CN219290597U - Toy gun - Google Patents

Abstract

The utility model provides a toy gun, which comprises a gun body and a movable trigger; the power generation part comprises a power gear set and a sliding rack set which are limited in the gun body; the transmission gear part is meshed with the power gear set for transmission; the force storage part comprises a force storage gear set limited in the gun body and a rotating rod connected with the force storage gear set and used for releasing the rotating force; the trigger part is respectively and movably connected with the rotating rod and the trigger, and the trigger can be controlled by pressing the trigger through external force to release the rotating rod for rotation; and the aircraft can be separated from the rotating rod after a certain rotating force is achieved. The utility model overcomes the defect of limited emission power of the existing toy gun, can emit the aircrafts, can emit and accumulate power by the transmission mechanism of the emission, can drive the aircrafts to fly to a higher height by triggering the trigger of the toy gun and emit at a high speed, can emit the aircrafts with large load or a plurality of aircrafts at the same time, and has good entertainment.

Description

Toy gun

Technical Field

The utility model relates to the field of toy gun technology, in particular to a toy gun.

Background

Toy guns are child toys based on gun models, the toy guns are various in form, most of the toy guns are bullet toy guns at present, the operation mode is that a trigger is triggered and bullets such as soft bullets are shot, but the simulation toy guns still have a certain danger, a certain destructive force exists, people are easily injured, so that in addition to bullet toy guns, more toy guns which have gun shapes but contain other entertainment modes, such as a water gun for spraying liquid, a toy gun for shooting flying saucer, and the like, are also appeared. For example, patent document publication No. US20080022988A1 discloses a multiple shot toy gun with a separate target firing mechanism capable of firing a plurality of shots using an internal rotary firing assembly, the toy gun also providing a separate target firing mechanism to fire a target object into the air for use as a target upon firing the shots, in which case a target firing trigger is directly connected to a rack housed within a housing, the rack being drivingly connected to a gear assembly which in turn is drivingly connected to the target launcher, the gear assembly transmitting directional power from the target firing trigger to rotational power of the target launcher, when the rack is moved by the target firing trigger, thereby rotating the target launcher and firing the target object by sliding the handle manually so that the rack is pulled from its forward position to its rear position.

The toy gun of the scheme can emit the target emitter, particularly an aircraft such as a flying saucer, increases playability and entertainment of the toy gun, has great attraction to children, but the emission mode of the scheme is that the rotation force is directly transmitted to the target emitter after the manual sliding handle slides, the emission height and the rotation degree of the target emitter are related to the unidirectional sliding stroke of the manual sliding handle, the unidirectional sliding stroke of the manual sliding handle is limited, the emission height and the rotation degree of the target emitter are limited, the target emitter cannot obtain enough rotation force, the entertainment caused by insufficient flying height is also lacking, meanwhile, the emission mode can push the rotating target emitter to have limited weight, the large or large number of target emitters cannot be emitted, and the entertainment performance of the target emitter is further greatly discounted.

Disclosure of Invention

The utility model aims to overcome the defect of limited launching power of the existing toy gun capable of launching aircrafts such as flying saucers and the like, and provides a toy gun. The toy gun-based aircraft launching device can launch an aircraft based on the modeling of the toy gun, has good entertainment, and meanwhile, the launching transmission mechanism can launch and accumulate force, and can drive the aircraft to fly to a higher height by utilizing the trigger triggering of the toy gun and launch at a high speed, and can also launch a large load or a plurality of aircrafts simultaneously, so that the toy gun-based aircraft launching device has good entertainment and better market competitiveness.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a toy gun, comprising:

a gun body comprising a movable trigger;

the power generation part comprises a power gear set which is limited in the gun body, a sliding rack set which is meshed with the power gear set for transmission, one end of the sliding rack set is positioned outside the gun body, and one end of the sliding rack set positioned outside the gun body can slide relative to the gun body under the action of external force and drive the power gear set to rotate;

