A target box with reset folding
By using a detachable metal tube main frame, a gravity-driven reset target, and a target box with a parallel firing port design, the problems of low reset efficiency and poor portability of existing target boxes are solved, achieving efficient, portable, and safe shooting training results.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 林晓丹
- Filing Date
- 2025-05-26
- Publication Date
- 2026-06-09
AI Technical Summary
The existing target box reset mechanism relies on manual operation or complex mechanical devices, resulting in low reset efficiency and high maintenance costs. Furthermore, its detachability and portability are limited, making it difficult to meet the needs of high-intensity training. The lack of flexible reset and blocking mechanisms makes it impossible to effectively simulate dynamic shooting scenarios, thus affecting training results.
The design features a detachable metal tube main frame and a sub-frame secured with cable ties, ropes, or Velcro. Combined with a gravity-driven reset target and a stop bar linkage, it achieves automatic reset. The frame is covered with a cloth cover to enhance portability and safety, and the parallel firing port and support shaft design optimize firing accuracy.
It improves the portability and assembly efficiency of the target box, achieves efficient automatic reset, enhances the flexibility and safety of shooting training, supports simultaneous training on multiple targets, simulates dynamic shooting scenarios, and improves the efficiency and accuracy of shooting training.
Smart Images

Figure CN224340820U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of shooting training equipment technology, and in particular to a target box with a reset and folding mechanism. Background Technology
[0002] Shooting training equipment is widely used in military training, shooting sports, and recreational activities. Common target boxes typically include a fixed frame, a target plate, and a support structure to simulate shooting targets. In existing technology, target boxes often use metal or wood frames, with the target plate mounted on the frame in a fixed or rotatable manner. Some target boxes are equipped with a manual reset device to restore the target plate to its position. This type of equipment can meet basic shooting training needs and is widely used, especially in shooting ranges or training bases. Some portable target boxes feature detachable frame designs for easy transportation and storage, making them suitable for field training or temporary use. Furthermore, some target boxes have cloth covers covering the frame to enhance protection and reduce the risk of shrapnel, providing a certain level of safety for shooting training.
[0003] However, existing target boxes have significant drawbacks. First, most target boxes rely on manual operation or complex mechanical devices for their reset mechanism, resulting in low reset efficiency and high maintenance costs, making them unsuitable for high-intensity training. Second, existing target boxes have limited detachability and portability; the frames are complex to assemble and disassemble, and their weight is significant, hindering rapid deployment and movement. Furthermore, the target plate design is simplistic, lacking flexible reset and blocking mechanisms, failing to effectively simulate dynamic shooting scenarios and limiting training effectiveness. The design of the firing port on the cloth sleeve often lacks optimized integration with the target plate structure, affecting shooting accuracy and ease of operation. These shortcomings make it difficult for existing target boxes to simultaneously achieve efficient reset, portability, and adaptability to various scenarios in practical applications. Utility Model Content
[0004] The purpose of this invention is to address the shortcomings of existing technologies by proposing a target box with a resetting and folding mechanism.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A target box with a reset and folding mechanism includes a main frame composed of several detachably connected metal tubes, forming a cuboid frame structure that serves as the main support structure of the target box; a sub-frame, rectangular in structure, attached to the diagonal metal tubes of the main frame by cable ties, ropes, or Velcro; a target training mechanism, mounted on the sub-frame, for target training, including a second support shaft horizontally fixed to the sub-frame, on which several training targets are equidistantly rotatably mounted; a reset mechanism, also mounted on the sub-frame, for resetting the training targets, including a first support shaft horizontally fixed to the sub-frame, on which a reset target is rotatably mounted, with a stop bar fixed to the lower end of the reset target, allowing the reset target to reset by gravity; and a cloth cover, secured to the main frame by cable ties, ropes, or Velcro, for wrapping the main frame; wherein the first support shaft is positioned diagonally above the second support shaft, and when the training target rotates around the second support shaft, the stop bar prevents the training target from continuing to rotate.
[0007] Preferably, the reset target includes a first plate, a first target plate is provided on the top of the first plate, a sleeve that matches the first support shaft is fixedly provided on the first plate, and a mounting hole that matches the stop bar is provided on the bottom of the first plate.
[0008] Preferably, the training target includes a second plate, with a shaft hole matching the second support shaft on the upper part of the second plate and a second target plate on the lower part of the second plate.
