CN111380400A - Simulated flying saucer shooting training system - Google Patents

Abstract

The invention discloses a simulated flying saucer shooting training system, which comprises: the simulated electronic shrapnel emitter is used for emitting a light beam signal; the flying saucer target is used for receiving the light beam signals emitted by the simulated electronic shot emitter, and the flying saucer target reminding device carries out reminding action if the flying saucer target receives the light beam signals emitted by the simulated electronic shot emitter; if the flying saucer target does not receive the light beam signal emitted by the simulated electronic shot emitter, the reminding device does not do any action; a target throwing device; the flying saucer target throwing device is used for throwing out the flying saucer target to enable the flying saucer target to form a moving target; the photoelectric emitter has no gun forming requirements, does not have the emission capability of metal shot or other substances, and has the appearance and the color which are obviously distinguished from standard guns; no material consumption is needed, and the flying saucer target is environment-friendly and recyclable.

Description

Simulated flying saucer shooting training system

Technical Field

The invention belongs to the technical field of entertainment equipment, and particularly relates to a simulated flying saucer shooting training system.

Background

The existing flying saucer shooting training system is composed of a shotgun, a flying saucer target and a target throwing machine. In practical situations, the training of flying saucer shooting is limited by various limitations such as fields, firearms, ammunition, cost and the like, and ordinary people can hardly contact with the training and have inconvenience in operation during use. The existing flying saucer shooting training system mainly has the following problems and disadvantages: firstly, the field is limited, and a bidirectional target range is provided with two target rooms (a high target room and a low target room) according to the specification. The 8 shooting positions are arranged on an arc with the radius of 19.2 meters and a chord corresponding to the arc, the chord length is 36.8 meters, the center distance of a base chord is 5.5 meters from the center of a circle, buildings with dense flow, such as residential buildings, shopping centers and schools, cannot be built for 500 meters around the base chord, the number of fields is too small, only a few cities are built with professional shooting ranges, and the operation is not open to the outside. And secondly, the shooting cost is limited, the site construction cost is high, the approval difficulty of the applied countries is high, the construction cost is high, and the approval difficulty of the applied countries is high. And thirdly, safety factors are limited, the conventional flying saucer shooting uses a shotgun which has thick gun barrel, thick bullets and loud sound during shooting. The caliber of the gun is 12-20 mm, the firepower is large, the killing surface is wide, and the like, so that the gun is very dangerous. And fourthly, more than 95 percent of the traditional clay target is formed by mixing and pressing 17 to 30 percent of asphalt serving as a cementing material and stone powder. The flying saucer target surface is sprayed with the fluorescent paint with high organic solvent content, which seriously pollutes the environment and has higher manufacturing cost and higher energy consumption.

Disclosure of Invention

Therefore, the invention provides a simulated flying saucer shooting training system, which aims to solve the problem that the field is limited in the prior art, and two target rooms (a high target room and a low target room) are arranged in a specified bidirectional shooting range. The 8 shooting positions are arranged on an arc with the radius of 19.2 meters and a chord corresponding to the arc, the chord length is 36.8 meters, the center distance of a base chord is 5.5 meters from the center of a circle, buildings with dense flow, such as residential buildings, shopping centers and schools, cannot be built for 500 meters around the base chord, the number of fields is too small, only a few cities are built with professional shooting ranges, and the operation is not open to the outside. And secondly, the shooting cost is limited, the site construction cost is high, the approval difficulty of the applied countries is high, the construction cost is high, and the approval difficulty of the applied countries is high. And thirdly, safety factors are limited, the conventional flying saucer shooting uses a shotgun which has thick gun barrel, thick bullets and loud sound during shooting. The caliber of the gun is 12-20 mm, the firepower is large, the killing surface is wide, and the like, so that the gun is very dangerous. And fourthly, more than 95 percent of the traditional clay target is formed by mixing and pressing 17 to 30 percent of asphalt serving as a cementing material and stone powder. The fluorescent paint with high organic solvent content sprayed on the surface of the clay target seriously pollutes the environment and has the problems of high manufacturing cost and large energy consumption.

In order to achieve the above purpose, the invention provides the following technical scheme: a simulated flying saucer shooting training system comprising:

the simulated electronic shrapnel emitter is used for emitting a light beam signal;

the flying saucer target is used for receiving the light beam signals emitted by the simulated electronic shot emitter, and the flying saucer target reminding device carries out reminding action if the flying saucer target receives the light beam signals emitted by the simulated electronic shot emitter; if the flying saucer target does not receive the light beam signal emitted by the simulated electronic shot emitter, the reminding device does not do any action;

a target throwing device; the flying saucer target throwing device is used for throwing out the flying saucer target to enable the flying saucer target to form a moving target.

