CN216081165U - Loading device for toy and toy gun - Google Patents

Abstract

The utility model discloses a loading device for a toy and a toy gun, and relates to the technical field of toys, wherein the loading device for the toy comprises a box body provided with a bullet inlet channel, a sliding seat arranged on the box body in a sliding way, a resetting piece arranged on the box body and a one-way toggle key rotationally arranged on the sliding seat; the slide seat can overcome the acting force of the reset piece under the action of external force and drive the toy bullet to slide in the bullet entering channel through the one-way toggle key; the sliding seat can also drive the one-way toggle key to reset and move under the propping of the resetting piece, so that the one-way toggle key is propped by the toy bullet and is contained in the sliding seat; so, when having realized the continuous excitation ability of toy bullet, still only need provide certain reciprocating motion space on the product for the slide can be constantly with the bullet pay-off to the income bullet passageway in, reduced the whole volume of product, improved the compactness of product.

Description

Loading device for toy and toy gun

Technical Field

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

Background

Toy guns are usually provided with a loading device and an excitation device, the magazine device being arranged to drive the toy bullets one by one to a predetermined excitation position during operation, the excitation device being arranged to excite the bullets in the excitation device at a predetermined moment.

For example, part of the loading devices can use a large gear ring to drive toy bullets arranged circumferentially to move along a circular track, and under the condition of pulling a trigger, the large gear ring drives the toy bullets to move to a preset position one by one and be excited by the excitation device; thus, although the continuous excitation performance of the toy gun is improved, the structure like a large gear ring occupies a large space, and the compactness of the product is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a loading device for a toy and a toy gun, which have the advantages of excellent bullet continuous excitation performance and high compactness.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

in a first aspect, the application provides a loading device for a toy, which comprises a box body provided with a bullet inlet channel, a sliding seat arranged on the box body in a sliding manner, a resetting piece arranged on the box body, and a one-way toggle key arranged on the sliding seat in a rotating manner;

the sliding seat can overcome the acting force of the reset piece under the action of external force and drive a toy bullet to slide in the bullet inlet channel through the one-way toggle key; the sliding seat can also drive the one-way toggle key to reset and move under the jacking of the resetting piece, so that the one-way toggle key is jacked by the toy bullet and is contained in the sliding seat.

In some embodiments, the sliding seat is provided with a receiving groove, the one-way toggle key is rotatably arranged in the receiving groove, and a wall of a groove wall of the receiving groove is provided with a one-way limiting strip for abutting against the one-way toggle key;

the one-way toggle key can rotate relative to the sliding seat under the action of external force, the one-way toggle key abuts against the one-way limiting strip when rotating to a toggle position, and the one-way toggle key is contained in the containing groove when rotating to an avoidance position.

In some embodiments, the loading device for a toy further includes a positioning element disposed on the magazine body and an elastic element abutting against the positioning element, and the positioning element is configured to be inserted into a predetermined position on the toy bullet under the driving of the elastic element, so as to fix the toy bullet.

In a second aspect, the present invention further provides a toy gun, which includes a housing, a triggering device disposed on the housing, and the toy loading device disposed on the housing, wherein the triggering device is configured to provide an acting force for sliding the slide seat.

In some embodiments, the trigger device includes a trigger disposed on the housing, a power member disposed within the housing, and a transmission mechanism disposed within the housing;

when the trigger slides relative to the shell, the connection between the power part and the power supply can be switched on or switched off, and the power part can drive the sliding seat to slide relative to the box body through the transmission mechanism.

In some embodiments, the transmission mechanism includes an intermittent gear rotatably disposed within the housing and engaged with the carriage, the intermittent gear being drivingly connected to the power member.

In some embodiments, the toy gun further comprises a muzzle-out device comprising a guide rotatably disposed on the cartridge body, a recovery piece having a fixed end and a sliding end, and a tab disposed on the sliding end; the guide piece is provided with a guide surface and a clearance gap, and the fixed end is arranged on the box body;

when the guide piece rotates, the sliding end can slide along the guide surface under the action of the elastic restoring force of the elastic restoring piece and fall into the clearance gap, so that the protruding tongue is driven to be inserted into the bullet inlet channel and supports the toy bullet to eject out of the box body.