the transmission gear part is limited in the gun body, and one end of the transmission gear part is meshed with the power gear set for transmission;

the power storage part comprises a power storage gear set limited in the gun body, the power storage gear set is meshed with the other end of the transmission gear part for transmission, the power storage part also comprises a rotating rod which is connected with the power storage gear set and used for releasing the rotating force, one end of the rotating rod is exposed out of the gun body, and the other end of the rotating rod is positioned in the gun body;

the trigger part is limited in the gun body and is respectively and movably connected with the rotating rod and the trigger, and the trigger can be controlled to release the rotating rod to rotate by pressing the trigger through external force;

the aircraft is movably connected with one end of the rotating rod exposed outside the gun body and can be separated from the rotating rod after a certain rotation force is achieved.

The utility model has the appearance of the gun body, can have the entertainment function of launching the aircraft under the modeling foundation of the toy gun, a user can rotate the power gear set through the action of external force at one end of the sliding rack set outside the gun body, a power source is formed, the rotation of the power gear set is transmitted to the power storage gear set through the transmission gear part to store the force, the power storage of the power storage gear set reaches a certain degree through the action of external force for many times, the rotating rod connected with the power storage gear set is still limited by the triggering part, when the user presses the trigger through the external force, the triggering part linked with the trigger releases the rotating rod, the rotating rod releases the rotating force stored by the power storage gear set through rotation, and the aircraft movably connected with the tail end of the rotating rod is separated from the rotating rod after reaching a certain rotating force, so that the launching of the aircraft is realized. The utility model can repeatedly accumulate force through the accumulating force gear set, can push a large-load aircraft or a plurality of aircrafts to emit simultaneously, can push the aircrafts to a higher height, has excellent entertainment and competitive performance and has good market competitiveness.

Further, the power gear set comprises a first driven gear of which the main shaft is limited in the gun body, a driving gear assembly coaxially arranged with the first driven gear, and first unidirectional ratchets for meshed transmission are respectively arranged on one side of the driving gear assembly opposite to the first driven gear; the driving gear assembly comprises a driving gear meshed with the first driven gear, a first spring arranged on one side of the driving gear, which is opposite to the first driven gear, the first spring is limited between the driving gear and the gun body, the driving gear can move in the elastic stroke of the first spring, the first driven gear is meshed with the transmission gear part for transmission, and the driving gear is meshed with the sliding rack set for transmission.

It should be noted that, in order to realize that the driving gear assembly can repeatedly store force in the limited sliding travel of the sliding rack set, the driving gear assembly can only realize force transmission when unidirectional rotation is realized through the first unidirectional ratchet, and the sliding teeth can not transmit force when the driving gear assembly is reversed, and the elastic travel of the first spring is utilized to realize reset engagement after the sliding teeth, so that the power generation is realized through repeated engagement transmission of the sliding rack set and the driving gear assembly for many times.

Further, the sliding rack set comprises a rack and a manual handle, the rack is positioned in the gun body and meshed with the driving gear, one end of the manual handle penetrates through the gun body and is fixedly connected with the rack, the other end of the manual handle is positioned outside the gun body, and a through hole groove for repeatedly penetrating and sliding at the joint of the manual handle and the rack is formed in the gun body. In this way, the rack is driven by the manual handle under the action of external force, and when the rack moves towards one side, the meshed driving gear is driven to start to rotate; the through hole groove is formed, so that the sliding range can be limited, and meanwhile, the stability of the sliding process of the sliding rack set can be enhanced.

Further, the driving gear assembly comprises two groups, the two groups of driving gear assemblies are coaxially positioned at two sides of the first driven gear respectively, and the rotation directions of the two groups of driving gear assemblies are opposite; the number of racks comprises two groups, and the two groups of racks are respectively meshed with the two groups of driving gear components for transmission.

