JP3929419B2 - Toy gun firing mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a firing mechanism for a toy gun.
[0002]
[Prior art]
As a conventional toy gun launching mechanism, in particular, a launching mechanism using a piston spring as a launching power source, Japanese Patent Laid-Open No. 63-140298 “Launching mechanism of an air gun for gaming” (prior art 1), Japanese Utility Model Laid-Open No. 6-40893. The publication "Structure of the engine part for a playgun" (prior art 2) is well known.
[0003]
Prior Art 1 states that, in a firing mechanism of a gaming air gun in which the air inside a cylinder is compressed by a synthetic resin piston biased by a spring and a bullet is fired, the tip of the spring cannot be detached from the piston. The “piston cocking lever 7, piston 11, cylinder 9, spring 17” and the like are disclosed.
[0004]
Prior Art 2 relates to “the structure of an engine part for a playgun”, “a piston that is slidably housed in a cylinder and provided with a piston projection, a piston spring that biases the piston toward the muzzle side, and a piston spring Piston spring guide presser that restricts the movement toward the muzzle side, a first protrusion that protrudes in the cylinder, and a second protrusion that protrudes from the first protrusion to the muzzle side are provided and can be rotated by a shaft pin. A shear that is attached to the engine part and is always biased so that the first protrusion rotates in the anti-muzzle direction, and a trigger sear protrusion part that is rotatably attached to the engine part and provided on the cylinder side from the shaft pin. `` A trigger shear that is always urged to contact the shear and a trigger that releases the contact between the trigger shear protrusion and the shear '' is disclosed. There.
[0005]
[Problems to be solved by the present invention]
In the conventional toy guns exemplified in the prior arts 1 and 2, the engine body, the slidable cylinder, the cocking handle fixed to the cylinder, the piston slidable inside the cylinder, and the piston on the muzzle side Piston spring that urges, spring guide that guides the piston spring, spring guide receiver that fixes the spring guide at a fixed position with respect to the engine body, and cannot be locked when the piston moves to the muzzle side. When moving to the muzzle side, there is a disclosure of the construction and operation of a toy gun firing mechanism such as a shear that can be locked and unlocked with a piston, a trigger that is connected to the shear via a shear bar, It is known.
[0006]
However, in the conventional toy guns exemplified in the conventional techniques 1 and 2, the position of the cocking handle is the same whether the toy gun can be fired or not fired, and it is visually determined whether it is fireable or not fireable. It was difficult to do. That is, in the unfireable state (non-cocking state), the cylinder and the cocking handle are located at the forefront. In addition, after the cylinder and the cocking handle are moved rearward from the state, the cylinder and the cocking handle are similarly positioned at the forefront in a state where the cylinder and the cocking handle are returned to the forefront and can be fired (cocking state). Therefore, it is difficult to determine the relative positions of the cocking handle and the cylinder and the engine body in the same state in both appearance and inability to launch.
[0007]
The present invention provides a toy gun firing mechanism that allows anyone to easily determine from the appearance whether the toy gun is ready to fire or not. The aim is to improve the safety of using toy guns by preventing firing and explosion.
[0008]
[Means for solving the problems]
In order to solve this problem, an engine body, a cylinder slidable with respect to the engine body, a cocking handle fixed to the cylinder, and a piston slidable with respect to the cylinder are provided. A piston spring that urges the piston toward the muzzle side, a spring guide that guides the piston spring, a spring guide receiver that fixes the spring guide at a fixed position relative to the engine body, and a movement of the piston toward the muzzle side is closed and lockable and locking releasable shear the piston when moving to the muzzle side is the piston a locking impossible, and trigger linked via a Shiaba between shear when,
Forming a first through hole in the longitudinal direction of the spring guide;
A second through hole is formed in the longitudinal direction of the barrel inside the rear of the cylinder,
Movably penetrating the second through hole of the rear interior of the first through-hole and the cylinder of the spring guide, the firing mechanism of the toy gun to have a Indicator bar arranged projecting to the rear from the rear end portion of the cylinder,
A retaining ring fixed to the indicator bar and movable in the second through hole, and an indicator bar spring for urging the indicator bar toward the muzzle side are provided in the second through hole,
By moving the cocking handle back to the maximum with respect to the engine unit body and moving the cylinder to the maximum rearward, the indicator bar is moved backward together with the cylinder,
The indicator bar is in the state where the retaining ring is in contact with the inner surface of the front end by the biasing force of the indicator bar spring in the second through hole in the rear part of the cylinder. Move it to the rear of the cylinder without protruding from it,
Furthermore, when the cocking handle is moved forward,
The indicator bar moves forward along with the cylinder because the retaining ring is in contact with the front end surface portion of the second through hole, and the indicator bar front end contact surface is in contact with the indicator bar contact surface of the piston. Proposed is a toy gun firing mechanism characterized in that forward movement is prevented, and the projectable portion of the rear portion of the indicator bar projects from the rear end of the cylinder to the outside and is visible from the outside .