Further, the simulated electronic shot transmitter comprises:

the invisible light emitting module is used for emitting invisible laser;

the singlechip is used for calibrating the coordinates of the central point and calculating data;

the sounding module is used for sounding similar to a real gun when the gun is fired;

the shooting vibration feedback device is used for providing recoil during shooting;

a power module for supplying power;

an activation device for activating the emission of non-visible light;

and the firing device is used for executing the shooting action.

Further, the invisible light emitting module is arranged at the position of the gun body emitting opening of the simulated electronic shot shell emitter; the starting device comprises a power-on switch arranged on a trigger of the simulated electronic shrapnel emitter; the top of the gun body of the simulated electronic shot launcher is also provided with an aiming device; the feedback assembly comprises a vibration motor and a sound simulator which are arranged inside the gun handle of the simulated electronic shot shell launcher.

Furthermore, the flying saucer target comprises a deformable shell, and a powder thrower, an optical communication device receiving end, a second single chip microcomputer, a super capacitor, a second Hall displacement sensor, a power supply module, a second three-axis accelerometer and a non-visible light receiving module which are arranged on the deformable shell.

Furthermore, the shell is of a disc-shaped structure, and two charging holes penetrating from the top to the bottom are formed in the shell.

Further, the top of the shell is connected with a fixed semicircular cover plate; the trimming edge of the fixed semicircular cover plate is rotatably crossed with a movable semicircular cover plate; a stepping motor in signal connection with the second single chip microcomputer is embedded in the trimming edge of the fixed semicircular cover plate; the output end of the stepping motor is sleeved with a first gear; and a second gear meshed with the first gear is sleeved on the hinge shaft of the fixed semicircular cover plate and the movable semicircular cover plate.

Further, the target throwing device comprises a rack and a support leg; the bottom of the rack is provided with a lifting table; a charging column is movably arranged in the lifting platform in a penetrating way; the flying saucer target can be sleeved on the charging column; the top of the rack is provided with a through hole penetrating to the bottom, and the through hole can enable the flying saucer target to pass through; the ejector is arranged at the top of the rack; the top of the rack is provided with a slide way along the ejection direction of the ejector; the through hole is positioned at the output end of the ejector.

Furthermore, a ramp is arranged at one end, far away from the ejector, of the slide way.

Further, the method comprises the steps that a target throwing device shoots a flying saucer target; simulating the electronic shot emitter to emit invisible laser; the flying saucer target judges whether the flying saucer target is hit by the visible laser emitted by the simulated electronic shot emitter, if the flying saucer target is hit, the reminding device gives feedback, and if the flying saucer target is not hit, the reminding device does not give feedback.

And further, the simulated electronic shot emitter emits invisible light and simultaneously sends data to the flying saucer target, after the flying saucer target acquires the data, whether the height of the flying saucer target when being hit is smaller than the set minimum height or not is judged, and if the height of the flying saucer target is smaller than the minimum height, the reminding device on the flying saucer target after being hit does not perform feedback.

The invention has the following advantages: the technical state of the ultra-large range simulated moving gas pistol is adjusted according to international emission rules by the safety legal characteristics which are obviously different from the simulation pistol; simulating real gun live ammunition target shooting by safe low-power laser signal emission; the radio electromagnetic induction signal is used for reflecting the shooting action process of the shooter and the intrinsic psychological swabbing condition of the shooter, and the radio electromagnetic induction signal has the characteristics of high technical precision, wide application range, flexible adjustment, vivid feeling, convenience, safety and the like. The realization is with recoverable reuse as the design original intention, compares traditional flying saucer target appearance and weight the same, but has increased electronic control system newly, need not ammunition and hits, and after non-visible light receiving module received the signal from photoelectric emitter, can make flying saucer target shell warp, increase the resistance whereabouts, and the powder thrower begins work simultaneously, hits the effect and is similar with traditional flying saucer target, but recoverable reuse. The following purposes are achieved: firstly, the photoelectric emitter does not need to send out bullets, so the field limitation is almost zero, and any open space can be trained, so the field is not limited. Secondly, the photoelectric emitter simulates the technical state of the big-range simulated moving gas pistol adjustment according to the international transmission rule by the safety legal characteristic obviously different from the simulation pistol; simulating real gun live ammunition target shooting by safe low-power laser signal emission; the radio electromagnetic induction signal is used for reflecting the shooting action process of the shooter and the intrinsic psychological swabbing condition of the shooter, and the radio electromagnetic induction signal has the characteristics of high technical precision, wide application range, flexible adjustment, vivid feeling, convenience, safety and the like. And thirdly, national examination and approval stadium construction is not needed, so that the shooting cost is greatly reduced. And fourthly, the photoelectric emitter has no gun forming requirement, does not have the emission capability of metal shot or other substances, and has the appearance and the color which are obviously distinguished from the standard gun. Fifthly, no material consumption is needed, and the flying saucer target is environment-friendly and recyclable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic diagram of a simulated electronic shot launcher of a simulated flying saucer shooting training system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a flying saucer target of a simulated flying saucer shooting training system provided by an embodiment of the invention;

