JP2002267397A - Toy gun having automatic bullet supply mechanism - Google Patents

Abstract

PROBLEM TO BE SOLVED: To move a press section, discharging a bullet in a cartridge chamber, and to supply a bullet to the cartridge chamber by moving a slider section in this order for a series of operations according to a trigger operation. SOLUTION: The toy gun comprises a gas passage opening/closing section 45 for controlling the opening/closing of a gas-leading passage section 44 that is extended from a pressure accumulator 43, a passage connection section 47 for connecting the gas-leading passage section to inner spaces 23 and 24 of a movable member 20, a movable valve section 46 that is arranged outside the movable member, operating gas from the pressure accumulator to on a pressure reception section 61A via the inner space 24 from a state for operating gas from the pressure accumulator to a bullet in the cartridge chamber 4 through the inner space 23 for migrating to a state for generating the retreat in a slider section 60, and pressure sections 6 and 7 that press and move the gas passage opening/closing section in linking with the trigger 1, and generate a flow toward the cartridge chamber via the gas-leading passage section and the inner space 23, and a flow toward the pressure reception section through the gas-leading passage section and the inner space 2 in gas from the pressure accumulator.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The invention described in the claims of the present application utilizes a gas pressure to fire a bullet fired by a gas pressure into a loading chamber provided at the rear end side of a barrel (barrel) portion. The present invention relates to a toy gun provided with an automatic bullet supply mechanism.

[0002]

2. Description of the Related Art In general, a toy gun called an airsoft gun is created so that not only its color and shape but also its apparent movement is similar to that of a real one. Among such toy guns, a toy gun simulating a gun in which a slider provided in relation to a barrel is moved in response to an operation of a trigger is loaded into a loading chamber provided at a rear end side of the barrel. It is known that, in addition to firing bullets by gas pressure, the supply of bullets to the loading chamber is also performed by using gas pressure. For example, 3-38
As shown in Japanese Patent Publication No. 593, a pressure storage cylinder filled with air, a magazine, first and second valves, first and second gas passages, and a bullet supply lever are arranged on a grip portion. A cylinder facing the barrel via a magazine plate forming a landing hole, and a spring guide member moved along with the movement of the slider are provided in a slider provided for the barrel provided with the landing hole. A toy gun has been proposed which uses the pressure of air from a pressure storage cylinder to fire a bullet loaded in a landing hole and supply the bullet to the landing hole.

[0003] In such a toy gun, when the trigger is pulled, the first valve places the first gas passage in an open state, and air from the accumulator cylinder passes through the first gas passage. The piston member accommodated in the cylinder retreats the slider from the initial position by the pressure of the air supplied to the cylinder and supplied to the cylinder. Then, the cylinder to which the air is supplied from such a pressure storage cylinder is exhausted when the slider is retracted by a predetermined amount. On the other hand, with the retraction of the slider from the initial position, the spring guide member is retracted while compressing the spring member, whereby the impact hole in the magazine plate is discharged from the magazine from the initial position facing the muzzle. Is moved to a position opposite to. Then, the bullet discharged from the magazine is loaded into the impact hole by the bullet feed lever which is swung in conjunction with the trigger. Under such circumstances, when the cylinder is placed in the exhaust state and the slider moves forward from the retracted position and reaches the initial position, the spring member is returned to the original position by returning the spring guide member to the original position. The landing hole loaded with the bullet is placed at the initial position.

[0004] When the impact hole loaded with the bullet is placed at the initial position, the second valve opens the second gas passage by the hammer (striking iron) that rotates in conjunction with the trigger. In this state, the air from the pressure storage cylinder is supplied to the impact hole through the second gas passage, and the bullet loaded in the impact hole moves forward from the retracted position by the pressure of the air supplied to the impact hole. Fired when the slider reaches the initial position.

[0005]

As described above, a cylinder forming a pressure chamber to which air from a pressure accumulating cylinder is supplied is disposed in a slider movably provided with respect to a barrel. The supply of bullets to the impact holes is performed by the sliders that are moved by the supply and discharge of air to the pressure chambers performed in response to the movement of the bullets supplied to the impact holes by the rotation of the hammer in conjunction with the operation on the trigger. In a toy gun that has been conventionally proposed as a toy gun in which firing is performed using air from a pressure storage cylinder, automatic firing of bullets is enabled.

In such a toy gun imitating a gun in which the slider provided in connection with the barrel is moved and the hammer is rotated in response to the operation on the trigger, the operation on the trigger is Accordingly, first, the rotation of the hammer is performed, the bullet supplied to the impact hole is fired in accordance with the rotation of the hammer, and the movement of the slider provided in connection with the barrel is performed together therewith. Is performed, and the supply of the bullet to the impact hole is desired to be performed. And, in the toy gun in which the slider provided in connection with the barrel is moved following the firing of the bullet in the impact hole, the situation in which the movement of the slider affects the barrel is avoided. This has the advantage of preventing any deviation in the direction of the fired bullet.

However, as in the above-mentioned conventionally proposed toy gun, the rotation of the hammer in conjunction with the operation on the trigger follows the supply of air to the pressure chamber in the slider provided in connection with the barrel. Is performed, the rotation of the hammer is performed in accordance with the desired operation, that is, the operation of the trigger, the bullet is fired in the impact hole in accordance with the rotation of the hammer, and the barrel is rotated. However, there is an inconvenience that the slider cannot be operated in the order in which the slider provided in connection with the above is retracted and then advanced forward and the bullet is supplied to the impact hole.

In view of the above, the invention described in the claims of the present application provides a bullet chamber in which a bullet fired by gas pressure is provided at the rear end side of a barrel section, and a barrel section is provided in the barrel section. In connection therewith, a slider portion is provided so as to be movable, and further, when an operation is performed on the trigger portion under a mechanism for supplying a bullet to the loading chamber using gas pressure in the slider portion, the operation is performed when the trigger portion is operated. A series of operations started in response to the movement of the pressing portion such as the hammer portion is performed first, the bullet in the loading chamber is fired in accordance with the movement of the pressing portion, and the slider portion is retracted and thereafter. Advances are made to supply bullets to the loading chamber,
The present invention provides a toy gun with an automatic bullet supply mechanism that is executed according to the following order.

[0009]

A toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 in the claims of the present application is a bullet that is transferred into a barrel portion. And a slider that can move in the direction along the barrel, and that is prepared for automatic supply of bullets from the magazine to the loading chamber when retracted. A pressure receiving portion provided in a portion behind the barrel portion of the portion and moving integrally with the slider portion, and an internal space formed and disposed behind the loading chamber, and moved in a direction along the moving direction of the slider portion A movable member that is enabled, a pressure accumulation chamber in which a gas outlet passage extending toward the movable member is connected and arranged, a gas passage opening / closing unit that controls opening and closing of the gas outlet passage, and an outside that is arranged outside the movable member. , During the period in which the gas outlet passage is connected to the internal space of the movable member and the gas outlet opening is opened by the gas passage opening / closing portion, gas from the pressure accumulating chamber through the gas outlet passage is transferred to the internal space of the movable member. In the first state, the gas from the pressure accumulating chamber through the gas lead-out passage portion acts on the pressure receiving portion through the internal space of the movable member, and moves the pressure receiving portion rearward with the slider portion from the first state in which the pressure receiving portion acts on the bullet in the loading chamber. A movable valve portion that shifts to a second state;
A pressing portion that moves in conjunction with a trigger portion that is operated to fire a bullet in the loading chamber, and presses and moves the gas passage opening / closing portion along with the movement to make the gas outlet passage portion open. Be composed.

[0010] In particular, in the toy gun with an automatic bullet supply mechanism according to the invention described in claim 4 of the present application, the pressing portion presses and moves to the gas passage opening / closing portion in conjunction with the operation of the trigger portion. And the pressing movement of the gas passage opening / closing portion is released in conjunction with the retraction of the slider portion.

