CN215864883U - A go out thorax device and toy gun for toy - Google Patents

Abstract

The utility model relates to the technical field of toys, in particular to a chamber outlet device for a toy and a toy gun, wherein the chamber outlet device comprises a hollow cylinder barrel, a piston matched with the inner diameter of the cylinder barrel, a power mechanism in driving connection with the piston, and a guide mechanism provided with a chamber outlet channel and at least one magazine, wherein a bending angle is arranged on the cylinder barrel to form a power section barrel body and an output section barrel body which are mutually communicated, and the power mechanism is used for driving the piston to slide in the power section barrel body, so that air in the cylinder barrel is discharged into one magazine through the output section barrel body, and further, bullets in the magazine are pushed to be ejected along the chamber outlet channel; through set up the angle of bending on hollow cylinder in order to form power section barrel and output section barrel for the piston can not slide in the direction of same straight line with output section barrel and jet out with the drive bullet, has improved the structure of product and has set up the flexibility ratio, has still improved the whole compact degree of product, need not to set up the motor shooting bullet side by side, has reduced the noise.

Description

A go out thorax device and toy gun for toy

Technical Field

The utility model relates to the technical field of toys, in particular to a chamber outlet device for a toy and a toy gun.

Background

In order to have higher simulation function, the existing toy gun is generally provided with a chamber outlet device for pushing a child to pop out of a chamber, but the existing chamber outlet device still has the following technical problems in the practical application process:

firstly, a chamber outlet device on a part of toy guns uses an upper pushing motor and a lower pushing motor which are arranged in parallel to jointly push bullets to carry out chamber outlet along a preset track, and the two motors which are arranged in parallel in the chamber outlet device are required to be arranged on the same straight line with the chamber outlet track, so that the structural arrangement flexibility of the toy gun is low, and the whole volume of the toy gun is large; moreover, the parallel motor type chamber outlet device can generate very large noise in the process of shooting bullets;

secondly, the chamber outlet devices on part of the toy gun push the bullets to be discharged along a preset track through the push rods moving fast, and the push rods and the chamber outlet tracks in the chamber outlet devices need to be arranged on the same straight line, so that the structure setting flexibility of the toy gun is low, and the overall compactness of the toy gun is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a toy gun with high structural arrangement flexibility, low noise and higher overall compactness and an chamber outlet device for the toy.

In a first aspect, the utility model provides a chamber outlet device for a toy, which comprises a hollow cylinder barrel, a piston matched with the inner diameter of the cylinder barrel, a power mechanism in driving connection with the piston, and a guide mechanism provided with a chamber outlet channel and at least one magazine;

the cylinder barrel is provided with a bending angle to form a power section barrel and an output section barrel which are communicated with each other;

the power mechanism is used for driving the piston to slide in the power section cylinder body, so that air in the cylinder barrel is discharged into one of the magazine through the output section cylinder body, and bullets in the magazine are further pushed to be ejected along the chamber outlet channel.

In some embodiments, the power mechanism includes an elastic member, a transmission member and a driving member;

the elastic piece is sleeved on the piston, the transmission piece is in driving connection with the driving piece, and the transmission piece is used for driving the piston to slide in the power section cylinder body towards the direction far away from the output section cylinder body, so that the piston supports the elastic piece to compress;

when the elastic piece in the compression state is elastically reset, the piston can be driven to slide in the power section cylinder body towards the direction close to the output section cylinder body.

In some embodiments, the transmission comprises a worm in driving connection with the driving member, a gear set engaged with the worm, and a rack engaged with the gear set, the rack being disposed on the piston.

In some embodiments, the guiding mechanism comprises a wheel disc and a chamber-out guide, the magazine is located on the wheel disc, and the chamber-out channel is located on the chamber-out guide;

wherein, when the wheel disc rotates, the chamber outlet channel is aligned with one of the magazine on the wheel disc.

In some embodiments, the guide mechanism further comprises a floating seal set comprising a float, a floating seal, and a spring;

the floating piece is sleeved on a gathering part on the output section cylinder, the gathering part is communicated with the output section cylinder, the floating sealing piece is arranged on the floating piece, and the elastic piece is sleeved on the floating piece;

when the elastic piece is used for providing acting force for enabling the floating piece to move towards the position close to the magazine, the floating sealing piece is used for being attached to the hole wall of the air inlet hole of the magazine under the propping of the floating piece.

