JP3502780B2 - Toy gun with automatic bullet supply mechanism - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention described in the claims of the present application utilizes a gas pressure for a bullet fired by a gas pressure to a bullet loading chamber provided at a rear end portion of a barrel (barrel) portion. The present invention relates to a toy gun equipped with an automatic bullet feeding mechanism.

[0002]

2. Description of the Related Art In a toy gun called a play gun (airsoft gun), in addition to the color and the shape, the apparent movement is usually made to be similar to the real thing. Among such toy guns, a model imitating a gun in which a slider provided in relation to the barrel moves in response to the operation of a trigger is loaded in a loading chamber provided in a rear end portion of the barrel. It is known that, in addition to the firing of bullets by gas pressure, the supply of bullets to the loading chamber is also performed by using gas pressure. For example, Actual Kaihei 3-
As shown in Japanese Patent No. 38593, the accumulator cylinder filled with air, the magazine, the first and second valves, the first and second gas passages, and the bullet feed lever are arranged in the grip portion. A cylinder facing the barrel through a magazine plate forming the landing hole, and a spring guide member that moves with the movement of the slider are arranged in the slider provided for the barrel provided with the landing hole. There is proposed a toy gun adapted to use a pressure of air from a pressure accumulating cylinder to eject a bullet loaded in the impact hole and supply the bullet to the impact hole.

In such a toy gun, when the trigger is pulled, the first valve opens the first gas passage, and the air from the pressure accumulating cylinder passes through the first gas passage. The piston member housed in the cylinder retracts the slider from the initial position by the pressure of the air supplied into the cylinder and supplied into the cylinder. Then, the cylinder to which air is supplied from the pressure accumulating cylinder is placed in an exhaust state when the slider is retracted by a predetermined amount. On the other hand, as the slider retreats from the initial position, the spring guide member is retracted while compressing the spring member, whereby the impact hole in the magazine plate is ejected from the magazine from the initial position facing the muzzle. Is moved to the position opposite to. Then, the bullets ejected from the magazine are loaded into the impact holes by a bullet feed lever that is swung in conjunction with a trigger. Under such circumstances, when the cylinder is in the exhaust state and the slider advances from the retracted position to reach the initial position, the spring member is returned to the original position to return the spring guide member to the original position. , The bullet loading hole is placed in the initial position.

When the impact hole loaded with bullets is placed in the initial position, the second valve opens the second gas passage by the hammer (hammering iron) that rotates in conjunction with the trigger. In this state, the air from the pressure accumulating cylinder is supplied to the impact hole through the second gas passage, and the pressure of the air supplied to the impact hole causes the bullet loaded in the impact hole to advance from the retracted position. Fired when the slider reaches the initial position.

[0005]

As described above, in the slider movably provided with respect to the barrel, the cylinder forming the pressure chamber to which the air from the pressure accumulating cylinder is supplied is arranged, and the cylinder for operating the trigger is provided. A bullet is supplied to the impact hole by a slider that is moved by supplying and discharging air to the pressure chamber in response to the movement of a hammer that is interlocked with the operation of the trigger. In a conventionally proposed toy gun in which air from a pressure-accumulating cylinder is used for firing, automatic continuous firing of bullets is possible. In such a toy gun imitating a gun in which movement of a slider provided in relation to a barrel and rotation of a hammer are performed according to an operation on a trigger, in response to an operation on a trigger, First, the hammer is rotated, the bullets supplied to the impact holes are fired in response to the rotation of the hammer, and, following the firing of the bullets, a slider provided in relation to the barrel is provided. It is desirable that the movement of the bullets is performed to supply the bullets to the landing holes. Then, in the toy gun in which the slider provided in relation to the barrel is moved after the bullet is fired, the situation that the movement of the slider affects the barrel is avoided, and The advantage that deviations in the direction are prevented is obtained.

However, like the previously proposed toy guns mentioned above, the rotation of the hammer in conjunction with the operation of the trigger follows the supply of air to the pressure chambers in the sliders associated with the barrel. In what is performed, the hammer is rotated in response to the desired operation, that is, the operation with respect to the trigger, and the bullet is fired in the impact hole according to the rotation of the hammer.
After the bullet is fired, the slider provided in relation to the barrel is retreated and the retreat is advanced, so that the bullet is supplied to the impact hole. There is inconvenience.

In view of the above point, the invention described in the claims of the present application provides a bullet loading chamber at the rear end portion of the barrel portion for loading a bullet fired by gas pressure, and at the same time, at the barrel portion. The slider part is movably associated with the slider part, and the slider part is provided with a mechanism for supplying bullets to the shot-loading chamber by using gas pressure. A series of operations started according to the first, the hammer part is rotated,
The bullets are fired in the bullet chamber according to the rotation of the hammer portion, and further, the slider portion is retracted and then advanced to supply the bullets to the bullet chamber. Provided is a toy gun with an automatic bullet feeding mechanism.

[0008]

A toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application has a rear end portion of a barrel portion. slider forming a bullet holding chamber provided in the bullet from the magazine unit is supplied, it is assumed to be moving in a direction along the barrel, ready for automatic supply of a bullet from the magazine portion to the bullet holding chamber when performing a backward Section, a pressure receiving section provided in a portion of the slider section that is behind the barrel section, and moving integrally with the slider section, and a first opening opening toward the impact chamber.
Second internal space opening toward the internal space and the pressure receiving part
A pressure accumulating chamber in which a movable member that is formed behind and is movable in the direction along the moving direction of the slider portion and a gas outlet passage portion that extends toward the movable member are connected. And a gas passage opening / closing portion that controls opening / closing of the gas outlet passage portion, and a gas outlet passage portion disposed outside the movable member .
The passage connecting portion arranged to be connected to both of the two internal spaces and the passage connecting portion, and the gas outlet passage portion is connected to the first and second internal spaces of the movable member by the passage connecting portion. In addition, during the period in which the gas passage opening / closing portion opens the gas outlet passage portion, the gas from the pressure accumulating chamber through the gas outlet passage portion is made to act on the bullet in the shot chamber through the first internal space of the movable member . From
Pressure drop exerted on the first internal space in the movable member
The gas flowing through the gas outlet passage portion to the movable member through the first internal space in the movable member, and the gas passing through the gas outlet passage portion is moved to the movable member .
2nd to be directed to the pressure receiving part through the 2nd internal space in
In the second state, the movable valve section that moves the pressure receiving section rearward together with the slider section by the gas pressure under the second state and the trigger section that is operated to fire the bullet in the bullet storage chamber are interlocked. When the gas passage opening / closing portion is pressed and moved in response to the rotation, the gas from the pressure accumulating chamber is connected to the gas outlet passage portion , the passage connecting portion, and the movable member .
A flow is generated through the first internal space toward the shot-loading chamber, and then at the gas outlet passage portion , the passage connecting portion, and the movable member .
And a hammer portion for preventing the flow toward the shot-loading chamber through the first internal space.

Particularly, in the toy gun with an automatic bullet feeding mechanism according to the invention described in claim 4 of the present application, the hammer portion is pressed and moved 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 association with the retreat of the slider portion.

Further, in the toy gun with an automatic bullet feeding mechanism according to the invention described in claim 6 in the claims of the present application, a spring member for urging the movable valve portion in a predetermined direction is provided, and the movable valve portion is provided. The part takes a first state in which the gas from the pressure accumulating chamber through the gas outlet passage part acts on the bullet in the bullet chamber through the first internal space in the movable member according to the urging force of the spring member, and With the decrease in the gas pressure in the first internal space of the movable member due to the gas being used to fire the bullets in the loading chamber,
It moves against the urging force of the spring member, blocks the flow of the gas through the gas outlet passage portion toward the impact chamber through the first internal space in the movable member, and allows the gas through the gas outlet passage portion to move in the movable member . It is assumed to be in a second state in which it is directed to the pressure receiving portion through the second internal space.