In the toy gun with the automatic bullet supply mechanism according to any one of the first to fifth aspects of the present invention having the structure described above, the gas outlet passage is provided. The gas from the pressure accumulating chamber through the portion is in a state where it can act on the bullet in the loading chamber through the internal space of the movable member, and the gas passage opening / closing portion is in a position to close the gas outlet passage portion. When the trigger section is operated, the pressing section first moves in accordance with the operation, and the movement of the pressing section causes the gas passage opening / closing section to press and move to a position where the gas outlet passage section is opened. Sedated,
Thereby, the movable valve portion arranged outside the movable member is placed in the first state in which the gas from the accumulator through the gas outlet passage portion acts on the bullet in the loading chamber through the internal space of the movable member, Gas from the accumulator is used to fire bullets in the loading chamber.

Thereafter, the movable valve portion causes the gas passing through the gas outlet passage from the position where the movable valve portion is placed in the first state to the pressure receiving portion through the internal space of the movable member due to a change in gas pressure due to the firing of the bullet in the loading chamber. Move to the second state,
Gas from the accumulator is used for retreating the slider portion. Due to the retreat of the slider portion, the pressing portion moves in a direction away from the gas passage opening / closing portion, and accordingly, the gas passage opening / closing portion moves to a position where the gas outlet passage portion is closed, and the gas from the pressure accumulating chamber is moved. Is stopped, and the movable member retreats backward from one end of the magazine portion. Then, when the slider portion reaches the last retreat position and starts to move forward, the movable member also moves forward with the movement of the slider portion, and thereby,
A bullet is supplied from one end of the magazine portion to the loading chamber, and the movable member is set in a state where gas from the accumulator through the gas outlet passage can act on the bullet in the loading chamber through the internal space of the movable member. Will be returned.

As described above, the toy gun with an automatic bullet supply mechanism according to any one of claims 1 to 5 in the claims of the present application, when the trigger portion is operated, causes A series of actions started in response to an operation
First, the movement of the pressing portion is performed, and according to the movement of the pressing portion, by the action of the movable valve portion arranged outside the movable member,
The firing of the bullet in the loading chamber is performed, and further, the firing of the bullet is followed by the retreat of the slider portion and the subsequent advancement,
It is assumed that the bullets are supplied to the loading chamber in this order. This prevents a situation in which the barrel portion is affected by the movement of the slider portion when a bullet in the loading chamber is fired, thereby preventing the shot from being out of order. Moreover,
The movable valve portion is disposed outside the movable member, so that the configuration of the movable member is simplified.

[0014]

FIG. 2 shows an example of a toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 of the present application.

In the example shown in FIG.
A barrel portion 2 including an outer barrel 2U and an inner barrel 2I, a loading chamber 4 provided at a rear end portion of the barrel portion 2, first and second hammers 6 and 7 forming a pressing portion, and a grip portion 8 And a case 40 detachably housed in the grip portion 8, which can move in the direction along the barrel portion 2 in relation to the barrel portion 2. Slider portion 60 is disposed. The loading chamber 4 is formed by an annular member 4A made of an elastic friction material such as a rubber material.
It is arranged inside the rear end portion of the inner barrel 2I.

A movable bar 11 extending rearward from the trigger 1 is disposed on the grip portion 8.
It can move in the direction along the barrel portion 2.
When the trigger 1 is pulled, as shown in FIG. 2, the trigger 1 is moved rearward from an operation start position located forward of the contact portion 12 provided on the toy gun body 10, and accordingly, The movable bar 11 is also moved backward. A movable contact member 16 is in contact with the rear end of the movable bar 11, and the movable contact member 16 is rotatably supported by the toy gun body 10 via a shaft 14. 15 selectively.

The slider portion 60 is fitted to a portion of the toy gun body 10 where the barrel portion 2 is provided, and includes a first portion 60A forming a front portion thereof and a first portion 60A.
And a second portion 60 </ b> B which is integrally formed and forms a rear side portion located behind the barrel portion 2. Then, when the trigger 1 is at the operation start position, the first portion 60A is located at a position where its front end is close to the front end of the toy gun main body 10, and the second portion 60B Covers a middle portion of the toy gun body 10 including a portion between the barrel portion 2 and the grip portion 8 as shown in FIG.

A first portion 60A of the slider portion 60
, A coil spring 17 is engaged.
The coil spring 17 is disposed in front of the trigger 1 in the toy gun main body 10, and is wound around a guide member 18 extending along the barrel portion 2.
In the first portion 60A. Thus, the slider portion 60 is biased toward the front side of the toy gun body 10 by the coil spring 17 under the condition that the entire slider portion 60 can move in the direction along the barrel portion 2.

The second part 60B of the slider part 60
Is provided with a bottomed cylindrical portion 61. The bottom of the bottomed cylindrical portion 61 forms a pressure receiving portion 61A.

Further, the movable member 20 is arranged inside the second portion 60B of the slider portion 60. The movable member 20 is located behind the loading chamber 4 and is movable in a direction along the moving direction of the slider section 60. The movable member 20 includes a rear portion of the bottomed cylindrical portion 61 inserted into the cylindrical portion 61B,
And a middle portion between the rear portion and the front portion.
An annular seal member 21 formed of an elastic member is mounted on the rear side portion. When the rear side portion of the movable member 20 is inserted into the tubular portion 61B of the bottomed tubular portion 61, the annular seal member 21 comes into contact with the inner wall surface of the tubular portion 61B and the inside of the tubular portion 61B. Wall and movable member 20
Between the outer peripheral surface of the rear side portion and the outer peripheral surface.

Both ends of the coil spring 22 are attached to the movable member 20 and the cylindrical portion 61B of the bottomed cylindrical portion 61, respectively. The bottom of the portion 61 is urged toward the pressure receiving portion 61A formed. When the slider portion 60 is in the reference position, the movable member 20 has a front portion engaged with the annular member 4A forming the bullet chamber 4 and a rear portion provided in the cylindrical portion 61 with the bottom. It is located at a position where it is inserted into the shape 61B.

In such a movable member 20, for example, a first internal space 23 and a second internal space 24 are formed separately from each other. The first internal space 23 forms a bent gas passage, and one end of the first internal space 23 is a movable member 2.
The front end of the movable member 20 opens toward the loading chamber 4, and the other end opens downward in the middle part of the movable member 20. The second internal space 24 also forms a bent gas passage, and one end of the second internal space 24 is a movable member 2.
The rear end of the movable member 20 opens toward the pressure receiving portion 61 </ b> A, and the other end opens downward at an intermediate portion of the movable member 20. Therefore, when the slider portion 60 is at the reference position, one end of the first internal space 23 is connected to the loading chamber 4, and one end of the second internal space 24 is opposed to the pressure receiving portion 61A. Will be done.

The first hammer 6, which forms a pressing portion together with the second hammer 7, includes an upper portion where the bottomed cylindrical portion 61 selectively contacts, and a lower portion provided with a plurality of engaging steps. And a lower portion is attached to the rear end of the toy gun body 10 via a shaft 25, and the shaft 25 is supported by a shaft. Is possible. Further, a lower portion of the first hammer 6 has, at the other end thereof, a hammer strut 27 having one end for engaging via a cap 26A with a coil spring 26 disposed in the lower portion of the grip portion 8. Are attached via pins 28, and the first
The hammer 6 receives the urging force of the coil spring 26 through the cap 26A and the hammer strut 27, and moves the upper portion toward the rear end of the slider portion 60 as indicated by an arrow a in FIG.
Direction). Such a first hammer 6
Under the initial state (the state shown in FIG. 2) in which the case 40 is mounted on the grip part 8, the locking part 7A provided on the second hammer 7 on the lower side and the rotation The position of the lever 15 is fixed in a state in which each of the distal end portions is engaged.

The second hammer 7 has a locking portion 7A at the upper end.
Is formed, and the lower end is attached to the toy gun main body 10 via a shaft 29, and can be rotated around the shaft 29 as a support shaft. As shown in FIG. 3, the biasing force of the toggle spring 30 mounted on the shaft 29 acts on the second hammer 7, and a lock member 31 and a coil spring 32 are disposed on the upper part. And the shaft 1 that penetrates the rotating lever 15
A recess 7 </ b> B is formed in a portion opposing the portion 4.

