form a groove 220 of a preset depth. The preset depth is greater than 5cm, such as 5cm, 6cm, 7cm, 8cm, etc., which will not be listed here in this disclosure.

[0056] The groove 220 can have a rectangular, circular, pentagonal, hexagonal, or irregular cross-section in the depth direction. The height of the groove 220 can be 5cm to 15cm, for example, 5cm, 7cm, 9cm, 10cm, 12cm, 13cm, 15cm, etc., which will not be listed here.

[0057] In one embodiment, such as Figure 1 As shown, the second one-way door 300 is located on the side of the first one-way door 200 near the bottom of the cage body 100. The top of the second one-way door 300 is rotatably connected to the first one-way door 200, and the locking tongue 410 is set opposite to the bottom of the second one-way door 300.

[0058] like Figure 3 and Figure 5 As shown, the trigger switch includes a first elastic element 420, and the switch mechanism also includes a second elastic element 430. One end of the first elastic element 420 is connected to the first one-way door 200, and the other end is connected to the latch 410; one end of the second elastic element 430 is connected to the latch 410, and the other end is connected to the second one-way door 300.

[0059] When the second one-way door 300 is not subjected to external force, the first elastic member 420 is in a stretched state so that the second one-way door 300 blocks the opening 210, and the second elastic member 430 is in a stretched state to limit the latch 410 to the closed position; when the latch 410 is in the closed position, a limiting structure is formed on the cage 100, the limiting structure is located on the side of the latch 410 facing the opening direction, and the latch 410 is located in the limiting space between the limiting structure and the first one-way door 200.

[0060] like Figure 2 and Figure 3 As shown, the cage body 100 has sliding grooves 440 on both sides, and the locking tongue 410 is rod-shaped, with both ends of the locking tongue 410 located in the sliding grooves 440 along its length. When the second one-way door 300 is not subjected to external force, the locking tongue 410 is located at the top of the sliding groove 440 under the action of the second elastic member 430.

[0061] The top of the first one-way door 200 is pivotally connected to the cage body 100, and the locking tongue 410 is positioned opposite to the bottom of the first one-way door 200. For example... Figure 2 As shown, the first one-way door 200 may be provided with multiple rotating columns 230, which are pivotally connected to the cage body 100. After being pivotally connected to the cage body 100, the multiple rotating columns 230 can rotate in the direction of opening the door.

[0062] like Figure 2 As shown, when the latch 410 is located at the top of the slide groove 440, it limits the rotation of the multiple rotating columns 230 on the first one-way door 200 toward the opening direction, thereby limiting the movement of the first one-way door 200 toward the opening direction.

[0063] When the second one-way door 300 is opened, the second one-way door 300 causes the first elastic element 420 to stretch, and the first elastic element 420 causes the latch 410 to move to the open position against the elastic force of the second elastic element 430, so that the first one-way door 200 can open in the direction of the receiving space; when the latch 410 is in the open position, the latch 410 retracts from the limiting space between the limiting structure and the first one-way door 200.

[0064] like Figure 4 and Figure 5 As shown, when the second one-way door 300 is opened, the latch 410 is located at the bottom of the slide groove 440 under the action of the first elastic element 420. The latch 410 and the multiple rotating columns 230 are misaligned in the height direction of the cage 100, that is, the limitation of the latch 410 on the rotation of the multiple rotating columns 230 in the direction of opening the door is canceled, so that the multiple rotating columns 230 can rotate in the direction of opening the door and open the first one-way door 200.

[0065] In one embodiment, the first elastic element 420 and the second elastic element 430 are the same type of elastic element. Using the same type of elastic element facilitates the control of the elastic force received by the locking tongue 410.

[0066] The first elastic element 420 and the second elastic element 430 can both be springs. Using springs as the first elastic element 420 and the second elastic element 430 allows the first elastic element 420 and the second elastic element 430 to provide a relatively linear elastic force, while also possessing high stability and lifespan.

[0067] Of course, the first elastic element 420 and the second elastic element 430 may both be elastic rubber elements; the first elastic element 420 and the second elastic element 430 may also be elastic elements of different types, and this disclosure does not limit them.

