CN210802220U - Toy gun - Google Patents

Abstract

The utility model discloses a toy gun, including drain pan, trigger, rotary mechanism and mechanism of loading, drain pan utensil accommodating space and with the through-hole of accommodating space intercommunication, the trigger with rotary mechanism rotationally accept in the accommodating space, the trigger part passes through the through-hole exposes outside the drain pan, the mechanism of loading with the drain pan slides and meets and with rotary mechanism meets, the trigger can the atress promote rotary mechanism rotates, so that rotary mechanism promotes the mechanism of loading is relative the drain pan motion realizes the effect that the relative drain pan of the piece of loading removed when simulating the bullet transmission to improve player's gaming experience.

Description

Toy gun

Technical Field

The utility model relates to the technical field of toys, in particular to a toy gun.

Background

Shooting type toy guns are very popular toys for children, especially for boys. The existing toy gun is similar to a real gun in appearance, but cannot simulate the effect of structural part movement of the real gun when a bullet is shot, and the game experience of a player is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a can improve the toy gun that recreation was experienced.

The utility model provides a toy gun, includes drain pan, trigger, rotary mechanism and mechanism of loading, drain pan utensil accommodating space and with the through-hole of accommodating space intercommunication, the trigger with rotary mechanism rotationally accept in the accommodating space, the trigger part passes through the through-hole exposes outside the drain pan, the mechanism of loading with the drain pan slides and meets and with rotary mechanism meets, the trigger can the atress promote rotary mechanism rotates, so that rotary mechanism promotes the mechanism of loading is relative the drain pan motion.

In one embodiment, the loading mechanism comprises a loading part and a loading elastic part, the loading part is connected with the bottom case in a sliding manner and is connected with the rotating mechanism part, the loading elastic part is accommodated in the accommodating space, the loading elastic part is connected between the loading part and the bottom case, and the trigger can be stressed to push the rotating mechanism to rotate so that the loading part slides relative to the bottom case under the action of the rotating mechanism and compresses the loading elastic part.

In an embodiment, the inner wall of the accommodating space is provided with first convex parts and first abutting parts at intervals in a protruding mode, the first convex parts are arranged adjacent to the through holes, the trigger comprises a trigger body, first elastic pieces and elastic abutting structures, the trigger body is rotatably sleeved on the first convex parts, part of the first convex parts are exposed out of the through holes, the first elastic pieces are fixedly connected with the trigger body and elastically abut against the first abutting parts, the elastic abutting structures are arranged on the trigger body, and the elastic abutting structures are used for pushing the rotating mechanism to rotate along the second direction when the trigger body is stressed to rotate along the first direction, so that the rotating mechanism pushes the loading mechanism to slide relative to the bottom shell.

In an embodiment, the trigger body is formed with an accommodating hole, the elastic abutting structure includes a slider and a second elastic member, the slider is slidably accommodated in the accommodating hole and partially exposed from the accommodating hole, the slider is configured to abut against the rotating mechanism, and the second elastic member is connected between an inner wall of the accommodating hole and the slider.

In an embodiment, the rotating mechanism includes a rotating block and a third elastic member, the inner wall of the accommodating space is further provided with a second protrusion and a second abutting portion at intervals, the rotating block is rotatably sleeved on the second protrusion, the third elastic member is fixedly connected with the rotating block and abuts against the second abutting portion, and the sliding block is used for abutting against the rotating block.

In an embodiment, the rotating block includes a rotating portion, a limiting portion and an abutting portion, the rotating portion is fixedly connected between the limiting portion and the abutting portion, the rotating portion is rotatably sleeved on the second protruding portion, the limiting portion is used for abutting against the second abutting portion, a first end of the abutting portion is used for abutting against the trigger, and a second end of the abutting portion is connected with the loading mechanism.

In an embodiment, the first end of the abutting portion includes a first side surface and a second side surface that are fixedly connected, the first side surface is connected between the rotating portion and the second side surface, and the second side surface is a curved surface.