The lock member 31 is engaged with the upper part of the second hammer 7 as a movable member, as shown in FIG.
The second hammer 7 is provided so as to protrude from an upper portion thereof, and is entirely urged by the coil spring 32 in a direction toward the bottom surface of the slider portion 60. A part of the lock member 31 forms a protruding portion 31 </ b> A protruding toward the bottom surface of the slider portion 60.

The locking member 31 is selectively brought into contact with an engaging portion 34 formed by a step provided on the toy gun main body 10.
And in the state of mutual engagement with the engagement portion 34, it serves to regulate the position of the second hammer 7. Further, the protruding portion 31A of the lock member 31
Is, when the slider section 60 takes the reference position,
The slider unit 60 is located at a position separated rearward from a protrusion 60 </ b> C provided on the bottom surface of the slider unit 60. The protruding portion 31A provided on the lock member 31 and the protruding portion 60C provided on the slider portion 60 are formed with inclined surfaces facing each other. When the slider portion 60 retreats in the direction along the barrel portion 2 in the engaged state, the protrusion portion 60C
The inclined surface portion is brought into contact with the inclined surface portion of the projecting portion 31A, thereby passing through the position of the projecting portion 31A in a state where the projecting portion 31A is pressed down. As a result, the entire lock member 31 moves toward the second hammer 7 side. When pushed in, the mutual engagement between the lock member 31 and the engagement portion 34 is released.

Toggle spring 30 mounted on shaft 29
Is provided on the second hammer 7 with a locking portion 7A provided on the second hammer 7.
Is applied to the first hammer 6 in the direction of contacting the lower portion. In the initial state in which the case 40 has been mounted on the grip portion 8, the second hammer 7 has the lock member 31 disposed on the upper portion thereof engaged with the engaging portion 34 provided on the toy gun body 10. By being in the mutual engagement state, the position is fixed in a state in which the locking portion 7 </ b> A abuts and engages with the lower portion of the first hammer 6.

A rotary arm 36 is attached to the second hammer 7 via a shaft 35. Rotating arm 36
Is urged in a counterclockwise direction in FIG. 3 by a toggle spring 37 mounted on the shaft 35 as shown in FIG.

As shown in FIG. 3, the rotating lever 15 attached to the toy gun body 10 via the shaft 14
Of the leaf spring member 38 is engaged with the engagement piece 38A of the leaf spring member 38. The engagement piece 38A of the leaf spring member 38 is
5, a biasing force is applied in a direction in which the upper end portion thereof comes into contact with the lower portion of the first hammer 6. further,
The leaf spring member 38, as shown in FIG.
1 has an engagement piece 38B that applies a biasing force to the movable contact member 16 that contacts the rear end.

As shown in FIG. 4, the movable abutting member 16 has an engagement piece 38B of the leaf spring member 38 engaged with the lower inclined surface 16A and a lower inclined surface 16A.
Projection 16B projecting in the width direction of the toy gun body 10 from A
Are in contact with the rear end of the movable bar 11 through the space around the lower portion 15A of the rotating lever 15. A through hole 39 through which the shaft 14 that penetrates the rotation lever 15 is inserted is provided at an intermediate portion of the movable contact member 16, and the movable contact member 16 has a through hole 39.
Can be moved downward and rearward against the urging force of the engagement piece 38B of the leaf spring member 38 within the range regulated by the through hole 39 with respect to the shaft 14. Supported with condition. And
When the slider portion 60 is at the reference position, the movable contact member 16 is provided with the upper end portion 16C on the bottom portion of the slider portion 60 by receiving the urging force of the engagement piece portion 38B of the leaf spring member 38. The upper position is set to be in contact with the recess 60D.

Although not shown, the leaf spring member 38 has an engagement piece 38A for applying a biasing force to the rotating lever 15 and an engagement piece for applying a biasing force to the movable contact member 16. 38B, and has an engagement piece that comes into contact with the toy gun body 10, and lower ends of each of the engagement pieces 38A and 38B and the engagement piece between them are: They are interconnected and attached to the toy gun body 10.

On the other hand, the case 40 is inserted into the grip 8 through an opening provided at the lower end of the grip 8,
The bottom portion 40A is brought into contact with and engaged with the lower end of the grip portion 8, so that positioning within the grip portion 8 is performed. The case 40 includes a plurality of loaded bullets B.
A coil spring 42 for urging B toward the uppermost end 41A.
, A pressure storage chamber 43 filled with liquefied gas, a gas outlet passage 44 extending at one end connected to the pressure storage chamber 43, a gas passage opening / closing portion 45 for opening and closing the gas outlet passage 44, Further, a passage connecting portion 47 provided with the movable valve portion 46 is provided. The passage connecting portion 47 in which the gas outlet passage portion 44, the gas passage opening / closing portion 45, and the movable valve portion 46 are arranged is collectively arranged above the pressure accumulating chamber 43 in the case 40.

A movable valve portion 46 is provided inside the passage connecting portion 47.
And a first passage portion 49A and a second passage portion 49B which are separated from each other and have one end connected to the valve accommodation space 48 and extending therefrom. The other end of the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is connected to the valve housing space 48.
And a second passage portion 49B extending from the first passage portion 49A and the second passage portion 49B.
The other end of each of the first internal space 23 and the second internal space 2 of the movable member 20 disposed inside the slider portion 60 with the other end thereof being at the reference position.
4 respectively.

Therefore, the passage connecting portion 47 is
When the slider portion 60 is located at the reference position, the gas outlet passage portion 44 extending toward the movable member 20 according to the position of the movable member 20 corresponding to the reference position of the slider portion 60 is provided. The first internal space 23 and the second internal space 24 of the movable member 20 are connected to each other through the first passage 49A and the second passage 49B. In such a case, the other end of the first passage portion 49A in the passage connection portion 47 is connected to a lower opening end formed by the other end of the first internal space 23 in the intermediate portion of the movable member 20. The second in the passage connecting portion 47
The other end of the passage portion 49B is connected to a lower open end formed by the other end of the second internal space 24 in the intermediate portion of the movable member 20.

The movable member 2 in the passage connecting portion 47
The part that abuts on the middle part of the packing member 4
7A, and this packing member 47
Most of the first passage 49A and the second passage 49B are formed in A. By using such a packing member 47A, the other end of the first passage portion 49A in the passage connecting portion 47 is connected to the lower opening end of the first internal space 23 at an intermediate portion of the movable member 20, and The connection of the other end of the second passage portion 49B of the passage connection portion 47 to the lower opening end of the second internal space 24 at the intermediate portion of the movable member 20 is reliably performed in a state where gas leakage is prevented. .

The movable valve portion 46 accommodated in the valve accommodating space 48 in the passage connecting portion 47 is provided with a large diameter portion 46B to which an annular seal member 46A is attached and a shaft portion 46C extending from the large diameter portion 46B. The shaft portion 46C
Is inserted into the bottomed guide hole 47B provided in the passage connecting portion 47, and the end of the shaft portion 46C is closed by the coil spring 50 engaged with the large diameter portion 46B.
B is urged in the direction of contact with the bottom of B. As a result, the movable valve portion 46, in the normal state, in the valve housing space 48, as shown in FIGS. 2 to 4, the first passage portion 49A and the second passage portion 49A formed inside the passage connection portion 47. The position is regulated such that both of the passage portions 49B are opened. The movable valve portion 46 whose position is regulated in this manner is urged by the coil spring 50 to move the gas outlet passage portion 4.
In this state, the gas from the pressure accumulating chamber 43 through the fourth member 4 can act on the bullets in the loading chamber 4 through the first internal space 23 in the movable member 20.

The movable valve portion 46 housed in the valve housing space 48 as described above, under a predetermined state described later,
It moves in a direction to compress the coil spring 50 against the urging force of the coil spring 50,
An operation of blocking the first passage portion 49A formed inside the passage connecting portion 47 by B is performed. The second passage portion 49B formed inside the passage connecting portion 47 is always open regardless of the movement of the movable valve portion 46. First
Movable valve portion 46 that shuts off the passage portion 49A
Is placed in a state where the flow of gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 toward the loading chamber 4 through the first internal space 23 of the movable member 20 is prevented.