In the toy gun with the automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application configured as described above, The movable valve part arranged outside is, for example,
The gas from the pressure accumulating chamber, which is urged by the spring member, can act on the bullet in the bullet chamber through the first internal space of the movable member, and the gas passage opening / closing portion is When the operation of the trigger portion is performed while the gas outlet passage portion is in the closed state, the hammer portion first rotates according to the operation,
By the rotation of the hammer portion, the gas passage opening / closing portion is pushed and moved to a position where the gas outlet passage portion is opened.
As a result, the movable valve portion is placed in the first state in which the gas from the pressure accumulating chamber through the gas outlet passage portion is caused to act on the bullet in the bullet chamber through the first internal space in the movable member,
The gas from the accumulator is used to fire the bullets in the magazine.

Thereafter, the movable valve portion is attached to the movable member .
By a change in the gas pressure in the first internal space, from the position to be placed in a first state, blocking the flow toward the bullet holding chamber through the first inner space in the movable member of the gas from the pressure accumulating chamber through the gas outlet passage Moved to the position where
From the first state, the flow of the gas from the pressure accumulating chamber through the gas discharge passage portion toward the impact chamber through the first internal space in the movable member is blocked, and the gas through the gas discharge passage portion is transferred to the second portion of the movable member . Then, the gas is transferred from the pressure accumulating chamber to the second state in which the gas flows from the pressure accumulating chamber to the pressure receiving portion through the inner space of the slider, and the gas is used to retract the slider portion. Due to the retreat of the slider portion, the hammer portion rotates in a direction away from the gas passage opening / closing portion, and accordingly the gas passage opening / closing portion moves to a position in which the gas outlet passage portion is in a closed state, and The supply of gas to the pressure receiving portion is stopped, and the movable member retracts rearward from one end of the magazine portion. Then, when the slider portion reaches the final retracted position and turns forward, the movable member also advances with the advance of the slider portion, whereby the bullet is supplied from one end of the magazine portion to the shot chamber, and the movable member is moved. However, the gas from the pressure accumulating chamber through the gas outlet passage is the first in the movable member .
It is returned to the state in which it is possible to act on the bullets in the loading chamber through the internal space of the.

As described above, in the toy gun with the automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application, when the trigger portion is operated, A series of actions that are started in response to operations
First, the hammer portion is rotated, and in response to the rotation of the hammer portion, the bullet is fired in the bullet chamber by the action of the movable valve portion arranged outside the movable member. Following the firing, the slider portion is retracted and then advanced, and the bullets are supplied to the loading chamber. Then, when the bullet in the bullet compartment is fired, the situation where the movement of the slider portion is exerted on the barrel portion is surely avoided, so that the direction of the fired bullet is prevented from being misaligned. Moreover, since the movable valve portion is arranged outside the movable member, the structure of the movable member can be simplified.

Further, in the toy gun with an automatic bullet feeding mechanism according to the invention described in claim 6 in the claims of the present application, the movable valve portion arranged at the passage connecting portion outside the movable member is According to the urging force of the spring member, the gas from the pressure accumulating chamber through the gas outlet passage is brought into the first state in which it acts on the bullet in the shot chamber through the first internal space of the movable member, and the gas from the pressure accumulating chamber is released. As the gas pressure in the first internal space of the movable member decreases due to being used for the firing of the bullets in the bullet compartment, the gas is moved against the biasing force of the spring member, and the gas passing through the gas outlet passage portion is moved. The gas flowing through the gas lead-out passage portion is directed to the pressure receiving portion through the second internal space of the movable member by blocking the flow toward the shot loading chamber through the first internal space of the movable member . Since the movable member and the passage connecting portion in which the movable member is disposed are extremely simplified in structure, the movable member operates reliably. To be done.

[0015]

FIG. 2 shows an example of a toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application.

In the example shown in FIG. 2, the trigger 1,
A barrel portion 2 including an outer barrel 2U and an inner barrel 2I, a loading chamber provided at a rear end portion of the barrel portion 2, first and second hammers 6 and 7 forming a hammer portion, and a grip portion 8 A toy gun body 10 having
A case 40 that is detachably accommodated in the grip portion 8 is provided, and a slider portion 60 that is movable in a direction along the barrel portion 2 is provided in relation to the barrel portion 2. . The loading chamber 4 is formed by an annular member 4A made of an elastic friction material such as a rubber material.
Are arranged inside the rear end portion of the inner barrel 2I.

The grip portion 8 is provided with a movable bar 11 extending rearward from the trigger 1, and the trigger 1 is
It is supposed to be movable in the direction along the barrel portion 2.
When the trigger 1 is pulled, the trigger 1 is moved rearward from the operation start position that is in front of the contact portion 12 provided on the toy gun body 10 as shown in FIG. 2, and accordingly, The movable bar 11 is also moved rearward. A movable contact member 16 is in contact with the rear end portion of the movable bar 11, and the movable contact member 16 is a rotation lever rotatably supported by the toy gun body 10 via a shaft 14. It is supposed to abut on 15 selectively.

The slider portion 60 is fitted to the portion of the toy gun body 10 where the barrel portion 2 is provided, and the first portion 60A and the first portion 60A which form the front side portion thereof.
And a second portion 60B that is integrally formed with the second portion 60B and that is located at the rear of the barrel portion 2 and that forms a rear side portion. Then, when the trigger 1 is at the operation start position, the slider portion 60 is located at a position where the front end portion of the first portion 60A is close to the front end portion of the toy gun body 10 and the second portion 60B. 2 covers the intermediate portion of the toy gun body 10 including the portion between the barrel portion 2 and the grip portion 8 and is placed at the reference position as shown in FIG.

The first portion 60A of the slider portion 60
A coil spring 17 is engaged with.
The coil spring 17 is arranged on the front side 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 to have a slider portion 60.
Is engaged with the first portion 60A at. As a result, the slider section 60 is urged toward the front side of the toy gun body 10 by the coil spring 17 under the condition that the entire slider section 60 can move in the direction along the barrel section 2.

Second portion 60B of slider portion 60
The bottomed tubular portion 61 is provided in the. The bottom portion of the bottomed tubular 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 at the rear of the loading chamber 4 and is movable in the direction along the moving direction of the slider portion 60. The movable member 20 has a rear side portion of the bottomed tubular portion 61 that is inserted into the tubular portion 61B, and the loading chamber 4.
A front side portion that engages with the annular member 4A that forms, and a middle portion between the rear side portion and the front side portion,
An annular seal member 21 formed of an elastic member is attached to 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, so that the inside of the tubular portion 61B. Wall and movable member 20
And the outer peripheral surface of the rear side portion thereof is sealed.

Both ends of the coil spring 22 are attached to the movable member 20 and the tubular portion 61B of the bottomed tubular portion 61, respectively, and the entire movable member 20 is tubular with the bottomed tubular portion by the coil spring 22. It is biased toward the pressure receiving portion 61A formed by the bottom portion of the portion 61. In such a movable member 20, when the slider portion 60 is at the reference position, the front side portion thereof engages with the annular member 4A forming the loading chamber 4, and the rear side portion thereof is a cylinder in the bottomed tubular portion 61. It is placed at a position to be inserted into the shaped portion 61B.

In such a movable member 20, a first internal space 23 and a second internal space 24 are formed separately from each other. The first internal space 23 forms a curved gas passage, and one end of the first internal space 23 opens toward the shot-loading chamber 4 at the front side portion of the movable member 20, and
The other end opens downward in the middle portion of the movable member 20. The second internal space 24 also constitutes a bent gas passage, and one end thereof opens toward the pressure receiving portion 61A in the rear side portion of the movable member 20 and the other end is downward in the intermediate portion of the movable member 20. It opens towards. 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 connected to the pressure receiving portion 6.
1A will be closely opposed.