FIG. 3 is a schematic cross-sectional structural diagram of a flying saucer target of a simulated flying saucer shooting training system provided by an embodiment of the invention;

fig. 4 is a schematic structural diagram of a shooting device of a simulated flying saucer shooting training system according to an embodiment of the present invention.

In the figure: the device comprises a simulated electronic shot shooting emitter 1, a flying saucer target 2, a target throwing device 3, a laser emitting device 11, a sound production module 12, a single chip microcomputer 13, a shooting vibration feedback device 14, a power supply module 15, a firing device 16, a deformable shell 21, a powder throwing device 22, an optical communication device receiving end 23, a second single chip microcomputer 24, a super capacitor 25, a second Hall displacement sensor 26, a power supply module 27, a second three-axis accelerometer 28, a non-visible light receiving module 29, a charging hole 215, a fixed semicircular cover plate 210, a movable semicircular cover plate 211, a stepping motor 212, a first gear 213, a second gear 214, a rack 31, a supporting leg 32, a lifting platform 33, a charging column 34, an ejector 37, a slide 35 and a ramp 36.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings and the detailed description, but those skilled in the art will understand that the following described embodiments are some, not all, of the embodiments of the present invention, and are only used for illustrating the present invention, and should not be construed as limiting the scope of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. The examples, in which specific conditions are not specified, were conducted under conventional conditions or conditions recommended by the manufacturer. The reagents or instruments used are not indicated by the manufacturer, and are all conventional products available commercially.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A simulated flying saucer shooting training system provided in embodiment 1 of the present invention is shown in fig. 1, fig. 2, fig. 3, and fig. 4 and includes: the simulated electronic shrapnel emitter 1 is used for emitting a light beam signal; the flying saucer target 2 is used for receiving the light beam signals emitted by the simulated electronic shot emitter, and if the flying saucer target receives the light beam signals emitted by the simulated electronic shot emitter, the flying saucer target reminding device gives out reminding actions; if the flying saucer target does not receive the light beam signal emitted by the simulated electronic shot emitter, the reminding device does not do any action; a target throwing device 3; the flying saucer target throwing device is used for throwing out the flying saucer target to enable the flying saucer target to form a moving target.

It should be noted that the simulated electronic shot-shooting device 1 includes a laser emitting device 11 for emitting invisible laser light; the singlechip 13 is used for calibrating the coordinates of the central point and calculating data; the voice module 12 is used for voice broadcasting; a shooting vibration feedback device 14 for providing a feedback action when shooting; a power supply module 15 that supplies power; the firing device 16 is used to perform a firing action. The clay target 2 comprises a deformable shell 21, a powder thrower 22, an optical communication device receiving end 23, a second single chip microcomputer 24, a super capacitor 25, a second Hall displacement sensor 26, a power supply module 27, a second three-axis accelerometer 28 and a non-visible light receiving module 29, wherein the powder thrower 22, the optical communication device receiving end 23, the second single chip microcomputer 24, the super capacitor 25, the second Hall displacement sensor 26 and the non-visible light receiving module 29 are arranged on. The housing 21 has a plate-like structure and two charging holes 215 are formed on the housing 21 and extend from the top to the bottom. The top of the shell 21 is connected with a fixed semicircular cover plate 210; the trimming edge of the fixed semicircular cover plate 210 is rotatably crossed with a movable semicircular cover plate 211; a stepping motor 212 in signal connection with the second single chip microcomputer is embedded in the trimming edge of the fixed semicircular cover plate 210; the output end of the stepping motor 212 is sleeved with a first gear 213; a second gear 214 engaged with the first gear 213 is sleeved on the hinge shaft of the fixed semicircular cover plate 210 and the movable semicircular cover plate 211. The target shooter 3 comprises a stand 31 and a support leg 32; the bottom of the stand 21 is provided with a lifting table 33; a charging column 34 is movably arranged in the lifting platform 33 in a penetrating way; the flying saucer target 2 can be sleeved on the charging column 34; a through hole penetrating to the bottom is formed in the top of the rack 31 and can enable the flying saucer target 2 to pass through; the ejector 37 is arranged at the top of the rack 31; the top of the rack 31 is provided with a slide way 35 along the ejection direction of the ejector 37; said through hole is in the position of the ejector 37 output end. The end of the slideway 35 remote from the ejector 37 is provided with a ramp 36.

