A movable electronic explosion target
By designing a drive mechanism for the up-down, left-right, and rotation of a movable electronic explosive target, the precise delivery and detonation of multiple detonation points are achieved, solving the problem of poor training effect in existing technologies, providing a realistic explosion effect and impact feel, and improving training quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- LITTLE JADE BIRD CULTURE TECH (SUZHOU) CO LTD
- Filing Date
- 2023-12-21
- Publication Date
- 2026-07-14
AI Technical Summary
The existing digital display electronic boards lack accurate and flexible explosion functions in military simulated live-fire shooting, resulting in poor training effects and failing to provide a realistic live-fire shooting experience.
A movable electronic explosive target was designed. Through the cooperation of up-down, left-right and rotational drive mechanisms, multiple detonation points can be accurately delivered and detonated to simulate the effect of a real attack.
It provides realistic explosion effects and a sense of impact, enhancing the practicality and realism of training and improving training effectiveness.
Smart Images

Figure CN117722895B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of military training equipment technology, and in particular to a movable electronic explosive target. Background Technology
[0002] In current military simulated live-fire exercises, digital display electronic boards are used for target reporting. Compared to live-fire training, digital display electronic boards can only report targets and lack precise and flexible explosion functions. They also lack the impact feel of live-fire exercises, resulting in poor realism and a significant gap between the training experience and the actual live-fire exercise. Therefore, this invention provides a movable electronic explosive target to solve this technical problem. Summary of the Invention
[0003] To overcome the shortcomings of the prior art, this invention discloses a movable electronic explosive target.
[0004] To achieve the above objectives, the present invention provides the following technical solution: a movable electronic detonation target, comprising:
[0005] Target paper;
[0006] Fixed post a, there are two fixed posts a, which are respectively set on the upper and lower sides of the target paper;
[0007] Fixed column b, there are two fixed columns b, which are respectively connected to the left and right sides of the two fixed columns a;
[0008] The left and right drive mechanism includes a rotation drive assembly a, two belt assemblies a and two linear guide rails a. The two belt assemblies a are respectively disposed on the side surfaces of two fixed columns b. The two linear guide rails a are respectively fixed on the upper surfaces of the two fixed columns b. The rotation drive assembly a is disposed on the upper surface of one of the fixed columns a and is connected to the belt assembly a for transmission.
[0009] The T-shaped plate has its horizontal portion slidably connected to a linear guide rail a, and its vertical portion connected to the belt of a belt assembly a.
[0010] An inverted L-shaped plate, the horizontal part of which slides on another linear guide rail a, and the vertical part of which is connected to the belt of another belt assembly a;
[0011] The first L-shaped plate is provided in two forms, and the two first L-shaped plates are respectively fixed on one side of the transverse portion where the T-shaped plate and the inverted L-shaped plate are close to each other.
[0012] The upper and lower drive mechanism includes a rotation drive component b and a belt component b. The belt component b is configured to cooperate with the transverse portion of the T-shaped plate and the inverted L-shaped plate. The rotation drive component b is configured below the transverse portion of the T-shaped plate and is connected to the belt component b for transmission.
[0013] A fixing post c is connected to the transverse portion of two L-shaped plates;
[0014] Linear guide rail b, which is disposed on the side surface of fixed column c;
[0015] A rotary drive mechanism includes a rotary drive assembly c, a second L-shaped plate, and a third L-shaped plate. The vertical part of the second L-shaped plate is slidably connected to a linear guide rail b and connected to the belt of the belt assembly b. The vertical part of the third L-shaped plate is connected to the vertical part of the second L-shaped plate above the fixed column c. The rotary drive assembly c is disposed on the horizontal part of the third L-shaped plate.
[0016] A spring plate, which is connected to the rotation drive assembly c below the fixed column c;
[0017] Several detonation points are arranged in a circular array on the ammunition tray.
[0018] Furthermore, the belt assembly a includes two rotating shafts a respectively rotatably connected to the side surface of the fixed column b, two pulleys a mounted on the two rotating shafts a, and a belt a sleeved between the two pulleys a.