The gas passage opening / closing portion 45 for the gas outlet passage portion 44 is movably disposed in the gas outlet passage portion 44, and controls opening and closing of the gas outlet passage portion 44 in accordance with its position. The gas passage opening / closing section 45 includes an annular sealing member 45A.
Are fitted and the rod 51 is provided integrally. In a normal state, the gas passage opening / closing portion 45 exerts a biasing force of a coil spring 52 mounted on a rear end portion of a rod 51 protruding outside the gas outlet passage portion 44 as shown in FIGS. As a result, the position for closing the gas outlet passage portion 44 is taken.

As described above, the gas outlet passage portion 44 and the passage connecting portion 47 are formed above the pressure accumulating chamber 43 in the case 40 arranged in the grip portion 8, and the gas outlet passage portion 44 has the gas outlet passage portion 44. While the passage opening / closing part 45 is arranged,
The movable valve portion 46 is provided in the valve housing space 48 of the passage connecting portion 47.
Is provided so that the gas passage from the pressure accumulating chamber 43 to the first internal space 23 and the second internal space 24 of the movable member 20 under the condition that the slider portion 60 is at the reference position can be controlled as required. Is performed, and the entire length thereof is relatively short.

As shown in FIG. 2 to FIG.
0 is at the reference position and the movable member 20 is
When the case 40 is mounted in the grip portion 8 under the position corresponding to the reference position of
Is disposed in the vicinity of the loading chamber 4 and is closed by an intermediate portion of the movable member 20. Thereby, the plurality of bullets BB loaded in the magazine 41 are pressed in a direction against the urging force of the coil spring 42.

At this time, one end of the first internal space 23 of the movable member 20 is connected to the loading chamber 4, and
One end of the second internal space 24 is close to and opposes the pressure receiving portion 61A. Under such circumstances, the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is connected to the valve housing space 48 of the passage connecting portion 47. First passage portion 49A and second passage portion 4
9B, the movable member 20 is connected to the other ends of the first internal space 23 and the second internal space 24, respectively. Further, a rotating arm 36 attached to the second hammer 7 is provided in a gas passage opening / closing portion 45 which takes a position for closing the gas outlet passage portion 44 by the biasing force of a toggle spring 37 (FIG. 3). Rod 5
The rear end portion 1 is brought into contact with the rear end portion from above, and the position is fixed.

In an example of the toy gun with an automatic bullet supply mechanism according to the invention according to any one of claims 1 to 5 in the claims of the present application configured as described above, for example, a case After the slider 40 is mounted in the grip portion 8 and positioned, the slider portion 60 located at the reference position is once retracted from the reference position with the movable member 20 by manual operation, and then the slider portion 60 is moved from the manual operation. It is released and is advanced with the movable member 20 by the urging force of the coil spring 17, and is returned to the reference position again.

At this time, as shown in FIG. 5, with the retraction of the slider portion 60, the uppermost end portion 41A of the magazine 41
Of the magazine 41 is retracted by retreating the movable member 20 which has been closed by its intermediate portion.
Is opened. Thereby, the coil spring 42
Of the bullets BB filled in the magazine 41, the one at the uppermost position is pushed up into the uppermost end 41A and is held at the uppermost end 41A.

Further, the first hammer 6 is provided with the slider 6
0 is pressed by the bottomed cylindrical portion 61 which retreats with the retraction, whereby the position shown in FIG. 2 is opposed to the a direction (the b direction) against the urging force of the coil spring 26 from the position shown in FIG. ) Is rotated by a predetermined amount. Accordingly, the rotating lever 15 is moved to the engagement piece 38 of the leaf spring member 38.
A is rotated in a direction according to the urging force of A.

Further, the retraction of the slider portion 60 causes the lock member 31 disposed on the second hammer 7 to engage with the engagement portion 34.
Is released from the mutual engagement state. Accordingly, when the first hammer 6 is moved in the direction b, the second hammer 7 also moves with the toggle spring 30.
(FIG. 3). As shown in FIG. 5, the first hammer 6 moved in the direction "b" is engaged with the tip of the rotating lever 15 at a lower portion thereof, thereby rotating the first hammer 6 with the first hammer 6. The moving lever 15 is placed in the mutual position regulation state. Further, the second hammer 7 that moves with the movement of the first hammer 6 in the direction b is provided with a recess 7B provided in the second hammer 7.
Are brought into contact with the shaft 14 and the position is fixed.
With the movement of the second hammer 7, the turning arm 36 attached to the second hammer 7 is turned by the urging force of the toggle spring 37 (FIG. 3), and The rear end of the provided rod 51 is brought into contact with the rear end thereof, and the position is fixed.

Then, once the retracted slider portion 60 moves forward from the retracted position, the movable member 20
The movable member 20 moves forward, and its front end is inserted into the uppermost end 41A of the magazine 41, and the bullet BB held there is inserted into the tapered portion 1 provided on the toy gun body 10.
It is conveyed to the loading chamber 4 along 0A. At the same time, the movable member 20 closes the uppermost end portion 41A of the magazine 41 again by the intermediate portion, and the front portion thereof is closed by the annular member 4A.
And the position is fixed. As a result, as shown in FIG.
A bullet BB is loaded in the loading chamber 4.

When the slider portion 60, which has been advanced to supply the bullet BB to the loading chamber 4, returns to the reference position, the first internal space 23 of the movable member 20 is returned again.
Is connected to the loading chamber 4 and the second internal space 2
The gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is connected to the valve housing space 48 in the passage connecting portion 47 and the first passage portion 4 under the condition that one end of the pressure receiving portion 4 is close to the pressure receiving portion 61A.
9A and the second passage 49B, the movable member 20
Are connected to the other ends of the first internal space 23 and the second internal space 24, respectively.

As described above, when the trigger 1 is pulled while the bullet BB is loaded in the loading chamber 4 as shown in FIG. 1, the movable bar 11 retreats accordingly. As a result, as shown in FIG. 6, the movable contact member 16 which takes the upper position and abuts on the rear end of the movable bar 11 performs the movement of pressing the lower portion 15A of the rotating lever 15 backward. Then, the rotation lever 15 is rotated against the urging force of the engagement piece 38A of the leaf spring member 38. As a result, the mutual engagement between the distal end portion of the rotating lever 15 and the lower portion of the first hammer 6 is released.

The first hammer 6 released from the state in which the position is regulated by the rotating lever 15 has a state in which the locking portion 7A of the second hammer 7 is in contact with the lower side thereof, and It moves in the direction a according to the urging force. Then, the first hammer 6 that moves in the direction a.
Moves the second hammer 7 in the direction a via the locking portion 7A. As a result, the rotating arm 36 attached to the second hammer 7 attaches the rod 51 provided on the gas passage opening / closing section 45 to the trigger at about the same time as the time when the trigger 1 contacts the contact section 12. The compressed coil spring 52 is pressed while being compressed.

When the rod 51 is pressed, the gas passage opening / closing portion 45 is moved from the position where the gas outlet passage portion 44 is closed to the position where the gas outlet passage portion 44 is opened, and the gas passage opening / closing portion 44 is pressed. The lead-out passage portion 44 is in an open state. Due to the movement of the second hammer 7 in such a case,
The lock member 31 is located at a position where it engages with the engaging portion 34 provided on the toy gun body 10. Thereby, the movement of the second hammer 7 in the direction according to the biasing force of the toggle spring 30 shown in FIG.
5 to maintain the position where the gas outlet passage portion 44 is opened. In addition, the second hammer 7 whose movement in the direction following the biasing force of the toggle spring 30 is restricted as described above causes the first hammer 6 to move to a position where the position restriction by the rotating lever 15 is released. It is fixed.