[0009] Preferably, a firing port is provided on one side of the cloth cover, and both the first support shaft and the second support shaft are arranged parallel to the firing port.
[0010] Preferably, the metal tubes of the main frame are detachably connected by cable ties, ropes, or Velcro, and the sub-frame is detachably connected to the diagonal metal tubes of the main frame by cable ties, ropes, or Velcro.
[0011] Preferably, the gravity reset of the reset target is achieved through the weight distribution of the first plate and the stop bar. After the reset target is fired and rotated, it returns to its initial position by its own gravity.
[0012] Preferably, a sound-absorbing cotton pad is provided on the side of the cloth cover away from the firing port.
[0013] This utility model has the following beneficial effects:
[0014] 1. This target box features a detachable metal tube main frame and a sub-frame secured with cable ties, ropes, or Velcro, significantly improving portability and assembly efficiency. The main frame consists of several detachable metal tubes connected together, forming a cuboid structure that is lightweight and easy to assemble and disassemble, suitable for field training or rapid deployment scenarios. The sub-frame is diagonally connected to the main frame via cable ties, ropes, or Velcro, offering flexible installation and minimal space occupation after disassembly. A cloth cover encases the frame and is secured with cable ties, ropes, or Velcro, further enhancing the overall compactness of the structure and facilitating transportation and storage. This folding design not only reduces maintenance costs but also allows for rapid adaptation to different training environments, providing an efficient mobile shooting solution for military training, shooting clubs, and field exercises, greatly enhancing the convenience and flexibility of equipment use.
[0015] 2. The target box's reset mechanism achieves efficient automatic reset through a gravity-driven linkage design between the reset target and the stop lever. Relying on the weight distribution of the first plate and the stop lever, the reset target automatically returns to its initial position after being rotated by firing, causing the stop lever to release the training target and reset it. Compared to traditional manual reset or complex mechanical devices, this gravity reset mechanism simplifies the structure and reduces failure rates and maintenance costs. The stop lever prevents the training target from rotating, ensuring controllable rotation angles and enhancing the continuity and realism of training. This design significantly improves shooting training efficiency, is particularly suitable for high-intensity, rapid-response training scenarios, and provides users with a smooth operating experience and stable reset performance.
[0016] 3. This target box optimizes shooting accuracy and training diversity through its parallel arrangement of the firing port on the support axis and its multi-target training design. The firing port's parallel alignment with the first and second support axes ensures the firing direction is consistent with the target plane, improving aiming accuracy. Training targets are equidistantly distributed along the second support axis, supporting simultaneous training on multiple targets, simulating dynamic shooting scenarios, and meeting complex training needs. The fabric cover covering the main frame effectively reduces shrapnel splash, enhancing safety. The modular design of the reset target and training targets facilitates replacement and upgrades, adapting to different shooting intensities and target types. This comprehensive design enhances the target box's versatility and safety, providing an efficient and reliable training platform for military, competitive, and recreational shooting. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the target box structure;
[0018] Figure 2 A structural diagram showing the main frame and sub-frame assembled.
[0019] Figure 3 This is a schematic diagram of the reset target structure;
[0020] Figure 4 This is a schematic diagram of the training target structure;
[0021] Figure 5 A structural diagram showing the main frame and sub-frame in their stowed-away state.
[0022] In the diagram: 1. Main frame; 2. Sub-frame; 3. First support shaft; 4. Reset target; 401. First plate; 402. First target plate; 403. Sleeve; 404. Mounting hole; 5. Stop bar; 6. Second support shaft; 7. Training target; 701. Second plate; 702. Shaft hole; 703. Second target plate; 8. Cloth sleeve; 801. Firing port. Detailed Implementation
[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0024] Reference Figure 1-5 A target box with a reset and folding mechanism includes a main frame 1, which is composed of several detachably connected metal tubes and has a cuboid outer contour, serving as the main support structure of the target box; a sub-frame 2, which is a rectangular structure and is tied to the diagonal metal tubes of the main frame 1 by cable ties, ropes, or Velcro; a target training mechanism, set on the sub-frame 2, for target training, including a second support shaft 6 horizontally fixed on the sub-frame 2, on which several training targets 7 are equidistantly rotatably sleeved; a reset mechanism, set on the sub-frame 2, for resetting the training targets 7, including a first support shaft 3 horizontally fixed on the sub-frame 2, on which a reset target 4 is rotatably sleeved, and a stop bar 5 is fixed to the lower end of the reset target 4, allowing the reset target 4 to reset by gravity; and a cloth cover 8, which is tied to the main frame 1 by cable ties, ropes, or Velcro, for wrapping the main frame 1; wherein, the first support shaft 3 is located diagonally above the second support shaft 6, and when the training targets 7 rotate around the second support shaft 6, the stop bar 5 prevents the training targets 7 from continuing to rotate.