[0019] Furthermore, the rotation drive assembly a includes a servo motor a, a pulley b is mounted on the output shaft of the servo motor a, a pulley c is mounted on the rotating shaft a close to the servo motor a, and a belt b is sleeved between the belt c and the pulley b.
[0020] Furthermore, the belt assembly b includes two rotating shafts b respectively rotatably disposed on the transverse portions of the T-shaped plate and the inverted L-shaped plate, two pulleys d mounted on the two rotating shafts b, and a belt c sleeved between the two pulleys d.
[0021] Furthermore, the rotation drive assembly b includes a servo motor b, the output shaft of which is connected to a rotating shaft b.
[0022] Furthermore, the rotation drive assembly c includes a servo motor c, the output shaft of which passes through the lateral portion of the second and third L-shaped plates and connects to the spring plate.
[0023] Furthermore, several detonation points are connected to external controllers.
[0024] Furthermore, the point of impact of the detonator is oriented towards the target paper.
[0025] The present invention achieves the following beneficial effects:
[0026] This invention uses a combination of an up-and-down drive mechanism, a left-and-right drive mechanism, and a rotary drive mechanism to transport a turntable containing multiple detonation points to the corresponding positions on the target paper. During the detonation process of multiple detonation points, the actual impact and explosion effects after live-fire shooting can be fed back, making it highly practical.
[0027] Other features and advantages of the invention will be set forth in the following description and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of the invention can be realized and obtained by means of the structures pointed out in the description and the drawings. Attached Figure Description
[0028] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with the disclosure of this invention and, together with the description, serve to explain the principles of this disclosure.
[0029] Figure 1 This is a schematic diagram of the overall structure disclosed in this invention;
[0030] Figure 2 This is a schematic diagram of the bottom surface structure of the target material disclosed in this invention;
[0031] In the diagram: 10. Fixed column a; 20. Fixed column b; 30. Up and down drive mechanism; 31. Rotation drive assembly a; 311. Pulley b; 32. Belt assembly a; 321. Shaft a; 3211. Pulley c; 322. Pulley a; 323. Belt a; 33. Linear guide rail a; 34. Belt b;
[0032] 40. T-shaped plate; 50. Inverted L-shaped plate; 60. First upright L-shaped plate; 70. Left and right drive mechanism; 71. Rotation drive assembly b; 72. Belt assembly b; 721. Rotating shaft b; 722. Pulley d; 723. Belt c; 80. Fixed column c; 90. Linear guide rail b; 100. Rotation drive mechanism; 101. Rotation drive assembly c; 102. Second upright L-shaped plate; 103. Third upright L-shaped plate; 110. Explosive disc; 120. Explosive impact point; 130. Target paper. Detailed Implementation
[0033] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.
[0034] In the description of this invention, it should be understood that the terms "opening", "upper", "lower", "thickness", "top", "middle", "length", "inner", "around", etc., which indicate orientation or positional relationship, are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the components or elements referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as limiting this invention.
[0035] Regulations
[0036] refer to Figure 1 and Figure 2 As shown, the present invention discloses a movable electronic explosion target material comprising: target paper 130;
[0037] There are two fixing posts a10, which are respectively set on the upper and lower sides of the target paper 130;
[0038] There are two fixed posts b20, which are respectively connected to the left and right sides of the two fixed posts a10;
[0039] The up-down drive mechanism 30 includes a rotation drive assembly a31, two belt assemblies a32 and two linear guide rails a33. The two belt assemblies a32 are respectively disposed on the side surfaces of the two fixed columns b20, and the two linear guide rails a33 are respectively fixed on the upper surfaces of the two fixed columns b20. The rotation drive assembly a31 is disposed on the upper surface of one of the fixed columns a10 and is connected to the belt assembly a32 for transmission.