In a second aspect, the utility model further provides a toy gun, which comprises a housing and the chamber outlet device according to any one of the above technical solutions, wherein the chamber outlet device is arranged in the housing.

In some embodiments, the device further comprises a trigger device, wherein the trigger device comprises a trigger rotatably arranged on the shell and an induction piece electrically connected with the power mechanism;

the trigger is used for abutting against the sensing end of the sensing piece when rotating.

In some embodiments, the trigger device further comprises a follower slidably disposed on the housing, and a pawl disposed on the guide mechanism;

the follower is used for propping the pawl to rotate under the driving of the trigger so as to enable the pawl to drive the guide mechanism to rotate.

In some embodiments, the housing is provided with a pull-off clearance hole, and the trigger is exposed in the pull-off clearance hole.

In some embodiments, a contoured groove is provided in the housing for receiving the power section cylinder.

The beneficial effects of the utility model include: the hollow cylinder barrel is provided with the bending angle to form the power section cylinder body and the output section cylinder body, so that the piston can slide in the direction which is not in the same straight line with the output section cylinder body to drive the bullet to eject, and the structure arrangement flexibility of the product is improved; meanwhile, bullets can be shot without arranging parallel motors, so that the noise is effectively reduced; secondly, the power section barrel and the output section barrel can be arranged at a certain angle, so that the overall length of the product is prevented from being overlong, and the overall compactness of the product is improved.

Drawings

The utility model will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic view of a toy gun according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the toy gun of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the muzzle device and trigger device of the toy gun of FIG. 2;

FIG. 4 is an enlarged view of the bore device and trigger device shown in FIG. 3 at A;

FIG. 5 is a schematic view of the piston and power mechanism of FIG. 2 from another perspective;

fig. 6 is a broken-away view of the piston and power mechanism of fig. 2.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Fig. 1 shows a schematic representation of a toy gun 1 according to some embodiments of the present invention, the toy gun 1 being used to fire toy bullets. The toy gun 1 includes a housing 11, a chamber discharge device 12, and a trigger device 13. The housing 11 is used for mounting the outlet device 12 and the trigger device 13. A muzzle device 12 is disposed on the housing 11, the muzzle device 12 being configured to drive the cartridge to be ejected. A trigger device 13 is arranged on the housing 11, which trigger device 13 is adapted to drive the movement of the chamber-removing device 12 along a predetermined trajectory.

As shown in fig. 2 and 3, the bore discharging device 12 may include a cylinder 121, a piston 122, a power mechanism 123, and a guiding mechanism 124 in some embodiments. The cylinder 121 is disposed on the housing 11, the cylinder 121 is hollow, and a bending angle 1211 is disposed on the cylinder 121, so that the cylinder 121 forms a power section cylinder 1212 and an output section cylinder 1213 which are communicated with each other, and both the power section cylinder 1212 and the output section cylinder 1213 are used for guiding air to push bullets to shoot into the guiding mechanism 124. The piston 122 is slidably disposed in the power section cylinder 1212, and is configured to compress air in the power section cylinder 1212. The power mechanism 123 is in driving connection with the piston 122, and the power mechanism 123 is used for driving the piston 122 to move along a predetermined track. The guiding mechanism 124 is disposed on the housing 11 for guiding the cartridge to be ejected along a predetermined trajectory.

It can be understood that the cylinder 121 is a hollow structure, and the bending angle 1211 is set so that the cylinder 121 forms the power section cylinder 1212 and the output section cylinder 1213 which are communicated with each other, and air can flow between the power section cylinder 1212 and the output section cylinder 1213. The piston 122 is adapted to the inner diameter of the cylinder 121, so that air is prevented from passing through a fit gap between the cylinder 121 and the piston 122, and the air in the cylinder 121 can be driven to flow in a predetermined direction when the piston 122 slides in the cylinder 121. The guide mechanism 124 is provided with a chamber exit passage 12431 and at least one magazine 12411, the magazine 12411 being adapted to receive toy cartridges, the chamber exit passage 12431 being adapted to guide the cartridges along a predetermined trajectory.

