CN111536829B - Shooting training device - Google Patents

Abstract

The invention relates to the technical field of military equipment and discloses a shooting training device. The shooting training device comprises a gun body and an adjusting assembly arranged on the gun body, wherein the gun body is provided with a first training mode and a second training mode; the adjusting component is used for switching the gun body between a first training mode and a second training mode, and the shooting training types of the first training mode and the second training mode are different. Above-mentioned embodiment, under adjusting device's effect, the rifle body can switch wantonly between first training mode and second training mode to can make the rifle body be in under the training mode that corresponds according to the type that shooting personnel actually need train, in the training process, can also adjust at any time according to shooting personnel's mastery degree, training arrangement etc. the flexibility is high, and it is also more convenient to use.

Description

Shooting training device

Technical Field

The invention relates to the technical field of military equipment, in particular to a shooting training device.

Background

At present, shooting gradually becomes a favorite sport item, but the sport needs a great deal of basic training to enable shooters to master shooting skills and enhance finger strength.

The existing pistol shooting training equipment can only meet the training type of practice, such as practice by using independent skill devices (such as simulation guns and firearm models) when training shooting skills; when training the shooting strength, a separate strength device (such as a finger strength trainer) is used for training. This results in a cumbersome procedure and low flexibility for different types of devices to be replaced during training.

Disclosure of Invention

The invention provides a shooting training device which can simultaneously meet different training types and has high flexibility.

The embodiment of the invention provides a shooting training device, which comprises a gun body and an adjusting component arranged on the gun body, wherein:

the gun body is provided with a first training mode and a second training mode;

the adjusting component is used for switching the gun body between the first training mode and the second training mode, and the shooting training types of the first training mode and the second training mode are different.

In the embodiment, under adjusting device's effect, the rifle body can switch between first training mode and second training mode to satisfied the type that the shooting personnel need train simultaneously, the flexibility is high, and it is more convenient to use.

Optionally, the first training mode is a percussion technique training mode, and the second training mode is a percussion strength training mode.

Optionally, the gun body comprises a trigger and a linkage assembly connected with the trigger, and in the firing technology training mode, the trigger is pulled, and whether the firing action is correct or not is determined according to whether the displacement change of the linkage assembly meets a preset condition or not.

Specifically, if the linkage assembly moves backwards or keeps still, the triggering action is correct;

the linkage assembly moves to any one of the two sides, and the firing action is incorrect.

In a specific embodiment, the gun body further comprises a gun body and a handle, the trigger is arranged on the gun body, and the linkage component is the gun body;

the adjusting assembly is used for fixedly connecting the gun body with the handle, so that the gun body is in the firing strength training mode;

or the adjusting component is used for movably connecting the gun body with the grip, so that the gun body is in the firing technology training mode.

Optionally, the gun body is connected with the handle in a sliding or rotating manner.

In another specific embodiment, the gun body further comprises:

the linkage assembly is positioned on a mounting plate which is arranged in the gun body along the horizontal direction;

the three trigger assemblies are arranged on the mounting plate and are respectively positioned on two sides and the rear side of the linkage assembly;

a first alarm device and a second alarm device; wherein:

in the firing technology training mode, when the linkage assembly is in contact with the trigger assembly positioned at the rear side, the first alarm device gives an alarm; when the linkage assembly is in contact with any one of the trigger assemblies positioned on two sides, the second alarm device gives an alarm.

When specifically setting up, be equipped with conductive element respectively in linkage subassembly and every trigger assembly, wherein:

when the conductive element in the linkage assembly is in contact with the conductive element in the trigger assembly positioned at the rear side, the alarm circuit connected with the first alarm device is switched on, and the first alarm device gives an alarm;

when the conductive element in the linkage assembly is in contact with the conductive element in any one of the trigger assemblies positioned on two sides, the alarm circuit connected with the second alarm device is switched on, and the second alarm device gives an alarm;

or each trigger component comprises a touch plate and a pressure sensor arranged on the touch plate, and when the pressure sensor positioned at the rear side detects pressure, the first alarm device gives an alarm;

when any one of the pressure sensors positioned on the two sides detects the pressure, the second alarm device gives an alarm.