The first hammer 6, which forms a hammer portion together with the second hammer 7, has an upper portion on which the bottomed tubular portion 61 selectively abuts, and a lower portion provided with a plurality of engaging step portions. And the lower part is attached to the rear end of the toy gun body 10 via the shaft 25.
It is possible to rotate around the axis. Further, at the lower side portion of the first hammer 6, the cap 26A is attached to the coil spring 26 arranged in the lower side portion of the grip portion 8.
Hammer strut 2 having one end engaging through
The other end of 7 is attached via a pin 28,
The first hammer 6 receives the biasing force of the coil spring 26 through the cap 26A and the hammer strut 27, and as shown by an arrow a in FIG.
The upper portion is urged in a direction (direction a) toward the rear end of the slider portion 60. Such a first hammer 6
In the initial state (the state shown in FIG. 2) in which the case 40 is attached to the grip portion 8, the locking portion 7A and the locking portion 7A provided on the second hammer 7 are provided on the lower side portion. The position of the rotary lever 15 is fixed in a state of being engaged with each other.

The second hammer 7 has a locking portion 7A at its upper end.
Is formed, and the lower end is attached to the toy gun body 10 via a shaft 29, and is rotatable about the shaft 29 as a pivot. As shown in FIG. 3, the second hammer 7 is acted by the biasing force of the toggle spring 30 attached to the shaft 29, and the lock member 31 and the coil spring 32 are arranged on the upper portion thereof. Further, the shaft 1 penetrating the rotation lever 15
The concave portion 7B is formed in a portion facing 4 in FIG.

As shown in FIG. 3, the lock member 31 engages with the upper portion of the second hammer 7 as a movable member,
The second hammer 7 is provided so as to project from the upper portion thereof, and the whole thereof is biased by the coil spring 32 in the direction toward the bottom surface portion of the slider portion 60. Then, a part of the lock member 31 forms a protruding portion 31 </ b> A that protrudes toward the bottom surface portion of the slider portion 60.

The lock member 31 as described above is selectively brought into contact with an engaging portion 34 formed by a step portion provided on the toy gun main body 10, and the engaging portion 34.
When the second hammer 7 is brought into contact with the second hammer 7 and is placed in a mutual engagement state with the engagement portion 34, the second hammer 7 plays a role of restricting the position. In addition, the protrusion 31A of the lock member 31
When the slider section 60 takes the reference position,
The slider 60 is located at a position rearwardly spaced from the protrusion 60C provided on the bottom surface of the slider 60. Each of the protrusion 31A provided on the lock member 31 and the protrusion 60C provided on the slider portion 60 is formed with an inclined surface portion that faces each other, and the lock member 31 and the engagement portion 34 are mutually opposed. When the slider portion 60 retracts in the direction along the barrel portion 2 under the engaged state, the protrusion 60C is
The slanted surface portion is brought into contact with the slanted surface portion of the protruding portion 31A, and thus the protruding portion 31A is pushed down, so that it passes through the position of the protruding portion 31A, and as a result, the entire locking member 31 moves to the second hammer 7 side. When the lock member 31 is pushed in, the mutual engagement state between the lock member 31 and the engagement portion 34 is released.

Toggle spring 30 mounted on shaft 29
Is attached to the second hammer 7 by a locking portion 7A provided on the second hammer 7.
Is applied to the lower side portion of the first hammer 6. Then, in the second hammer 7, in the initial state in which the case 40 is attached to the grip portion 8, the lock member 31 arranged on the upper portion of the second hammer 7 engages with the engaging portion 34 provided on the toy gun body 10. By being placed in the mutual engagement state, the locking portion 7A is positionally fixed in a state of abuttingly engaging with the lower side portion of the first hammer 6.

A rotating 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 attached to the shaft 35 as shown in FIG.

The rotating lever 15 attached to the toy gun body 10 via the shaft 14 has a first lever as shown in FIG.
The upper end of the hammer 6 is provided with an upper tip portion that engages with the lower portion of the hammer 6, and the lower portion 15A of the hammer 6 engages with the engaging piece portion 38A of the leaf spring member 38. The engaging piece portion 38 </ b> A of the leaf spring member 38 has the rotation lever 1
A biasing force is applied to the upper end 5 of the first hammer 6 in the direction of abutting the upper end thereof on the lower side portion of the first hammer 6. further,
The leaf spring member 38, as shown in FIG.
The movable contact member 16 that abuts the rear end portion of the first engaging portion 38 </ b> B applies an urging force.

As shown in FIG. 4, the movable contact member 16 has its lower inclined surface portion 16A engaged with the engaging piece portion 38B of the leaf spring member 38, and at the same time, the lower inclined surface portion 16A.
A protruding portion 16B protruding from A in the width direction of the toy gun body 10
Is abutted on the rear end of the movable bar 11 through the space around the lower portion 15A of the rotating lever 15. Further, the movable contact member 16 is provided at its intermediate portion with a through hole 39 through which the shaft 14 penetrating the rotary lever 15 is inserted. The movable contact member 16 is provided with a through hole 39.
The shaft 14 which is inserted through the shaft allows the downward movement and the backward movement against the biasing force of the engaging piece portion 38B of the leaf spring member 38 within the range regulated by the through hole 39. It is supported by the state. And
The movable contact member 16 is provided with the upper end portion 16C on the bottom surface portion of the slider portion 60 under the biasing force of the engaging piece portion 38B of the leaf spring member 38 when the slider portion 60 is at the reference position. The upper position is set so that the recess 60D is brought into contact with the recess 60D.

Although not shown, the leaf spring member 38 has an engaging piece portion 38A for exerting an urging force on the rotary lever 15 and an engaging piece portion for exerting an urging force on the movable contact member 16. 38B and has an engaging piece portion that abuts the toy gun body 10, and the lower end portions of the engaging piece portions 38A and 38B and the engaging piece portions between them are It is supposed to be connected to each other and attached to the toy gun body 10.

On the other hand, the case 40 is inserted into the grip portion 8 through an opening provided at the lower end of the grip portion 8,
The bottom portion 40A is brought into abutting engagement with the lower end portion of the grip portion 8 to perform positioning within the grip portion 8. The case 40 has a plurality of loaded bullets B
Coil spring 42 for urging B toward the uppermost end 41A side
A magazine 41 containing therein, for example, a pressure accumulating chamber 43 filled with liquefied gas, a gas outlet passage portion 44 having one end connected to the pressure accumulating chamber 43 and extending, a gas passage opening / closing portion 45 for controlling opening / closing of the gas outlet passage portion 44, Also, a passage connecting portion 47 in which the movable valve portion 46 is arranged 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 arranged above the pressure accumulating chamber 43 in the case 40.

Inside the passage connecting portion 47, the movable valve portion 46 is provided.
Is formed, and a first passage portion 49A and a second passage portion 49B, which are connected to the valve accommodation space 48 at one end thereof and which extend and are separated from each other, are formed. The other end of the gas lead-out passage portion 44 extending from the pressure accumulating chamber 43 is connected to the valve housing space 48, and the valve housing space 48 is also connected.
First passage portion 49A and second passage portion 49B extending from the
Has the other end of each of the first internal space 23 and the second internal space 2 in the movable member 20 arranged inside the slider portion 60 when the slider portion 60 is at the reference position.
4 are connected respectively.

Therefore, the passage connecting portion 47 is connected to the movable member 20.
When the slider portion 60 is at the reference position, the gas lead-out passage portion 44 extending toward the movable member 20 according to the position corresponding to the reference position of the slider portion 60 of the movable member 20, The movable member 20 is connected to the first internal space 23 and the second internal space 24 through the first passage portion 49A and the second passage portion 49B, respectively. In this case, the other end of the first passage portion 49A in the passage connecting portion 47 is connected to the lower opening end portion 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 the lower opening 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 which is in mutual contact with the middle part of 0 is the packing member 4
7A, and this packing member 47
Most of the first passage portion 49A and the second passage portion 49B are formed in A. By using such a packing member 47A, the other end of the first passage portion 49A in the passage connection portion 47 is connected to the lower opening end portion of the first internal space 23 in the intermediate portion of the movable member 20, and The connection between the other end of the second passage portion 49B of the passage connecting portion 47 and the lower opening end portion 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 of 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. And the shaft 46C
Is inserted into the bottomed guide hole 47B provided in the passage connecting portion 47, and the end portion of the shaft portion 46C is closed by the coil spring 50 engaged with the large diameter portion 46B.
It is urged in the direction of coming into contact with the bottom portion of B. As a result, the movable valve portion 46, in the valve accommodating space 48, in the steady state, as shown in FIGS. 2 to 4, the first passage portion 49A and the second passage portion 49A formed inside the passage connecting portion 47. The position is regulated so as to open both of the passage portions 49B. The movable valve portion 46 whose position is regulated in this way is biased by the coil spring 50, and the gas outlet passage portion 4 is pushed.
It is in a state that the gas from the pressure accumulating chamber 43 through the No. 4 can act on the bullets inside the bullet accommodating chamber 4 through the first internal space 23 in the movable member 20.