In some embodiments, the chamber-discharging device comprises two rotating wheels rotatably disposed on the housing, and the two rotating wheels can drive the toy bullet entering between the two rotating wheels to be discharged along a predetermined track when rotating.

In some embodiments, the chamber-out device further comprises a chamber-out switch, and the chamber-out switch is electrically connected with the two rotating wheels.

In some embodiments, a gripping contour groove is provided on the housing.

The loading device for the toy and the toy gun have the following beneficial effects:

according to the loading device for the toy and the toy gun, the slide seat is driven to slide in the bullet inlet channel through the reset piece, and the one-way toggle key on the slide seat enables the toy bullet to be jacked to move in the bullet inlet channel only when the slide seat slides in the preset direction; so, when having realized the continuous excitation ability of toy bullet, still only need provide certain reciprocating motion space on the product for the slide can be constantly with the bullet pay-off to the income bullet passageway in, reduced the whole volume of product, improved the compactness of product.

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 a schematic view of the internal structure of the toy gun of FIG. 1;

FIG. 3 is an enlarged view of the toy gun of FIG. 2 at A;

FIG. 4 is a schematic view of the combination of the loading device, the trigger device and the toy bullet in the toy gun;

FIG. 5 is a schematic view of a cutaway configuration of the toy gun of FIG. 4 with the toggle key in the toggle position;

FIG. 6 is a sectional structure diagram of the toggle key in the loading device at the avoiding position;

fig. 7 is a schematic view of the internal structure of the toy gun of the present invention viewed from another angle.

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 illustrates a toy gun 1 in some embodiments of the utility model, the toy gun 1 being operable to fire toy bullets. The toy gun 1 may include a loading device 1, a housing 2, a triggering device 3, and an unloading device 4. The housing 2 serves to house and mount the remaining components. A cocking device 1 is provided on the housing 2, the cocking device 1 being adapted to transport a toy bullet along a predetermined trajectory to a predetermined position for ejecting the toy bullet. The trigger device 3 is arranged on the shell 2, and the trigger device 3 is used for providing power to the chamber loading device 1 and the chamber unloading device 4. The firing device 4 is used to provide kinetic energy to the toy bullet to fire the toy bullet.

As shown in fig. 1, 2, 3 and 4, the loading device 1 for toy may include a box 11, a slide 12, a reset member 13 and a one-way toggle key 14 in some embodiments. A box body 11 is arranged on the shell 2, and the box body 11 is used for accommodating toy bullets; the box body 11 is provided with a bullet inlet channel 111, and the bullet inlet channel 111 is used for guiding and limiting the moving track of the toy bullet so as to ensure the successful launching of the toy bullet. The sliding base 12 is slidably disposed on the box body 11, and the sliding base 12 is used for driving the one-way toggle key 14 to move, so as to play a role in transmitting power. A reset member 13 is provided on the cartridge 1, the reset member 13 being for providing a force for resetting the slide 12. A one-way toggle key 14 is rotatably disposed on the sliding base 12, the one-way toggle key 14 is used for driving the toy bullet to move when the sliding base 12 slides along a predetermined track. When in use, the sliding seat 12 can overcome the acting force of the reset piece 13 under the action of external force and drive a toy bullet to slide in the bullet entering channel through the one-way toggle key 14; the sliding base 12 can also drive the one-way toggle key 14 to reset and move under the propping of the resetting piece 13, so that the one-way toggle key 14 is propped by a toy bullet and is contained in the sliding base 12.