It should be noted that, setting up two sets of driving gear components coaxial and being located the both sides of first driven gear more stable effective, two sets of racks can be preferred arrange left and right sides parallel arrangement respectively in, design like this is more stable in pulling rack in-process, is difficult for collapsing tooth and tooth phenomenon that takes off because of the atress imbalance appears between the tooth. In addition, the manual handles can be symmetrically arranged at two sides of the through hole groove, so that an operator can conveniently hold the through hole groove to exert force.

Further, the transmission gear part comprises a second driven gear and a third driven gear which are coaxially arranged and relatively fixed, the second driven gear is meshed with the first driven gear for transmission, and the third driven gear is meshed with the power storage gear set for transmission.

Further, the power storage gear set comprises a fourth driven gear with a hollow inside, a spring with one end fixed on the inner side wall of the fourth driven gear and the other end connected with a rotating rod, the rotating rod and the fourth driven gear are coaxially arranged, and the fourth driven gear is meshed with the third driven gear for transmission; the power storage gear set further comprises an anti-reversion mechanism which limits the fourth driven gear to rotate in one direction only, and a second one-way ratchet movably abutted with the anti-reversion mechanism is arranged at one side end part of the fourth driven gear.

It should be noted that the spring is a key component of the power storage, two ends of the spring are respectively limited by the inner side wall of the fourth driven gear and the rotating rod, so when the fourth driven gear rotates, one end of the spring is driven and begins to rotate and tighten, the spring is not in a loose state any more, but in a rotation tightening state, the fourth driven gear is limited by the anti-reversion mechanism and can only rotate in one direction, the spring can only be rotated and tensioned in a power storage state, when the trigger part releases the limit on the rotating rod, the rotating force of the spring and the elasticity of the spring tend to return to a loosening state at the moment, so that the rotating rod is rotated at a high speed by a larger reverse rotating force, and the power storage release is realized.

Further, the anti-reversion mechanism comprises a contact block, a second spring sleeved at one end of the contact block and the other end of the contact block is limited in the gun body, and the contact block is movably abutted on the second unidirectional ratchet in the elastic stroke of the second spring. The contact block abuts against the second unidirectional ratchet, sliding teeth appear on the contact block when the contact block rotates in a certain direction to ensure that the fourth driven gear rotates normally, but the fourth driven gear cannot rotate reversely due to the fact that the ratchet is limited by the ratchet when the contact block rotates in another direction, the second spring can ensure that the contact block can reset back to the teeth of the second unidirectional ratchet after sliding the teeth, the fourth driven gear is prevented from reversing, and the completion of the power storage action is effectively ensured through the design.

Further, the trigger part comprises a trigger rod, an abutting block which is movably abutted with the rotating rod is arranged on the trigger rod, an abutting groove which is matched with the trigger rod is formed in the rotating rod, one end of the trigger is rotatably connected to the gun body, a third spring is connected between the trigger and the gun body to limit the rotating range of the trigger, and the middle part of the trigger is abutted with the trigger rod; the trigger is characterized by further comprising a fourth spring, one end of the fourth spring is connected with the trigger rod, the other end of the fourth spring is limited in the gun body, and the trigger can be pressed outside to drive the trigger rod to compress the fourth spring to drive the abutting block to be separated from the abutting groove. It should be noted that, trigger one end rotates for the rifle body activity, and operating personnel presses the trigger, and the trigger lever that is pressed with the trigger butt and is moved towards one side, and the trigger lever compresses fourth spring this moment, and the butt piece on the trigger lever breaks away from the butt groove back to release the dwang, loosen the trigger, the trigger returns the normal position under the resilience of third spring, and the trigger lever returns the normal position under the resilience of fourth spring, waits for next trigger.

