CN209877764U - Trigger linkage chamber returning and bullet supplying mechanism for toy gun - Google Patents

Abstract

The utility model relates to the technical field of toy guns, and provides a trigger linkage chamber returning ammunition feeding mechanism for a toy gun, which comprises a sliding gun chamber, an ammunition pushing unit and a trigger linkage escapement unit, wherein the ammunition pushing unit and the trigger linkage escapement unit are arranged in the sliding gun chamber; the bullet pushing unit comprises a bullet supply push rod, a bullet supply push rod bracket, a rear sliding rail sleeve plate and a rear sliding rail bracket; wherein, the ammunition supply push rod is arranged in the sliding gun chamber through an ammunition supply push rod bracket; the rear sliding rail sleeve plate is fixed at the rear end of the sliding gun chamber, and the rear sliding rail sleeve plate and the ammunition feed push rod bracket are respectively and fixedly arranged at the rear end of the sliding gun chamber; the rear sliding rail sleeve plate is arranged on the rear sliding rail bracket in a sliding manner, and the rear sliding rail bracket is fixedly connected with the toy gun body; the trigger linkage escapement unit includes: trigger, preceding slide rail support, preceding slide rail lagging and escapement card bamboo shoot. The utility model can complete semi-automatic ammunition feeding only by using the action and the force of pulling the trigger by fingers; the chamber returning action is generated when the trigger is pulled, and is similar to the chamber returning action of the chamber sleeve when the semi-automatic pistol shoots, so that the interest of the toy is increased.

Description

Trigger linkage chamber returning and bullet supplying mechanism for toy gun

Technical Field

The utility model relates to a toy gun technical field especially relates to a trigger linkage returns thorax bullet supply mechanism for toy gun.

Background

The toy gun is one of the toys that children liked, and the toy gun on the existing market has one type transmission principle to do: the motor drives the flywheels to rotate at a high speed, the pair of flywheels are arranged on two sides of the axis motion trail of the soft cylindrical projectile, and the projectile is extruded and rubbed by the side faces of the flywheels to obtain acceleration when passing between the two flywheels rotating at the high speed. The projectile is pushed into the space between the two flywheels by the projectile feed push rod.

The existing products in the market supply bullets by means of linkage of a trigger and forward movement of a push rod, the bullets are pushed forwards, and the push rod is reset by the aid of the elastic force of a reset spring to finish one-time bullet supply. In the process, the push rod is generally made of plastic and slides in the guide groove on the gun body, the guide groove of the gun body is also made of plastic, and the push rod moves forwards to generate larger friction force. The trigger needs to overcome the large friction force generated by the forward movement of the projectile, the elastic force of the push rod reset spring and the friction force generated by the forward movement of the push rod, the resistance is large in the trigger pulling process, the damping is not linear, and the trigger triggering position is not clear.

SUMMERY OF THE UTILITY MODEL

The utility model mainly solves the technical problems of larger resistance, nonlinear damping, unclear trigger firing position and the like when the trigger of the toy gun in the prior art is pulled, provides a trigger linkage chamber-returning bullet supply mechanism for the toy gun, and can finish semi-automatic bullet supply only by using the action and the force of pulling the trigger by fingers; the trigger has small pulling resistance, linear damping and clear triggering position, and greatly improves the shooting hand feeling. And simultaneously, the utility model discloses produce back the thorax action when the trigger is pulled, the telescopic back thorax action of bore is similar with semi-automatic pistol shooting, has increased the interest of toy.