[0068] The elastic coefficient of the second elastic element 430 is greater than that of the first elastic element 420. By making the elastic coefficient of the second elastic element 430 greater than that of the first elastic element 420, when the second one-way door 300 is not subjected to external force, the locking tongue 410 can be stably positioned at the top of the slide groove 440 under the elastic force of the second elastic element 430, thus limiting the movement of the first one-way door 200 towards the opening direction. Furthermore, by making the elastic coefficient of the second elastic element 430 greater than that of the first elastic element 420, when the second one-way door 300 is not subjected to external force, the locking tongue 410, driven by the second elastic element 430, can return from the bottom to the top position of the slide groove 440, again limiting the movement of the first one-way door 200 towards the opening direction, thus allowing for the continued trapping of other wild boars.

[0069] Of course, the elastic coefficient of the second elastic element 430 may also be equal to or less than the elastic coefficient of the first elastic element 420, and this disclosure does not impose any restrictions on this.

[0070] The wild boar trap 10 provided in the above-described embodiments of this disclosure has a switching mechanism composed of a purely mechanical structure, meaning that the wild boar trap 10 is formed by a combination of purely mechanical structures. When the wild boar trap 10 is placed in the hunting area, it does not require power supply or electrical components. The wild boar trap 10 does not have issues with battery life or power failure, greatly improving its reliability and allowing for long-term maintenance-free operation.

[0071] In one embodiment, the trigger switch includes a first elastic element 420, one end of which is connected to a first one-way door 200 and the other end is connected to a latch 410.

[0072] When the second one-way door 300 is not subjected to external force, the first elastic member 420 is in a stretched state, so that the second one-way door 300 blocks the opening 210; when the latch 410 is in the closed position, a limiting structure is formed on the cage 100, the limiting structure is located on the side of the latch 410 facing the opening direction, the latch 410 is located in the limiting space between the limiting structure and the first one-way door 200, and a damping structure is formed in the limiting space to form damping of the latch 410 from the closed position to the open position.

[0073] The cage body 100 may have sliding grooves 440 on both sides, and the locking tongue 410 is rod-shaped, with both ends of the locking tongue 410 located in the sliding grooves 440 along its length. A damping structure with a width smaller than the diameter of the locking tongue 410 is provided in the sliding grooves 440. When the second one-way door 300 is not subjected to external force, the locking tongue 410 is positioned above the damping structure in the sliding grooves 440. Due to the presence of the damping structure, the locking tongue 410 remains above the damping structure, thereby limiting the movement of the first one-way door 200 in the opening direction.

[0074] The top of the first one-way door 200 is pivotally connected to the cage body 100, and the locking tongue 410 is positioned opposite to the bottom of the first one-way door 200. For example... Figure 2 As shown, the first one-way door 200 may be provided with multiple rotating columns 230, which are pivotally connected to the cage body 100. After being pivotally connected to the cage body 100, the multiple rotating columns 230 can rotate in the direction of opening the door.

[0075] like Figure 2 As shown, when the latch 410 is located at the top of the slide groove 440 above the damping structure, it limits the rotation of the multiple rotating columns 230 on the first one-way door 200 toward the opening direction, thereby limiting the movement of the first one-way door 200 toward the opening direction.

[0076] When the second one-way door 300 is opened, the second one-way door 300 causes the first elastic element 420 to stretch, and the first elastic element 420 causes the latch 410 to overcome the damping of the damping structure and move to the open position, so that the first one-way door 200 can open in the direction of the receiving space; when the latch 410 is in the open position, the latch 410 retracts from the limiting space between the limiting structure and the first one-way door 200.

[0077] When the second one-way door 300 is subjected to external force, the latch 410 passes through the damping structure in the slide 440 through the tensile force of the first elastic member 420. At the bottom position of the slide 440 below the damping structure, the latch 410 and the multiple rotating columns 230 are misaligned in the height direction of the cage 100. That is, the limitation of the latch 410 on the rotation of the multiple rotating columns 230 toward the opening direction is canceled, so that the multiple rotating columns 230 can rotate toward the opening direction and open the first one-way door 200.