[0009]
Furthermore, in the toy gun launching mechanism described in the above [0008] column, the toy that is the indicator bar in which the portion that can protrude rearward from the rear end portion of the cylinder of the indicator bar is an indicator bar whose surface is formed with easy-to-view color or luminous paint Proposed gun firing mechanism.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
1 to FIG. 5, FIG. 1 to FIG. 3, and FIG. 1 to FIG. 3 and FIG. 5 are explanatory views of internal operation of a cross section viewed from the right side of the engine unit main body in one embodiment of the toy gun firing mechanism of the present invention. FIG. 6 is a cross-sectional enlarged operation explanatory view of the second through-hole in the cylinder rear portion, FIG. 7 is a cross-sectional enlarged operation explanatory view of the second through-hole in the cylinder rear portion corresponding to FIG. 6, and a retaining ring which is also one embodiment. This will be described with reference to FIG. Hereinafter, in the description of the embodiment of the present invention, forward and forward movement are movement of the member toward the muzzle side and the muzzle side (right direction in the drawing), and backward and backward movement are movement of the member toward the anti-muzzle side and the anti-muzzle side. Movement (left direction in the drawing).
[0012]
The toy gun launching mechanism of the present invention comprises an engine body 1, a cylinder 2, a cocking handle 3, a piston 4, a piston spring 5, a spring guide 6, a spring guide receiver 7, a shear 8, and a shear bar. 9, a trigger 10, an indicator bar 11, a retaining ring 12, and an indicator bar spring 13.
[0013]
The engine unit main body 1 is provided with a cylinder 2 slidably in an inner cylinder which is an internal hollow part, and a barrel 14 which is a bullet passage is opened as an elongated hollow hole on one end side of the inner cylinder, and a muzzle (not shown) It continues to. A loading chamber 15 is provided on the cylinder side of the barrel 14, and the bullets 16 are provided so that they can be dropped in front of the loading chamber 15 one by one from the upper front of the loading chamber 15 by firing the bullet 16.
[0014]
The cylinder 2 is formed of a cylindrical body that is slidable on the inner cylinder of the engine body 1 and is provided with a cocking handle 3 that is fixed to the rear upper part of the cylinder 2 and moves integrally. The nozzle 21 is protruded. A second through hole 20 penetrating from the rear end portion 22 of the cylinder 2 in the longitudinal direction of the barrel is formed, and the indicator bar 11 is movably inserted into the second through hole 20. The second through-hole 20 has a small-diameter through-hole 200 having a slightly larger inner diameter that does not differ from the outer diameter of the indicator bar 11 at the rear, and a large-diameter through that has an inner diameter larger than the outer diameter of the indicator bar 11 at the front. The hole 201 is formed. The inner diameter of the large-diameter through hole 201 may be such that there is an interval at which the retaining ring 12 and the indicator bar spring 13 are provided on the outer periphery of the indicator bar 11. A retaining ring 12 is fixed to the indicator bar 11 on the front side in the large-diameter through hole 201. An indicator bar spring 13 is provided between the retaining ring 12 and the peripheral surface at the rear side end of the large-diameter through hole 201.
[0015]
The cocking handle 3 protrudes upward from the engine unit main body 1 and can manually move the cylinder 2 relative to the engine unit main body 1 before and after the toy gun.