In one embodiment, the slider includes a slider body and a contact portion protruding from the slider body, the slider body is slidably received in the receiving hole, the contact portion includes a first contact surface and a second contact surface fixedly connected to the first contact surface, the second contact surface is located at an end of the contact portion away from the slider body, the second contact surface is an inclined surface inclined with respect to an axis of the slider, and when the trigger is forced to rotate in a first direction and pushes the rotating block to rotate in a second direction, the first side surface contacts with the first contact surface; when the trigger rotates along the second rotation direction under the elastic action of the first elastic piece, the second side face can be pressed against the second contact face.

In one embodiment, the toy gun further comprises a first trigger button, a control chip and an output device, wherein the first trigger button and the output device are electrically connected with the control chip, the first trigger button and the control chip are fixed in the accommodating space, the trigger is further used for pushing the rotating mechanism to abut against the first trigger button in the process of being stressed, so that the first trigger button generates a first trigger signal, and the control chip is used for controlling the output device to output information according to the first trigger signal.

In an embodiment, the toy gun further includes a second trigger button, the second trigger button is fixed in the accommodating space and electrically connected to the control chip, the loading mechanism is further configured to abut against the second trigger button when the pushing and abutting action of the rotating mechanism slides relative to the bottom case, so that the second trigger button generates a second trigger signal, and the control chip controls the output device to output information according to the second trigger signal.

The utility model provides a toy gun owing to be equipped with the mechanism of going up the chamber that slides and meet with the drain pan, can promote when the trigger is pulled to the player rotary mechanism is rotatory, rotary mechanism can drive it is relative to go up the chamber the drain pan slides, the effect of the relative drain pan removal of the chamber of going up when realizing simulating the bullet transmission to improve player's gaming experience.

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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic cross-sectional view of a toy gun according to an embodiment of the present invention.

Fig. 2 is a partially exploded perspective view of the toy gun of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 and 2, a toy gun 100 includes a bottom case 10, a trigger 30, a rotating mechanism 40, and a loading mechanism 50. The bottom case 10 has an accommodating space 11 and a through hole 13 communicating with the accommodating space 11. The trigger 30 and the rotating mechanism 40 are rotatably accommodated in the accommodating space 11 of the bottom case 10. The trigger 30 is partially exposed out of the bottom case 10 through the through hole 13. The loading mechanism 50 is slidably connected to the bottom case 10 and connected to the rotating mechanism 40. The trigger 30 can be forced to push the rotating mechanism 40 to rotate, so that the rotating mechanism 40 pushes the loading mechanism 50 to move relative to the bottom case 10, the effect of simulating the movement of a structural part relative to the bottom case when a real gun launches bullets is achieved, and the game experience of players is improved.

Specifically, the bottom case 10 includes a gun body 15, a grip 16, and a bow 17. The gun body 15 has a housing space 11 and a through hole 13 for housing the trigger 30, the rotation mechanism 40, and the like. The handle 16 is protruded from the gun body 15 and disposed adjacent to the through hole 13 for facilitating the holding of the player. The bow 17 fixedly connects the body 15 and the grip 16 to facilitate the insertion of a finger of a player to apply force to the trigger 30 and thereby actuate the trigger 30.

The inner wall of the accommodating space 11 is provided with a first protrusion 111 and a first abutting portion 112 at intervals, wherein the first protrusion 111 is adjacent to the through hole 13. The trigger 30 includes a trigger body 31, a first elastic member 33 and an elastic interference structure 35. The trigger body 31 is rotatably sleeved on the first protrusion 111 and partially exposed from the through hole 13, so that the trigger 30 can be conveniently pulled by the fingers of the player. The first elastic member 33 is fixedly connected to the trigger body 31 and elastically abuts against the first abutting portion 112, so as to reset the trigger body 31. The elastic interference structure 35 is disposed on the trigger body 31 and is accommodated in the accommodating space 11. The elastic interference structure 35 is abutted against the rotating mechanism 40 and used for pushing the rotating mechanism 40 to rotate along the second rotating direction when the trigger body 31 is stressed to rotate along the first rotating direction. In the present embodiment, the first elastic member 33 is a torsion spring. It will be appreciated that the first resilient member 33 may be other types of resilient members that assist in resetting the trigger body 31.