The utility model provides a trigger linkage returns thorax bullet supply mechanism for toy gun, include: a sliding bore (4), a bullet pushing unit (2) arranged in the sliding bore (4), and a trigger linkage escapement unit (3);

the projectile pushing unit (2) comprises: the device comprises a bullet supply push rod (201), a bullet supply push rod bracket (202), a rear sliding rail sleeve plate (203) and a rear sliding rail bracket (204); wherein the ammunition supply push rod (201) is arranged in the sliding gun chamber (4) through an ammunition supply push rod bracket (202); the rear sliding rail sleeve plate (203) is fixed at the rear end of the sliding gun chamber (4), and the rear sliding rail sleeve plate (203) and the ammunition supply push rod bracket (202) are respectively and fixedly installed at the rear end of the sliding gun chamber (4); the rear sliding rail sleeve plate (203) is arranged on the rear sliding rail bracket (204) in a sliding manner, and the rear sliding rail bracket (204) is fixedly connected with the toy gun body (1);

the trigger-linked escapement unit (3) comprises: a trigger (301), a front slide rail bracket (302), a front slide rail sleeve plate (303) and a detent catch (304); wherein, the trigger (301) is arranged on the toy gun body (1) through a front slide rail bracket (302); the front end of the trigger (301) is provided with a detent catch (304), and the rear end of the trigger extends out of the toy gun body; preceding slide rail support (302) go up the slip and set up preceding slide rail lagging (303), preceding slide rail lagging (303) are fixed at slip bore (4) front end.

Further, a finger hole is reserved at the rear end of the trigger (301).

Further, the trigger (301) is connected with the escapement catch (304) through a shaft and an elastic element.

Further, the ammunition feed push rod (201) is installed inside the sliding gun chamber (4) through an ammunition feed push rod bracket (202), and comprises:

the ammunition supply push rod support (202) is fixedly arranged inside the sliding gun bore (4), one end of the ammunition supply push rod (201) is connected with the ammunition supply push rod support (202) through a shaft, and the other end of the ammunition supply push rod support (202) penetrates through the front portion of the sliding gun bore (4).

The utility model provides a pair of trigger linkage returns thorax bullet supply mechanism for toy gun has following advantage compared with prior art:

1. the trigger and the slide rail sleeve plate on the gun chamber linked with the trigger slide on the hard metal optical axis, and the friction force is small; in addition, in the trigger pulling process, the friction force of the forward movement of the projectile is not required to be overcome, and only the reset elastic force of the reset elastic element is required to be overcome;

2. the positions of the escapement catch in the trigger module for catching and releasing the front sliding rail sleeve plate are fixed, so that the trigger firing position is clear;

3. the force of pulling the trigger by fingers is taken as bullet supply power, the trigger is pulled once to supply a bullet for one shot, and the semi-automatic shooting of the toy gun is realized;

4. the linked chamber returning action when the trigger is pulled is similar to the chamber returning action of the chamber sleeve when the semi-automatic pistol shoots, so that the interest of the toy is increased;

5. the bullet supply push rod swings, so that the gun chamber does not need to be pulled in the process of loading and taking out the magazine, and convenience is improved;

6. the utility model overcomes the defects of the prior product, realizes small trigger pulling resistance, linear damping and clear triggering position, greatly improves shooting hand feeling and increases the interest of the toy.

Drawings

FIG. 1 is a schematic view of the position of the trigger-linked chamber-returning ammunition feeding mechanism in the toy gun body of the toy gun of the present invention;

FIG. 2 is a side view of the trigger-linked chamber-returning ammunition feed mechanism for a toy gun of the present invention in the body of the toy gun;

FIG. 3 is an exploded view of the trigger-linked chamber-returning ammunition feed mechanism of the toy gun of the present invention in the body of the toy gun;

FIG. 4 is a first schematic structural view of a trigger-linked escapement unit;

FIG. 5 is a second schematic structural view of the trigger-linked escapement unit;

fig. 6 is a schematic view of the trigger structure.

Reference numerals: 1. a toy gun body; 2. a bullet pushing unit; 3. a trigger-linked escapement unit; 4. sliding the bore; 201. a feed pusher; 202. a feed pusher support; 203. a rear slide rail sleeve plate; 204. a rear slide rail bracket; 301. a trigger; 302. a front rail bracket; 303. a front slide rail bushing plate; 304. escapement catch; 305. and (5) buckling.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings and the embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present invention are shown in the drawings.