The gas from the pressure accumulating chamber 43 through the opened gas outlet passage portion 44 immediately flows into the passage connecting portion 47. At this time, the movable valve portion 46 accommodated in the valve accommodating space 48 in the passage connecting portion 47 is urged by the coil spring 50 so that the gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 becomes the first in the movable member 20. The first internal space 23 is capable of acting on a bullet in the loading chamber 4 through the internal space 23, and both the first passage 49A and the second passage 49B in the passage connecting portion 47 are open. The gas flowing into the passage connecting portion 47 flows into the valve housing space 48 in the passage connecting portion 47 and the first passage portion 49.
A and the second passage portion 49B, and further from the first passage portion 49A, through the first internal space 23 of the movable member 20, to the bullet BB in the loading chamber 4 and the second From the passage part 49B, it reaches the pressure receiving part 61A through the second internal space 24 of the movable member 20.

At this time, the gas pressure required for the bullet BB in the loading chamber 4 to be pushed forward from the loading chamber 4 into the inner barrel 2I depends on the pressure-receiving portion 61A having the bottomed cylindrical portion 61 and the slider portion 60. Is smaller than the gas pressure required to be moved rearward. Therefore, the pressure receiving section 6
Due to the gas pressure acting on the bullet BB loaded in the loading chamber 4, the pressure receiving portion 61A does not move backward with the bottomed cylindrical portion 61 and the slider portion 60 due to the gas pressure acting on 1A. The bullet BB in the loading chamber 4 is shown in FIG.
As shown by a dashed line in FIG. 3, the gas that is pushed forward from the loading chamber 4 into the inner barrel 2I and flows from the first internal space 23 in the movable member 20 into the inner barrel 2I causes the gas in the inner barrel 2I. Then, the vehicle is accelerated and moves forward, and as shown in FIG. 7, is projected from the tip of the inner barrel 2I and fired. In this manner, the gas from the pressure accumulating chamber 43 is used for firing the bullet in the loading chamber 4.

When the bullet BB protrudes from the tip of the inner barrel 2I, the first internal space 23 of the movable member 20
The gas flowing into the inner barrel 2I from is released into the atmosphere from the tip of the inner barrel 2I,
The gas pressure in the inner barrel 2I, in the first internal space 23 of the movable member 20, and further in the first passage portion 49A of the passage connecting portion 47 connected to the first internal space 23 rapidly decreases. . The sudden decrease in the gas pressure in the first passage portion 49A in the passage connection portion 47 is caused by the movable valve portion 4 disposed in the valve housing space 48 in the passage connection portion 47.
6 acts as a negative pressure that draws it into the first passage portion 49A side, and the movable valve portion 46 is moved toward the first passage portion 49A against the urging force of the coil spring 50, and The large-diameter portion 46B of the valve portion 46 abuts one end of the first passage portion 49A, thereby closing the first passage portion 49A. Thereby, the flow of the gas flowing through the gas outlet passage portion 44 toward the loading chamber 4 through the first passage portion 49A in the passage connection portion 47 and the first internal space 23 in the movable member 20 is caused by the movable valve portion 46. Will be blocked.

As described above, the movable valve portion 46 allows the first chamber portion 49A of the gas passage connecting portion 47 through the gas outlet passage portion 44 and the first internal space 23 of the movable member 20 to enter the loading chamber 4 through the first internal space 23. When the forward flow is blocked, the gas that has flowed from the accumulator chamber 43 into the valve housing space 48 of the passage connecting portion 47 through the gas outlet passage portion 44 is
The second passage portion 49B of the passage connection portion 47 does not flow into the first passage portion 49A of the passage connection portion 47.
And, it goes to the pressure receiving portion 61A through the second internal space 24 of the movable member 20. Therefore, at this time,
The movable valve portion 46 is connected to the pressure accumulating chamber 4 through the gas outlet passage portion 44.
3 from the first internal space 2 in the movable member 20.
3 through the first internal space 23 of the movable member 20 of the gas from the pressure accumulating chamber 43 through the gas lead-out passage portion 44 from the state of acting on the bullet in the loading chamber 4.
Is stopped, and a transition is made to a state in which the gas flowing through the gas outlet passage portion 44 is directed to the pressure receiving portion 61A through the second internal space 24 of the movable member 20.

The gas flowing into the valve accommodating space 48 does not flow into the first passage portion 49A in the passage connection portion 47, but the second passage portion 49B in the passage connection portion 47 and the second internal portion in the movable member 20. By going to the pressure receiving portion 61A through the space 24, the gas pressure acting on the pressure receiving portion 61A sharply increases. As a result, as shown in FIG. 8, the increased gas pressure causes the pressure receiving portion 61 </ b> A to be formed in the bottomed tubular portion 61 between the movable member 20 and the end surface of the rear side portion of the movable member 20. The slider portion 60 is quickly moved backward while increasing the force, and accordingly, the slider portion 60 is quickly retracted against the urging force of the coil spring 17. That is, the gas from the pressure accumulating chamber 43 is used for retreating the slider section 60. At this time, the first hammer 6 is moved in the b direction against the urging force of the coil spring 26 by the rear end portion of the bottomed cylindrical portion 61 that retreats.

Thereafter, as shown in FIG. 9, through the second passage portion 49B in the passage connecting portion 47 and the second internal space 24 in the movable member 20, the pressure receiving portion 61A and the movable member The retreating of the pressure receiving portion 61A with the slider portion 60 is continued by the gas flowing into the variable volume pressure chamber formed between the pressure receiving portion 20 and the end surface portion of the rear side portion. Thereby, the movable contact member 16 contacting the rear end of the movable bar 11 is released from the state where the position is regulated by the concave portion 60D provided on the bottom surface of the slider portion 60 as shown in FIG. At the same time, the slider portion 60 which is retracted is pressed in a direction against the urging force of the engagement piece portion 38B of the leaf spring member 38, and assumes a lower position. As a result, the movable contact member 16 and the rotating lever 1
5 is released from the mutual contact state with the lower portion 15A, and the rotating lever 15 rotates in a direction according to the urging force of the engaging piece 38A of the leaf spring member 38. Further, the lock member 31 disposed on the second hammer 7 is
With the retreat, the slider portion 60 as shown in FIG.
Is pressed downward against the urging force of the coil spring 32 by a projection 60C provided on the bottom surface of the toy gun main body 10 to be released from the mutual engagement state with the engagement portion 34 provided on the toy gun body 10, As a result, the second hammer 7 is released from the position-restricted state, and the toggle spring 30 is released.
(FIG. 3).

The turning lever 15 which turns by the urging force of the engaging piece 38A of the leaf spring member 38 engages with the lower part of the first hammer 6, whereby the turning lever 15 and the first Hammer 6 is placed in the mutual position regulation state. In addition, the second movable by the urging force of the toggle spring 30
Of the hammer 7, the concave portion 7B of which is in contact with the shaft 14, is fixed in position.

By the movement of the second hammer 7 according to the biasing force of the toggle spring 30 at this time, the position of the gas passage opening / closing portion 45 is fixed by the rotating arm 36 abutting on the rear end of the rod 51 provided thereon. You are released from the state where was done. The gas passage opening / closing portion 45 released from the fixed position by the rotation arm 36 closes the gas outlet passage portion 44 by the gas pressure acting on the gas passage opening / closing portion 45 and the urging force of the coil spring 52 as shown in FIG. Take the position.