The trigger body 31 is formed with a receiving hole 311. The elastic interference structure 35 includes a slider 351 and a second elastic member 353. The slider 351 is slidably received in the receiving hole 311 and partially exposed out of the receiving hole 311. The slider 351 is used for abutting against the rotating mechanism 40 to push the rotating mechanism 40 to rotate. The second elastic member 353 is connected between the inner wall of the receiving hole 311 and the slider 351, and is used for resetting the slider 351. In this embodiment, the second elastic member 353 is a compression spring. It is understood that the second elastic member 353 may be another type of elastic member, which can help the slider 351 to be reset.

The inner wall of the accommodating space 11 is further provided with a second protrusion 113 and a second abutting portion 114 in a protruding manner, and the second protrusion 113, the second abutting portion 114, the first protrusion 111 and the first abutting portion 112 are arranged on the inner wall of the accommodating space 11 at intervals. The second abutting portion 114 is adjacent to the slider 351 than the second protrusion 113. The rotating mechanism 40 includes a rotating block 41 and a third elastic member 43. The rotating block 41 is rotatably sleeved on the second protrusion 113. The third elastic member 43 is fixedly connected to the rotating block 41, and one end of the third elastic member 43 abuts against the second abutting portion 114 for resetting the rotating block 41. The slider 351 is adapted to abut against the rotating block 41. The inner wall of the receiving space 11 is further protruded with a limiting portion 115 for abutting against the rotating block 41 to limit the rotating block 41 when the rotating block 41 is reset, so as to prevent the rotating block 41 from moving beyond the initial position. In the present embodiment, the third elastic member 43 is a torsion spring. It is understood that the third elastic member 43 may be another type of elastic member, and the third elastic member 43 may reset the rotation block 41.

The rotating block 41 includes a rotating portion 411, a stopper portion 413, and an abutting portion 415. The rotating portion 411 is fixedly connected between the stopper portion 413 and the contact portion 415. The rotating portion 411 is rotatably sleeved on the second protrusion 113. The third elastic member 43 is fixedly connected to the rotating portion 411. The stopper 413 abuts against the stopper 115. The first end of the abutment 415 abuts against the slider 351 of the trigger 30. A second end of the abutment 415 interfaces with the loading mechanism 50.

The first end of the abutment 415 includes a first side 417 and a second side 418 that are connected. The first side surface 417 is connected between the rotating portion 411 and the second side surface 418. The second side 418 is curved. Further, the slider 351 includes a slider body 3511 and a contact portion 3513 protruding from the slider body 3511. The slider body 3511 is slidably received in the receiving hole 311. The contact portion 3513 is used to abut against the rotation block 41. The contact portion 3513 includes a first contact surface 3515 and a second contact surface 3517 fixedly connected to the first contact surface 3515, wherein the second contact surface 3517 is located at an end of the contact portion 3513 away from the slider body 3511. The second contact surface 3517 is a slope inclined with respect to the axis of the slider 351.

When the trigger 30 is forced to rotate in the first direction and pushes the rotating block 41 to rotate in the second direction, the first side surface 417 contacts with the first contact surface 3515; when the trigger 30 rotates in the second direction under the elastic force of the first elastic member 33, the second side surface 418 can press against the second contact surface 3517 of the slider body 3511, and the second contact surface 3517 can slide along the second side surface 417, so that the slider 351 returns to the original position over the rotation block 41.

The loading mechanism 50 is slidably connected to the side of the gun body 15 away from the grip 16. The loading mechanism 50 includes a loading member 51 and a loading elastic member 53. The upper chamber member 51 is slidably engaged with the frame 15 of the bottom case 10 and abuts against the abutment portion 415 of the rotating mechanism 40. The upper chamber elastic member 53 is connected between the upper chamber member 533 and the bottom case 10. A groove-shaped guide 117 is also provided on the inner wall of the housing space 11. The cocking elastic member 53 is housed in the guide portion 117. The guide 117 is used to guide the movement of the cocking elastic member 53 to make the movement of the cocking member 51 relative to the bottom case 10 smoother. The defining portion 115 is provided projecting on a side of the guide portion 117 facing away from the upper bore part 51.