Further, the trigger rod is further provided with a limiting groove, one end of the gun body is provided with a limiting rod positioned in the limiting groove, and the limiting rod can meet the requirement that the abutting block is separated from the abutting groove in the unidirectional movement range of the limiting groove. Therefore, the limiting groove mainly limits the unidirectional movement range of the trigger rod, the reasonable and effective trigger distance is ensured, the entertainment is influenced by the trigger of a too long stroke, and the false trigger is easy to occur when the trigger stroke is too short.

Further, the transmission gear part and the power storage part at least comprise two groups, each group of transmission gear part is respectively meshed and transmitted with the power gear set, and a transfer gear set is further arranged between the power storage gear set of each group of power storage part and each group of transmission gear part for meshed and transmission; the trigger rod comprises at least two abutting blocks which are respectively abutted with the rotating rods of each group of force storage parts. The utility model can be arranged in a double-engine or multiple-engine mode, the same power gear set is used as the power generation part, the multiple power adding and distributing power storage part and the transmission part realize transmission and power storage, and a plurality of rotating rods are driven simultaneously, so that more aircrafts can be launched simultaneously, the entertainment is stronger, and the toy is more playable.

Further, the aircraft comprises a flying saucer with a central shaft and a rotating rod which are coaxially and movably connected.

Further, the flying saucer comprises a plurality of propeller blades uniformly distributed around the circumference of the central shaft and a fixed ring which is arranged at the tail ends of the propeller blades in a surrounding mode, and the propeller blades are inclined at a certain angle towards the same direction. The lifting direction of the flight can be adjusted by tilting a plurality of propeller blades by a certain angle; the retainer plate is established and can play the guard action at the terminal periphery of a plurality of screw blade, and on the one hand protection screw blade is difficult for breaking, on the other hand can protect operating personnel or other personnel by screw blade fish tail.

As a preferable scheme, the tail end of the rotating rod is provided with an outer spiral track, an inner spiral track matched with the outer spiral track is arranged at the central shaft of the flying saucer, and the rotating rod is at least provided with one flying saucer.

It should be noted that, this preferred scheme is through the cooperation of interior spiral line track and outer spiral track for the flying saucer not only obtains a instantaneous burst and revolves to the power, can obtain certain rotatory stroke moreover, and the flying saucer can be better rotatory lift-off. Meanwhile, one or more flying saucers with internal spiral lines can be sleeved on one rotating rod, so that after the rotating rod is triggered, one or more flying saucers can be continuously launched in sequence, and the entertainment and playability are excellent.

As another preferred scheme, the aircraft further comprises a switching shaft with one end coaxially fixed with the flying saucer and the other end coaxially movably spliced with the rotating rod, and a supporting frame sleeved on the switching shaft, wherein the supporting frame comprises a plurality of supporting feet which are uniformly distributed along the circumference of the switching shaft.

Further, the tail end of each supporting foot is provided with a bubble forming ring, the gun body is further provided with a plurality of liquid storage tanks, each bubble forming ring can be correspondingly placed in each liquid storage tank, the liquid storage tank is positioned at the top of the gun body and is provided with an upward opening, and the plane of the inner ring of the bubble forming ring is perpendicular to the emergent direction of the flying saucer.

It should be noted that, this preferred scheme forms the floor support through increasing the support frame for the flying saucer, and the flying saucer after the transmission falls to the ground can be through the steady floor of the supporting leg of support frame. The utility model can be matched with a liquid storage tank of a gun body to place bubble water, a bubble forming ring is soaked in the liquid storage tank, an aircraft emits at high speed after triggering, the inner ring plane of the bubble forming ring is provided with bubble water, and the bubble forming ring is contacted with air passing at high speed to form a blowing effect, so that a large number of bubbles are generated.