Optionally, the adjusting part is located linkage subassembly top, including the guide slot, the guide slot is the U-shaped of invering, just be equipped with on the guide slot and carry the portion of pulling, it passes to carry the portion of pulling the rifle body and expose from the top, wherein:

when the lifting part is lifted upwards to separate the guide groove from the linkage assembly, the gun body is in the firing technology training mode;

when the lifting part is pressed downwards, the guide grooves are clamped at two sides of the linkage assembly, and the gun body is in the firing strength training mode.

Optionally, a ball is arranged between the linkage assembly and the mounting plate, a first rail arranged along the muzzle direction, and a second rail and a third rail arranged on two sides of the first rail are arranged on the surface of the mounting plate, and the first rail, the second rail and the third rail intersect at a point;

when the trigger is not pulled, the ball is positioned at the junction.

Drawings

Fig. 1 is a schematic overall structure diagram of a shooting training apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of the connection between the frame and the grip shown in FIG. 1;

FIG. 3 is a schematic diagram of an overall structure of another shooting training apparatus according to an embodiment of the present invention;

FIG. 4 is an assembled view of the internal structure of the gun body shown in FIG. 3;

FIG. 5 is a schematic view of the internal structure of the gun body shown in FIG. 3;

fig. 6 is a schematic structural view of the pull portion shown in fig. 3.

Reference numerals:

10-gun body

11-trigger 12-linkage assembly

121-connecting rod 122-front plate

123-rear plate 124-spring

13-gun body 14-handle

15-mounting plate 151-first rail

152-second track 153-third track

16-rotating bead 17-locking screw

18-trigger assembly

20-adjustment assembly

21-guide groove 22-pulling part

30-first warning device

40-second alarm device

50-Circuit Board

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. 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 embodiment of the invention provides a shooting training device which can simultaneously meet different training types, and is high in flexibility and convenient to use.

Specifically, this shooting training device includes the rifle body and sets up the adjusting part on the rifle body, wherein:

the gun body is provided with a first training mode and a second training mode;

the adjusting component is used for switching the gun body between a first training mode and a second training mode, and the shooting training types of the first training mode and the second training mode are different.

In the embodiment, under the action of the adjusting device, the gun body can be switched between the first training mode and the second training mode at will, so that the multifunctional training gun has two purposes, is low in manufacturing cost and is convenient to carry; in the training process, not restricted by the place, can make the rifle body be in under the training mode that corresponds according to the type that shooting personnel actually need train to can carry out the mode switch at any time according to shooting personnel's mastery degree, training arrangement etc. the flexibility is high, and it is also more convenient to use.

For a clearer understanding of the structure of the shooting training apparatus provided by the embodiment of the present invention, reference will now be made in detail to the accompanying drawings.

As shown in fig. 1 and 3, the shooting training apparatus includes a gun body 10 and an adjusting assembly 20 (the adjusting assembly 20 is not shown in fig. 1) disposed on the gun body 10, wherein the gun body 10 has a first training mode and a second training mode, and the first training mode and the second training mode have different shooting training types; the adjustment assembly 20 is used to switch the gun body 10 between a first training mode and a second training mode. Specifically, the adjusting assembly 20 can change the connection relationship or the position relationship between different components on the gun body 10, so as to make the gun body 10 in different training modes; alternatively, certain functions of the gun body 10 (e.g., counting, timing, etc.) may be turned on or off to place the gun body 10 in different training modes, depending on the type of training. Thus, the gun body 10 can be used for various types of training according to the requirements of shooting personnel, and can be switched into training modes at any time according to the mastering degree, training arrangement and the like in the training process, so that the flexibility is high, and the use is more convenient.