Further explanation is as follows: the firing device is used for executing the shooting action, the laser emission device is used for emitting invisible laser, the sound production device is used for emitting sound similar to a real gun when firing, the shooting vibration feedback device provides recoil when being used for shooting, the single chip microcomputer is used for calibrating coordinates of a central point, data are calculated, the power supply module is designed to use a lithium battery, and the power supply is supplied to the simulated electronic shot emitter. The flying saucer target comprises a shell which can be deformed to increase resistance after being hit, a powder throwing device containing striking powder, a super capacitor, a single chip microcomputer and a power module. When the flying saucer throwing device works, the throwing machine can continuously charge the super capacitor of the flying saucer target, the super capacitor can still continuously supply power to the flying saucer target after the flying saucer target is thrown out, after the optical communication device determines that the flying saucer target is hit, the mechanical structure of the deformable shell can be deformed, air resistance is increased to fall to the ground, and meanwhile, the powder throwing device containing striking powder can start to work, so that a player can judge whether the flying saucer target is hit or not. The optical communication module converts the received optical signals into electric signals, and the electric signals are amplified, filtered and the like and then sent to the demodulation circuit for demodulation, and are output after being restored into binary digital signals, and the binary digital signals are used for receiving data sent by the analog electronic shrapnel emitter, such as startup and shutdown signals, firing force data and gun holding posture data. And the data information is also forwarded to the singlechip. The singlechip is used for calibrating the coordinate of the central point; receiving a photoelectric sensor signal, capturing the coordinates of the impact point when the invisible light hits the clay target, calculating the distance between the coordinates and the clay target, and further judging whether the clay target hits the clay target. When the flying saucer target is thrown out by the target throwing machine, the photoelectric communication device can continuously work to judge whether the flying saucer target is hit successfully or not, if the flying saucer target is hit, the powder throwing machine can be triggered, otherwise, no action is taken. The super capacitor is used, the target throwing machine is continuously charged during standby, and the super capacitor supplies power to the flying saucer target after throwing, so that the flying saucer target can normally work.

Example 2

The simulated flying saucer shooting training system provided by the embodiment 2 of the invention comprises a flying saucer target ejected by a target throwing device; simulating the electronic shot emitter to emit invisible laser; the flying saucer target judges whether the flying saucer target is hit by the visible laser emitted by the simulated electronic shot emitter, if the flying saucer target is hit, the reminding device gives feedback, and if the flying saucer target is not hit, the reminding device does not give feedback.

Further, the simulation electronic shot emitter emits the invisible light and simultaneously sends data to the flying saucer target, after the flying saucer target acquires the data, whether the height of the flying saucer target when being hit is smaller than the set minimum height or not is judged, and if the height of the flying saucer target is smaller than the minimum height, the reminding device on the flying saucer target after being hit does not perform feedback. When the flying saucer throwing device works, the throwing machine can continuously charge the super capacitor of the flying saucer target, the super capacitor can still continuously supply power to the flying saucer target after the flying saucer target is thrown out, after the optical communication device determines that the flying saucer target is hit, the mechanical structure of the deformable shell can be deformed, air resistance is increased to fall to the ground, and meanwhile, the powder throwing device containing striking powder can start to work, so that a player can judge whether the flying saucer target is hit or not.

The optical communication module converts the received optical signals into electric signals, and the electric signals are amplified, filtered and the like and then sent to the demodulation circuit for demodulation, and are output after being restored into binary digital signals, and the binary digital signals are used for receiving data sent by the analog electronic shrapnel emitter, such as startup and shutdown signals, firing force data and gun holding posture data. And the data information is also forwarded to the singlechip.

The singlechip is used for calibrating the coordinate of the central point; receiving a photoelectric sensor signal, capturing the coordinates of the impact point when the invisible light hits the clay target, calculating the distance between the coordinates and the clay target, and further judging whether the clay target hits the clay target. The singlechip is used for calibrating the coordinate of the central point; receiving a photoelectric sensor signal, capturing the coordinates of the impact point when the invisible light hits the clay target, calculating the distance between the coordinates and the clay target, and further judging whether the clay target hits the clay target. The coordinates are used for calculating the height, when the target is thrown out, the barometer works, the flying height of the current target can be known, if the flying height is more than X meters, the target can be hit, and if the flying height is less than X meters, even if the invisible light receiving device receives the invisible light from the emitting device, the flying saucer target can not be operated. The optical communication sending end and the optical communication receiving end adopt mutually matched optical communication calibration devices. Information interference is prevented.