It should be noted that, the gun body of the present utility model has the appearance of a gun, the release of the aircraft is realized by the trigger being broken off, the basic elements of the gun body model also include but are not limited to a grip, a gun barrel, a gun body, etc., and the internal structure of the gun body is adapted to the realization of the structures of a power generating part, a transmission gear part, a power storage part, a triggering part, etc. and the gun body is also provided with corresponding limit structures.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model has the appearance of the gun body, can have the entertainment function of launching the aircraft under the modeling basis of the toy gun, can repeatedly store force through the force storage gear set, can push the high-load aircraft or a plurality of aircrafts to launch simultaneously, can push the aircrafts to a higher height, has excellent entertainment and competitive performance, and has good market competitiveness.

Drawings

FIG. 1 is a schematic overall structure of embodiment 1;

fig. 2 is a schematic view of the internal structure of embodiment 1;

FIG. 3 is a schematic view showing the structure of a power gear set and a sliding rack set in embodiment 1;

FIG. 4 is a schematic view of the power gearset and the sliding rack set according to example 1 from another perspective;

FIG. 5 is a schematic diagram of a power storage gear set in embodiment 1;

FIG. 6 is a schematic diagram showing a connection structure of a power storage gear set and a trigger portion in embodiment 1;

FIG. 7 is an enlarged view of a portion of FIG. 6 at A;

FIG. 8 is a schematic view of the overall structure of the aircraft in example 1;

fig. 9 is a schematic view of the internal structure of embodiment 2;

FIG. 10 is a schematic view showing a connection structure between an aircraft and a power storage unit in embodiment 3;

fig. 11 is a schematic structural view of the end of the turning lever in embodiment 3.

The graphic indicia are illustrated as follows:

1-gun body, 11-trigger, 110-third spring, 12-through hole slot, 13-limit lever, 14-reservoir, 21-power gear set, 210-first one-way ratchet, 211-first driven gear, 212-driving gear assembly, 2121-driving gear, 2122-first spring, 22-sliding rack set, 221-rack, 222-manual handle, 3-driving gear portion, 31-second driven gear, 32-third driven gear, 41-power gear set, 411-fourth driven gear, 412-spring, 413-anti-reverse mechanism, 4131-contact block, 4132-second spring, 414-second one-way ratchet, 42-rotating lever, 421-abutting slot, 422-outer spiral track, 5-triggering portion, 51-triggering lever, 511-abutting block, 512-limit slot, 52-fourth spring, 6-aircraft, 61-flying saucer, 612-spiral blade, 613-fixed ring, 63-adapter shaft, 64-support bracket, 641-supporting foot, 642-foam ring, 7-transfer ring gear set.

Detailed Description

The utility model is further described below in connection with the following detailed description. Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numbers in the drawings of embodiments of the utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present utility model and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Example 1

As shown in fig. 1 to 2, a toy gun, comprising:

a gun body 1 comprising a movable trigger 11;

the power generation part comprises a power gear set 21 limited in the gun body 1, a sliding rack set 22 meshed with the power gear set 21 for transmission, one end of the sliding rack set 22 is positioned outside the gun body 1, and one end of the sliding rack set 22 positioned outside the gun body 1 can slide relative to the gun body 1 under the action of external force and drive the power gear set 21 to rotate;

the transmission gear part 3 is limited in the gun body 1, and one end of the transmission gear part is meshed with the power gear set 21 for transmission;

the power storage part comprises a power storage gear set 41 limited in the gun body 1, the power storage gear set 41 is meshed with the other end of the transmission gear part 1 for transmission, the power storage part also comprises a rotating rod 42 which is connected with the power storage gear set 41 and used for releasing the rotating force, one end of the rotating rod 42 is exposed out of the gun body 1, and the other end of the rotating rod 42 is positioned in the gun body 1;

the trigger part 5 is limited in the gun body 1 and is respectively and movably connected with the rotating rod 42 and the trigger 11, and the trigger 11 is pressed by external force to control the trigger part 5 to release the rotating rod 42 for rotation;

the aircraft 6 is movably connected with one end of the rotating rod 42 exposed outside the gun body 1, and can be separated from the rotating rod 42 after a certain rotation force is achieved.