Specifically, the first training mode is a firing technique training mode, and the second training mode is a firing strength training mode, that is, when the gun body 10 is in the first training mode, a shooter can perform firing technique training to standardize shooting actions; when the gun body 10 is in the second training mode, the shooter can perform a firing power training to increase the finger power pulling the trigger 11. Alternatively, the first training mode is a strength training mode, and the second training mode is a endurance training mode, such as: the strength training is performed when the trigger is pulled for 40 times within 1 minute, and the endurance training is performed when the trigger is pulled for 100 times within 5 minutes; alternatively, the first training mode is a endurance training mode and the second training mode is a gun-holding posture training mode. The gun body 10 may have other training modes, such as a skill training mode, training the gun-drawing speed of the shooter, and completing the shooting exercise after the gun-drawing is performed quickly, in addition to the training mode described above; meanwhile, different training modes, such as two modes or three modes, can be switched through the adjusting assembly, and different training types can exercise hand speed, arms, shoulders, eyesight and the like. In the present application, the percussion technique training mode and the percussion strength training mode are specifically described as examples, but are not limited to these two modes.

The gun body 10 comprises a trigger 11 and a linkage assembly 12 connected with the trigger 11, wherein the linkage assembly 12 can be displaced along with the movement of the trigger 11, and under a firing technology training mode, when the trigger 11 is pulled, whether the displacement change of the linkage assembly 12 meets a preset condition can be determined to determine whether a firing action is correct, and the preset condition comprises conditions such as the size, the direction or the size and the direction of a rotating angle of the linkage assembly 12. Specifically, when the linkage assembly 12 moves backward or remains stationary, it means that when the trigger 11 is pressed, the forefinger forces backward relative to the muzzle direction, no deflection occurs, and the firing action is correct; when the linkage assembly 12 moves to either of the left and right sides, it means that when the trigger 11 is pressed, the force direction of the index finger is inclined relative to the muzzle direction, so that the linkage assembly 12 is displaced to the corresponding side, and the firing action is incorrect.

The linkage assembly 12 can have various structural forms, the displacement change of the linkage assembly 12 can be expressed by the change of the integral structure of the gun body 10, and a shooter can judge whether the firing action is correct or not by observing the gun body 10 directly with naked eyes; or, a corresponding detection device and an alarm device may be provided, the detection device may detect the displacement change (including the size and direction of the moving distance or the rotating angle, the direction, etc.) of the linkage assembly 12, and make a judgment according to the preset condition, for example, when the displacement change of the linkage assembly is detected to reach the set threshold, the alarm device reminds the user. Therefore, when the shooting technique training is carried out, the shooting personnel can achieve the purpose of self-correction according to the feedback result, the training effectiveness is guaranteed, and the correct action shaping is formed.

In one embodiment, as shown in fig. 2, the gun body 10 further includes a gun body 13 and a grip 14, the trigger 11 is disposed on the gun body 13, and the gun body 13 is the linkage assembly 12. The adjusting assembly 20 is used for movably connecting the gun body 13 with the grip 14, so that the gun body 10 is in a firing training mode, and the movable connection means that the gun body 13 can be dislocated relative to the grip 14 or swung relative to the grip 14 when an external force is applied to the gun body 13, but the gun body 13 cannot fall off the grip 14; when the trigger 11 is pulled, the gun body 13 generates corresponding displacement change along with the force and the direction of pulling the trigger 11, and whether the firing action is correct can be judged by observing the displacement change; the adjustment assembly 20 also provides for securing the gun body 13 to the grip 14 such that the gun body 10 is in a firing force training mode wherein the training is done to increase the force required to actuate the trigger 11 without the gun body 13 becoming misaligned or wobbling whether the firing action is correct or not.

