CN221685323U - Shooting induction equipment - Google Patents

Abstract

The invention proposes a shooting-sensing device comprising: a case (1) having a window (2) on a face thereof facing a shooter; a bulls-eye suspended from the window (2) by a rope (4) and capable of being swung after being hit; a first sensor (5) configured to detect a fluctuation of the bulls-eye (3); a buffer cloth (6) which is arranged inside the box body (1) and is used for blocking the shot which is shot from the window (1) through the window (2); a second sensor (7) configured to detect a fluctuation of the buffer cloth (6); and a controller which connects the first sensor (5) and the second sensor (7) and determines whether the bulls-eye (3) is hit or not based on responses of the first sensor (5) and the second sensor (7) to the feedbacks (3) and the cushion cloth (6), respectively. The invention can automatically identify whether the shot is hit or not without damaging the shot, and can collect shot shots.

Description

Shooting induction equipment

Technical Field

The invention relates to shooting induction equipment which is suitable for shooting training of slingshot and air gun.

Background

Shooting instruments which can be used by people in the disabled state generally include slingshot, bow and arrow and air gun. In order to maintain proficiency in the use of shooting instruments, one typically performs a targeting exercise. In the process of shooting, when a bullet and a vector are shot on a target core, if the target core is not damaged, whether the target is shot is difficult to judge, and if the target core is damaged, a new shooting target needs to be frequently replaced.

Disclosure of utility model

The invention provides a shooting sensing device capable of automatically identifying whether a bullnose is hit or not without damaging the bullnose and collecting shot pellets.

According to an aspect of an embodiment of the present invention, there is provided a shooting sense apparatus including: a case having a window on a side facing the shooter; a bulls-eye suspended from the window by a rope, capable of being swung after being hit; a first sensor configured to detect a fluctuation of the bulls-eye; a buffer cloth disposed in the case facing the window to block the shot from the window; a second sensor configured to detect a fluctuation of the buffer cloth; and a controller connected to the first and second sensors and determining whether the bullseye is hit based on responses of the first and second sensors to the bullseye and the buffer cloth movement, respectively.

In some examples, the first sensor and the second sensor are vibration sensors.

In some examples, the first and second sensors are each responsive, and the bulls-eye is hit.

In some examples, the first sensor is responsive and the second sensor is not responsive, and the bulls-eye is hit.

In some examples, the first sensor is not responsive and the second sensor is responsive and the bulls-eye is not hit.

In some examples, an acoustic and/or light system is connected to the controller, the controller configured to cause the acoustic and/or light system to issue a cue when the bulls-eye is hit.

In some examples, the controller is configured to count a total number of shots, a number of hits, and a hit rate.

In some examples, a communication module is connected to the controller, and the controller is configured to send the shot count, the number of hits, and the hit rate to the internet using the communication module.

Drawings

Fig. 1 and fig. 2 are schematic structural diagrams of a shooting sensing apparatus according to an embodiment of the present invention.

Detailed Description

Fig. 1 and 2 show a shooting sense apparatus. The device is used to detect if a bullseye is hit when using a slingshot, air gun, toy bow without a killing arrow to target. As shown in fig. 1 and 2, the apparatus comprises a case 1, a window 2 is provided on a side of the case 1 facing a shooter, a suspended bulls-eye 3 is provided on the window 2, the bulls-eye 3 is suspended on the window 2 by a flexible rope 4, the rope 4 is arranged transversely or longitudinally, and both ends of the rope 4 are fixed on the case 1. The bulls-eye 3 may be jerked after being hit by the projectile/vector. The rope 4 and/or the bulls-eye 3 are provided with a first sensor 5 for detecting vibrations. That is, the first sensor 5 may be a vibration sensor, an acceleration sensor, or a gyroscope. The jerk after the bulls-eye 3 is hit is detected by the first sensor 5. When the first sensor 5 detects that the bulls-eye 3 and the rope 4 vibrate, it is calculated that the bulls-eye 3 is hit. The invention is mainly used for games and therefore does not take into account the small probability of a shot/vector hitting the rope 4.