The embodiment has the appearance of a gun body, can have the entertainment function of launching an aircraft under the modeling foundation of a toy gun, a user is positioned at one end outside the gun body 1 at the sliding rack set 22 through the action of external force, so that the power gear set 21 rotates to form a power source, the rotation of the power gear set 21 is transmitted to the power storage gear set 41 through the transmission gear part 3 to store force, the power storage of the power storage gear set 41 reaches a certain degree through the action of external force for many times, at the moment, the rotating rod 42 is still limited by the triggering part 5 connected with the power storage gear set 41, when the user presses the trigger 11 through the external force, the triggering part 5 which is in linkage with the trigger 11 releases the rotating rod 42, the rotating force stored by the power storage gear set 41 is released through rotation, and the aircraft 6 at the tail end of the movable connection rotating rod 42 is separated from the rotating rod 42 after reaching a certain rotating force, so that the launching of the aircraft 6 is realized. The embodiment can repeatedly accumulate force through the accumulating force gear set 41, can push the high-load aircrafts 6 or a plurality of aircrafts 6 to emit simultaneously, can push the aircrafts 6 to a higher height, has excellent entertainment and competitive performance, and has good market competitiveness.

As shown in fig. 3, the power gear set 21 includes a first driven gear 211 with a main shaft limited in the gun body 1, a driving gear assembly 212 coaxially arranged with the first driven gear 211, and first unidirectional ratchets 210 engaged with and driven by the driving gear assembly 212 and the first driven gear 211 respectively arranged at opposite sides; the driving gear assembly 212 includes a driving gear 2121 engaged with the first driven gear 211, a first spring 2122 disposed on a side of the driving gear 2121 facing away from the first driven gear 211, the first spring 2122 being limited between the driving gear 2121 and the gun body 1, the driving gear 2121 being movable in an elastic stroke of the first spring 2122, the first driven gear 211 being engaged with the driving gear portion 3 for driving, and the driving gear 2121 being engaged with the sliding rack set 22 for driving.

In order to realize that the driving gear assembly 212 can repeatedly store force in the limited sliding stroke of the sliding rack assembly 22, the driving gear assembly 212 can realize force transmission only in unidirectional rotation through the first unidirectional ratchet 210, but cannot transmit force when in reverse direction, and the elastic stroke of the first spring 2122 is utilized to realize reset engagement after sliding the teeth, so that the sliding rack assembly 22 and the driving gear assembly 212 repeatedly engage and transmit for multiple times to realize power generation.

As shown in fig. 3, the sliding rack set 22 includes a rack 221 and a manual handle 222, the rack 221 is located inside the gun body 1 and is meshed with the driving gear 2121, one end of the manual handle 222 passes through the gun body 1 and is fixedly connected with the rack 221, the other end of the manual handle 222 is located outside the gun body 1, and a through hole groove 12 for repeatedly penetrating and sliding at the joint of the manual handle 222 and the rack 221 is formed in the gun body 1. In this way, the rack is driven by the manual handle 222 under the action of external force, and when the rack 221 moves to one side, the engaged driving gear 2121 is driven to start to rotate; the through hole groove 12 is formed to limit the sliding range and enhance the stability of the sliding process of the sliding rack set 22.

As shown in fig. 4, the driving gear assembly 212 includes two groups, the two groups of driving gear assemblies 212 are coaxially located at two sides of the first driven gear 211, and the rotation directions of the two groups of driving gear assemblies 212 are opposite; the number of racks 221 also includes two sets, and the two sets of racks 221 are respectively meshed with the two sets of driving gear assemblies 212.

It should be noted that, the two sets of driving gear assemblies 212 are disposed coaxially on two sides of the first driven gear 211 to be more stable and effective, and the two sets of racks 221 are disposed in parallel on the left and right sides respectively, so that the rack 221 is more stable during the process of pulling the racks 221, and tooth collapse and tooth disengagement phenomena are not easy to occur between teeth due to unbalanced stress.