It will be appreciated that the trigger device 3 is drivingly connected to the carriage 12, and the trigger device 3 provides a force to slide the carriage 12. The box body 11 can be assembled on the shell 2 by means of bonding, screwing or clamping, and can also be made together with the shell 2 by means of integral molding. A sliding structure may be provided on the housing 2 to guide the sliding of the slider 12. The reset element 13 may be a mechanism capable of driving the slide 12 to move in a reset manner in the prior art, for example, an air cylinder or a motor may be used, and a manual operation structure in the prior art may be used as the reset element 13 to reset the slide 12. The one-way toggle key 14 toggles or moves the toy bullet only when the slide carriage 12 is moved in a predetermined direction. A power element such as a pneumatic cylinder or motor may be provided on toy gun 10 to drive slide 12 in sliding motion. When the sliding base 12 is reset, the one-way toggle key 14 can be partially or completely accommodated in the sliding base 12, as long as the one-way toggle key 14 can be prevented from driving the toy bullet 20 to move towards the reset direction of the sliding base 12.

As shown in fig. 4 and 5, the toy bullet 20 may be various toy bullets 20 in the prior art, and the toy bullet 20 and the box 11 can be adapted to each other. The user can flexibly assemble various toy bullets 20 on the box body 11, for example, one of the toy bullets 20 includes a bullet chain 201 and a bullet body 202, the bullet chain 201 is provided with a plurality of bullet positions, each bullet position contains the bullet body 202, the toy gun 10 of the present invention drives the bullet chain 201 to drive the bullet body 202 to move, then the bullet body 202 is ejected, and the bullet chain 201 continues to move and gradually separates from the box body 11. The one-way toggle key 14 drives the projectile 202 to move by jacking the ammunition chain 201, so that the chamber discharging device 4 ejects the projectile 202.

As shown in fig. 5 and fig. 6, the sliding seat 12 may have a receiving slot 121 in some embodiments, the one-way toggle key 14 is rotatably disposed in the receiving slot 121, a slot wall of the receiving slot 121 may have a one-way limiting strip 124, and the one-way limiting strip 124 is configured to abut against the one-way toggle key 14. When the one-way toggle key 14 is rotated relative to the sliding base 12 by an external force, the one-way toggle key 14 abuts against the one-way limiting bar 124 when rotated to the toggle position 122, and the one-way toggle key 14 is received in the receiving slot 121 when rotated to the avoiding position 123.

It is understood that a spring (not shown) can be disposed under the one-way toggle key 14 and is supported by the one-way toggle key 14, so that the movement of the one-way toggle key 14 by the slider 12 can produce at least two results: firstly, when the slide base 12 drives the one-way toggle key 14 to move along the direction D1 shown in fig. 5, the one-way toggle key 14 is supported by the lower spring thereof to rotate along the direction R1 shown in fig. 5 to the toggle position 122 supported by the one-way stopper 124, and is in an overall biased upright state, so that the one-way toggle key 14 moving along the direction D1 is clamped in the gap between two adjacent bullets 202 on the bullet chain 201, and since the surface of the one-way toggle key 14 contacting with the bullet chain 201 when sliding along the direction D1 is a plane and is limited by the one-way stopper 124, the one-way toggle key 14 at the toggle position 122 can support the toy bullet 20 to move. Secondly, when the slide base 12 drives the one-way toggle key 14 to move along the direction D2 shown in fig. 6, the one-way toggle key 14 rotates along the direction R2 shown in fig. 6 to the avoiding position 123 under the propping action of the toy bullet 20 against the action force of a spring (not shown) below the one-way toggle key 14, so that the one-way toggle key 14 located at the avoiding position 123 is partially or completely accommodated in the accommodating groove 121, thereby preventing the one-way toggle key 14 from contacting the toy bullet 20 when sliding along the direction D2, preventing the one-way toggle key 14 from continuing to prop the toy bullet 20 to move, and finally stopping the toy bullet 20 at the current position.

In conclusion, the toy bullets 20 can be driven to be continuously fed into the box body 11 only by the reciprocating movement of the slide seat 12, so as to continuously eject the toy bullets; meanwhile, the space occupied by the slide base 12 which moves back and forth is smaller than that occupied by a large gear ring driving structure in the prior art, so that the structure of the toy gun 10 is more compact.