FIG. 1 is a schematic view of the position of the trigger-linked chamber-returning ammunition feeding mechanism in the toy gun body of the toy gun of the present invention; FIG. 2 is a side view of the trigger-linked chamber-returning ammunition feed mechanism for a toy gun of the present invention in the body of the toy gun; fig. 3 is an exploded view of the trigger-linked chamber-returning ammunition-feeding mechanism of the toy gun of the present invention in the body of the toy gun. As shown in fig. 1-3, the embodiment of the present invention provides a trigger linkage back chamber ammunition feeding mechanism for toy gun, including: a slide barrel 4, a projectile pushing unit 2 and a trigger linkage escapement unit 3 which are arranged in the slide barrel 4.

The ejector unit 2 includes: a bullet supply push rod 201, a bullet supply push rod bracket 202, a rear sliding rail sleeve plate 203 and a rear sliding rail bracket 204; wherein, the ammunition supply push rod 201 is arranged inside the sliding gun chamber 4 through an ammunition supply push rod bracket 202; specifically, the ammunition supply push rod support 202 is fixedly arranged inside the sliding bore 4, one end of the ammunition supply push rod 201 is connected with the ammunition supply push rod support 202 through a shaft, and the other end of the ammunition supply push rod 201 penetrates through the ammunition supply push rod support 202 and faces the front part of the sliding bore 4. A first elastic element is further arranged between the ammunition supply push rod 201 and the ammunition supply push rod bracket 202, and the ammunition supply push rod 201 is connected with the ammunition supply push rod bracket 202 through a shaft and the first elastic element. Because the ammunition supply push rod 201 is connected with the ammunition supply push rod bracket 202 through a shaft and can swing within a certain angle, the first elastic element can control the position of the ammunition supply push rod 201. The rear slide rail sleeve plate 203 is fixed at the rear end of the sliding bore 4, and the rear slide rail sleeve plate 203 and the ammunition feed push rod bracket 202 are respectively and fixedly installed at the rear end of the sliding bore 4; the rear slide rail sleeve plate 203 is arranged on the rear slide rail bracket 204 in a sliding manner, and the rear slide rail bracket 204 is fixedly connected with the toy gun body 1. A group of hard metal optical axis sliding rails are installed on the rear sliding rail bracket 204, and the rear sliding rail sleeve plate 203 slides on the sliding rails.

The trigger-linked escapement unit 3 includes: trigger 301, front slide rail bracket 302, front slide rail sleeve plate 303, escapement catch 304 and buckle 305. FIG. 4 is a first schematic structural view of a trigger-linked escapement unit; FIG. 5 is a second schematic structural view of the trigger-linked escapement unit; fig. 6 is a schematic view of the trigger structure. As shown in fig. 4-6, the trigger 301 is mounted on the front rail bracket 302 through a rail; the front slide rail bracket 302 is fixedly arranged on the toy gun body 1; the front end of the trigger 301 is provided with a detent catch 304, and the rear end extends out of the toy gun body; the rear end of the trigger 301 is provided with a finger hole. Specifically, the trigger 301 is connected to the detent catch 304 through a shaft and a second elastic element, which is a rubber band in this embodiment. Front slide rail sleeve plate 303 is arranged on front slide rail support 302 in a sliding mode, and front slide rail sleeve plate 303 is fixed at the front end of sliding gun chamber 4. Two groups of hard metal optical axis sliding rails are mounted on the front sliding rail bracket 302, and the front sliding rail sleeve plate 303 and the trigger 301 respectively slide on the two groups of sliding rails.