In the gun body 10, when the firing training is performed, the gun body 13 is movably connected with the grip 14, so that the separation between the force for pressing the trigger 11 and the force for holding the grip 14 is realized, and thus, the force for holding the grip 14 cannot control the gun body 13, when the trigger 11 is pressed, if the correct action that the index finger is independent, uniform and straight backwards is not performed, the gun body 13 can correspondingly deviate or swing under the action of wrong application force, so that the effect of feeding back firing action errors is achieved, and a shooter is reminded to adjust the firing action; if the gun body 13 is fixed or moves backwards relative to the muzzle direction, the firing force is correct, and the shooting personnel can practice for many times according to the experience, so that the aim of strengthening correct firing action is fulfilled. When the special strength training is needed after the correct percussion technique is mastered, the grip 14 and the gun body 13 can be fixed through the adjusting component 20, the gun body 13 can not move any more, and the special strength training of the trigger 11 finger can be carried out by adjusting the attraction force of the trigger 11 of the training device.

When the trigger 11 is pressed in a firing training mode, if the force is wrong, the gun body 13 swings leftwards or rightwards relative to the grip 14; if the force is applied correctly, the gun body 13 is kept still. Or, the gun body 13 and the grip 14 may be connected in a sliding manner, and in the percussion technique training mode, the gun body 13 and the grip 14 may be relatively dislocated but not separated, specifically, if the force is applied incorrectly, the gun body 13 may be shifted to the left or right relative to the grip 14; if the force is applied correctly, the gun body 13 moves backwards. The adjusting assembly has locking and unlocking functions, can be a buckle connecting piece, and can also be a detachable fastener, such as a bolt, a screw, a pin and the like, when the adjusting assembly is in a locking state, the gun body 13 and the grip 14 are fixed, and the gun body 10 is in a firing strength training mode; when the adjusting assembly is in the unlocked state, the gun body 13 and the grip 14 can rotate or slide relatively, and the gun body 10 is in a firing training mode. As shown in fig. 2, a rotating ball 16 is disposed between the gun body 13 and the grip 14, the rotating ball 16 has a threaded hole along the rotation axis, the adjusting assembly specifically includes a locking screw 17, and when the locking screw 17 is screwed into the threaded hole in the rotating ball 16, the gun body 13 and the grip 14 are relatively fixed; when the locking screw 17 is screwed out, the gun body 13 and the grip 14 can rotate relatively.

In another specific embodiment, as shown in fig. 4 and 5, the gun body 10 further includes a gun body 13, a mounting plate 15 is horizontally disposed inside the gun body 13, the linkage assembly 12 is located on the mounting plate 15, and the linkage assembly 12 is connected to the trigger 11 and can move on the mounting plate 15 along with the movement of the trigger 11; the gun body 10 further comprises three triggering assemblies 18, a first alarm device 30 and a second alarm device 40 which are arranged on the mounting plate 15 and are respectively positioned at two sides and the rear side of the linkage assembly 12, as shown in fig. 4, the three triggering assemblies 18 are respectively positioned right behind the linkage assembly 12 and at symmetrical positions at the left side and the right side by taking the muzzle direction as a reference direction; in the firing technical training mode, when the trigger 11 is pulled, if the linkage assembly 12 is in contact with the trigger assembly 18 positioned at the rear side, the first alarm device 30 gives an alarm, and the first alarm device 30 prompts a shooter to fire correctly through voice or a warning light; if the linkage component 12 is contacted with any one of the trigger components 18 positioned at two sides, namely the linkage component 12 is deviated, the second alarm device 40 alarms, and the second alarm device 40 prompts that the triggering action is incorrect through voice or warning lamps.

When the gun is specifically arranged, the linkage assembly 12 and each trigger assembly 18 are respectively provided with a conductive element, a circuit board 50 and an alarm circuit are arranged in the gun body 10, the linkage assembly 12 is equivalent to a selection switch in the alarm circuit, wherein when the conductive element in the linkage assembly 12 is contacted with the conductive element in the trigger assembly 18 positioned at the rear side, the alarm circuit connected with the first alarm device 30 is switched on, and the first alarm device 30 gives an alarm; when the conductive element in the linkage assembly 12 contacts the conductive element in any one of the trigger assemblies 18 on both sides, the alarm circuit connected to the second alarm device 40 is connected and the second alarm device 40 alarms.