[0078] The wild boar trap 10 provided in the above-described embodiments of this disclosure has a switching mechanism composed of a purely mechanical structure, meaning that the wild boar trap 10 is formed by a combination of purely mechanical structures. When the wild boar trap 10 is placed in the hunting area, it does not require power supply or electrical components. The wild boar trap 10 does not have issues with battery life or power failure, greatly improving its reliability and allowing for long-term maintenance-free operation.

[0079] In one embodiment, the switching mechanism further includes a drive component connected to the latch 410 for driving the latch 410 from a closed position to an open position. When the second one-way door 300 moves toward the opening direction, the trigger switch is in the triggered state; when the trigger switch is in the triggered state, the drive component responds to the trigger switch to drive the latch 410 from the closed position to the open position.

[0080] The top of the first one-way door 200 is pivotally connected to the cage body 100, and the locking tongue 410 is positioned opposite to the bottom of the first one-way door 200. For example... Figure 2 As shown, the first one-way door 200 may be provided with multiple rotating columns 230, which are pivotally connected to the cage body 100. After being pivotally connected to the cage body 100, the multiple rotating columns 230 can rotate in the direction of opening the door.

[0081] The cage 100 has a blocking structure at its bottom. The blocking structure is used to prevent the root rotating column 230 from rotating toward the outer side of the cage 100, thereby restricting the first one-way door 200 to only open toward the inner side of the cage 100.

[0082] The cage body 100 may be provided with sliding grooves 440 on both sides, and the locking tongue 410 is rod-shaped, with both ends of the locking tongue 410 located in the sliding grooves 440 along its length.

[0083] When the second one-way door 300 is not subjected to external force, the trigger switch is in the closed state, and the drive assembly responds to the trigger switch to drive the latch 410 to remain in the closed position. When the latch 410 is held in the closed position, the latch 410 is located at the top of the slide groove 440, which limits the rotation of the multiple rotating columns 230 on the first one-way door 200 in the opening direction, thereby limiting the movement of the first one-way door 200 in the opening direction.

[0084] When the second one-way door 300 moves toward the opening direction, the trigger switch is in the triggered state. When the trigger switch is in the triggered state, the drive assembly responds to the trigger switch to drive the bolt 410 from the closed position to the open position. When the bolt 410 moves to the open position, it is located at the bottom of the slide 440. The bolt 410 and the multiple rotating posts 230 are misaligned in the height direction of the cage 100, that is, the bolt 410's restriction on the rotation of the multiple rotating posts 230 toward the opening direction is removed, so that the multiple rotating posts 230 can rotate toward the opening direction to open the first one-way door 200.

[0085] In one embodiment, the switching mechanism further includes a solar panel connected to the trigger switch and drive assembly, the solar panel being used for power supply.

[0086] The solar panels are installed on the top surface of the cage 100. By placing the solar panels on the top of the cage 100, the area and time of sunlight exposure can be increased, and the cage 100 can be protected from being blocked and damaged by wild boars or other animals.

[0087] Of course, a storage battery can also be used to power the trigger switch and drive components, and this disclosure does not limit this.

[0088] Other embodiments of the invention will readily occur to those skilled in the art upon consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention that follow the general principles of the invention and include common knowledge or customary techniques in the art not disclosed herein. The specification and examples are to be considered exemplary only, and the true scope and spirit of the invention are indicated by the following claims.

[0089] It should be understood that the present invention is not limited to the precise structure described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from its scope. The scope of the invention is limited only by the appended claims.