[0025] In this embodiment, the target box is supported by a cuboid structure via a main frame 1, featuring a detachable metal tube design for easy folding and transport. A secondary frame 2 is fixed to the main frame 1 via cable ties, ropes, or Velcro, supporting the target training mechanism and the reset mechanism. The target training mechanism includes a second support shaft 6 and a training target 7, which rotates around the second support shaft 6 to simulate a shooting target. The reset mechanism includes a first support shaft 3, a reset target 4, and a stop bar 5. The reset target 4 resets by gravity, and the stop bar 5 prevents the training target 7 from rotating, ensuring accurate reset. A cloth cover 8 wraps around the main frame 1 to reduce shrapnel splash and enhance portability. The first support shaft 3 is located diagonally above the second support shaft 6, optimizing the reset linkage effect. This design achieves efficient reset, portability, and safe shooting training.
[0026] In this utility model, the reset target 4 includes a first plate 401, a first target plate 402 is provided on the top of the first plate 401, a sleeve 403 that matches the first support shaft 3 is fixedly provided on the first plate 401, and a mounting hole 404 that matches the stop bar 5 is provided on the bottom of the first plate 401.
[0027] In this embodiment, the reset target 4 uses a first plate 401 as its main structure, with a first target plate 402 on top to receive shots and withstand impact to trigger rotation. A sleeve 403 on the first plate 401 matches a first support shaft 3, ensuring the reset target 4 rotates flexibly around the first support shaft 3 and resets by gravity. A mounting hole 404 below the first plate 401 matches a stop bar 5, fixing the stop bar 5 to block the rotation of the training target 7, thus achieving reset control. This structural design enables the reset target 4 to combine shooting response, stable rotation, and precise reset functions, simplifying the mechanical structure and improving training efficiency and durability.
[0028] In this utility model, the training target 7 includes a second plate 701, with a shaft hole 702 matching the second support shaft 6 provided on the upper part of the second plate 701, and a second target plate 703 provided on the lower part of the second plate 701.
[0029] In this embodiment, the training target 7 has a second plate 701 as its main structure. A shaft hole 702 is provided at the top to match the second support shaft 6, ensuring that the training target 7 can rotate flexibly around the second support shaft 6 to simulate the dynamic effect of being hit. A second target plate 703 is provided below the second plate 701 to receive the shot and withstand the impact of the bullet to trigger rotation. The shaft hole 702 is designed to ensure smooth rotation, and the position of the second target plate 703 optimizes the visibility and hit rate of the shooting target. This structure enables the training target 7 to achieve efficient shooting response and dynamic training functions, supports multiple targets distributed at equal intervals, and enhances the continuity and diversity of shooting training.
[0030] In this utility model, a firing port 801 is provided on one side of the cloth cover 8, and the first support shaft 3 and the second support shaft 6 are both arranged parallel to the firing port 801.
[0031] In this embodiment, the cloth cover 8 wraps around the main frame 1 and is secured with cable ties, ropes, or Velcro, providing protection and enhancing portability. A firing port 801 on one side provides a firing channel, ensuring accurate bullet aiming at the target. The first support shaft 3 and the second support shaft 6 are both parallel to the firing port 801, aligning the rotation planes of the reset target 4 and the training target 7 with the firing direction, optimizing aiming accuracy and the shooting experience. The cloth cover 8 reduces shrapnel splash, improving safety. The design of the firing port 801, combined with the parallel layout of the support shafts, ensures a stable and efficient firing process, supporting the continuity and accuracy of multi-target training.
[0032] In this invention, the metal tubes of the main frame 1 are detachably connected by cable ties, ropes, or Velcro, and the secondary frame 2 is detachably connected to the diagonal metal tubes of the main frame 1 by cable ties, ropes, or Velcro.