In this embodiment, the manual handles 222 may be disposed on two sides of the through hole 12 symmetrically, so as to facilitate the operator to hold the force.

As shown in fig. 3 and 5, the transmission gear portion 3 includes a second driven gear 31 and a third driven gear 32 which are coaxially disposed and relatively fixed, the second driven gear 31 is engaged with the first driven gear 211 for transmission, and the third driven gear 32 is engaged with the power storage gear set 41 for transmission.

As shown in fig. 5 and 6, the power storage gear set 41 comprises a fourth driven gear 411 with a hollow interior, a spring 412 with one end fixed on the inner side wall of the fourth driven gear 411, and a rotating rod 42 connected with the other end of the spring 412, wherein the rotating rod 42 is coaxially arranged with the fourth driven gear 411, and the fourth driven gear 411 is meshed with the third driven gear 32 for transmission; the power storage gear set 41 further comprises an anti-reversion mechanism 413 for limiting the fourth driven gear 411 to rotate in one direction, and a second unidirectional ratchet 414 movably abutting against the anti-reversion mechanism 413 is arranged at one side end part of the fourth driven gear 411.

It should be noted that, the spring 412 is a key component of the power storage, two ends of the spring 412 are limited by the inner side wall of the fourth driven gear 411 and the rotating rod 42, so when the fourth driven gear 411 rotates, one end of the spring 412 is driven and starts to rotate and tighten, the spring 412 is no longer in a loose state, but in a rotation tightening state, the fourth driven gear 411 is limited by the anti-reversion mechanism 413 to rotate only in one direction, the spring 412 can only be rotated and tightened all the time in the power storage state, when the trigger part releases the limit on the rotating rod 42, the rotating force and the self elastic force of the spring 412 tend to return to the loose state at this time, so that the rotating rod 42 is rotated at a high speed by a large reverse rotating force, and the power storage release is realized.

As shown in fig. 5, the anti-reversion mechanism 413 includes a contact block 4131, a second spring 4132 sleeved at one end of the contact block 4131 and the other end of the contact block is limited in the gun body 1, and the contact block 4131 movably abuts against the second unidirectional ratchet 414 in the elastic stroke of the second spring 4132. The contact block 4131 abuts against the second unidirectional ratchet 414, when the contact block 4131 rotates in one direction, sliding teeth appear to ensure that the fourth driven gear 411 rotates normally, but when the contact block 4131 rotates in the other direction, the fourth driven gear 411 cannot rotate reversely due to the fact that the ratchet is limited by the ratchet, the second spring 4132 can ensure that the contact block 4131 can return to the teeth of the second unidirectional ratchet 414 after sliding teeth, the fourth driven gear 411 is prevented from reversing, and the completion of the power storage action is effectively ensured through the design.

As shown in fig. 6 and 7, the triggering part 5 comprises a triggering rod 51, an abutting block 511 movably abutting against the rotating rod 42 is arranged on the triggering rod 51, an abutting groove 421 matched with the triggering rod 51 is arranged on the rotating rod 42, one end of a trigger 11 is rotatably connected to the gun body 1, a third spring 110 is connected between the trigger 11 and the gun body 1 to limit the rotation range of the trigger 11, and the middle part of the trigger 11 is abutted against the triggering rod 51; the gun also comprises a fourth spring 52 with one end connected with the trigger rod 51, the other end of the fourth spring 52 is limited in the gun body 1, and the trigger 11 can be pressed outside to drive the trigger rod 51 to compress the fourth spring 52 to drive the abutting block 511 to be separated from the abutting groove 421. It should be noted that, when the trigger 11 is movably rotated with respect to the gun body 1, the operator presses the trigger 11, the trigger rod 51 abutting against the trigger 11 is pushed and moves to one side, the trigger rod 51 compresses the fourth spring 52 at this time, the abutting block 511 on the trigger rod 51 is separated from the abutting groove 421, so that the rotating rod 42 is released, the trigger 11 returns to the original position under the resilience of the third spring 110, and the trigger rod 51 returns to the original position under the resilience of the fourth spring 52, waiting for the next trigger.

