KR20120005062U - Backward momentum transferring mechanism for toy gun - Google Patents

Abstract

A housing 1; A barrel extending forward of the housing 1; A motor provided inside the pistol handle; A reduction gear provided inside the housing 1 and connected to the motor and driven; A bullet loading portion 4 provided at the front end of the housing 1; A spring deflection piston 5 provided in the cylinder 52 fixed to the housing 1; A trigger to drive a motor to trigger a trigger; And partly provided inside the gunshot 12, the front end is supported at the rear end of the relay weight 61, the front sliding rod 62 provided at the rear of the piston 5, and the gun 61 and the gunshot 12 A toy gun is disclosed that includes a rear momentum transfer mechanism (6) having a rear recoil spring (63), the rear end of which is supported on an inner wall. The sliding rod 62 is provided in the housing 1 and positioned away from the weight, and the rear momentum transfer mechanism 6 generates a kickback shock to simulate kickback.

Description

BACKWARD MOMENTUM TRANSFERRING MECHANISM FOR TOY GUN}

The present invention relates to a toy gun, and more particularly, to a backward momentum transferring mechanism of a toy gun for generating a recoil shock to simulate the reaction.

Recently, toy guns (or so-called BB guns) have gained much popularity. Typical toy guns include a trigger, a bullet loader that mounts a bullet (eg, a plastic small bullet) in a shooting ready state, and a triggering mechanism. The user pulls the trigger back to activate the trigger mechanism, whereby the bullet is fired out of the barrel.

However, such a conventional toy gun has a problem that can not satisfy the user does not recoil when triggered.

Thus, in order to deliver momentum from the projectile leaving the barrel when shooting a toy gun, a device is needed to simulate recoil by moving the spring biased weight in the gun rearward.

In order to simulate recoil, a conventional toy gun is provided with a backward momentum transferring mechanism. Conventional rear momentum transfer mechanisms mainly include a housing, a reduction gear, a trigger, a front bullet loader, a piston, and a piston spring. The reduction gear is driven in connection with the motor in the pistol handle. The piston is movably provided in the fixed cylinder and is biased against the piston spring. The trigger is exposed to the outside and, when pulled back by the finger, drives the motor to trigger the trigger. The barrel extends forward of the housing. The connecting rod is fixedly connected between the piston and the weight provided in the gunshot of the housing.

The structure of the conventional rear momentum transmission mechanism as described above includes various problems. For example, since the connecting rod is fixedly connected between the piston and the weight, the reduction gear and the piston are often damaged when the weight and the piston are not harmonized in mutual operation. Also, conventional rear momentum transfer mechanisms do not produce a clear metallic sound.

Furthermore, the conventional rear momentum transfer mechanism is provided with a stop plate in the housing to stop the weight as the weight moves forward. As a result, the parts of the toy gun are damaged, and the stop plate restricts the moving strike of the weight.

The present invention and the housing; A barrel extending forward of the housing; A motor provided inside the pistol handle; A reduction gear provided inside the housing and connected to the motor and driven; A bullet loader provided at the front end of the housing; A spring deflection piston provided in the cylinder fixed to the housing; A trigger to drive a motor to trigger a trigger; And a rear momentum transfer mechanism provided partially inside the gunshot and having a relay weight, a front sliding rod provided at the rear of the piston, and a rear reaction spring supported at the rear end of the weight and supported at the inner wall of the gunshot. And a sliding rod is provided in the housing and aimed at providing a toy gun which is spaced apart from the weight.

Toy gun according to the present invention, the housing; A bullet loader provided at the front end of the housing; A piston provided in the cylinder fixed to the housing; A gunshot connected to the housing; And a rear rebound spring partially provided inside the gunshot, with a relay weight, a sliding rod provided at the rear of the piston, and a front end supported by the rear end of the weight and supported by a stop wall formed inside the gunshot. A backward momentum transferring mechanism, wherein the sliding rod is provided between the piston and the relay weight and is spaced apart from the weight, the front end of the sliding rod is in contact with the piston, The rear end of the sliding rod may extend into the gunshot.

In addition, the sliding rod may be a spring biased rod.

The spring deflection rod further includes a receptacle, a helical spring provided in the receptacle, and an extension rod partially provided in the receptacle and having one end in contact with the helical spring, whereby the extension rod is relative to the receptacle. It may be provided to be slidable.