It is also understood that the power mechanism 123 can drive the piston 122 to slide in the power section cylinder 1212 toward or away from the output section cylinder 1213; when the piston 122 slides in a direction close to the output-section cylinder 1213, the piston 122 pushes the air in the output-section cylinder 1213 into the output-section cylinder 1213, so that the air is guided into the magazine 12411 through the output-section cylinder 1213, and the air introduced into the magazine 12411 pushes the cartridge to slide into the discharge passage 12431 and then to be discharged along the discharge passage 12431.

In summary, the bending angle 1211 is arranged on the hollow cylinder 121 to form the power section cylinder 1212 and the output section cylinder 1213, so that the piston can slide in a direction different from the direction of the same straight line with the output section cylinder to drive the bullet to eject, thereby improving the flexibility of the structure arrangement of the product; meanwhile, compared with the structure that the parallel motors are arranged to drive the bullets to eject together in the prior art, the bullet shooting device can effectively reduce noise in the bullet shooting process and improve the use comfort of the product; secondly, the power section barrel and the output section barrel can be arranged at a certain angle, so that the overall length of the product is prevented from being overlong, and the overall compactness of the product is improved.

As shown in fig. 2, the housing 11 may be provided with a contoured groove 112 in some embodiments, the contoured groove 112 for receiving the power section barrel 1212.

It can be understood that the groove body profile of the contour groove 112 can be flexibly set according to the structure of the power section cylinder 1212, so as to fix the power section cylinder 1212, and ensure that the power section cylinder 1212 can be kept fixed under the driving of the piston 122.

As shown in fig. 3 and 4, the outlet cylinder 1213 may be provided with a collecting portion 1214 in some embodiments, and the collecting portion 1214 is communicated with the outlet cylinder 1213, and the collecting portion 1214 is used for collecting air discharged from the outlet cylinder 1213.

It will be appreciated that the inner diameter of the collection portion 1214 is smaller than the inner diameter of the output section cylinder 1213, so that the air flow rate is constant, and the air is accelerated to a certain extent when passing through the collection portion 1214, thereby increasing the flow rate of the air fed into the magazine 12411 and thus increasing the kinetic energy of the bullet; of course, the size of the inner diameter of the collecting part 1214 can be flexibly adjusted according to the preset parameters of the product; secondly, the collecting part 1214 can be arranged on the output section cylinder 1213 by adopting an integral molding or bonding mode, so that the connection strength between the collecting part 1214 and the output section cylinder 1213 is improved, and the durability of the product is improved.

As shown in fig. 2, 3, and 5, the piston 122 may include a piston head 1221, a piston rod 1222, and a piston seal 1223 in some embodiments. A piston head 1221 is slidably disposed in the power section cylinder 1212, and the piston head 1221 is used for driving the air in the cylinder 121 to flow in a predetermined direction. The piston rod 1222 is disposed on the piston head 1221 for synchronous movement with the piston head 1221. The piston sealing member 1223 is sleeved on the piston head 1221, and the piston sealing member 1223 serves to seal a fitting gap between the piston 122 and the output-section cylinder 1213, thereby improving air tightness between the piston 122 and the output-section cylinder 1213.

It can be understood that the outer diameter of the piston head 1221 is matched with the inner diameter of the power section cylinder 1212, so that the air tightness between the piston head 1221 and the inner wall of the power section cylinder 1212 is improved, and the shooting distance of the bullet is ensured. The piston rod 1222 is connected to the power mechanism 123, and the power mechanism 123 can drive the piston head 1221 to move through the piston rod 1222. The piston seal 1223 may be made of a rubber material, and specifically, a rubber seal may be used as the piston seal 1223.

It will also be appreciated that the piston rod 1222 may be bonded or integrally formed to the piston head 1221.

As shown in fig. 2, 3 and 5, the power mechanism 123 may include an elastic member 1231, a transmission member 1232 and a driving member 1233 in some embodiments. The elastic element 1231 is sleeved on the piston 122, and the elastic element 1231 is used for providing an elastic force to the piston 122 to drive the piston 122 to slide in the power section cylinder 1212. The driving member 1233 is disposed on the housing 11 for outputting power to the transmission member 1232. The transmission member 1232 is drivingly connected to the driving member 1233, and the transmission member 1232 is driven by the driving member 1233 to drive the piston 122 to overcome the elastic force of the elastic member 1231 to perform work, so as to achieve the purpose of compressing the elastic member 1231.