[0033] In this embodiment, the main frame 1 is detachably connected using cable ties, ropes, or Velcro, forming a cuboid structure that provides stable support while facilitating assembly, disassembly, and transportation, reducing weight and storage space. The secondary frame 2 is detachably connected to the diagonal metal tubes of the main frame 1 via cable ties, ropes, or Velcro, allowing for flexible installation and easy disassembly, ensuring that the secondary frame 2 stably supports the target training mechanism and the reset mechanism. This connection method simplifies the assembly process, enhances the portability and adaptability of the target box, and is suitable for field training or rapid deployment scenarios, supporting the needs of efficient shooting training.
[0034] In this invention, the gravity reset of the reset target 4 is achieved through the weight distribution of the first plate 401 and the stop bar 5. When the reset target 4 is shot and rotated, it returns to its initial position by its own gravity.
[0035] In this embodiment, the reset target 4 achieves gravity reset through the weight distribution of the first plate 401 and the stop bar 5. When the first target plate 402 is triggered to rotate by firing, the reset target 4 rotates around the first support shaft 3 and then returns to its initial position by its own gravity. The stop bar 5 is fixed to the mounting hole 404 below the first plate 401. Its weight and position design ensure that the reset target 4 stably blocks the training target 7 after reset, achieving precise reset control. This gravity reset mechanism simplifies the structure, eliminates the need for complex mechanical or spring devices, reduces maintenance costs, and ensures efficient and reliable reset performance, making it suitable for high-intensity shooting training.
[0036] In this invention, a sound-absorbing cotton pad is provided on the side of the cloth cover 8 away from the firing port 801.
[0037] In this embodiment, by setting a sound-absorbing cotton pad on the side of the cloth sheath 8 away from the firing port 801, the impact of the bullet can be effectively reduced, providing a certain degree of protection for the cloth sheath 8. At the same time, it can also reduce noise and increase the user experience.
[0038] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A target box with a repositionable folding mechanism, characterized in that, include: The main frame (1) is composed of several metal tubes that can be detachably connected. It has a cuboid outer contour and serves as the main support structure for the target box. The sub-frame (2) is a rectangular structure that is tied to the diagonal metal tubes of the main frame (1) by cable ties, ropes, or Velcro. The target training mechanism is set on the sub-frame (2) for target training. It includes a second support shaft (6) that is horizontally fixed on the sub-frame (2). Several training targets (7) are equidistantly rotatably connected on the second support shaft (6). The reset mechanism is set on the sub-frame (2) for resetting the training targets (7). The system includes a first support shaft (3) horizontally fixed on the sub-frame (2), a reset target (4) rotatably sleeved on the first support shaft (3), a stop bar (5) fixed at the lower end of the reset target (4), and the reset target (4) reset by gravity; a cloth cover (8) is attached to the main frame (1) by cable ties, ropes or Velcro to wrap the main frame (1); wherein, the first support shaft (3) is located diagonally above the second support shaft (6), and when the training target (7) rotates around the second support shaft (6), the stop bar (5) prevents the training target (7) from continuing to rotate.
2. A target box with a repositionable folding mechanism according to claim 1, characterized in that, The reset target (4) includes a first plate (401), a first target plate (402) is provided on the top of the first plate (401), a sleeve (403) that matches the first support shaft (3) is fixedly provided on the first plate (401), and a mounting hole (404) that matches the stop bar (5) is provided below the first plate (401).
3. A target box with a repositionable folding mechanism according to claim 1, characterized in that, The training target (7) includes a second plate (701), with a shaft hole (702) on the upper part of the second plate (701) that matches the second support shaft (6), and a second target plate (703) on the lower part of the second plate (701).
4. A target box with repositioning folding according to claim 1, characterized in that, The cloth cover (8) has a firing port (801) on one side, and the first support shaft (3) and the second support shaft (6) are both arranged parallel to the firing port (801).
5. A target box with repositioning folding according to claim 1, characterized in that, The metal tubes of the main frame (1) are detachably connected by cable ties, ropes or Velcro, and the sub-frame (2) is detachably connected to the diagonal metal tubes of the main frame (1) by cable ties, ropes or Velcro.
6. A target box with repositioning folding according to claim 2, characterized in that, The gravity reset of the reset target (4) is achieved through the weight distribution of the first plate (401) and the stop bar (5). When the reset target (4) is shot and rotated, it returns to its initial position by its own gravity.
7. A target box with repositioning folding according to claim 4, characterized in that, The cloth cover (8) is provided with a sound-absorbing cotton pad on the side away from the firing port (801).