[0040] T-shaped plate 40, the horizontal part of T-shaped plate 40 is slidably connected to a linear guide rail a33, and the vertical part of T-shaped plate 40 is connected to the belt of a belt assembly a32.
[0041] The inverted L-shaped plate 50 has its horizontal portion slidingly connected to another linear guide rail a33, and its vertical portion connected to the belt of another belt assembly a32.
[0042] Two first L-shaped plates 60 are provided, and the two first L-shaped plates 60 are respectively fixed on one side of the transverse portion where the T-shaped plate 40 and the inverted L-shaped plate 50 are close to each other.
[0043] The left and right drive mechanism 70 includes a rotation drive assembly b71 and a belt assembly b72. The belt assembly b72 is fitted on the transverse portion of the T-shaped plate 40 and the inverted L-shaped plate 50. The rotation drive assembly b71 is located below the transverse portion of the T-shaped plate 40 and is connected to the belt assembly b72 for transmission.
[0044] Fixed post C80, fixed post C80 is connected to the transverse part of two L-shaped plates;
[0045] Linear guide rail b90, the linear guide rail b90 is disposed on the side surface of the fixed column c80;
[0046] The rotary drive mechanism 100 includes a rotary drive assembly c101, a second L-shaped plate 102, and a third L-shaped plate 103. The vertical part of the second L-shaped plate 102 is slidably connected to the linear guide rail b90 and connected to the belt of the belt assembly b72. The vertical part of the third L-shaped plate 103 is connected to the vertical part of the second L-shaped plate 102 above the fixed post c80. The rotary drive assembly c101 is disposed on the horizontal part of the third L-shaped plate 103.
[0047] The spring plate 110 is connected to the rotation drive assembly c101 below the fixed column c80.
[0048] Several detonation points 120 are arranged in a circular array on the ammunition tray 110, and the detonation points 120 are set facing the target paper 130. After the detonation points 120 explode, bullet holes will be left on the target paper 130.
[0049] In the specific implementation process, the up-down drive mechanism 30 and the left-right drive mechanism 70 drive the rotary drive mechanism 100 to reach the detonation position of the target paper 130. Then, the rotary drive mechanism 100 drives the bomb disc 110 to rotate, so that several detonation bomb impact points 120 detonate in sequence at the position, thereby achieving a realistic sense of impact.
[0050] In one specific embodiment, the belt assembly a32 includes two rotating shafts a321 rotatably connected to the side surface of the fixed column b20, two pulleys a322 mounted on the two rotating shafts a321, and a belt a323 sleeved between the two pulleys a322. Correspondingly, the rotation drive assembly a31 includes a servo motor a, a pulley b311 mounted on the output shaft of the servo motor a, a pulley c3211 mounted on the rotating shaft a321 close to the servo motor a, and a belt b34 sleeved between the belt c723 and the pulley b311. When the servo motor a drives the pulley b311 to rotate, the T-shaped plate 40 and the inverted L-shaped plate 50 can move up and down. At this time, the left and right drive mechanism 70 set on the T-shaped plate 40 and the inverted L-shaped plate 50 can move up and down.
[0051] In one specific embodiment, the belt assembly b72 includes two rotating shafts b721 respectively rotatably mounted on the transverse portions of the T-shaped plate 40 and the inverted L-shaped plate 50, two pulleys d722 mounted on the two rotating shafts b721, and a belt c723 sleeved between the two pulleys d722. Correspondingly, the rotation drive assembly b71 includes a servo motor b, the output shaft of which is connected to one of the rotating shafts b721. Under the drive of the servo motor b, the second L-shaped plate 102 can move left and right, and at this time the rotation drive mechanism 100 can move left and right.
[0052] In one specific embodiment, the rotation drive assembly c101 includes a servo motor c. The output shaft of the servo motor c passes through the lateral portion of the second L-shaped plate 102 and the third L-shaped plate 103 and is connected to the spring plate 110. Under the drive of the servo motor c, the spring plate 110 can rotate 360°.