As can be understood, the transmission member 1232 is used to drive the piston 122 to slide in the power section cylinder 1212 in a direction away from the output section cylinder 1213, so that the piston 122 slides against the elastic member 1231, and compresses the elastic member 1231 against its elastic force; when a bullet needs to be ejected, the driving member 1232 releases the elastic member 1231 in the compressed state, and the elastic member 1231 drives the piston 122 to slide in the power section cylinder 1212 toward the direction close to the output section cylinder 1213 during the subsequent elastic resetting process, so as to drive the air in the cylinder 121 to flow into the magazine 12411, and further drive the bullet in the magazine 12411 to eject along the magazine 12411. The transmission 1232 may be driven by using a conventional component capable of outputting torque, such as a motor, as the driving member 1233.

As shown in fig. 3 and 5, the transmission 1232, in some embodiments, can include a gear set 12321, a worm 12322, and a rack 12323. The worm 12322 is in driving connection with the driver 1233, and the worm 12322 is configured to rotate under the driving of the driver 1233. A gear set 12321 is engaged with the worm 12322, the gear set 12321 being used to transmit the power of the worm 12322 to the rack 12323. The rack 12323 is disposed on the piston 122, and the rack 12323 is used for driving the piston 122 to move along a predetermined direction under the driving of the gear set 12321. Further, the rack 12323 may be attached to the piston 122 by bonding or by integral molding.

It will be appreciated that during the movement of the piston 122 by the rack 12323, the elastic member 1231 will be compressed under the support of the piston 122. The gear set 12321 may be composed of one or more gears with different sizes, wherein, some positions of the gears engaged with the rack 12323 are not provided with gear teeth for engaging with the rack 12323, that is, after the gears are rotated to a predetermined position, the rack 12323 will not be engaged with the gears, at this time, the elastic member 1231 in the compressed state is released, and then the elastic member 1231 will drive the piston 122 to slide in the power section cylinder 1212 toward the direction close to the output section cylinder 1213 under its own elastic force.

It can also be understood that when the bullet needs to be re-launched, the gear teeth engaged with the rack 12323 will continue to rotate, and the gear rotates to a predetermined position and then is re-engaged with the rack 12323, so that the rack 12323 drives the piston 122 to slide in the power section cylinder 1212 in a direction away from the output section cylinder 1213, thereby achieving the purpose of compressing the elastic element 1231; in this manner, the rack 12323 may be driven using an incomplete gear.

As shown in fig. 3 and 4, the guide mechanism 124 may also include a wheel 1241 and a bore guide 1243 in some embodiments. Wheel disc 1241 is rotatably disposed on housing 11, wheel disc 1241 is drivingly connected to trigger device 13, magazine 12411 is disposed on wheel disc 1241, discharge guide 1243 is disposed on housing 11, and discharge passage 12431 is disposed on discharge guide 1243. As wheel 1241 rotates, the outlet passage 12431 aligns with one of the magazines 12411 on wheel 1241.

It will be appreciated that the trigger arrangement 13 is capable of driving the wheel disc 1241 through a predetermined angle so that one of the cartridges 12411 is aligned with the discharge passage 12431 on the discharge guide 1243 for the next round to be fired.

Further, as shown in fig. 3 and 4, the wheel disc 1241 may be provided with an air inlet hole 12412 and an ejection hole 12413 in some embodiments.

It will be appreciated that each of the intake holes 12412 communicates with each of the ejection holes 12413 to form a separate magazine 12411, and specifically, the number of intake holes 12412 is equal to the number of ejection holes 12413 and the number of magazines 12411 is equal to the number of intake holes 12412. Next, each time the wheel disc 1241 is rotated by a predetermined angle by the driving of the trigger device 13, an air inlet 12412 of the magazine 12411 is communicated with the output cylinder 1213.