The movable valve portion 46 accommodated in the valve accommodating space 48 as described above, under the predetermined condition described later,
The coil spring 50 moves in the direction of compressing the coil spring 50 against the urging force of the coil spring 50.
The operation of shutting off 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 kept open regardless of the movement of the movable valve portion 46. First
Valve part 46 which is designed to shut off the passage part 49A of
Is placed in a state in which the flow of gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 toward the impact chamber 4 through the first internal space 23 in the movable member 20 is blocked.

The gas passage opening / closing portion 45 for the gas lead-out passage portion 44 is movably arranged in the gas lead-out passage portion 44, and controls the opening / closing of the gas lead-out passage portion 44 in accordance with its position. The gas passage opening / closing portion 45 has an annular seal member 45A.
Are fitted together and the rod 51 is integrally provided. In a steady state, the gas passage opening / closing portion 45 has an urging force of the coil spring 52 attached to the rear end portion of the rod 51 protruding outside the gas outlet passage portion 44, as shown in FIGS. Thus, the gas lead-out passage portion 44 is placed in the closed position.

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 is filled with the gas. The passage opening / closing part 45 is arranged,
The movable valve portion 46 is provided in the valve accommodating space 48 in the passage connecting portion 47.
Is accommodated and provided, the gas passage extending from the pressure accumulating chamber 43 to the first internal space 23 and the second internal space 24 in the movable member 20 under the condition that the slider portion 60 is at the reference position requires a necessary control. It is assumed that the overall length of the product is relatively short.

As shown in FIGS. 2 to 4, the slider portion 6
0 is at the reference position, and the movable member 20 has the slider portion 60.
When the case 40 is mounted in the grip portion 8 at the position corresponding to the reference position of the magazine 41,
The uppermost end portion 41A of the movable member 20 is disposed near the loading chamber 4 and is closed by the intermediate portion of the movable member 20. As a result, the plurality of bullets BB loaded in the magazine 41 are pressed in the direction against the biasing force of the coil spring 42.

Further, 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 arranged to closely face the pressure receiving portion 61A, and under this condition, the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 and the valve accommodating space 48 in the passage connecting portion 47 are formed. First passage portion 49A and second passage portion 4
9B and 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, the rotating arm 36 attached to the second hammer 7 is provided in the gas passage opening / closing portion 45 which takes the position for closing the gas outlet passage portion 44 by the urging force of the toggle spring 37 (FIG. 3). Rod 5
The position of the rear end portion 1 is fixed by abutting from the upper side thereof.

In an example of the toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application configured as described above, for example, a case After 40 is mounted and positioned in the grip portion 8, the slider portion 60 placed at the reference position is temporarily retracted from the reference position together with the movable member 20 by the manual operation, and then the manual operation is performed. The movable member 20 is released, is advanced by the urging force of the coil spring 17 together with the movable member 20, and is returned to the reference position again.

At this time, as the slider portion 60 retreats, as shown in FIG.
The movable member 20, which has been closed by the intermediate portion thereof, is retracted, so that the uppermost end portion 41A of the magazine 41 is
Is opened. Thereby, the coil spring 42
By the urging force of, the bullet BB filled in the magazine 41, which was at the uppermost position, is pushed up into the uppermost end portion 41A and held at the uppermost end portion 41A.

Further, the first hammer 6 is attached to the slider portion 6
It is pressed by the bottomed tubular portion 61 that moves backward with the backward movement of 0, and thereby from the position shown in FIG. 2, against the urging force of the coil spring 26, in the direction opposite to the a direction (the b direction). ) Is rotated by a predetermined amount. Along with this, the rotation lever 15 causes the engaging piece portion 38 of the leaf spring member 38 to move.
It is rotated in the direction according to the biasing force of A.

Further, when the slider portion 60 is retracted, the lock member 31 arranged on the second hammer 7 is engaged with the engaging portion 34.
Is released from the mutual engagement state with. As a result, when the first hammer 6 is rotated in the b direction, the second hammer 7 also moves along with the rotation of the toggle spring 30.
It is rotated in the direction according to the urging force (Fig. 3). As shown in FIG. 5, the tip end portion of the turning lever 15 is engaged with the lower portion of the first hammer 6 rotated in the b direction, whereby the first hammer 6 and The rotation lever 15 and the turning lever 15 are placed in the mutual position regulation state. Further, the second hammer 7 which rotates in accordance with the rotation of the first hammer 6 in the b direction has a recess 7B provided therein.
Is brought into contact with the shaft 14, and the position is fixed.
With the rotation of the second hammer 7, the rotation arm 36 attached to the second hammer 7 is rotated by the urging force of the toggle spring 37 (FIG. 3), and the gas passage opening / closing portion 45. The position of the rod 51 is fixed by being brought into contact with the rear end of the rod 51 provided on the rear side.

Then, when the slider portion 60, which has once retracted, turns from the retracted position to the forward position, the movable member 20 is accordingly moved.
The forward moving movable member 20 also inserts the front end thereof into the uppermost end portion 41A of the magazine 41, and the bullet BB held therein is used as the taper 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 again closes the uppermost end portion 41A of the magazine 41 by the middle portion thereof, and the front side portion thereof is closed by the annular member 4A.
The position is fixed by engaging with the loading chamber 4 formed by. As a result, as shown in FIG.
The bullet BB is loaded in the loading chamber 4.

When the slider portion 60, which is designed to move forward to supply the bullet BB to the loading chamber 4, returns to the reference position, the first internal space 23 in the movable member 20 is again provided.
One end of which is connected to the loading chamber 4 and the second internal space 2
With one end of 4 arranged to face the pressure receiving portion 61A in close proximity, the gas lead-out passage portion 44 extending from the pressure accumulating chamber 43 has the valve accommodating space 48 and the first passage portion 4 in the passage connecting portion 47.
9A and the second passage portion 49B, the movable member 20
In the state of being connected to the other ends of the first internal space 23 and the second internal space 24, respectively.

In this way, when the trigger 1 is pulled with the bullet BB loaded in the loading chamber 4 as shown in FIG. 1, the movable bar 11 retracts accordingly. As a result, the movable contact member 16 which comes into contact with the rear end portion of the movable bar 11 at the upper position is moved to press the lower portion 15A of the rotating lever 15 backward, as shown in FIG. , The rotating lever 15 is rotated against the biasing force of the engaging piece portion 38A of the leaf spring member 38. As a result, the mutual engagement state between the tip end portion of the rotating lever 15 and the lower side portion of the first hammer 6 is released.

The first hammer 6 released from the position regulated by the turning lever 15 has the coil spring 26 with the engagement portion 7A of the second hammer 7 in contact with the lower portion of the first hammer 6. It rotates in the a direction according to the biasing force. Then, the first hammer 6 that rotates in the a direction
Rotates the second hammer 7 in the a direction via the locking portion 7A. As a result, the rod 51 provided in the gas passage opening / closing part 45 is attached to the pivot arm 36 attached to the second hammer 7 at substantially the same time as the trigger 1 contacts the contact part 12. The coil spring 52 thus pressed is pressed while being compressed.