[0016]
The piston 4 is provided in a hollow cylindrical portion provided inside the cylinder 2 so as to be movable in the front-rear direction. A piston cup 40 is attached to the piston 4 at the end of the piston 4 on the muzzle side. The piston 4 is provided with a cylindrical protrusion 43 that protrudes toward the inside center of the piston cup 40 on the muzzle side. The cylindrical protrusion 43 has an opening on the side opposite to the muzzle side, and the muzzle side is closed by an inner end surface that contacts the bottom surface of the cylinder, and the inner end surface is formed as an indicator bar contact surface 41. The piston 4 has a rear end formed larger in diameter than the piston cylinder, and has a piston locking projection 42 slidable on the inner circumferential surface of the cylinder 2. A shear upper locking projection 80 of the shear 8 is formed. And can be locked and unlocked. The piston 4 is urged forward (muzzle side) by a piston spring 5 in the hollow cylindrical portion of the cylinder 2.
[0017]
The piston spring 5 is provided with a spring guide 6 made of a rod-like body provided in the same direction as the barrel direction inside the spring coil, and when the piston spring 5 is shortened after being extended inside the cylinder 2, the piston spring 5 is , Guide not to bend. The piston spring 5 is fixed or brought into contact with the large diameter portion 60 at the rear part of the spring guide 6 on the rear side, and fixed or brought into contact with the inner end face of the piston 4 on the front side of the piston 4.
[0018]
The spring guide 6 is composed of a rod-like body provided in the same direction as the barrel direction, and has a large diameter portion 60 formed at the rear portion. The large diameter portion 60 is located at a fixed position with respect to the engine body 1. It is fixed to a spring guide receiver 7 attached to the lower part of the body 1. The spring guide 6 forms a first through hole 61 that passes through the longitudinal direction of the rod-shaped body, and the first through hole 61 has an inner diameter slightly larger than the outer diameter of the indicator bar 11, The indicator bar 11 is movably inserted.
[0019]
The shear 8 is disposed near the muzzle side of the spring guide receiver 7 at the lower part of the engine body 1, and has a shear upper locking projection 80 at the upper part and a shear lower locking projection 81 at the lower part. A shear shaft 82 provided in the middle thereof is provided so as to be rotatable. A shear spring 83 is locked to the shear shaft 82, and a shear upper locking projection 80 is biased counterclockwise in the drawing by the rotational biasing force of the shear spring 83. A shear hole that opens as an elongated hole at the bottom of the cylinder 2 protrudes into the cylinder 2 and supports the shear 8 in a posture positioned in the cylinder 2.
[0020]
When the shear 8 moves rearward of the piston 4, the shear upper locking projection 80 rotates counterclockwise around the shear shaft 82 and cannot be locked with the piston locking projection 42. . Further, when the piston 4 moves forward, the shear upper locking projection 80 cannot rotate because the shear lower locking projection 81 of the shear 8 is in contact with the shear bar locking surface 90 of the shear bar 9. The piston locking projection 42 can be locked by the shear upper locking projection 80 to lock the piston 4. When the trigger 10 is pulled and the sheer bar 9 rotates clockwise about the sheer bar fulcrum 91, the sheer bar locking surface 90 is disengaged from the shear lower locking projection 81, and the piston spring 5 is biased by the biasing force of the piston spring 5. The locking of the protrusion 42 and the shear upper locking protrusion 80 is released.
[0021]
The sheer bar 9 is rotatable around a sheer bar fulcrum 91 and is biased counterclockwise by a sheer bar spring 92. The shear bar 9 is formed with a front end face as a shear bar locking face 90 and a lower face of the rear end portion is formed into a slope to form a trigger locking face 93.
[0022]
The trigger 10 is rotatable about the trigger fulcrum 100 and is biased to rotate counterclockwise by the trigger spring 101 so that the upper portion of the trigger 10 abuts against the trigger locking surface 93. I support it.
[0023]
The indicator bar 11 is a single straight and long rod-like body, the front part is movably inserted into the first through hole 61 of the spring guide 6, and the rear part is a second through hole inside the rear of the cylinder 2. 20 is movably inserted into the interior. The indicator bar 11 is fixedly provided with a retaining ring 12 made of an Ω ring in which a part of the ring is cut out at a front position in the large-diameter through-hole 201 formed in the front part of the second through-hole 20. ing. As another embodiment of the retaining ring 12, an openable 0-ring may be used, and a part of the indicator bar 11 itself may be formed thick in a retaining ring shape. An indicator bar spring 13 is provided between the retaining ring 12 and the peripheral surface at the rear side end of the large-diameter through hole 201 to urge the indicator bar 11 forward.