When the trigger body 31 is not stressed, i.e. the trigger 30 is not pulled, the first contact surface 3515 of the elastic interference structure 35 contacts with the first side surface 417. As the trigger 30 is pulled, the trigger body 31 is forced toward the grip 16, and the trigger body 31 also rotates in a first rotational direction (e.g., clockwise). The elastic interference structure 35 pushes the rotating block 41 to rotate along the second rotation direction (counterclockwise), and the first side surface 417 slides in the direction away from the slider body 3511 at the first contact surface 3515. The second end of the abutting portion 415 of the rotating block 41 pushes against the loading member 51 to compress the loading resilient member 53, thereby realizing the negative movement of the loading member 51 relative to the bottom case 10 in the first direction. When the rotating block 41 is disengaged from the elastic interference structure 35, the loading member 51 returns to the initial position (i.e., reset) due to the elastic action of the loading elastic member 53, so as to realize the forward movement of the loading member 51 relative to the base 10 along the first direction. The upper chamber 51 can move back and forth along the first direction relative to the bottom case 10 under the condition of pulling the trigger body 31, which is equivalent to completing a simulated shooting operation, thereby improving the game experience of the player.

In the case where the rotation block 41 is disengaged from the elastic interference structure 35, the loading member 51 is restored by the elastic force of the loading elastic member 53, the rotation block 41 is restored by the elastic force of the third elastic member 43, the slider 351 is restored by the elastic force of the second elastic member 353, the trigger 30 is released, and the trigger 30 is restored by the elastic force of the first elastic member 33. During the resetting process of the trigger 30, the second side surface 418 of the abutting portion 415 presses against the second contact surface 3517 of the slider body 3511, and the slider 351 moves towards the first protrusion 111 to compress the second elastic member 353, so that the second contact surface 3517 of the slider 351 is in contact with the first side surface 417 of the second abutting portion 415.

It will be appreciated that as the trigger 30 is pulled, the trigger body 31 is forced toward the grip 16, and the trigger body 31 also rotates in a first rotational direction (e.g., clockwise). The elastic abutting structure 35 pushes the rotating block 41 to rotate along the second rotation direction (counterclockwise), the first side surface 417 slides in the direction away from the slider body 3511 at the first contact surface 3515, and the second end of the abutting portion 415 of the rotating block 41 pushes the upper chamber 51 to stretch the upper chamber elastic element 53. When the rotation block 41 is separated from the trigger 30, the cocking member 51 is restored due to the elastic action of the cocking elastic member 53.

The toy gun 100 further includes a first trigger button 70, a control chip 80, and an output device 90. The first trigger button 70 and the output device 80 are electrically connected to the control chip 80. The first trigger button 70 and the control chip 80 are both fixed in the accommodating space 11, the trigger 30 is further configured to abut against the first trigger button 70 in the process of pushing the rotating mechanism 40 under a force, so that the first trigger button 70 generates a first trigger signal, and the control chip 80 is configured to control the output device 90 to output information according to the first trigger signal, so as to simulate the effect of shooting. The output device 80 may be a light emitter, a music player, etc., and the information emitted by the output device 80 may be light, music, etc.

The toy gun 100 also includes a second trigger button 93. The second trigger button 93 is fixed in the accommodating space 11 and electrically connected to the control chip 80. The loading member 51 of the loading mechanism 50 is further configured to abut against the second trigger button 93 when sliding relative to the bottom case 10 under the pushing and abutting action of the rotating mechanism 40, so that the second trigger button 93 generates a second trigger signal, and the control chip 80 controls the output device 90 to output information according to the second trigger signal. Due to the fact that the first trigger key 91 and the second trigger key 93 are arranged, when one trigger key fails, shooting effects can still be simulated according to the trigger signals.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides a toy gun, its characterized in that includes drain pan, trigger, rotary mechanism and mechanism of loading, drain pan utensil accommodating space and with the through-hole of accommodating space intercommunication, the trigger with rotary mechanism rotationally accept in the accommodating space, the trigger part passes through the through-hole exposes outside the drain pan, the mechanism of loading with the drain pan slides and meets and with rotary mechanism meets, the trigger can be atress promotes rotary mechanism rotates, so that rotary mechanism promotes it is relative to load the mechanism the drain pan motion.