When the rod 51 is pressed, the gas passage opening / closing portion 45 is pressed and 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 lead-out passage portion 44 is opened. By the rotation of the second hammer 7 in such a case,
The lock member 31 is placed at a position where it engages with the engaging portion 34 provided on the toy gun body 10. As a result, the second hammer 7 is restricted from rotating in the direction according to the biasing force of the toggle spring 30 shown in FIG.
5 maintains the position where the gas lead-out passage portion 44 is in the open state. Further, the second hammer 7 whose rotation in the direction according to the biasing force of the toggle spring 30 is restricted in this way causes the first hammer 6 to move its position under the condition that the rotation lever 15 releases the position restriction. Is fixed.

The gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 which has been opened is immediately flown into the passage connecting portion 47. At this time, the movable valve portion 46 accommodated in the valve accommodating space 48 of the passage connecting portion 47 is biased by the coil spring 50 so that the gas from the pressure accumulating chamber 43 through the gas lead-out passage portion 44 moves to the first position in the movable member 20. Since it is in a state in which it can act on the bullet in the loading chamber 4 through the internal space 23 of the first passage, and both the first passage portion 49A and the second passage portion 49B in the passage connecting portion 47 are in the open state, The gas flowing into the passage connecting portion 47 is supplied to the valve housing space 48 and the first passage portion 49 in the passage connecting portion 47.
A and the second passage portion 49B are filled, and further, from the first passage portion 49A, through the first internal space 23 in the movable member 20, to reach the bullet BB in the bullet compartment 4 and The pressure receiving portion 61A is reached from the passage portion 49B through the second internal space 24 of the movable member 20.

At this time, the gas pressure required to push the bullet BB in the loading chamber 4 forward from the loading chamber 4 into the inner barrel 2I is such that the pressure receiving portion 61A has a bottomed cylindrical portion 61 and the slider portion 60. Is smaller than the gas pressure required to move it backwards. Therefore, the pressure receiving portion 6
By the gas pressure acting on the bullet BB loaded in the loading chamber 4 without the state where the pressure receiving portion 61A moves rearward together with the bottomed tubular 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.
In the inner barrel 2I, the gas pushed forward from the loading chamber 4 into the inner barrel 2I and flowing into the inner barrel 2I from the first inner space 23 in the movable member 20 as indicated by the alternate long and short dash line in FIG. In Fig. 7, it is accelerated and advances, and as shown in Fig. 7, it is projected from the tip of the inner barrel 2I and is fired. In this way, the gas from the pressure accumulating chamber 43 is used to fire the bullets in the loading chamber 4.

When the bullet BB jumps out from the tip of the inner barrel 2I, the first internal space 23 in the movable member 20
The gas flowing into the inner barrel 2I from the inside is discharged from the tip of the inner barrel 2I to the atmosphere, whereby
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 inner space 23 rapidly decreases. . The sudden decrease in the gas pressure in the first passage portion 49A of the passage connecting portion 47 causes the movable valve portion 4 arranged in the valve accommodating space 48 of the passage connecting portion 47.
6, it acts as a negative pressure to draw it toward 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 to move. The large diameter portion 46B of the valve portion 46 contacts one end of the first passage portion 49A to bring the first passage portion 49A into the closed state. As a result, the flow of the gas through the gas outlet passage portion 44 toward the shot chamber 4 through the first passage portion 49A in the passage connecting portion 47 and the first internal space 23 in the movable member 20 is caused by the movable valve portion 46. Will be blocked.

In this way, the movable valve portion 46 allows the first passage portion 49A in the gas passage connecting portion 47 through the gas outlet passage portion 44 and the first internal space 23 in the movable member 20 to reach the loading chamber 4. When the flow is blocked, the gas flowing from the pressure accumulating chamber 43 into the valve housing space 48 in the passage connecting portion 47 through the gas outlet passage portion 44 is
The second passage portion 49B of the passage connecting portion 47 without flowing into the first passage portion 49A of the passage connecting portion 47.
And, it goes toward the pressure receiving portion 61A through the second internal space 24 in the movable member 20. Therefore, at this time,
The movable valve portion 46 is provided in 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 from the state of acting on the bullets in the loading chamber 4 through the first internal space 23 in the movable member 20 of the gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44.
The flow of gas toward the pressure receiving portion 61A is blocked by the flow of the gas toward the pressure receiving portion 61A through the second internal space 24 of the movable member 20.

The gas flowing into the valve housing space 48 does not flow into the first passage portion 49A of the passage connecting portion 47, but the second passage portion 49B of the passage connecting portion 47 and the second inside of the movable member 20. By moving toward the pressure receiving portion 61A through the space 24, the gas pressure acting on the pressure receiving portion 61A rapidly increases. As a result, as shown in FIG. 8, the variable volume pressure chamber formed between the pressure receiving portion 61A and the end surface portion of the rear side portion of the movable member 20 in the bottomed tubular portion 61 by the increased gas pressure. And the slider portion 60 is rapidly moved backward against the urging force of the coil spring 17. That is, the gas from the pressure accumulating chamber 43 is used for retracting the slider portion 60. At that time, the rear end portion of the bottomed tubular portion 61 that retracts causes the first hammer 6 to rotate in the b direction against the biasing force of the coil spring 26.

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 in the bottomed tubular portion 61 are passed. The gas flowing into the variable volume pressure chamber formed between the end surface portion of the rear side portion of 20 and the end surface portion of the portion 20 continues the backward movement of the pressure receiving portion 61A together with the slider portion 60. As a result, the movable contact member 16 that contacts the rear end of the movable bar 11 is released from the state in which the position is restricted by the recess 60D provided in the bottom surface portion of the slider portion 60 as shown in FIG. At the same time, the retracted slider portion 60 pushes the slider spring member 38 in the direction against the urging force of the engaging piece portion 38B of the leaf spring member 38 to take the lower position. As a result, the movable contact member 16 and the rotating lever 1
The mutual contact state with the lower portion 15A of 5 is released, and the rotating lever 15 is rotated in the direction according to the biasing force of the engaging piece portion 38A of the leaf spring member 38. Further, the lock member 31 arranged on the second hammer 7 is
Of the slider portion 60 as shown in FIG.
By the protrusion 60C provided on the bottom surface of the toy gun, it is pressed downward against the biasing force of the coil spring 32 and 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-regulated state, and the toggle spring 30 is released.
It is rotated in the direction according to the urging force (Fig. 3).

The rotating lever 15 which is rotated by the urging force of the engaging piece portion 38A of the leaf spring member 38 engages with the lower side portion of the first hammer 6, whereby the rotating lever 15 and the first lever 6 are engaged. The hammer 6 is placed in the mutual position regulation state. In addition, the second spring which is rotated by the urging force of the toggle spring 30
The recess 7B of the hammer 7 is brought into contact with the shaft 14 to be fixed in position.

At this time, by the rotation of the second hammer 7 according to the urging force of the toggle spring 30, the position of the gas passage opening / closing portion 45 by the rotation arm 36 abutting the rear end portion of the rod 51 provided therein. It is released from the fixed state. As shown in FIG. 9, the gas passage opening / closing portion 45 released from the position fixed state by the rotating arm 36 closes the gas lead-out passage portion 44 by the gas pressure acting thereon and the biasing force of the coil spring 52. And take the position.

Therefore, under such a condition, the passage connecting portion 4
The movable valve portion 46 arranged in the valve accommodating space 48 in FIG.
The slider portion 60 is at the reference position, the movable member 20 is at a position corresponding to the reference position of the slider portion 60, and the gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is the passage connecting portion 47.
Valve accommodating space 48 and first and second passage portions 49A in
, 49B and the first and second internal spaces 23 and 24 in the movable member 20, the gas passage opening / closing portion 45 opens the gas outlet passage portion 44 in the open state, and then the first portion in the passage connecting portion 47 is opened. 1 passageway 49A
Is opened, and gas is supplied to the impact chamber 4 through the gas outlet passage portion 44 through the valve accommodating 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. From the first state in which the bullet BB is made to act, the first passage portion 49A in the passage connecting portion 47 is set in the cutoff state, and the first passage portion 49 in the passage connecting portion 47 for the gas through the gas outlet passage portion 44 is cut off.
A and the first internal space 23 in the movable member 20 block the flow toward the shot-loading chamber 4, and the gas passing through the gas outlet passage portion 44 is allowed to flow through the valve housing space 48 and the second passage portion in the passage connecting portion 47. 49B, and further to the second state in which the movable member 20 is directed to the pressure receiving portion 61A through the second internal space 24, and under the second state, the pressure receiving portion 61A is moved to the slider portion 60 by the gas pressure. Along with that, it will be moved to the rear.