[0053] In addition, several detonation point 120s are connected to controllers, which makes it easy to control the detonation of several detonation point 120s separately, thereby achieving the purpose of simulating real shooting.
[0054] Additionally, it should be noted that to determine how to locate the explosion point of the detonator at 120°, please refer to an electronic simulation explosion device that our company applied for on the same day.
[0055] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the invention. In this specification, illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0056] The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the content of the present invention and implement it accordingly. They should not be construed as limiting the scope of protection of the present invention. All equivalent transformations or modifications made in accordance with the spirit and essence of the present invention should be covered within the scope of protection of the present invention.
Claims
1. A movable electronic detonation target, characterized in that, include: Target paper; Fixed post a, there are two fixed posts a, which are respectively set on the upper and lower sides of the target paper; Fixed column b, there are two fixed columns b, which are respectively connected to the left and right sides of the two fixed columns a; The up-down drive mechanism includes a rotation drive assembly a, two belt assemblies a, and two linear guide rails a. The two belt assemblies a are respectively disposed on the side surfaces of two fixed columns b, and the two linear guide rails a are respectively fixed on the upper surfaces of the two fixed columns b. The rotation drive assembly a is disposed on the upper surface of one of the fixed columns a and is connected to the belt assembly a for transmission. The T-shaped plate has its horizontal portion slidably connected to a linear guide rail a, and its vertical portion connected to the belt of a belt assembly a. An inverted L-shaped plate, the horizontal part of which slides on another linear guide rail a, and the vertical part of which is connected to the belt of another belt assembly a; The first L-shaped plate is provided in two forms, and the two first L-shaped plates are respectively fixed on one side of the transverse portion where the T-shaped plate and the inverted L-shaped plate are close to each other. The left and right drive mechanism includes a rotation drive assembly b and a belt assembly b. The belt assembly b is configured to cooperate with the transverse portion of the T-shaped plate and the inverted L-shaped plate. The rotation drive assembly b is configured below the transverse portion of the T-shaped plate and is connected to the belt assembly b for transmission. A fixing post c is connected to the transverse portion of two L-shaped plates; Linear guide rail b, which is disposed on the side surface of fixed column c; A rotary drive mechanism includes a rotary drive assembly c, a second L-shaped plate, and a third L-shaped plate. The vertical part of the second L-shaped plate is slidably connected to a linear guide rail b and connected to the belt of the belt assembly b. The vertical part of the third L-shaped plate is connected to the vertical part of the second L-shaped plate above the fixed column c. The rotary drive assembly c is disposed on the horizontal part of the third L-shaped plate. A spring plate, which is connected to the rotation drive assembly c below the fixed column c; Several detonation points are arranged in a circular array on the ammunition tray, with the detonation points facing the target paper. Several detonation points are connected to external controllers.
2. The movable electronic explosive target according to claim 1, characterized in that, The belt assembly a includes two rotating shafts a respectively rotatably connected to the side surface of the fixed column b, two pulleys a mounted on the two rotating shafts a, and a belt a sleeved between the two pulleys a.
3. The movable electronic detonation target according to claim 2, characterized in that, The rotation drive assembly a includes a servo motor a, a pulley b is mounted on the output shaft of the servo motor a, a pulley c is mounted on the rotating shaft a close to the servo motor a, and a belt b is sleeved between the belt c and the pulley b.
4. The movable electronic detonation target according to claim 1, characterized in that, The belt assembly b includes two rotating shafts b respectively rotatably disposed on the transverse portions of the T-shaped plate and the inverted L-shaped plate, two pulleys d mounted on the two rotating shafts b, and a belt c sleeved between the two pulleys d.
5. A movable electronic detonation target according to claim 1, characterized in that, The rotation drive assembly b includes a servo motor b, and the output shaft of the servo motor b is connected to a rotating shaft b.
6. A movable electronic detonation target according to claim 1, characterized in that, The rotation drive assembly c includes a servo motor c, the output shaft of which passes through the lateral portion of the second and third L-shaped plates and connects to the spring plate.