2. The toy gun of claim 1, wherein the loading mechanism includes a loading member and a loading elastic member, the loading member is slidably connected to the bottom case and is partially connected to the rotating mechanism, the loading elastic member is accommodated in the accommodating space, the loading elastic member is connected between the loading member and the bottom case, and the trigger can be forced to push the rotating mechanism to rotate, so that the loading member slides relative to the bottom case under the action of the rotating mechanism and compresses the loading elastic member.

3. The toy gun of claim 1, wherein the inner wall of the receiving space is provided with first protruding portions and first abutting portions at intervals, the first protruding portions are disposed adjacent to the through holes, the trigger includes a trigger body, a first elastic member and an elastic abutting structure, the trigger body is rotatably sleeved on the first protruding portions and partially exposed from the through holes, the first elastic member is fixedly connected with the trigger body and elastically abuts against the first abutting portions, the elastic abutting structure is disposed on the trigger body, and the elastic abutting structure is used for pushing the rotating mechanism to rotate along the second direction when the trigger body is forced to rotate along the first direction, so that the rotating mechanism pushes the loading mechanism to slide relative to the bottom case.

4. The toy gun of claim 3, wherein the trigger body has a receiving hole formed therein, the elastic abutting structure includes a slider slidably received in the receiving hole and partially exposed from the receiving hole, the slider is configured to abut against the rotating mechanism, and the second elastic member is connected between an inner wall of the receiving hole and the slider.

5. The toy gun of claim 4, wherein the rotating mechanism includes a rotating block and a third elastic member, the inner wall of the receiving space further has a second protrusion and a second abutting portion at intervals, the rotating block is rotatably sleeved on the second protrusion, the third elastic member is fixedly connected to the rotating block and abuts against the second abutting portion, and the sliding block is used for abutting against the rotating block.

6. The toy gun of claim 5, wherein the rotating block includes a rotating portion, a limiting portion and an abutting portion, the rotating portion is fixedly connected between the limiting portion and the abutting portion, the rotating portion is rotatably sleeved on the second protruding portion, the limiting portion is used for abutting against the second abutting portion, a first end of the abutting portion is used for abutting against the trigger, and a second end of the abutting portion is connected with the loading mechanism.

7. The toy gun of claim 6, wherein the first end of the abutment includes a first side and a second side that are fixedly coupled, the first side coupled between the rotating portion and the second side, the second side being curved.

8. The toy gun of claim 7, wherein the slider includes a slider body and a contact portion protruding from the slider body, the slider body is slidably received in the receiving hole, the contact portion includes a first contact surface and a second contact surface fixedly connected to the first contact surface, the second contact surface is located at an end of the contact portion facing away from the slider body, the second contact surface is an inclined surface inclined with respect to an axis of the slider,

when the trigger is stressed to rotate along a first rotation direction and pushes the rotating block to rotate along a second rotation direction, the first side surface is contacted with the first contact surface; when the trigger rotates along the second rotation direction under the elastic action of the first elastic piece, the second side face can be pressed against the second contact face.

9. The toy gun of claim 1, further comprising a first trigger button, a control chip, and an output device, wherein the first trigger button and the output device are electrically connected to the control chip, the first trigger button and the control chip are fixed in the accommodating space, the trigger is further configured to abut against the first trigger button in a process of pushing the rotating mechanism under force, so that the first trigger button generates a first trigger signal, and the control chip is configured to control the output device to output first information according to the first trigger signal.

10. The toy gun of claim 9, further comprising a second trigger button fixed in the receiving space and electrically connected to the control chip, wherein the loading mechanism is further configured to abut against the second trigger button when the rotating mechanism slides relative to the bottom case due to the urging action of the rotating mechanism, so that the second trigger button generates a second trigger signal, and the control chip controls the output device to output information according to the second trigger signal.

Images