As shown in fig. 3, 4, 5 and 7, the loading device 1 for toy may further include a positioning member 151 and an elastic member 152 in some embodiments. A positioning member 151 is disposed on the box 11, and the positioning member 151 is used for positioning the toy bullet 20. The elastic member 152 is disposed on the box 11 and abuts against the positioning member 151, and the elastic member 152 is used for providing an elastic force to the positioning member 151. In use, the positioning member 151 is driven by the elastic member 152 to be inserted into a predetermined position on the toy bullet 20, thereby fixing the toy bullet 20.

It can be understood that the positioning member 151 can be inserted into a hole or a groove of the elastic member 152, such as the positioning notch 203, to fix the elastic member 201, and thus fix the toy bullet 20 as a whole, and thus prevent the elastic member 201 from moving to some extent due to the friction force of the one-way toggle key 14, and ensure that the toy bullet 20 slides only along the predetermined direction. The positioning member 151 is rotatably or slidably disposed on the body 11.

As shown in fig. 1 and 2, the trigger device 3 may include a trigger 31, a power member 32, and a transmission mechanism 33 in some embodiments. A trigger 31 is movably arranged on the housing 2, the trigger 31 being adapted to slide relative to the housing 2 when actuated by a user. The power member 32 is provided in the housing 2, and the power member 32 is used for outputting power. A transmission mechanism 33 is disposed in the housing 2, and the transmission mechanism 33 is used for transmitting the power output by the power member 32 to the slide 12. When the trigger 31 slides relative to the housing 2 during use, the power element 32 can be connected to or disconnected from the power source, and the power element 32 can drive the slide 12 to slide relative to the box 11 through the transmission mechanism 33.

When the bullet shooting device is used, a user pulls the trigger 31, the trigger 31 slides on the shell 2, so that the touch switch in the shell 2 is pushed to be closed, the power supply is conducted with the power piece 32 through the touch switch, the power piece 32 is electrified to work and output power to the transmission mechanism 33, the transmission mechanism 33 further transmits the power to the sliding seat 12, and finally the purpose of driving bullets to move is achieved.

It will also be appreciated that the trigger 31 may also be rotatably disposed on the housing 2. The power member 32 may be provided as a motor. The transmission mechanism 33 may be any of various power transmission components or assemblies known in the art.

As shown in fig. 3, 4, 5, 6, and 7, the transmission mechanism 33 may include an intermittent gear 331 in some embodiments. The intermittent gear 331 is rotatably disposed in the housing 2, the intermittent gear 331 is engaged with the sliding base 12, and the intermittent gear 331 is drivingly connected with the power member 32.

It is to be understood that the intermittent gear 331 is a gear having teeth provided only at partial positions in the related art. In operation, during one rotation of the intermittent gear 331, the teeth on the intermittent gear 331 will drive the sliding base 12 to slide on the box 11 along the direction D1 shown in fig. 5, so as to reach the purpose of supporting the toy bullet 20 to move; with the continuous rotation of the intermittent gear 331, the intermittent gear 331 is no longer meshed with the sliding seat 12, and the sliding seat 12 is reset by the propping of the resetting piece 13; with the continuous rotation of the intermittent gear 331, the teeth on the intermittent gear 331 will re-engage with the reset slide 12, so that the slide 12 will move the toy bullet 12 a distance in the predetermined direction again by striking the key 14.

It will also be appreciated that during each revolution of the intermittent gear 331, the discharging device 4 will discharge the projectile 202 driving the moving toy bullet 20, thereby achieving a continuous discharge.