Therefore, under such circumstances, the passage connecting portion 4
The movable valve portion 46 arranged in the valve housing space 48 in FIG.
When the slider portion 60 is at the reference position, the movable member 20 takes a position corresponding to the reference position of the slider portion 60, and the gas outlet passage portion 44 extending from the accumulator 43 is connected to the passage connecting portion 47.
In the valve housing space 48 and the first and second passages 49A
And 49B, while being connected to the first and second internal spaces 23 and 24 of the movable member 20, and during the period in which the gas passage opening / closing portion 45 opens the gas outlet passage portion 44, 1 passage 49A
Is supplied to the loading chamber 4 through the valve housing space 48 and the first passage portion 49A in the passage connecting portion 47, and further through the first internal space 23 of the movable member 20 with the gas flowing through the gas outlet passage portion 44 in the open state. The first passage portion 49A in the passage connecting portion 47 is set to the first passage portion 49A in the passage connecting portion 47 by closing the first passage portion 49A in the passage connecting portion 47 from the first state acting on the bullet BB.
A and the first internal space 23 of the movable member 20 prevent the flow toward the loading chamber 4, and allow the gas flowing through the gas outlet passage portion 44 to pass through the valve housing space 48 and the second passage portion of the passage connecting portion 47. 49B, and further to a second state in which the slider is directed to the pressure receiving portion 61A through the second internal space 24 of the movable member 20, and the pressure receiving portion 61A is moved by the gas pressure under the second state. It will be moved backward accordingly.

As a result of the operation of the movable valve portion 46, after the bullet BB is fired from the inner barrel 2I, the retreat of the slider portion 60 is started by the gas pressure acting on the pressure receiving portion 61A which is rapidly increased. So
When the bullet BB is fired, the slider 60 is prevented from affecting the barrel 2 due to the movement thereof. Therefore, it is possible to prevent the bullet BB fired from the inner barrel 2I from being out of order.

As shown in FIG. 9, the gas passage opening / closing section 4
5, the gas outlet passage portion 44 is closed, whereby the gas flows from the accumulator 43 through the gas outlet passage portion 44 into the valve housing space 48 of the passage connecting portion 47,
Further, the flow of gas from the valve housing space 48 toward the pressure receiving portion 61A through the second passage portion 49B in the passage connecting portion 47 and the second internal space 24 in the movable member 20 is eliminated. As a result, the gas pressure in the valve housing space 48 of the passage connecting portion 47 decreases, and as shown in FIG. 9, the movable valve portion 46 disposed in the valve housing space 48 46B is returned to a position separated from one end of the first passage 49A, and the first passage 49A is opened.

As described above, even if the gas outlet passage portion 44 is closed by the gas passage opening / closing portion 45, immediately after that, the slider portion 60 continues to retreat due to its inertia. Immediately before the slider portion 60 reaches the rearmost position, as shown in FIG. 9, a state in which the rear side portion of the movable member 20 comes out of the cylindrical portion 61B of the bottomed cylindrical portion 61 to the outside. Then, the gas in the tubular portion 61B of the bottomed tubular portion 61 is released from the opening on the movable member 20 side, and the gas pressure in the tubular portion 61B of the bottomed tubular portion 61 rapidly becomes zero ( (Atmospheric pressure). Thereby, the movable member 20 is rapidly retracted toward the bottomed cylindrical portion 61 by the urging force of the coil spring 22, and as shown in FIG. Cylindrical part 61 in bottomed cylindrical part 61
B is in a state of being inserted. As a result, the uppermost end 41A of the magazine 41 closed by the intermediate portion of the movable member 20 is opened, and the bullet BB filled in the magazine 41 is located at the uppermost position in the uppermost end 41.
A is pushed up and held.

When the slider portion 60 reaches the rearmost position as shown in FIG. 10, the slider portion 60 is immediately advanced toward the reference position by the urging force of the coil spring 17, and the slider portion 60 advances as the slider portion 60 advances. The movable member 20 moving forward is moved to the uppermost end 41 of the magazine 41 by its front end.
The bullet BB held at A is transported toward the loading chamber 4.
Thereby, as shown in FIG. 1, when the slider portion 60 assumes the reference position, the bullet BB is reliably loaded into the loading chamber 4.

When the slider section 60 reaches the rearmost position, the trigger 1 is released from the operation of pulling it. As a result, the movable abutting member 16 in the lower position
The movable bar 11 and the trigger 1 are moved forward by the urging force of the engagement piece 38B (FIG. 4) of the leaf spring member 38 acting on the plate spring member 38, and the trigger 1 is returned to the operation start position as shown in FIG. . Movable contact member 16 in lower position
When the slider portion 60 reaches the reference position from the rearmost position, the engagement piece portion 38B of the leaf spring member 38 (FIG. 4)
With the urging force described above, the slider engages with the concave portion 60D (FIG. 4) provided on the bottom surface of the slider portion 60, and the position is regulated to the upper position.

Further, when the slider portion 60 reaches the reference position from the rearmost position, as shown in FIG. 1, one end of the first internal space 23 of the movable member 20 is connected to the loading chamber 4, and One end of the internal space 24 is the pressure receiving portion 6
1A, the gas outlet passage 44 extending from the pressure accumulating chamber 43 is movable through the valve housing space 48 of the passage connecting portion 47 and the first passage 49A and the second passage 49B. The first internal space 23 and the second internal space 24 of the member 20 are connected to the other ends. Under such circumstances, when the trigger 1 is pulled again, the operation as described above is repeated,
The bullet BB loaded in the loading chamber 4 is fired from the inner barrel 2I, and the subsequent loading of a new bullet BB into the loading chamber 4 is performed.

FIG. 11 shows a main part of another example of a toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 of the present application. In the example shown in FIG. 11, a movable member 70 and a passage connecting portion 77 are used as a means instead of the movable member 20 and the passage connecting portion 47 provided in the example shown in FIG. Portions other than the movable member 70 and the passage connecting portion 77 are configured similarly to the example shown in FIG. 11, parts, members, and the like corresponding to the respective parts, members, and the like shown in FIG. 2 are denoted by the same reference numerals as in FIG. 2, and redundant description thereof will be omitted.

In the example shown in FIG. 11, the movable member 7 is provided inside the second portion 60B of the slider portion 60.
0 is arranged. The movable member 70 is located behind the loading chamber 4 and is movable in a direction along the moving direction of the slider section 60. And the movable member 70 is
A rear portion of the bottomed cylindrical portion 61 inserted into the tubular portion 61B, a front portion engaged with the annular member 4A forming the loading chamber 4, and a portion between the rear portion and the front portion. An annular seal member 71 formed of an elastic member is mounted on the rear side portion. When the rear portion of the movable member 70 is inserted into the tubular portion 61B of the bottomed tubular portion 61, the annular seal member 71 comes into contact with the inner wall surface of the tubular portion 61B, and the inside of the tubular portion 61B. The space between the wall surface and the outer peripheral surface of the rear side portion of the movable member 70 is sealed.

Both ends of the coil spring 22 are attached to the movable member 70 and the tubular portion 61B of the bottomed tubular portion 61, respectively. The bottom of the portion 61 is urged toward the pressure receiving portion 61A formed. When the slider portion 60 is at the reference position, the movable member 70 has a front portion engaged with the annular member 4A forming the loading chamber 4, and a rear portion of the movable member 70 in the bottomed cylindrical portion 61. It is located at a position where it is inserted into the shape 61B.

In such a movable member 70, a first internal space 73 and a second internal space 74 are formed separately from each other. The first internal space 73 is configured to form a bent gas passage, and one end of the first internal space 73 opens toward the loading chamber 4 at a front side portion of the movable member 70,
The other end is opened downward at an intermediate portion of the movable member 70. A valve receiving portion 73A is provided at a lower open end formed by the other end of the first internal space 73 in an intermediate portion of the movable member 70. Also, the second internal space 74
Also, a bent gas passage is formed, one end of which opens toward the pressure receiving portion 61A at the rear side portion of the movable member 70, and the other end opens downward at the intermediate portion of the movable member 70. I have. Therefore, when the slider portion 60 is at the reference position, the first internal space 73
Is connected to the loading chamber 4 and the second internal space 7
One end of 4 is arranged to be close to and opposed to the pressure receiving portion 61A.

On the other hand, one end of the movable member 7 is connected to the accumulator 43 at a position above the accumulator 43 in the case 40 which is inserted into the grip portion 8 and positioned.
0, a gas outlet opening / closing portion 45 for the gas outlet passage 44, and a movable valve portion 76.
Are provided.

The movable valve portion 76 is provided inside the passage connecting portion 77.
Is formed in the valve housing space 78 for housing the valve. The other end of the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is connected to the valve housing space 78.
Are connected to the first internal space 73 and the second internal space 74 of the movable member 70 disposed inside the slider portion 60 at the reference position.