It will also be appreciated that air exiting the outlet barrel 1213 will enter the magazine 12411 through the intake vent 12412, causing a cartridge in the magazine 12411 to be ejected from the ejection vent 12413 into the chamber passage 12431 and further out.

As shown in fig. 3 and 4, the guiding mechanism 124 may further include a wheel axle 1242 in some embodiments, the wheel axle 1242 is disposed on the housing 11, the wheel 1241 is rotatably disposed on the wheel axle 1242, and the wheel axle 1242 plays a role of supporting the wheel 1241 to rotate.

It can be understood that the wheel disc shaft 1242 is cylindrical, and the wheel disc shaft 1242 penetrates the wheel disc 1241.

As shown in fig. 3 and 4, the guide mechanism 124 may also include a floating seal set 1244 in some embodiments, the floating seal set 1244 being used to seal the mating gap between the collection portion 1214 and the magazine 12411. Floating seal set 1244 includes float member 12441, floating seal 12443, and spring member 12442. A float 12441 fits over the collection portion 1214 on the output end barrel, and the float 12441 is used to move the floating seal 12443 in unison. A floating seal 12443 is provided on float 12441, floating seal 12443 for sealing the fit clearance between float 12441 and magazine 12411. The elastic member 12442 is sleeved on the floating member 12441, and the elastic member 12442 is used to provide elastic force to the floating member 12441, so that the floating member 12441 can drive the floating seal member 12443 to be always tightly attached to the magazine 12411.

Where spring 12442 is used to provide a force to move float 12441 toward magazine 12411, floating seal 12443 is used to engage the walls of intake aperture 12412 of magazine 12411 under the bias of float 12441.

It can be understood that the inner diameter of the floating member 12441 is equal to or slightly larger than the outer diameter of the collecting part 1214, so that the air tightness between the floating member 12441 and the collecting part 1214 is ensured, the air can be ensured to fully flow into the magazine 12411, the phenomenon of insufficient bullet shooting distance of the product is avoided, and the performance of the product is ensured. It can also be understood that the floating seal 12443 may be a soft rubber seal ring, so as to avoid improving the air tightness of the product and further ensure the performance of the product; the profile of floating seal 12443 can be flexibly configured to follow the profile of magazine 12411 to further ensure product hermeticity. The elastic member 12442 may be a spring or other component having a resilient property.

As shown in fig. 1, 2 and 6, the trigger device 13 may include a trigger 131 and a sensing member 132, wherein the trigger 131 is configured to abut against a sensing end of the sensing member 132 when rotating. A trigger 131 is rotatably disposed on the housing 11, and the trigger 131 is used for guiding the external force to rotate relative to the housing, so as to operate the sensing member 132. The sensing element 132 is disposed on the housing 11 and electrically connected to the power mechanism 123, and the sensing element 132 is used for controlling the current to be conducted to the power mechanism 123.

It will be appreciated that the user may actuate the trigger 131 to control the operation of the power mechanism 123. When the sensing end of the sensing member 132 is pressed by the trigger 131, the current is conducted to the power mechanism 123, so that the power mechanism 123 drives the piston 122 to move along a predetermined track, and finally, the bullet is shot.

It is to be understood that a component capable of controlling the on/off of the current, such as a tact switch, may be used as the sensing element 132, as long as the power mechanism 123 can be controlled to operate.

As shown in FIG. 2, the housing 11 may be provided with a pull-off clearance hole 111 in some embodiments, and the trigger 131 is exposed in the pull-off clearance hole 111.

It can be understood that the opening of the pulling avoidance hole 111 enables a user to control the trigger 131 in the pulling avoidance hole 111, and ensures that the trigger 131 only moves in the hole space of the pulling avoidance hole 111, thereby playing a certain limiting role.

As shown in fig. 6, the trigger device 13 may further include a pawl 133 and a follower 134, wherein the follower 134 is used for supporting the pawl 133 to rotate under the driving of the trigger 131, so that the pawl 133 drives the guide mechanism 124 to rotate. A follower 134 is slidably disposed on the housing 11 and connected to the trigger 131, the follower 134 is used for supporting the pawl 133 to rotate the guiding mechanism 124 in a predetermined direction.