[0024]
In this embodiment, the indicator bar 11 is a round bar having a diameter of 3 mm. However, the indicator bar 11 may be a square bar and has a thickness of about 2 to 5 mm. The length of the indicator bar 11 is such that when the piston 4 moves rearward in the cylinder 2 and the piston locking protrusion 42 and the shear upper locking protrusion 80 are locked, the front end contact surface of the indicator bar 11 is The rear end portion of the indicator bar 11 may protrude to the rear from the rear end portion 22 of the cylinder 2 when the rear end portion of the cylindrical protrusion 43 contacts the indicator bar contact surface 41. A portion 110 to several tens of millimeters from the rear end portion of the indicator bar 11 is a projectable portion 110, and in a projectable state, it projects from the rear end portion 22 of the cylinder 2 and is visible from the outside. In an embodiment according to claim 3 of the present invention, the projectable portion 110 of the indicator bar 11 is a color that is easy to visually recognize, for example, a color that is clearly distinguishable from a color of the toy gun body, particularly a color of the rear end of the toy gun, or The surface is formed with luminous paint.
[0025]
Next, the operation of one embodiment of the toy gun firing mechanism of the present invention will be described. FIG. 1 shows a state in which it is not ready for launch, i.e. not in a cocking state. In a state where preparation for launch is not made as shown in FIG. 1, the indicator bar 11 is in a state where the retaining ring 12 is brought into contact with the inner surface of the front end by the urging force of the indicator bar spring 13 in the second through hole 20. The rear end portion of the indicator bar 11 does not protrude from the rear end portion 22 of the cylinder 2. Therefore, the projectable portion 110 of the indicator bar 11 is also buried in the second through hole 20 and is not visible from the outside.
[0026]
In addition, the cylinder 2 is positioned at the front end inside the cylinder of the engine body 1, and the cylinder nozzle 21 is inserted into the loading chamber 15. The next bullet 16 is held in the upper part of the loading chamber 15 by the cylinder nozzle 21. The piston 4 is urged to the front end in the cylinder 2 by the urging force of the piston spring 5 extended in the cylinder of the cylinder 2, and the piston cup 40 comes into contact with the inner surface of the front end of the cylinder 2. Yes.
[0027]
FIG. 2 shows the cylinder 2 fixed integrally with the cocking handle 3 by moving the cocking handle 3 to the maximum against the urging force of the piston spring 5 backward with respect to the engine body 1 by means such as manual operation. Is the state in which the engine unit main body 1 is moved to the maximum rearward. In the state of FIG. 2, the piston 4 is in contact with the large diameter portion 61 of the spring guide 6 fixed to the spring guide receiver 7 at the rear end portion in the cylinder 2. The cylinder 2 that has moved the piston 4 backward cannot move further any further. In this state, the front end abutting portion 111 of the indicator bar 11 is positioned around the middle portion in the first through hole 61 of the spring guide 6, and the indicator bar on the inner end surface of the cylindrical projection 43 on the muzzle side of the piston 4. There is a distance from the contact surface 41 and there is no contact. Further, the indicator bar 11 is in a state in which the retaining ring 12 is in contact with the inner surface of the front end by the urging force of the indicator bar spring 13 in the second through hole 20 at the rear portion of the cylinder 2 as shown in FIG. The projectable portion 110 that is the rear end portion of the indicator bar 11 moves backward integrally as the cylinder 2 moves rearward without protruding from the rear end portion 22 of the cylinder 2.
[0028]
In the middle of the movement of the piston 4 from the state of FIG. 1 to the state of FIG. 2, the piston locking projection 42 contacts the shear upper locking projection 80, but the shear upper locking projection 80 supports the shear shaft 82 as a fulcrum. Therefore, the backward movement of the piston 4 is not hindered. In FIG. 2, the cylinder nozzle 21 of the cylinder 2 is disengaged from the inside of the loading chamber 15, so that the next bullet 16 moves to the front of the loading chamber 15.