As shown in fig. 2 and 7, the outlet device 4 may include a guide 41, a resilient member 42, and a tab 43 in some embodiments. The guide 41 is rotatably disposed on the box body 11, and the guide 41 is used for supporting the elastic restoring member 42 to deform, so that the elastic restoring member 42 accumulates elastic potential energy. The elastic member 42 is provided with a fixed end 421 and a sliding end 422, and the elastic member 42 is used for driving the tongue 43 to deform. The fixed end 421 is disposed on the case 11; the sliding end 422 is used to mount the tongue 43. A tongue 43 is disposed on the sliding end 422, and the tongue 43 is used for supporting the bullet body 202 on the toy bullet 20 to be taken out of the bullet chain 201 under the driving of the restoring piece 42, so as to transmit potential energy. The guide piece 41 is provided with a guide surface 411 and a clearance 412, the guide surface 411 is used for propping against the sliding end 422, and along with the rotation of the guide piece 41, the sliding end 422 is also propped by different positions on the outline of the guide surface 411 to generate different degrees of deformation, so that the elastic potential energy accumulated by the elastic restoring piece 42 is changed; the clearance 412 is used to avoid the contact between the sliding end 422 and the guiding surface 411, so that the sliding end 422 lacks the propping of the guiding surface 411 and is rapidly reset to release the elastic potential energy, thereby impacting and ejecting the projectile 202. In use, when the guiding member 41 rotates, the sliding end 422 can slide along the guiding surface 411 and fall into the clearance 412 under the elastic force of the elastic member 42, so as to drive the protruding tongue 43 to insert into the bullet channel and support the toy bullet to eject out of the box body 11.

It is understood that the surface profile of the guiding surface 411 can be flexibly set, and particularly, the speed of releasing the projectile 202 from the elastic chain 201 is preferred according to the requirement; secondly, the guide 41 may be provided with a plurality of guide surfaces 411, and a clearance 412 is provided between two adjacent guide surfaces 411, so that a plurality of projectiles 202 can be ejected from the ammunition chain 201 during one rotation of the guide 41. The elastic member 42 and the tongue 43 can be formed integrally, thereby improving the strength of the connection position between the two and improving the durability. Corresponding reinforcing ribs can be arranged on the elastic recovery part 42, so that the elastic recovery part 42 is prevented from being damaged in the repeated deformation process, and the service life of the elastic recovery part 42 is prolonged.

As shown in fig. 2, 3, 4, 5 and 7, the transmission mechanism 33 may further include a gear shaft 332 and a driven gear 333 in some embodiments, the gear shaft 332 is disposed on the intermittent gear 331, the driven gear 333 is disposed on the guide 41, and the driven gear 333 is engaged with the gear shaft 332.

It will be understood that the power member 32 will also drive the guide member 41 to rotate via the gear shaft 332 and the driven gear 333 during the rotation of the intermittent gear 331, thereby pressing the elastic member 42 to deform during the sliding of the carriage 12.

As shown in fig. 1 and 2, the muzzle device 4 further comprises two rotating wheels 44 in some embodiments, the two rotating wheels 44 are rotatably disposed on the housing 2, and the two rotating wheels 44 are used together to provide kinetic energy for the toy bullet. In use, the two rotating wheels 44 rotate to drive a toy bullet entering between the two rotating wheels 44 to be ejected along a predetermined trajectory.

It is understood that a first driving member 45 and a second driving member 46 may be provided on the housing 2, one of the turning wheels 44 is driven to rotate by the first driving member 45, and the other turning wheel 44 is driven to rotate by the second driving member 46; a drive member such as a motor may also be provided on the housing 2 in conjunction with a transmission mechanism to drive both rotatable wheels 44 simultaneously.

It is also understood that the chamber-out device 4 may further include a chamber-out switch 47, and the chamber-out switch 47 is electrically connected to the two rotating wheels 44. By toggling the fire switch 47 to the closed position, the two rotating wheels 44 are normally operated.

As shown in fig. 1 and 2, the housing 2 is provided with a holding cam groove 21.

It will be appreciated that gripping the contoured groove 21 facilitates the user's gripping of the toy gun 10, enhancing the comfort of use of the product.

According to the loading device for the toy and the toy gun, the slide seat is driven to slide in the bullet inlet channel through the reset piece, and the one-way toggle key on the slide seat enables the toy bullet to be jacked to move in the bullet inlet channel only when the slide seat slides in the preset direction; so, when having realized the continuous excitation ability of toy bullet, still only need provide certain reciprocating motion space on the product for the slide can be constantly with the bullet pay-off to the income bullet passageway in, reduced the whole volume of product, improved the compactness of product.