The utility model discloses trigger for toy gun links back thorax bullet supply mechanism's theory of operation: the trigger 301 adopts a finger hole structure, a finger passes through the finger hole to pull the trigger 301, and the finger controls the trigger 301 to slide back and forth; the front end of the trigger 301 is provided with a detent catch 304. When the trigger 301 is at the front end position, the escapement catch 304 is lifted to catch the front sliding rail sleeve plate 303; when the trigger 301 moves to the rear end position, the escapement catch 304 is caught by the catch 305 to lie down, and the front sliding rail sleeve plate 303 is released; the lifting and lying actions of the escapement catch 304 are realized by the matching of the shaft and the second elastic element; the front sliding rail sleeve plate 303 moves from the front end to the rear end under the action of the escapement catch 304 and is released, and the front end is quickly pulled back along the sliding rail by a third elastic element; the front slide rail sleeve plate 303 is fixedly connected with the sliding bore 4 to drive the sliding bore 4 to move backwards and then move forwards quickly to return, so that the bore returning action of the sliding bore 4 is realized; the front slide rail bracket 302 and the rear slide rail bracket 204 are fixedly connected with the gun body, the front slide rail sleeve plate 303 and the rear slide rail sleeve plate 203 respectively slide back and forth on the slide rails, and the front slide rail sleeve plate 303 and the rear slide rail sleeve plate 203 are fixedly connected with the sliding gun chamber 4, so that the smooth and stable return motion of the gun chamber is ensured; the ammunition supply push rod 201 is arranged on the sliding bore 4 through the ammunition supply push rod support 202, and when the sliding bore 4 returns to the bore, the ammunition supply push rod 201 moves backwards first and then moves forwards quickly to return, so that one ammunition pushing action is completed; the ammunition supply push rod 201 is connected with the ammunition supply push rod support 202 through a shaft, the ammunition supply push rod 201 can swing within a certain angle, the position of the ammunition supply push rod 201 is controlled by a first elastic element, when the position of the ammunition supply push rod 201 is in the front, the ammunition supply push rod 201 is jacked by the shot at the position to be fired, when the ammunition supply push rod 201 moves backwards, the head of the ammunition supply push rod 201 crosses over the shot, the shot falls down at the rear part of the shot under the action of the elastic element, then the ammunition supply push rod 201 moves forwards and returns, the shot.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or some or all of the technical features may be equivalently replaced, without substantially departing from the scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. The utility model provides a trigger linkage returns thorax bullet supply mechanism for toy gun which characterized in that includes: a sliding bore (4), a bullet pushing unit (2) arranged in the sliding bore (4), and a trigger linkage escapement unit (3);

the projectile pushing unit (2) comprises: the device comprises a bullet supply push rod (201), a bullet supply push rod bracket (202), a rear sliding rail sleeve plate (203) and a rear sliding rail bracket (204); wherein the ammunition supply push rod (201) is arranged in the sliding gun chamber (4) through an ammunition supply push rod bracket (202); the rear sliding rail sleeve plate (203) is fixed at the rear end of the sliding gun chamber (4), and the rear sliding rail sleeve plate (203) and the ammunition supply push rod bracket (202) are respectively and fixedly installed at the rear end of the sliding gun chamber (4); the rear sliding rail sleeve plate (203) is arranged on the rear sliding rail bracket (204) in a sliding manner, and the rear sliding rail bracket (204) is fixedly connected with the toy gun body (1);

the trigger-linked escapement unit (3) comprises: a trigger (301), a front slide rail bracket (302), a front slide rail sleeve plate (303) and a detent catch (304); wherein, the trigger (301) is arranged on the toy gun body (1) through a front slide rail bracket (302); the front end of the trigger (301) is provided with a detent catch (304), and the rear end of the trigger extends out of the toy gun body; preceding slide rail support (302) go up the slip and set up preceding slide rail lagging (303), preceding slide rail lagging (303) are fixed at slip bore (4) front end.

2. A trigger-linked feed back mechanism for a toy gun as claimed in claim 1 wherein a finger hole is left in the rear end of the trigger (301).

3. A trigger-linked chamber feed mechanism for a toy gun as claimed in claim 1 or 2, wherein the trigger (301) is connected to the escapement catch (304) by a shaft and a second resilient element.

4. A trigger-linked chamber feed mechanism for a toy gun as claimed in claim 1, wherein the feed ram (201) is mounted inside the sliding chamber (4) by a feed ram holder (202) comprising:

the ammunition supply push rod support (202) is fixedly arranged inside the sliding gun bore (4), one end of the ammunition supply push rod (201) is connected with the ammunition supply push rod support (202) through a shaft, and the other end of the ammunition supply push rod support (202) penetrates through the front portion of the sliding gun bore (4).