Claims

1. A wild boar trap that avoids accidental capture and provides timely feedback, characterized in that, include: A cage, the containment space formed by the cage, the cage having an entrance that connects the periphery of the cage to the containment space; A bait trough, which is provided in the containment space, is used to place food to lure wild boars into the cage. A first one-way door is located on the entrance and blocks the entrance. The opening direction of the first one-way door is the direction from the outer perimeter of the cage towards the accommodating space. An opening is provided on the first one-way door. A second one-way door is disposed on the opening and blocks the opening. The opening direction of the first one-way door is the direction from the outer periphery of the cage towards the receiving space. In the direction from the outer periphery of the cage towards the receiving space, the second one-way door is located on the side of the receiving space relative to the first one-way door, and the second one-way door and the first one-way door are connected to form a groove of a preset depth, the preset depth being greater than 5 centimeters. When the first one-way door is opened, it can drive the second one-way door to move. A switching mechanism includes a trigger switch and a latch. The trigger switch has a closed state and a triggered state. When the trigger switch is in the closed state, the latch is in the closed position. When the trigger switch is in the triggered state, the latch is in the open position. When the latch is in the closed position, it closes the first one-way door. When the latch is in the open position, the first one-way door can be opened. Utilizing the characteristic of wild boars rooting for food, the wild boar can insert its snout into the groove and touch the second one-way door to avoid accidentally catching other animals. When the second one-way door moves towards the opening direction, it can trigger the trigger switch to the triggered state, thereby placing the latch in the open position. Then, as the wild boar continues to enter the cage, its entire head will arch the first one-way door, allowing it to enter the cage through the first one-way door, ultimately trapping the wild boar in the cage, thus achieving the trapping of the wild boar. A detector connected to the switching mechanism is configured to detect the position of the latch; when the latch is in the open position, the detector outputs a capture information. A transmitter connected to the detector, the transmitter being configured to send the captured information to a terminal and to promptly feed the captured information back to the staff; The top of the first one-way door is pivotally connected to the cage body, and the latch is positioned opposite to the bottom of the first one-way door.

2. The wild boar trap according to claim 1, characterized in that, The wild boar trap also includes: A locator is mounted on the cage and configured to acquire the location information of the capture cage; the locator is connected to a transmitter that can send the location information to a terminal.

3. The wild boar trap according to claim 1, characterized in that, The trigger switch includes a first elastic element, and the switch mechanism further includes a second elastic element. One end of the first elastic element is connected to the first one-way door, and the other end is connected to the latch. One end of the second elastic element is connected to the latch, and the other end is connected to the second one-way door. When the second one-way door is not subjected to external force, the first elastic element is in a stretched state to block the opening of the second one-way door, and the second elastic element is in a stretched state to limit the latch to the closed position; when the latch is in the closed position, a limiting structure is formed on the cage body, the limiting structure is located on the side of the latch facing the opening direction, and the latch is located in the limiting space between the limiting structure and the first one-way door; When the second one-way door is opened, the second one-way door causes the first elastic element to stretch, and the first elastic element causes the latch to move to the open position against the elastic force of the second elastic element, so that the first one-way door can open towards the receiving space; when the latch is in the open position, the latch retracts from the limiting space between the limiting structure and the first one-way door.

4. The wild boar trap according to claim 3, characterized in that, The first elastic element and the second elastic element are of the same type.

5. The wild boar trap according to claim 3, characterized in that, The elastic coefficient of the second elastic element is greater than that of the first elastic element.

6. The wild boar trap according to claim 1, characterized in that, The trigger switch includes a first elastic element, one end of which is connected to the first one-way door, and the other end is connected to the latch. When the second one-way door is not subjected to external force, the first elastic element is in a stretched state, so that the second one-way door blocks the opening; when the latch is in the closed position, a limiting structure is formed on the cage body, the limiting structure is located on the side of the latch facing the opening direction, the latch is located in the limiting space between the limiting structure and the first one-way door, and a damping structure is formed in the limiting space to form damping of the latch from the closed position to the open position; When the second one-way door is opened, the second one-way door causes the first elastic element to stretch, and the first elastic element causes the latch to move against the damping structure to the open position, so that the first one-way door can open towards the receiving space; when the latch is in the open position, the latch retracts from the limiting space between the limiting structure and the first one-way door.

7. The wild boar trap according to claim 1, characterized in that, The switching mechanism further includes a drive component, which is connected to the latch and is used to drive the latch to move from the closed position to the open position. When the second one-way door moves in the opening direction, the trigger switch is in the trigger state; When the trigger switch is in the trigger state, the drive component responds to the trigger switch to drive the bolt from the closed position to the open position.

8. The wild boar trap according to claim 7, characterized in that, The switching mechanism also includes a solar panel, which is disposed on the top surface of the cage. The solar panel is connected to the trigger switch and the drive assembly, and is used to supply power.

9. The wild boar trap according to claim 1, characterized in that, The second one-way door is located on the side of the first one-way door near the bottom of the cage. The top of the second one-way door is rotatably connected to the first one-way door, and the latch is positioned opposite to the bottom of the second one-way door.