[0029]
FIG. 3 shows a state where the cylinder 2 is returned slightly forward from the state of the cylinder 2 and the engine body 1 of FIG. 2, and the piston locking projection 42 of the piston 4 is engaged with the shear upper locking projection 80 of the shear 8. In order to stop, the piston 4 stops moving forward at that position.
[0030]
4 further moves the cocking handle 3 forward from FIG. 3 to the same position as FIG. 1, and the cylinder 2 fixed integrally with the cocking handle 3 also moves to the same position as FIG. That is, it becomes a cocked state. In this state, the piston 4 is urged forward by the urging force of the piston spring 5, but the piston locking projection 42 of the piston 4 is still locked with the shear upper locking projection 80 of the shear 8. Therefore, the forward movement remains stopped. Accordingly, the relative position of the piston 4 to the cylinder 2 in the cylinder 2 changes.
[0031]
The indicator bar 11 moves forward along with the forward movement of the cylinder 2 because the retaining ring 12 is in contact with the front end surface portion of the second through-hole 20, but the indicator bar front end contact surface 111 is The forward movement of the piston 4 from the position abutting on the indicator bar abutting surface 41 which is the inner end surface of the cylindrical protrusion 43 of the piston 4 is blocked, and only the cylinder 2 moves forward with respect to the engine body 1. Therefore, the indicator bar 11 is in a state in which the rear projectable portion 110 projects outward from the rear end 22 of the cylinder 2 and is visible from the outside. At this time, as shown in FIG. 7, the retaining ring 12 in the second through hole 20 of the cylinder 2 also moves rearward inside the second through hole 20 against the urging force of the indicator bar spring 13. When the surface of the projectable portion 110 is formed of a color or a luminescent paint that is easy to visually recognize as in the third aspect, it is easier to confirm the state in which the projectable portion 110 can be fired from the outside.
[0032]
5 pulls the trigger 10 in the direction of the arrow against the biasing force of the trigger spring 101 from the state of FIG. 4, pushes the trigger locking surface 93 of the shear bar 9, and biases the shear bar 9 to the biasing force of the shear bar spring 92. Against this, it is rotated around the sheer bar fulcrum 91 to release the engagement between the shear bar locking surface 90 and the shear lower locking projection 81. Therefore, the rotation of the shear 8 becomes free, the piston locking projection 42 that has been locked with the shear upper locking projection 80 is released, and the piston 4 draws air in the cylinder 2 by the biasing force forward of the piston spring 5. It moves forward vigorously while compressing. Due to the pressure of this compressed air, the bullet 16 located in the loading chamber 15 is fired from a muzzle (not shown) through the barrel 14.
[0033]
In the bullet firing state of FIG. 5, the indicator bar 11 comes into contact with the front end contact surface 111 and the inner end surface of the cylindrical protrusion 43 of the piston 4 by moving the piston 4 forward in the cylinder 2. The contact with the surface 41 is released and separated. Therefore, the indicator bar 11 presses the retaining ring 12 forward in the second through hole 20 of the cylinder 2 by the forward biasing force of the indicator bar spring 13 and comes into contact with the front end surface portion of the second through hole 20. Moving. With the movement of the indicator bar 11 that moves integrally with the retaining ring 12, the projectable portion 110 at the rear of the indicator bar 11 also enters the second through hole 20 from the rear end surface 22 of the cylinder 2 due to this movement, and the projectable portion 110 is outside. Becomes invisible. Therefore, in this state, it can be visually recognized from the outside that it is in a firing impossible state, that is, a state where it is not cocked.
[0034]
From FIG. 5, the piston 4 returns to FIG. 1 in a state where the piston 4 has moved to the foremost position inside the cylinder 2, and the firing operation can be repeated repeatedly from FIG. 1 to FIG.
[0035]
【The invention's effect】
Therefore, according to the present invention, if the toy gun is in a state where it can be fired (cocking state) or in a state where it is impossible to fire (non-cocking state), if the rear end of the toy gun is viewed at a glance, Now it can be easily judged. In other words, if the toy gun operator can see the projecting portion of the indicator bar from the rear end of the cylinder (the rear end of the toy gun) and can be seen from the outside, the toy gun can be fired. If you can't see it, you can't fire.
[0036]
If the surface of the indicator bar that can protrude is made of a color that is clearly distinguishable from the color of the main body of the toy gun, particularly the color of the rear end of the toy gun, or a luminescent paint, it will be easier and more reliable to launch. Visual recognition is possible.