It will be appreciated that the user, whilst pulling the trigger 131, can simultaneously drive the guide mechanism 124 to rotate so that the other magazine on the guide mechanism 124 rotates into alignment with the discharge passage 12431 for the next round to be fired; the pawl 133 is provided with a plurality of protrusions, and the follower 134 can rotate the pawl 133 by being pressed against the protrusions.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. A chamber outlet device for a toy is characterized by comprising a hollow cylinder barrel (121), a piston (122) matched with the inner diameter of the cylinder barrel (121), a power mechanism (123) in driving connection with the piston (122), and a guide mechanism (124) provided with a chamber outlet channel (12431) and at least one magazine (12411);

a bending angle (1211) is arranged on the cylinder barrel (121) to form a power section barrel body (1212) and an output section barrel body (1213) which are communicated with each other;

the power mechanism (123) is used for driving the piston (122) to slide in the power section cylinder (1212), so that the air in the cylinder (121) is discharged into one of the magazines (12411) through the output section cylinder (1213), and further the bullet in the magazine (12411) is pushed to be ejected along the chamber outlet channel (12431).

2. An extractor device for toys according to claim 1, characterised in that said power mechanism (123) comprises an elastic element (1231), a transmission element (1232) and a driving element (1233);

the elastic piece (1231) is sleeved on the piston (122), the transmission piece (1232) is in driving connection with the driving piece (1233), and the transmission piece (1232) is used for driving the piston (122) to slide in the power section cylinder (1212) towards the direction away from the output section cylinder (1213), so that the piston (122) pushes against the elastic piece (1231) to compress;

wherein, when the elastic element (1231) in the compressed state is elastically reset, the piston (122) can be driven to slide in the power section cylinder (1212) towards the direction close to the output section cylinder (1213).

3. The device as claimed in claim 2, wherein the transmission member (1232) comprises a worm (12322) drivingly connected to the driving member (1233), a gear set (12321) engaged with the worm (12322), and a rack (12323) engaged with the gear set (12321), the rack (12323) being disposed on the piston (122).

4. The device of claim 1, wherein the guide mechanism (124) includes a wheel disc (1241) and a discharge guide (1243), the magazine (12411) being located on the wheel disc (1241), the discharge passage (12431) being located on the discharge guide (1243);

wherein the outlet passage (12431) is aligned with one of the magazines (12411) on the wheel disc (1241) when the wheel disc (1241) is rotated.

5. The device as claimed in claim 4, wherein the guide mechanism (124) further comprises a floating seal group (1244), the floating seal group (1244) comprising a float (12441), a floating seal (12443) and a spring (12442);

the floating piece (12441) is sleeved on a gathering part (1214) on the output section cylinder body (1213), the gathering part (1214) is communicated with the output section cylinder body (1213), the floating sealing element (12443) is arranged on the floating piece (12441), and the elastic piece (12442) is sleeved on the floating piece (12441);

wherein, when the elastic piece (12442) is used for providing acting force for moving the floating piece (12441) towards the magazine (12411), the floating sealing element (12443) is used for abutting against the hole wall of the air inlet hole (12412) of the magazine (12411) under the jacking of the floating piece (12441).

6. A toy gun, characterized in that it comprises a housing (11) and a device for firing (12) a toy according to any one of claims 1 to 5, said device for firing (12) being arranged inside said housing (11).

7. The toy gun of claim 6, further comprising a trigger device (13), wherein the trigger device (13) comprises a trigger (131) rotatably disposed on the housing (11) and a sensing member (132) electrically connected to the power mechanism (123);

wherein, the trigger (131) is used for propping against the sensing end of the sensing piece (132) when rotating.

8. Toy gun according to claim 7, characterized in that said trigger device (13) further comprises a follower (134) slidingly arranged on said housing (11) and a pawl (133) arranged on said guiding mechanism (124);

the follower (134) is used for propping the pawl (133) to rotate under the driving of the trigger (131), so that the pawl (133) drives the guide mechanism (124) to rotate.

9. The toy gun of claim 7, wherein the housing (11) is provided with a pull-off clearance hole (111), and the trigger (131) is exposed in the pull-off clearance hole (111).

10. The toy gun of claim 7, wherein a contoured groove (112) is provided in the housing (11), the contoured groove (112) for receiving the power section barrel (1212).

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