As a result of the operation of the movable valve portion 46, the backward movement of the slider portion 60 is started by the gas pressure acting on the pressure receiving portion 61A which is rapidly increased after the bullet BB is fired from the inner barrel 2I. So
It is possible to prevent the slider section 60 from affecting the barrel section 2 due to its movement when the bullet BB is fired. Therefore, deviation in the direction of the bullet BB fired from the inner barrel 2I is prevented.

As shown in FIG. 9, the gas passage opening / closing section 4
5, the gas outlet passage portion 44 is closed, so that the gas flows from the pressure accumulating chamber 43 through the gas outlet passage portion 44 into the valve housing space 48 in the passage connecting portion 47.
Further, the inflow of gas from the valve accommodating space 48 to 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 accommodating space 48 in the passage connecting portion 47 is reduced, and the movable valve portion 46 arranged in the valve accommodating space 48 is moved by the coil spring 50 into a large diameter portion as shown in FIG. 46B is returned to the position separated from one end of the first passage portion 49A, and the first passage portion 49A is opened.

Thus, even if the gas outlet opening / closing portion 45 closes the gas outlet passage portion 44, 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, the rear side portion of the movable member 20 comes out of the tubular portion 61B of the bottomed tubular portion 61 to the outside. Then, the gas in the tubular portion 61B of the bottomed tubular portion 61 is discharged 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). As a result, the movable member 20 is rapidly retracted toward the bottomed tubular portion 61 by the biasing force of the coil spring 22, and as shown in FIG. The tubular portion 61 in the bottomed tubular portion 61
It is in a state where it can be inserted into B. As a result, the uppermost end portion 41A of the magazine 41, which is closed by the intermediate portion of the movable member 20, is opened, and the bullet BB filled in the magazine 41, which is at the uppermost position, is the uppermost end portion 41A.
It is pushed up by A and held.

When the slider portion 60 reaches the rearmost position as shown in FIG. 10, it is assumed that the urging force of the coil spring 17 immediately advances the slider portion 60 toward the reference position. The movable member 20 that moves forward by
The bullet BB held by A is conveyed toward the loading chamber 4.
As a result, as shown in FIG. 1, when the slider portion 60 is set to the reference position, the bullet BB is reliably loaded in the bullet compartment 4.

When the slider portion 60 reaches the rearmost position, the trigger 1 is released from the operation of pulling it. As a result, the movable contact member 16 that is in the lower position
The movable bar 11 and the trigger 1 are moved forward by the biasing force of the engaging piece portion 38B (FIG. 4) of the leaf spring member 38 that acts on the trigger 1, and the trigger 1 is returned to the operation start position as shown in FIG. . Movable abutment member 16 that is in the lower position
Is an engaging piece portion 38B (FIG. 4) of the leaf spring member 38 when the slider portion 60 reaches the reference position from the rearmost position.
By the urging force of the above, it engages with the concave portion 60D (FIG. 4) provided in the bottom surface portion of the slider portion 60, and the position is restricted 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 in the movable member 20 is connected to the loading chamber 4, and One end of the internal space 24 of 2 is the pressure receiving portion 6
The gas outlet passage portion 44 extending from the pressure accumulating chamber 43 is movable through the valve accommodating space 48 in the passage connecting portion 47, the first passage portion 49A, and the second passage portion 49B under the condition that the gas outlet passage portion 44 faces the 1A. The member 20 is placed in a state of being connected to the other ends of the first internal space 23 and the second internal space 24, respectively. Under these circumstances, the operation as described above is repeated by pulling the trigger 1 again,
The bullet BB loaded in the bullet compartment 4 is fired from the inner barrel 2I, and a subsequent bullet BB is loaded into the bullet chamber 4 subsequently.

FIG. 11 shows a main part of another example of the toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application. In the example shown in FIG. 11, the movable member 70 and the passage connecting portion 77 are used as means for replacing the movable member 20 and the passage connecting portion 47 provided in the example shown in FIG. Therefore, parts other than the movable member 70 and the passage connecting portion 77 are configured similarly to the example shown in FIG. 11, parts and members corresponding to the respective parts and members shown in FIG. 2 are shown with the same reference numerals as those in FIG. 2, and duplicate 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 allocated. The movable member 70 is located behind the loading chamber 4 and is movable in a direction along the moving direction of the slider portion 60. The movable member 70 is
Between the rear side portion of the bottomed cylindrical portion 61 that is inserted into the cylindrical portion 61B, the front side portion that engages with the annular member 4A that forms the bullet loading chamber 4, and the rear side portion and the front side portion. An annular seal member 71 formed of an elastic member is attached to the rear side portion. When the rear side portion of the movable member 70 is inserted into the tubular portion 61B of the bottomed tubular portion 61, the annular seal member 71 abuts the inner wall surface of the tubular portion 61B, so that the inside of the tubular portion 61B. The space between the wall surface and the outer peripheral surface of the rear 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, and the entire movable member 70 is closed by the coil spring 22 into a tubular bottomed portion. It is biased toward the pressure receiving portion 61A formed by the bottom portion of the portion 61. In the movable member 70, when the slider portion 60 is at the reference position, the front side portion thereof engages with the annular member 4A forming the loading chamber 4, and the rear side portion of the movable member 70 has the bottomed tubular portion 61. It is placed at a position to be inserted into the shaped portion 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 shot chamber 4 at the front side portion of the movable member 70.
The other end opens downward in the middle portion of the movable member 70. A valve receiving portion 73A is provided at the lower opening end formed by the other end of the first internal space 73 in the intermediate portion of the movable member 70. In addition, the second internal space 74
Also forms a bent gas passage, one end of which opens toward the pressure receiving portion 61A in the rear side portion of the movable member 70 and the other end of which opens downward in the intermediate portion of the movable member 70. There is. Therefore, when the slider portion 60 is at the reference position, the first internal space 73 is
Has one end connected to the loading chamber 4 and the second internal space 7
One end of 4 is closely opposed to the pressure receiving portion 61A.

On the other hand, one end of the movable member 7 is connected to the pressure accumulating chamber 43 at a position above the pressure accumulating chamber 43 in the case 40 inserted into the grip portion 8 and positioned.
The gas outlet passage portion 44 extending toward 0, the gas passage opening / closing portion 45 for the gas outlet passage portion 44, and the movable valve portion 76.
Is provided with a passage connecting portion 77.

Inside the passage connecting portion 77, the movable valve portion 76 is provided.
Is formed in the valve housing space 78. The valve housing space 78 is connected to the other end of the gas lead-out passage portion 44 extending from the pressure accumulating chamber 43, and further, the slider portion 60.
Is in the reference position, the movable member 70 arranged inside the slider portion 60 is connected to each of the first internal space 73 and the second internal space 74.

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

The movable member 7 in the passage connecting portion 77
The part which is in mutual contact with the intermediate part of 0 is the packing member 7
7A, and this packing member 77
In A, a portion connected to each of the first internal space 73 and the second internal space 74 in the movable member 70 of the valve housing space 78 is formed. Such packing member 77A
Is used to connect the valve housing space 78 in the passage connecting portion 77 to the lower opening end of the first internal space 73 and the lower opening end of the second internal space 74 in the intermediate portion of the movable member 70. However, it is surely 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 is provided with a large-diameter head portion 76A and a shaft portion 76B extending from the large-diameter head portion 76A. The shaft portion 76B is supported by a supporting portion 77B provided in the passage connecting portion 77 as a member that projects into the accommodation space 78, and the entire shaft 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 opposed to the lower opening end formed by the other end of the first internal space 73 in the intermediate portion of the movable member 70 that is located at the position corresponding to the reference position of the slider portion 60. It is located in.