[0037]
Therefore, it is possible to prevent a toy gun from being accidentally fired or expelled due to misunderstanding or wrong judgment, and to improve the safety of using the toy gun.
[Brief description of the drawings]
FIG. 1 is a cross-sectional internal operation explanatory view of a toy gun firing mechanism according to one embodiment of the present invention as viewed from the right side surface of the engine unit main body. FIG. Cross-sectional internal operation explanatory view seen from the surface side [Fig. 3] Cross-sectional internal operation explanatory view of the toy gun firing mechanism seen from the right side of the engine unit main body [Fig. 4] Similarly toy gun firing mechanism right side of the engine unit main body Cross-sectional internal operation explanatory view as seen from the surface side [FIG. 5] Similarly, cross-sectional internal operation explanatory view of the toy gun firing mechanism as seen from the right side of the engine unit main body [FIG. 6] Corresponding to FIGS. 1 to 3 and FIG. Cross-sectional enlarged operation explanatory view of the second through hole in the rear part of the cylinder [FIG. 7] FIG. 8 is also an enlarged explanatory view of the cross-sectional operation of the second through hole in the rear part of the cylinder corresponding to FIG. Front view [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Engine part main body 2 Cylinder 20 2nd through-hole 200 Small diameter through-hole 201 Large diameter through-hole 21 Cylinder nozzle 22 Rear end part 3 Cocking handle 4 Piston 40 Piston cup 41 Indicator bar contact surface 42 Piston latching protrusion 43 Cylindrical shape Projection 5 Piston spring 6 Spring guide 60 Large diameter portion 61 First through hole 7 Spring guide receiver 8 Shear 80 Shear upper locking projection 81 Shear lower locking projection 82 Shear shaft 83 Shear spring 9 Shear bar 90 Shear bar locking surface 91 Shear bar Support point 92 Shear bar spring 93 Trigger locking surface 10 Trigger 100 Trigger support point 101 Trigger spring 11 Indicator bar 110 Protrusable part 111 Front end abutting part 12 Retaining ring 13 Indicator bar spring 14 Barrel 15 16 bullet

Claims (2)

Engine part body, cylinder slidable with respect to the engine part body, cocking handle fixed to the cylinder, piston slidable with respect to the cylinder, and biasing the piston toward the muzzle side The piston spring that moves, the spring guide that guides the piston spring, the spring guide receiver that fixes the spring guide in a fixed position with respect to the engine body, and the piston cannot be locked when moving to the muzzle side when the movement of the piston of the muzzle-side possess a lockable and locking releasable shear the piston, and a trigger connecting via Shiaba between shear,
Forming a first through hole in the longitudinal direction of the spring guide;
A second through hole is formed in the longitudinal direction of the barrel inside the rear of the cylinder,
Movably penetrating the second through hole of the rear interior of the first through-hole and the cylinder of the spring guide, the firing mechanism of the toy gun to have a Indicator bar arranged projecting to the rear from the rear end portion of the cylinder,
A retaining ring fixed to the indicator bar and movable in the second through hole, and an indicator bar spring for urging the indicator bar toward the muzzle side are provided in the second through hole,
By moving the cocking handle back to the maximum with respect to the engine unit body and moving the cylinder to the maximum rearward, the indicator bar is moved backward together with the cylinder,
The indicator bar is in the state where the retaining ring is in contact with the inner surface of the front end by the biasing force of the indicator bar spring in the second through hole in the rear part of the cylinder. Move it to the rear of the cylinder without protruding from it,
Furthermore, when the cocking handle is moved forward,
The indicator bar moves forward along with the cylinder because the retaining ring is in contact with the front end surface portion of the second through hole, and the indicator bar front end contact surface is in contact with the indicator bar contact surface of the piston. A toy gun firing mechanism characterized in that forward movement is prevented, and the projectable portion of the rear portion of the indicator bar projects outward from the rear end of the cylinder and is visible from the outside.   2. The toy gun firing mechanism according to claim 1, wherein the portion of the indicator bar that can project rearward from the rear end portion of the cylinder is an indicator bar whose surface is formed with an easily visible color or luminescent paint.

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