Therefore, the passage connecting portion 77 is
When the slider portion 60 is at the reference position, the gas outlet passage portion 44 can be moved through the valve housing space 78 according to the position of the movable member 70 corresponding to the reference position of the slider portion 60. The first internal space 73 and the second internal space 74 of the member 70 are connected to each other. In such a case, the valve accommodating space 78 in the passage connecting portion 77 is a lower opening end formed by the other end of the first internal space 73 in the middle portion of the movable member 70 and the other end of the second internal space 74. Are connected to each of the lower open end portions formed by the two.

The movable member 7 in the passage connecting portion 77
The part that is in contact with the middle part of the packing member 7 is the packing member 7.
7A, and the packing member 77
In A, a portion of the movable member 70 of the valve housing space 78 that is connected to each of the first internal space 73 and the second internal space 74 is formed. Such a packing member 77A
Is used, the valve housing space 78 in the passage connecting portion 77 is connected to the lower opening end of the first internal space 73 and the lower opening end of the second internal space 74 at the intermediate portion of the movable member 70. Is reliably performed in a state where gas leakage is prevented.

The movable valve portion 76 accommodated in the valve accommodating space 78 in the passage connecting portion 77 has a large diameter head 76A and a shaft portion 76B extending from the large diameter head 76A. The shaft portion 76B is supported by a support portion 77B provided in the passage connecting portion 77 as projecting into the accommodation space 78, and the whole is movable. Then, the movable valve portion 76, when the slider portion 60 is at the reference position,
A position where the large-diameter head 76A is to be opposed to a lower opening end formed by the other end of the first internal space 73 in an intermediate portion of the movable member 70 at a position corresponding to the reference position of the slider portion 60. It is arranged in.

A coil spring 80 is mounted on the shaft portion 76B of the movable valve portion 76.
When the slider portion 60 is at the reference position, the entirety of the movable valve portion 76 is set to the first position in the intermediate portion of the movable member 70 which takes a position corresponding to the reference position of the slider portion 60.
Is biased in a direction to separate the large-diameter head 76A from the lower opening end formed by the other end of the internal space 73. As a result, the movable valve portion 76 is moved in the valve housing space 78 in a steady state as shown in FIG.
The position of the movable member 70 at a position corresponding to the zero reference position is regulated so as to open the first internal space 73. The movable valve portion 76 whose position is regulated in this manner is urged by the coil spring 80 so that gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 passes through the first internal space 73 of the movable member 70 and the loading chamber 4 In a state that could act on the bullets inside.

The movable valve portion 76 housed in the valve housing space 78 moves in the direction of compressing the coil spring 80 against the urging force of the coil spring 80 under a predetermined state described later. Then, when the slider portion 60 is at the reference position, the other end of the first internal space 73 in the intermediate portion of the movable member 70 which takes a position corresponding to the reference position of the slider portion 60 is formed. An operation of bringing the first internal space 73 of the movable member 70 into a closed state by the large-diameter head 76A is performed by bringing the first inner space 73 into contact with the valve receiving portion 73A provided at the lower opening end to be formed. The second internal space 74 in the movable member 70 is always open regardless of the movement of the movable valve portion 76. The movable valve portion 76 that blocks the first internal space 73 flows the gas from the accumulator 43 through the gas outlet passage 44 toward the loading chamber 4 through the first internal space 73 in the movable member 70. Is in a state that will block you.

Even in the example shown in FIG. 11 configured as described above, the slider portion 60 is temporarily retracted by manual operation and released from the retreat operation, so that the bullet BB is added to the bullet chamber 4. Is loaded, the slider portion 60 is returned to the reference position, and the passage connecting portion 77 moves the gas outlet passage portion 44 through the valve housing space 78 to move the movable member 70.
Are connected to the first internal space 73 and the second internal space 74, respectively.

Then, the bullet BB is loaded into the loading chamber 4, and the passage connecting portion 77 connects the gas outlet passage portion 44 to the first internal space 73 and the second internal space 74 of the movable member 70 through the valve housing space 78. The movable valve portion 76 is urged by the coil spring 80 so that the gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 passes through the first internal space 73 of the movable member 70. When the trigger 1 is pulled in a state capable of acting on a bullet in the loading chamber 4, a turning arm 36 attached to the second hammer 7 is provided in the gas passage opening / closing section 45. The rod 51 is pressed while compressing the coil spring 52 attached thereto, and the gas passage opening / closing portion 45 opens the gas outlet passage portion 44 from a position where the gas outlet opening portion 44 closes the gas outlet passage portion 44. Position is moved to the, it is the gas leading passage 44 is opened. Then, the second hammer 7 is connected to the gas passage opening / closing portion 45 by the gas outlet passage portion 44.
Is maintained in the open state.

The gas from the pressure accumulating chamber 43 through the opened gas outlet passage portion 44 immediately flows into the passage connecting portion 77. At this time, the movable valve portion 76 accommodated in the valve accommodation space 78 of the passage connecting portion 77 opens the first internal space 73 of the movable member 70 to open the first internal space 73 from the pressure accumulating chamber 43 through the gas outlet passage portion 44. Gas is movable member 7
The first internal space 73 and the second internal space 74 of the movable member 70 are in the open state since the first internal space 73 can act on the bullets in the loading chamber 4 through the first internal space 73. Have been. Therefore, the gas flowing into the passage connecting portion 77 is supplied to the valve housing space 7 in the passage connecting portion 77.
8 and further reach the bullet BB loaded in the loading chamber 4 through the first internal space 73 of the movable member 70 and reach the pressure receiving portion 61A through the second internal space 74 of the movable member 70. .

At this time, the gas pressure required for the bullets BB in the loading chamber 4 to be pushed forward from the loading chamber 4 into the inner barrel 2I is determined by the pressure receiving portion 61A having the bottomed cylindrical portion 61 and the slider portion 60. Is smaller than the gas pressure required to be moved rearward. Therefore, the pressure receiving section 6
Due to the gas pressure acting on the bullet BB in the loading chamber 4, the pressure receiving portion 61A does not move backward with the bottomed cylindrical portion 61 and the slider portion 60 due to the gas pressure acting on 1A. The bullet BB in the chamber 4 is pushed forward from the loading chamber 4 into the inner barrel 2I, and is discharged from the first internal space 73 in the movable member 70 into the inner barrel 2I by the gas flowing into the inner barrel 2I. The vehicle is accelerated and moves forward, and is projected from the tip of the inner barrel 2I and fired. In this manner, the gas from the pressure accumulating chamber 43 is used for firing the bullet in the loading chamber 4.

When the bullet BB jumps out of the inner barrel 2I, the gas flowing into the inner barrel 2I from the first internal space 73 of the movable member 70 is released from the tip of the inner barrel 2I to the atmosphere. The gas pressure in the barrel 2I and in the first internal space 73 of the movable member 70 rapidly decreases. Such a movable member 7
The sharp decrease in gas pressure in the first internal space 73 at 0 causes the movable valve portion 76 disposed in the valve housing space 78 of the passage connecting portion 77 to move the movable valve portion 76 to the first internal space 73 side of the movable member 70. Acting as a negative pressure drawn into the movable valve portion 7
6 is moved toward the first internal space 73 in the movable member 70 against the urging force of the coil spring 80, and the large-diameter head 76A in the movable valve portion 76 The first internal space 73 of the movable member 70 is shut off by contacting a valve receiving portion 73A provided at the lower opening end formed by the other end of the first internal space 73. Thus, the flow of the gas through the gas outlet passage portion 44 toward the loading chamber 4 through the first internal space 73 of the movable member 70 is prevented by the movable valve portion 76.