In natural state, the bulls-eye 3 is vertically downward. The bullnose 3 will rotate into the box 1 after being hit by the projectile/vector, which continues to move forward and finally falls into the box 1. The rope 4 is twisted when the bulls-eye 3 rotates, and the rope 4 returns to a natural state of vertically downward the bulls-eye 3 after the shaking is finished because the rope 4 is elastic. Of course, the projectile/vector that does not hit the bulls-eye 3 flies directly into the box 1. Therefore, the case 1 of the invention can collect shot pellets/vectors, and prevent the pellets/vectors from scattering to the ground to the greatest extent. A case cover 8 is provided on the case body 1, and the pellets/vectors can be taken out by opening the case cover 8. The connecting member 9 between the case 1 and the case cover 8 has a conventional structure.

The box 1 is internally provided with a flexible cloth 6 for buffering the shots/vectors, the cloth 6 faces the window 2, and a second sensor 7 for sensing vibration is arranged on the cloth 6. The second sensor 7 may employ a vibration sensor, an acceleration sensor or a gyroscope. After the shot/vector has hit the cloth 6 in the casing 1, the second sensor 7 will respond. For processing the signals of the inductors 5, 7, the device has a controller. The controller is connected with the first sensor 5 and the second sensor 7. The controller determines whether the bulls-eye 3 is hit or not based on the detection results of the first sensor 5 and the second sensor 7.

Three judgment conditions are given below: 1. the first sensor 5 and the second sensor 7 are both responsive, which indicates that the projectile/vector hits the bulls-eye 3 (the projectile/vector has high velocity, and enough kinetic energy flies again to the flexible cloth 6 to trigger the second sensor 7 after hitting the bulls-eye 3 to trigger the first sensor 5); 2. the first sensor 5 responds and the second sensor 7 does not respond, indicating that the projectile/vector hits the bulls-eye 3 (the velocity of the projectile/vector is low and the kinetic energy remaining after hitting the bulls-eye 3 is insufficient to redirect it towards the flexible cloth 6 to trigger the second sensor 7). 3. The first sensor 5 does not respond and the second sensor 7 does respond, indicating that the projectile/vector does not hit the bulls-eye 3 (off-target).

An acoustic and/or optical system controlled by a controller may be provided in the cabinet 1. When the projectile/vector hits the bulls-eye 3, an acoustic and/or optical system gives a cue, which may be a change in sound and/or light.

The invention can also upload the shooting result to the internet. The firing results include the total number of shots, the number of hits to the bulls-eye, the number of misses (no hit at all in the bin window 2 with a small probability of being out of the contemplation of the invention), the hit rate. The user views the shooting result from the Internet through mobile terminals such as mobile phones and tablet computers. The firing results may also be shared on social software, ranked by number of hits or hit rate.

Claims (8)

1. A shooting-inducing apparatus comprising:

A case having a window on a side facing the shooter;

A bulls-eye suspended from the window by a rope, capable of being swung after being hit;

A first sensor configured to detect a fluctuation of the bulls-eye;

a buffer cloth disposed in the case facing the window to block the shot from the window;

A second sensor configured to detect a fluctuation of the buffer cloth; and

And the controller is connected with the first sensor and the second sensor and is used for judging whether the bullseye is hit or not based on the responses of the first sensor and the second sensor to the bullseye and the buffering cloth fluctuation respectively.

2. The shooting sensing apparatus as claimed in claim 1, wherein the first sensor and the second sensor are a vibration sensor, an acceleration sensor, or a gyroscope.

3. The shooting sensing apparatus in accordance with claim 1 wherein the first sensor and the second sensor are each responsive, the bulls-eye being struck.

4. The shooting sensing apparatus as in claim 1 wherein the first sensor is responsive and the second sensor is unresponsive and the bulls-eye is struck.

5. The shooting sensing apparatus as in claim 1 wherein the first sensor is unresponsive and the second sensor is responsive and the bulls-eye is not struck.

6. The shooting sensing apparatus in accordance with claim 1, wherein the controller is coupled with an acoustic and/or light system, the controller being configured to cause the acoustic and/or light system to issue a cue when the bulls-eye is hit.

7. The shooting sensing apparatus of claim 1 or 3 or 4 or 5, wherein the controller is configured to count a total number of shots, a number of hits, and a hit rate.

8. The shooting sensing apparatus of claim 7, wherein a communication module is connected to the controller, the controller being configured to transmit the shot count, the number of hits, and the hit rate to the internet using the communication module.