In addition, the receptacle may have an empty space formed therein, and the helical spring may be provided in the empty space of the receptacle.

The present invention has the following advantages.

If the piston and weight are not harmonized in interaction, the spring of the spring deflection rod can absorb the momentum transferred from the weight. Accordingly, it is possible to prevent the piston from being damaged by the rod of the spring deflection rod.

Because spring deflection rods and weights are located apart from each other, rear momentum can be effectively transmitted to the gunshot wound.

When the spring deflecting rod moves backwards (ie backwards) and collides with the weight, a clear metallic sound is produced. A clear metallic sound also occurs when the spring deflecting rod is moving forward (ie moving forward) and colliding with the housing.

The present invention does not require any partitions inside the gunshot, is more durable, has fewer parts, and is simpler in construction. Furthermore, it is possible to secure an increased moving distance of the weight for generating the recoil shock.

Since the spring deflection rod is not configured as an integral part and is installed together with the spring, an improved buffering effect can be obtained.

When the weight moves backward while the toy gun is fired, the spring biasing rod of the present invention can prevent the reduction gear and the piston from being damaged.

1 is a vertical cross-sectional view showing the main part of the piston spring of the rifle type toy gun including the rear momentum transmission mechanism according to the first embodiment of the present invention in an extended state.
FIG. 2 is a vertical sectional view similar to FIG. 1 with the piston spring compressed and the piston moved backwards; FIG.
3 is a vertical cross-sectional view similar to FIG. 1 with the bullet leaving the barrel after triggering;
4 is a vertical sectional view showing a spring deflection rod according to the first embodiment of the present invention.
5 is a vertical sectional view showing the rear momentum transfer mechanism according to the second preferred embodiment of the present invention.
6 is a vertical sectional view showing the rear momentum transfer mechanism according to the third preferred embodiment of the present invention.
7 is a vertical sectional view showing the rear momentum transfer mechanism according to the fourth preferred embodiment of the present invention.
8 is a vertical sectional view showing the rear momentum transfer mechanism according to the fifth preferred embodiment of the present invention.
9 is a vertical sectional view showing the rear momentum transfer mechanism according to the sixth preferred embodiment of the present invention.

1 to 4 show a rifle type toy gun 100 that includes a backward momentum transferring mechanism 6 according to a first preferred embodiment of the present invention.

The toy gun 100 according to the first embodiment of the present invention includes a housing 1, a reduction gear 2, a trigger 3, a front bullet loader 4, a piston 5, and The piston spring 51 is included. The reduction gear 2, the trigger 3, the front bullet loader 4, the piston 1, and the piston spring 51 are housed in the housing 1. The reduction gear 2 is connected to and driven by a motor provided in the inclined pistol handle. The piston 5 is movably provided in the fixed cylinder 52 and biased to the piston spring 51. Trigger (3) is exposed to the outside, when pulled back by the user's fingers to drive the motor to be triggered. The barrel extends forward of the housing 1.

The rear momentum transfer mechanism 6 is provided in part inside the gunshot 12 and behind the piston 5 (ie the housing 1). Thus, the rear momentum transfer mechanism 6 and the piston 5 can interact along the direction I of movement of the piston 5. The rear momentum transfer mechanism 6 has a shear weight 61, a spring biased rod 62 provided at the rear of the piston 5, and a rear end of the weight 61 so as to support the gunshot ( A rear rebound spring 63 is supported on the stop wall 11 in 12). The rear end of the spring deflection rod 62 extends through the hole formed on the inner wall 13 of the housing 1 to the space formed inside the gunshot 12. The spring deflection rod 62 acts as a sliding rod in this embodiment.

That is, in the first embodiment of the present invention, the rear momentum transfer mechanism 6 is provided between the piston 5 and the relay weight 61. The front end of the spring deflection rod 62 is in contact with the piston 5 and the rear end extends into the gunshot 12. The spring deflection rods 62 are spaced apart from the weight 61 and slidably provided in the housing 1. The spring deflection rod 62 is provided in the receptacle 623, the spiral spring 622 provided in the empty space 624 formed inside the receptacle 623, and partially in the empty space 624 of the receptacle 623. An extension rod 621 at which the front end is in contact with the rear end of the spring 622 is included. Thus, the rod 621 may slide relative to the receptacle 623 according to the compression or extension of the spring 622.