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 loading device for a toy is characterized by comprising a box body (11) provided with a bullet inlet channel (111), a sliding seat (12) arranged on the box body (11) in a sliding way, a reset piece (13) arranged on the box body (11), and a one-way toggle key (14) rotatably arranged on the sliding seat (12);

the sliding seat (12) can overcome the acting force of the reset piece (13) under the action of external force and drive a toy bullet to slide in the bullet inlet channel through the one-way toggle key (14); the sliding base (12) can also drive the one-way toggle key (14) to reset and move under the jacking of the resetting piece (13), so that the one-way toggle key (14) is jacked by the toy bullet and is contained in the sliding base (12).

2. A loading device for toys as claimed in claim 1, wherein the slide base (12) is provided with a receiving groove (121), the one-way toggle key (14) is rotatably disposed in the receiving groove (121), and a one-way limiting strip (124) for abutting against the one-way toggle key (14) is disposed on a wall of the receiving groove (121);

the one-way toggle key (14) can rotate relative to the sliding base (12) under the action of external force, the one-way toggle key (14) is abutted against the one-way limiting strip (124) when rotating to a toggle position (122), and the one-way toggle key (14) is accommodated in the accommodating groove (121) when rotating to an avoidance position (123).

3. A loading device for toy as claimed in claim 1, characterized in that said loading device further comprises a positioning member (151) disposed on said box (11), and an elastic member (152) abutting against said positioning member (151), said positioning member (151) being adapted to be inserted into a predetermined position on said toy bullet under the driving of said elastic member (152) to fix said toy bullet.

4. Toy gun, characterized in that it comprises a housing (2), a triggering device (3) arranged on said housing (2), and a toy cocking device according to any one of claims 1 to 3, arranged on said housing (2), said triggering device (3) being adapted to provide a force for sliding said slide (12).

5. Toy gun according to claim 4, characterized in that the triggering device (3) comprises a trigger (31) arranged on the housing (2), a power element (32) arranged in the housing (2), and a transmission mechanism (33) arranged in the housing (2);

when the trigger (31) slides relative to the shell (2), the connection between the power part (32) and a power supply can be switched on or off, and the power part (32) can drive the sliding seat (12) to slide relative to the box body (11) through the transmission mechanism (33).

6. Toy gun according to claim 5, characterized in that the transmission mechanism (33) comprises an intermittent gear (331) rotatably arranged in the housing (2) and engaging with the slide (12), the intermittent gear (331) being drivingly connected to the power member (32).

7. Toy gun according to claim 4, characterized in that the toy gun further comprises a muzzle device (4), the muzzle device (4) comprising a guide (41) rotatably arranged on the magazine (11), a recoil (42) provided with a fixed end (421) and a sliding end (422), and a tongue (43) arranged on the sliding end (422); the guide piece (41) is provided with a guide surface (411) and a clearance gap (412), and the fixed end (421) is arranged on the box body (11);

when the guide piece (41) rotates, the sliding end (422) can slide along the guide surface (411) under the action of the elastic force of the bullet-restoring piece (42) and fall into the clearance gap (412), so that the protruding tongue (43) is driven to be inserted into the bullet-entering channel and supports the toy bullet to eject out of the box body (11).

8. Toy gun according to claim 7, characterized in that said muzzle device (4) comprises two rotating wheels (44) rotatably arranged on said housing (2), said two rotating wheels (44) being adapted to drive said toy round entering between said two rotating wheels (44) to be ejected along a predetermined trajectory when rotated.

9. Toy gun according to claim 8, characterized in that the chamber-out device (4) further comprises a chamber-out switch (47), the chamber-out switch (47) being electrically connected to the two turning wheels (44).

10. Toy gun according to claim 4, characterized in that the housing (2) is provided with a gripping contour groove (21).

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