Or, each trigger assembly 18 includes a touch panel and a pressure sensor disposed on the touch panel, when the pressure sensor located at the rear side detects pressure, the first alarm device 30 alarms, and at this time, the linkage assembly 12 moves backward under the driving of the trigger 11 and collides with the touch panel at the rear side, which indicates that the firing action is correct; when any one of the pressure sensors on the two sides detects pressure, the second alarm device 40 gives an alarm, and at the moment, the linkage assembly 12 is driven by the trigger 11 to deviate and collide with the touch plate on the corresponding side, so that the firing action is incorrect.

With continued reference to fig. 4, in order to make the linkage assembly 12 generate corresponding displacement change sensitively according to the direction of the force pulling the trigger 11, a ball is disposed between the linkage assembly 12 and the mounting plate 15, and the surface of the mounting plate 15 is provided with a first rail 151 disposed along the muzzle direction, a second rail 152 and a third rail 153 disposed at two sides of the first rail 151, and the first rail 151, the second rail 152 and the third rail 153 meet at a point; when the trigger 11 is not pulled, the ball is located at the intersection point; after the trigger 11 is pulled, if the linkage assembly 12 moves backwards along the first track 151 and collides with the trigger assembly 18 at the rear side, the first alarm device 30 gives an alarm, and a shooter can know that the firing action is correct through the alarm information; if the linkage assembly 12 moves along the second rail 152 or the third rail 153 and collides with the trigger assembly 18 on the corresponding side, the second alarm device 40 gives an alarm, and the shooter can know that the firing action is incorrect through the alarm information.

With continued reference to fig. 4 and 5, the linkage assembly 12 includes a link 121 connected to the trigger 11, a front plate 122 disposed on the link 121, a rear plate 123 disposed behind the front plate 122, and a spring 124 connecting the front plate 122 and the rear plate 123, the ball bearing being located below the link 121; in the firing technique training mode, the trigger 11 drives the connecting rod 121 to move, the connecting rod 121 drives the front plate 122 to move, if the ball enters any one of the left and right tracks to move, the firing action is incorrect, and when the front plate 122 is contacted with the corresponding trigger assembly 18, the first alarm device 30 gives an alarm to remind a shooter to correct the firing action; if the ball moves backwards along the first track 151, it indicates that the firing motion is correct, and when the rear plate 123 contacts the trigger assembly 18 located at the rear side under the driving of the front plate 122, the second alarm device 40 gives an alarm to remind the shooter that the firing motion can be continued; in the firing strength training mode, the movement track of the ball can be limited by the adjusting assembly 20, so that the ball can only move backwards along the first track 151, when the rear plate 123 is in contact with the trigger assembly 18 at the rear side, the spring 124 is continuously compressed under the extrusion of the front plate 122, the restoring force of the spring 124 is gradually increased, and the linking assembly 12 acts on the trigger 11, so that the resistance of pressing the trigger 11 is increased, and the strength training is performed.

Referring to fig. 3 and 6 together, the adjusting assembly 20 is located above the linkage assembly 12, and includes a guide slot 21, the guide slot 21 is in an inverted U shape, and the guide slot 21 is arranged along the muzzle direction, a pulling portion 22 is arranged on the guide slot 21, the pulling portion 22 passes through the gun body 13 and is exposed from the top, when the pulling portion 22 is pulled to make the pulling portion 22 rise upwards, the guide slot 21 will be separated from the linkage assembly 12, the linkage assembly 12 can generate displacement change on the mounting plate 15 according to the force and direction of the trigger 11, at this time, the gun body 10 is in a firing technical training mode, specifically, the structure shown in fig. 4, in which the balls can move along any one of the first rail 151, the second rail 152, and the third rail 153; when the pulling portion 22 is pressed downward to clamp the guide slots 21 on both sides of the linkage assembly 12, the linkage assembly 12 can only move along the guide slots 21, and the linkage assembly 12 does not contact the trigger assembly 18, and at this time, the gun body 10 is in the firing strength training mode in which the balls can only move backward along the first track 151 due to the limitation of the guide slots 21, with continued reference to the structure shown in fig. 4.