As described above, when the flow of the gas flowing through the gas outlet passage portion 44 toward the loading chamber 4 through the first internal space 73 of the movable member 70 is prevented by the movable valve portion 76, The gas that has flowed into the valve housing space 78 in the passage connecting portion 77 through the gas outlet passage portion 44 does not flow into the first internal space 73 in the movable member 70, but the second internal space 7 in the movable member 70.
4 to the pressure receiving portion 61A.
The gas pressure acting on 1A sharply increases. Thereby,
Due to the increased gas pressure, the pressure receiving portion 61A moves backward rapidly while increasing the variable volume pressure chamber formed between the movable member 70 and the end face of the rear side portion in the bottomed cylindrical portion 61. Accordingly, the slider portion 60 is rapidly retracted against the urging force of the coil spring 17. That is, the gas from the pressure accumulating chamber 43 is used for retreating the slider section 60.

The subsequent operation proceeds in the same manner as the operation in the example shown in FIG.
The movable member 70 retreats with the retreat to the rearmost position of zero and the slider portion 60, and further, the slider portion 60 returns to the reference position by advancing with the movable member 70, and the bullet is loaded. The chamber 4 is loaded with a new bullet BB.

Under such circumstances, the movable valve portion 76 disposed in the valve housing space 78 in the passage connecting portion 77 has the slider portion 60 at the reference position and the movable member 70 at the reference position of the slider portion 60. Under the corresponding position, the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is connected to the first and second internal spaces 73 and 74 of the movable member 70 through the valve housing space 78 of the passage connecting portion 77, and During the period in which the passage opening / closing portion 45 opens the gas outlet passage portion 44, the first internal space 73 in the movable member 70
In the open state, the gas passing through the gas outlet passage portion 44 acts on the bullet BB supplied to the loading chamber 4 through the valve housing space 78 of the passage connecting portion 77 and further through the first internal space 73 of the movable member 70. From the first state,
The first internal space 73 of the movable member 70 is shut off, and the gas flowing through the gas lead-out passage portion 44 passes through the valve housing space 78 of the passage connecting portion 77 and the first internal space 73 of the movable member 70, so that the loading chamber 4 To prevent the gas flowing through the gas outlet passage portion 44 from flowing toward the pressure receiving portion 61A through the valve housing space 78 in the passage connecting portion 77 and further through the second internal space 74 of the movable member 70. Then, under the second state, the pressure receiving portion 61A is moved rearward with the slider portion 60 by the gas pressure.

Then, as a result of the operation of the movable valve portion 76, after the bullet BB is fired from the inner barrel 2I, the retreat of the slider portion 60 is started by the gas pressure acting on the pressure receiving portion 61A which is rapidly increased. So
When the bullet BB is fired, the slider 60 is prevented from affecting the barrel 2 due to the movement thereof. Therefore, it is possible to prevent the bullet BB fired from the inner barrel 2I from being out of order.

The structure of the movable member 20 or 70, the passage connecting portion 47 or 77, etc. in the example shown in FIG. 2 and the example shown in FIG. The main part of the configuration to be provided in the toy gun with an automatic bullet supply mechanism according to the invention described in any one of the above items 5 to 5 is illustrated, and the present invention is not limited thereto. That is, the toy gun with an automatic bullet supply mechanism according to any one of claims 1 to 5 in the claims of the present application has a specific configuration different from that of the movable member 20 or 70 described above. A movable member having a structure including a passage connecting portion accommodating a movable valve portion arranged outside the movable member, which has a specific configuration different from the passage connecting portion 47 or 77 described above. Of course, it may be set as follows.

[0087]

As is apparent from the above description, according to the toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 in the claims of the present application, the trigger When the unit is operated, a series of operations started according to the operation is performed by first moving the pressing unit, and according to the movement of the pressing unit, the movable valve unit disposed outside the movable member. By the action of (1), bullets in the loading chamber are fired, and the slider section is retracted and then advanced, so that bullets are supplied to the loading chamber. This makes it possible to reliably prevent a situation in which the barrel portion is affected by the movement of the slider portion when firing a bullet in the loading chamber, so that it is possible to prevent a deviation in the direction of the bullet to be fired. In addition, since the movable valve portion is provided outside the movable member, the configuration of the movable member can be simplified.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view for explaining the configuration and operation of an example of a toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 in the claims of the present application. It is.

FIG. 2 is a sectional view showing an example of a toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 in the claims of the present application.

FIG. 3 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 4 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 5 is a cross-sectional view for explaining the configuration and operation of the example shown in FIG. 2;

FIG. 6 is a partial cross-sectional view for explaining the configuration and operation of the example shown in FIG. 2;

FIG. 7 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 8 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 9 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 10 is a partial cross-sectional view used for describing the configuration and operation of the example shown in FIG. 2;

FIG. 11 is a partial cross-sectional view showing a main part of another example of a toy gun with an automatic bullet supply mechanism according to the invention described in any one of claims 1 to 5 in the claims of the present application. .

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Trigger 2 Barrel part 2I Inner barrel 2U Outer barrel 4 Loading chamber 4A Annular member 6 First hammer 7 Second hammer 8 Grip part 10 Toy gun body 15 Rotating lever 16 Movable contact member 17, 22, 26, 50 , 52, 80 Coil spring 20, 70 Movable member 23, 73 First internal space 24, 74 Second internal space 30, 37 Toggle spring 31 Lock member 36 Rotating arm 40 Case 41 Magazine 43 Pressure accumulation chamber 44 Gas lead-out passage Part 45 Gas passage opening / closing part 46, 76 Movable valve part 47, 77 Passage connecting part 48, 78 Valve accommodating space 49A First passage part 49B Second passage part 51 Rod 60 Slider part 61 Bottom cylindrical part 61A Pressure receiving part BB bullet

Claims (5)

[Claims] A bullet transferred into a barrel portion is provided in a loading chamber supplied from a magazine portion, and can move in a direction along the barrel portion, and when the bullet is retracted, the bullet from the magazine portion to the loading chamber is moved from the magazine portion to the loading chamber. A slider portion for preparing for automatic supply of bullets, a pressure receiving portion provided in a portion of the slider portion behind the barrel portion and moving integrally with the slider portion, and an internal space is formed. A movable member disposed behind the loading chamber and movable in a direction along the moving direction of the slider portion; and a pressure accumulator chamber connected to a gas outlet passage extending toward the movable member. A gas passage opening / closing portion for controlling the opening / closing of the gas outlet passage portion; and a gas passage opening / closing portion disposed outside the movable member, wherein the gas outlet passage portion is connected to an internal space of the movable member, and In the period in which the gas outlet passage is in the open state, the gas from the accumulator through the gas outlet passage is allowed to act on the bullet in the loading chamber through the internal space of the movable member. A movable valve that shifts to a second state in which gas from the pressure accumulating chamber through the gas outlet passage portion acts on the pressure receiving portion through the internal space of the movable member and moves the pressure receiving portion rearward with the slider portion. And a trigger that is operated to fire a bullet in the loading chamber, and moves in association with the trigger, and presses and moves the gas passage opening / closing portion in accordance with the movement, thereby pressing the gas lead-out passage to an open state. And a toy gun equipped with an automatic bullet supply mechanism. 2. A toy gun with an automatic bullet supply mechanism according to claim 1, wherein the gas passage opening / closing portion includes a rod member to which a pressing force accompanying the movement of the pressing portion is applied. 3. The automatic bullet supply mechanism according to claim 2, wherein the pressing portion includes a rotating member for transmitting a pressing force accompanying the movement of the pressing portion to a rod member provided in the gas passage opening / closing portion. Toy gun. 4. The pressing portion causes the gas passage opening / closing portion to perform a pressing movement in conjunction with the operation of the trigger portion, and releases the pressing movement of the gas passage opening / closing portion in conjunction with the retraction of the slider portion. The toy gun with an automatic bullet supply mechanism according to claim 1. 5. When the pressing portion moves in conjunction with the retraction of the slider portion, an urging force is stored, and the urging force is applied to the hammer portion in conjunction with the operation of the trigger portion, so that the pressing portion is moved to the pressing portion. 5. A toy gun with an automatic bullet supply mechanism according to claim 4, further comprising a spring member for performing a movement for pressing and moving the gas passage opening / closing portion.