A coil spring 80 is mounted on the shaft portion 76B of the movable valve portion 76.
When the slider portion 60 is in the reference position, the entire movable valve portion 76 is set to 0 at the intermediate portion of the movable member 70 which takes a position corresponding to the reference position of the slider portion 60.
Is urged 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 in the valve housing space 78 in the steady state, as shown in FIG.
The position of the movable member 70 is regulated so that the first internal space 73 of the movable member 70 is located at a position corresponding to the reference position of 0. The movable valve portion 76 whose position is regulated in this way is biased 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 through the loading chamber 4. It is in a state where it can act on the bullets inside.

The movable valve portion 76 accommodated in the valve accommodating space 78 moves in a direction in which the coil spring 80 is compressed against the biasing force of the coil spring 80 under a predetermined state described later. Then, when the slider portion 60 is at the reference position, the large-diameter head portion 76A has the other end of the first internal space 73 at the intermediate portion of the movable member 70 that takes a position corresponding to the reference position of the slider portion 60. The valve receiving portion 73A provided at the lower opening end portion to be formed is brought into contact with the valve receiving portion 73A, whereby the first internal space 73 in the movable member 70 is shut off by the large-diameter head portion 76A. The second internal space 74 of the movable member 70 is always kept open regardless of the movement of the movable valve portion 76. The movable valve portion 76, which is designed to shut off the first internal space 73, flows from the pressure accumulating chamber 43 through the gas outlet passage portion 44 toward the impact chamber 4 through the first internal space 73 in the movable member 70. Will be put in a state where it will prevent.

Even in the example shown in FIG. 11 having such a configuration, the slider section 60 is temporarily retracted by a manual operation and released from the retracting operation, so that the bullet BB is loaded in the bullet compartment 4. Is loaded, the slider portion 60 is returned to the reference position, and the passage connecting portion 77 allows the movable member 70 to pass through the gas outlet passage portion 44 through the valve accommodating space 78.
The first internal space 73 and the second internal space 74 are connected to each other.

Then, the bullet BB is loaded into the bullet loading chamber 4, and the passage connecting portion 77 passes the gas outlet passage portion 44 through the valve accommodating space 78 into the first internal space 73 and the second internal space 74 of the movable member 70. 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 where it can act on the bullet in the loading chamber 4, the pivot arm 36 attached to the second hammer 7 is provided in the gas passage opening / closing portion 45. The rod 51 is pressed while compressing the coil spring 52 attached thereto, and the gas outlet opening / closing portion 45 opens the gas outlet passage portion 44 from the position where the gas outlet passage portion 44 is closed. Position is moved to the, it is the gas leading passage 44 is opened. Then, the second hammer 7 causes the gas passage opening / closing portion 45 to connect to the gas outlet passage portion 44.
Maintain the position of the open position.

The gas from the pressure accumulating chamber 43 through the gas outlet passage portion 44 which is in the open state immediately flows into the passage connecting portion 77. At this time, the movable valve portion 76 accommodated in the valve accommodating space 78 in the passage connecting portion 77 opens the first internal space 73 in the movable member 70, and the movable valve portion 76 is removed from the pressure accumulating chamber 43 through the gas outlet passage portion 44. Gas is movable member 7
Since the bullets in the bullet compartment 4 can be acted on through the first internal space 73 of 0, both the first internal space 73 and the second internal space 74 of the movable member 70 are in the open state. Has been done. Therefore, the gas that flows into the passage connecting portion 77 will not flow into the valve housing space 7 in the passage connecting portion 77.
8 through the first internal space 73 in the movable member 70 to reach the bullet BB loaded in the loading chamber 4 and to the pressure receiving portion 61A through the second internal space 74 in the movable member 70. .

At this time, the gas pressure required to push the bullet BB in the loading chamber 4 forward from the loading chamber 4 into the inner barrel 2I is such that the pressure receiving portion 61A has the bottomed tubular portion 61 and the slider portion 60. Is smaller than the gas pressure required to move it backwards. Therefore, the pressure receiving portion 6
The gas pressure acting on 1A does not cause the pressure receiving portion 61A to move rearward along with the bottomed tubular portion 61 and the slider portion 60, and the gas pressure acting on the bullet BB in the bullet chamber 4 allows The bullets BB in the chamber 4 are pushed forward from the loading chamber 4 into the inner barrel 2I, and the gas flowing from the first internal space 73 in the movable member 70 into the inner barrel 2I causes the bullets BB in the inner barrel 2I. It is accelerated, moves forward, is projected from the tip of the inner barrel 2I, and is fired. In this way, the gas from the pressure accumulating chamber 43 is used to fire the bullets 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 inner space 73 of the movable member 70 is released from the tip of the inner barrel 2I into the atmosphere, whereby the inner barrel 2I is released. The gas pressure in the barrel 2I and the first internal space 73 in the movable member 70 is rapidly reduced. Such a movable member 7
The sudden decrease of the gas pressure in the first internal space 73 at 0 causes the movable valve portion 76 disposed in the valve accommodating space 78 in the passage connecting portion 77 to move the movable valve portion 76 to the first internal space 73 side of the movable member 70. It acts as a negative pressure to draw in the movable valve part 7
6 is moved toward the first internal space 73 in the movable member 70 against the biasing force of the coil spring 80, and the large-diameter head portion 76A of the movable valve portion 76 is moved to the first portion in the intermediate portion of the movable member 70. The first internal space 73 of the movable member 70 is brought into a closed state by contacting the valve receiving portion 73A provided at the lower opening end formed by the other end of the first internal space 73. As a result, the movable valve portion 76 blocks the flow of the gas through the gas outlet passage portion 44 toward the impact chamber 4 through the first internal space 73 of the movable member 70.

In this way, when the movable valve portion 76 blocks the flow of gas through the gas outlet passage portion 44 through the first internal space 73 of the movable member 70 toward the impact chamber 4, the pressure accumulating chamber 43 is removed. The gas that has flowed into the valve accommodating 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 toward the pressure receiving portion 61A, and the pressure receiving portion 6A
The gas pressure acting on 1A rapidly increases. Thereby,
The increased gas pressure causes the pressure receiving portion 61A to rapidly move rearward while increasing the variable volume pressure chamber formed between the end face portion of the rear side portion of the movable member 70 in the bottomed tubular portion 61. As a result, 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 retracting the slider portion 60.

The subsequent operation proceeds in the same manner as the operation in the example shown in FIG. 2 described above, and the slider portion 6
The movable member 70 is retracted to the rearmost position of 0 and the slider portion 60 is retracted, and then the slider portion 60 is moved forward with the movable member 70 to return to the reference position. The chamber 4 is loaded with a new bullet BB.

Under such a condition, in the movable valve portion 76 arranged in the valve accommodating space 78 in the passage connecting portion 77, the slider portion 60 is at the reference position and the movable member 70 is at the reference position of the slider portion 60. The gas outlet passage portion 44 extending from the pressure accumulating chamber 43 at the corresponding position is connected to the first and second internal spaces 73 and 74 of the movable member 70 through the valve accommodating space 78 of the passage connecting portion 77. 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.
Is opened, and the gas that has passed through the gas discharge passage portion 44 acts on the bullet BB that has been supplied to the shot chamber 4 through the valve accommodating space 78 in the passage connecting portion 77 and further through the first internal space 73 of the movable member 70. From the first state,
With the first internal space 73 of the movable member 70 in a shut-off state, the gas passing through the gas outlet passage 44 passes through the valve housing space 78 in the passage connecting portion 77 and the first internal space 73 in the movable member 70, and the impact chamber 4 Second, the flow toward the pressure receiving portion 61A is blocked by the flow of gas 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. Under the second state, the pressure receiving portion 61A is moved rearward together with the slider portion 60 by the gas pressure.