The user can fire the bullet (eg, a small plastic bullet) out of the barrel by pulling back the trigger 3 to drive the motor. Subsequently, as the piston 5 is pushed back, the rod 621 of the rear momentum transfer mechanism 6 moves backward. The rod 621 is in contact with the weight 61 and likewise pushes the weight 61 backwards, whereby the recoil spring 63 is compressed by the weight 61. Through the above operation, recoil can be simulated.

5 shows a rear momentum transfer mechanism 6a according to a second preferred embodiment of the present invention. In this embodiment, the rear momentum transfer mechanism 6a includes a first weight 632, a second weight 633, a balance spring 634 interconnecting the first and second weights, and a second weight. A detent 636 provided at the bottom of the rod, an extension rod 631 penetrating the first weight, and a torsion spring 635 disposed on the rod 631 and biased against the first weight 632. do.

6 shows a rear momentum transfer mechanism 6b according to a third preferred embodiment of the present invention. In this embodiment, the rear momentum transfer mechanism 6b includes a receptacle 642, a torsion spring 643 provided inside the receptacle 642, and a spring 643 so that it can slide back and forth with respect to the receptacle 642 without detachment. Elongated rod 641 having an enlarged end deflected by the < RTI ID = 0.0 >), < / RTI >

7 shows a rear momentum transfer mechanism 6c according to a fourth preferred embodiment of the present invention. In this embodiment, the rear momentum transfer mechanism 6b includes a first weight 651, a rod 652 inserted into the first weight 651, and a connecting rod 655 connected to the first weight 651. And a second weight 653 having a groove at an end facing the rod 652, and a helical spring 654 biased at the other end of the second weight 653.

8 shows a rear momentum transfer mechanism 6d according to a fifth preferred embodiment of the present invention. In this embodiment, the rear momentum transfer mechanism 6d faces the groove that is inserted into the first weight 661, the second weight 662, and the second weight 662 and formed at the distal end of the first weight 661. A rod 663, a connecting rod 665 connected to the first weight 661, and a helical spring 664 biased to the second weight 662 far from the first weight 661. .

9 shows a rear momentum transfer mechanism 6e according to a sixth preferred embodiment of the present invention. In the present embodiment, the rear momentum transfer mechanism 6e is spaced apart from the first weight 671, the second weight 673 located at a distance from the first weight 671, and the second weight 673. And a seat 675 positioned at a distance from the first weight 671, one end of which is fixed to the first weight 671, the other end of which is fixed to the sheet 675, and a main part of the second weight 671. A rod 672 penetrating 673, a helical spring 674 deflected between the second weight 673 and the seat 675, and a connecting rod 676 connected to the first weight 671. .

100: toy gun 1: housing
11: Stopping Wall 12: Gunshot
2: reduction gear 3: trigger
4: front bullet loader 5: piston
51: piston spring 52: cylinder
6: rear momentum transmission mechanism 61: relay weight
62: spring deflection rod 63: rear recoil coil

Claims (4)

In the toy gun,
A housing 1;
A bullet loading portion 4 provided at the front end of the housing 1;
A piston (5) provided in the cylinder (52) fixed to the housing (1);
A gunshot (12) connected to the housing (1); And
A shear is partially provided inside the gunshot 12, and a shear is supported on a relay weight 61, a sliding rod 62 provided behind the piston 5, and a rear end of the weight 61. A backward momentum transferring mechanism 6 having a rear rebound spring 63 supported by a stop wall 11 formed inside the gunshot 12,
The sliding rod 62 is provided between the piston 5 and the relay weight 61 and is spaced apart from the weight 61, and the front end of the sliding rod 62 is in contact with the piston 5. The rear end of the sliding rod 62 is a toy gun, characterized in that extending into the inside of the gunshot (12). The method of claim 1,
The sliding rod 62 is a toy gun, characterized in that the spring biased rod (spring biased rod). The method of claim 2,
The spring deflection rod 62 is partially provided in the receptacle 623, the spiral spring 622 provided in the receptacle 623, and the receptacle 623, and one end of the spring biasing rod 62 contacts the spiral spring 622. And an extension rod (621), whereby the extension rod (621) is slidable relative to the receptacle (623). The method of claim 3,
The receptacle (623) is formed inside the empty space 624, the spiral spring 622 is a toy gun, characterized in that provided in the empty space (624) of the receptacle (623).

Images