The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.

Claims (10)

1. A simulated flying saucer shooting training system, comprising:

the simulated electronic shrapnel emitter is used for emitting a light beam signal;

the flying saucer target is used for receiving the light beam signals emitted by the simulated electronic shot emitter, and the flying saucer target reminding device carries out reminding action if the flying saucer target receives the light beam signals emitted by the simulated electronic shot emitter; if the flying saucer target does not receive the light beam signal emitted by the simulated electronic shot emitter, the reminding device does not do any action;

a target throwing device; the flying saucer target throwing device is used for throwing out the flying saucer target to enable the flying saucer target to form a moving target.

2. A simulated flying saucer shooting training system as claimed in claim 1, wherein said simulated electronic shot launcher comprises:

the optical communication device transmitting terminal is used for transmitting data;

the invisible light emitting module is used for emitting invisible laser;

the first single chip microcomputer is used for calibrating the coordinates of the central point and calculating data;

the first triaxial accelerometer is used for acquiring the human body posture;

the first Hall displacement sensor is used for detecting the stroke of the firing device;

a power module for supplying power;

an activation device for activating the emission of non-visible light;

and the feedback component is used for providing feedback action when shooting.

3. The simulated flying saucer shooting training system of claim 2, wherein said invisible light emitting module is arranged at the position of the gun body emitting opening of said simulated electronic shot-shooting emitter; the starting device comprises a power-on switch arranged on a trigger of the simulated electronic shrapnel emitter; the top of the gun body of the simulated electronic shot launcher is also provided with an aiming device; the feedback assembly comprises a vibration motor and a sound simulator which are arranged inside the gun handle of the simulated electronic shot shell launcher.

4. The simulated flying saucer shooting training system of claim 1, wherein the flying saucer target comprises a deformable shell, and a powder thrower, an optical communication device receiving end, a second single chip microcomputer, a super capacitor, a second hall displacement sensor, a power module, a second triaxial accelerometer and a non-visible light receiving module which are arranged on the deformable shell.

5. A simulated flying saucer shooting training system as claimed in claim 4, wherein said casing has a saucer-like structure and two charging holes are formed through the casing from top to bottom.

6. A simulated flying saucer shooting training system as claimed in claim 5, wherein a fixed semicircular cover plate is connected to the top of said casing; the trimming edge of the fixed semicircular cover plate is rotatably crossed with a movable semicircular cover plate; a stepping motor in signal connection with the second single chip microcomputer is embedded in the trimming edge of the fixed semicircular cover plate; the output end of the stepping motor is sleeved with a first gear; and a second gear meshed with the first gear is sleeved on the hinge shaft of the fixed semicircular cover plate and the movable semicircular cover plate.

7. A simulated flying saucer shooting training system as claimed in claim 1, wherein said shooting range comprises a stand and legs; the bottom of the rack is provided with a lifting table; a charging column is movably arranged in the lifting platform in a penetrating way; the flying saucer target can be sleeved on the charging column; the top of the rack is provided with a through hole penetrating to the bottom, and the through hole can enable the flying saucer target to pass through; the ejector is arranged at the top of the rack; the top of the rack is provided with a slide way along the ejection direction of the ejector; the through hole is positioned at the output end of the ejector.

8. A simulated flying saucer shooting training system as claimed in claim 7, wherein said slide is provided with a ramp at an end remote from said catapult.

9. A simulated flying saucer shooting training system as claimed in claim 1, comprising a target throwing device for shooting a flying saucer target; simulating the electronic shot emitter to emit invisible laser; the flying saucer target judges whether the flying saucer target is hit by the visible laser emitted by the simulated electronic shot emitter, if the flying saucer target is hit, the reminding device gives feedback, and if the flying saucer target is not hit, the reminding device does not give feedback.

10. The simulated flying saucer shooting training system of claim 9, wherein the simulated electronic shot emitter emits invisible light and simultaneously sends data to the flying saucer targets, after the flying saucer targets acquire the data, the flying saucer targets judge whether the height of the flying saucer targets is smaller than the set minimum height, and if the height of the flying saucer targets is smaller than the minimum height, the reminding device on the flying saucer targets does not perform feedback.

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