As a result of the operation of the movable valve portion 76, the backward movement of the slider portion 60 is started by the gas pressure acting on the pressure receiving portion 61A which is rapidly increased after the bullet BB is fired from the inner barrel 2I. So
It is possible to prevent the slider section 60 from affecting the barrel section 2 due to its movement when the bullet BB is fired. Therefore, deviation in the direction of the bullet BB fired from the inner barrel 2I is prevented.

The configurations of the movable member 20 or 70, the passage connecting portion 47 or 77 and the like in the example shown in FIG. 2 and the example shown in FIG. 11 are claimed in claims 1 to 7 of the present application. The main part of the configuration that the toy gun with an automatic bullet feeding mechanism according to the invention described in any of items 6 to 6 is to be illustrated, and they are not limited thereto. That is, the toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application has a specific configuration different from that of the movable member 20 or 70. And a passage connecting portion containing a movable valve portion disposed outside the movable member, which has a specific configuration different from that of the passage connecting portion 47 or 77 described above. Of course, this may be done.

[0088]

As is apparent from the above description, according to the toy gun with the automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the scope of claims of the present application, the trigger is provided. When a part is operated, a series of operations started in response to the operation is performed by first rotating the hammer part, and in response to the rotation of the hammer part, a movable member arranged outside the movable member is moved. The action of the valve portion is such that the bullet is fired in the bullet chamber, and the slider portion is retracted and then moved forward to supply the bullet to the bullet chamber. Then, when the bullet in the bullet compartment is fired, it is possible to surely avoid the situation where the movement of the slider portion affects the barrel portion, and thus it is possible to prevent the shot bullet from being misaligned. Moreover, by disposing the movable valve portion outside the movable member, the structure of the movable member can be simplified.

Further, according to the toy gun with the automatic bullet feeding mechanism according to the invention described in claim 6 in the scope of the claims of the present application, the movable valve portion arranged at the passage connecting portion outside the movable member is According to the biasing force of the spring member,
The gas from the accumulator through the gas outlet passage is used as a movable member .
In the first state in which it acts on the bullet in the bullet chamber through the first internal space in the first chamber, the gas from the accumulator is used to fire the bullet in the bullet chamber, and
As the gas pressure in the first internal space decreases, the gas is moved against the urging force of the spring member, and the flow of the gas through the gas outlet passage portion through the first internal space of the movable member toward the impact chamber. To prevent the gas from flowing through the gas outlet passage portion toward the pressure receiving portion through the second internal space of the movable member. Therefore, the movable member and the passage in which the movable member is arranged are arranged. The structure of the connecting portion can be made extremely simple, and the movable member can be operated reliably.

[Brief description of drawings]

FIG. 1 is a sectional view for explaining the configuration and operation of an example of the toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application. Is.

FIG. 2 is a sectional view showing an example of a toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 in the claims of the present application.

FIG. 3 is a partial cross-sectional view provided for explanation of the configuration and operation of the example shown in FIG.

FIG. 4 is a partial cross-sectional view provided for explanation of the configuration and operation of the example shown in FIG.

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

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

FIG. 7 is a partial cross-sectional view provided for explaining the configuration and the operation of the example shown in FIG.

FIG. 8 is a partial cross-sectional view provided for explaining the configuration and the operation of the example shown in FIG.

9 is a partial cross-sectional view provided for explaining the configuration and the operation of the example shown in FIG.

10 is a partial cross-sectional view provided for explaining the configuration and the operation of the example shown in FIG.

FIG. 11 is a partial cross-sectional view showing a main part of another example of the toy gun with an automatic bullet feeding mechanism according to the invention described in any one of claims 1 to 6 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 turning lever 16 movable contact members 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 Accumulation chamber 44 Gas derivation passage Part 45 Gas passage opening / closing part 46,76 Movable valve part 47,77 Passage connecting part 48,78 Valve accommodation space 49A First passage part 49B Second passage part 51 Rod 60 Slider part 61 Bottomed tubular part 61A Pressure receiving part BB bullet

Claims (6)

(57) [Claims] 1. A loading chamber provided at a rear end portion of a barrel portion, to which a bullet is supplied from a magazine portion, and a movable portion which can move in a direction along the barrel portion, and is retracted.
A slider portion forming the preparation for automatic supply of a bullet to the bullet holding chamber from the magazine unit when performing, provided in portions serving as the rear of the barrel portion of the slider portion, and integrally said slider unit The moving pressure-receiving part, the first internal space opening toward the loading chamber, and the receiving part.
Toward the pressure portion is formed with a second inner space which opens disposed behind the bullet holding chamber, a movable member which is movable in the direction along the moving direction of the slider, toward the movable member Accumulating chamber in which the extending gas outlet passage portion is connected, a gas passage opening / closing portion that controls the opening and closing of the gas outlet passage portion, and a gas passage opening / closing portion that is disposed outside the movable member and that corresponds to the position of the movable member. The gas lead-out passage portion is formed in the first movable member .
And a second inner space , and a passage connecting portion arranged to be connected to both of the first and second internal spaces , and the gas connecting passage portion is arranged in the passage connecting portion, and the gas outlet passage portion is formed in the movable member by the passage connecting portion. In the period in which the gas passage opening / closing portion is connected to the space and the gas passage opening / closing portion opens the gas outlet passage portion, the gas from the pressure accumulating chamber through the gas outlet passage portion is supplied to the movable member.
The first state in the movable member from the first state in which the bullet is applied to the bullet through the first internal space in
And moves in response to pressure drop exerted on the internal space of the in the movable member of the gas through the gas leading passage section
And preventing the flow toward the bullet holding chamber through the first internal space, the gas through the gas outlet passage to the movable member
Movable valve portion that shifts to the second state in which the pressure receiving portion is directed toward the pressure receiving portion through the second internal space, and moves the pressure receiving portion rearward together with the slider portion by the gas pressure under the second state. And rotating in conjunction with a trigger unit operated to fire a bullet in the bullet chamber, and by pressingly moving the gas passage opening / closing unit in accordance with the rotation, the gas from the pressure accumulating chamber, A flow is generated through the gas outlet passage portion , the passage connecting portion, and the first inner space of the movable member toward the loading chamber, and then the gas outlet passage portion , the
A toy gun with an automatic bullet feeding mechanism, comprising: a hammer portion that makes a state in which a flow toward the shot chamber is blocked through the passage connecting portion and the first internal space of the movable member. Wherein said gas passage opening and closing portion, claim 1 model gun with automatic bullet supplying mechanism according to characterized in that it comprises a rod member pushing force accompanying the rotation of the hammer portion is caused to act. Wherein said hammer section, automatic bullet according to claim 2, further comprising a rotating member for transmitting the pressing force caused by the rotation of the hammer portion to a rod member provided in the gas passage opening and closing portion Toy gun with supply mechanism. Wherein said hammer section, in conjunction with the operation of the trigger unit with causing the pressing movement in the gas passage opening and closing unit, in conjunction with the backward movement of the slider portion the pushing movement of the gas passage switching unit The toy gun with an automatic bullet feeding mechanism according to claim 1, which is released. 5. accumulated urging force when the hammer unit performs rotation in conjunction with the backward movement of the slider, acting on the hammer portion該付force in conjunction with the operation of the <br/> trigger unit is by causing, claim 4 automatic bullet supplying mechanism with toy gun, wherein the spring member that causes the rotation to push moving the gas passage switching unit to the hammer portion is provided. 6. A spring member for biasing the movable valve unit in a predetermined direction is provided, the movable valve part, the biasing force of the spring member, with taking the first state on reporting, the accumulator gas from the with the decrease of the gas pressure in the first internal space in the movable member by being utilized in the firing of bullets the bullet holding chamber, to move against the biasing force of the spring member, the upper Symbol The toy gun with an automatic bullet feeding mechanism according to claim 1, which is in a second state.