It can be seen from the above description that the shooting training device provided by the embodiment of the invention can simultaneously meet different training types, and the equipment can feed back whether the technical action is correct or not, so that the professional guidance of a trainer is not needed, the autonomous training can be really realized, and the training effect is ensured.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The shooting training device is characterized by comprising a gun body and an adjusting component arranged on the gun body, wherein:

the gun body is provided with a first training mode and a second training mode;

the adjusting component is used for switching the gun body between the first training mode and the second training mode, and the shooting training types of the first training mode and the second training mode are different;

the first training mode is a percussion technique training mode, and the second training mode is a percussion strength training mode;

the gun body comprises a trigger and a linkage assembly connected with the trigger, the trigger is pulled under the firing technology training mode, and whether the firing action is correct or not is determined according to whether the displacement change of the linkage assembly meets a preset condition or not.

2. The gunnery training device of claim 1 wherein if the linkage assembly is moved rearward or left stationary, the firing action is correct;

when the linkage component moves to any one of the two sides, the firing action is incorrect.

3. The gunnery training device of claim 1 wherein the gun body further comprises a gun body and a grip, the trigger is disposed on the gun body, and the linkage assembly is the gun body;

the adjusting assembly is used for fixedly connecting the gun body with the handle, so that the gun body is in the firing strength training mode;

or the adjusting component is used for movably connecting the gun body with the grip, so that the gun body is in the firing technology training mode.

4. A shooting training apparatus as claimed in claim 3 wherein the gun body is slidably or rotatably connected to the grip.

5. The shooting training apparatus of claim 1, wherein the gun body further comprises:

the linkage assembly is positioned on a mounting plate which is arranged in the gun body along the horizontal direction;

the three trigger assemblies are arranged on the mounting plate and are respectively positioned on two sides and the rear side of the linkage assembly;

a first alarm device and a second alarm device; wherein:

in the firing technology training mode, when the linkage assembly is in contact with the trigger assembly positioned at the rear side, the first alarm device gives an alarm; and when the linkage assembly is contacted with any one of the trigger assemblies positioned on two sides, the second alarm device gives an alarm.

6. The gunnery training device of claim 5 wherein the linkage assembly and each trigger assembly have conductive elements disposed therein, wherein:

when the conductive element in the linkage assembly is in contact with the conductive element in the trigger assembly positioned at the rear side, the alarm circuit connected with the first alarm device is switched on, and the first alarm device gives an alarm;

when the conductive element in the linkage assembly is in contact with the conductive element in any one of the trigger assemblies positioned on two sides, the alarm circuit connected with the second alarm device is switched on, and the second alarm device gives an alarm;

or each trigger component comprises a touch plate and a pressure sensor arranged on the touch plate, and when the pressure sensor positioned at the rear side detects pressure, the first alarm device gives an alarm;

when any one of the pressure sensors positioned on the two sides detects the pressure, the second alarm device gives an alarm.

7. The gunnery training device of claim 5 wherein the adjustment assembly is located above the linkage assembly and comprises a guide channel having an inverted U-shape with a pull portion disposed thereon, the pull portion passing through the frame and emerging from the top, wherein:

when the lifting part is lifted upwards to separate the guide groove from the linkage assembly, the gun body is in the firing technology training mode;

when the lifting part is pressed downwards, the guide grooves are clamped at two sides of the linkage assembly, and the gun body is in the firing strength training mode.

8. The shot training apparatus of claim 5 wherein said linkage assembly is provided with balls between said mounting plate and said mounting plate surface is provided with a first rail disposed along the muzzle direction, and a second rail and a third rail disposed on either side of said first rail, and wherein said first rail, said second rail and said third rail meet at a point;

when the trigger is not pulled, the ball is positioned at the junction.

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