As shown in fig. 7, the trigger rod 51 is further provided with a limiting groove 512, and the gun body 1 is provided with a limiting rod 13 with one end located in the limiting groove 512, and the unidirectional movement range of the limiting rod 13 in the limiting groove 512 can meet that the abutting block 511 is separated from the abutting groove 421. Thus, the limiting groove 512 mainly limits the unidirectional movement range of the trigger rod 51, so that a reasonable and effective trigger distance can be ensured, the entertainment is influenced by the trigger of a long stroke, and the false trigger is easy to occur if the trigger stroke is too short.

As shown in fig. 8, the aircraft 6 includes a flying saucer 61 having a central axis movably connected coaxially with the rotary lever 42.

As shown in fig. 8, the flying saucer 61 includes a plurality of propeller blades 612 uniformly distributed circumferentially around a central axis, and a fixing ring 613 surrounding the tip ends of the plurality of propeller blades 612, the plurality of propeller blades 612 being inclined at an angle toward the same direction. The plurality of propeller blades 612 are inclined at an angle to adjust the direction of lift for flight; the retainer plate 613 sets up in the terminal periphery of a plurality of screw blade 612 can play the guard action, and on the one hand protects screw blade 612 and is difficult for breaking, on the other hand can protect operating personnel or other personnel to be scratched by screw blade 612.

As shown in fig. 8, as one implementation, the aircraft 6 further includes a switching shaft 63 with one end coaxially fixed to the flying saucer 61 and the other end movably spliced with the rotating rod 42 coaxially, and a supporting frame 64 sleeved on the switching shaft 63, where the supporting frame 64 includes a plurality of supporting feet 641, and the plurality of supporting feet 641 are uniformly distributed along the circumferential direction of the switching shaft 63.

As shown in fig. 8 and fig. 1, the end of each supporting foot 641 is provided with a bubble forming ring 642, the gun body 1 is further provided with a plurality of liquid storage tanks 14, each bubble forming ring 642 can be correspondingly placed in each liquid storage tank 14, the liquid storage tank 14 is positioned at the top of the gun body 1 and has an upward opening, and the inner ring plane of the bubble forming ring 642 is perpendicular to the outgoing direction of the flying saucer 62.

In this embodiment, the bubble forming ring 642 has a conventional shape, i.e. includes a hollow interior and a plurality of ribs arranged closely on the peripheral sides of the two ends, so that more bubble water can stay in the gaps, and the number of bubbles can be increased.

It should be noted that, in this embodiment, the support frame 64 is added to the flying saucer 61 to form a landing support, and the flying saucer 61 after being launched can be stably landed by the support foot 641 of the support frame 64. The air-blowing type aircraft can be matched with the liquid storage tank 14 of the gun body 1 to place bubble water, the bubble forming ring 642 is soaked in the liquid storage tank 14, the aircraft 6 is emergent at high speed after triggering, the bubble water is arranged on the inner ring plane of the bubble forming ring 642 and is contacted with air passing at high speed to form an air-blowing effect, so that a large number of bubbles are generated, and therefore, the air-blowing type aircraft can not only launch flying saucers, but also generate a large number of bubbles while launching the flying saucers 61 to form fantasy environmental effects, has very strong playability and entertainment, has multiple playing methods and has very competitive capacity.

As shown in fig. 1 and 2, the gun body 1 of the present embodiment has a gun appearance model, the release of the aircraft 6 is achieved by pulling the trigger 11, the basic elements of the gun body 1 model also include, but are not limited to, a grip, a barrel, a gun body, and the like, and the internal structure of the gun body is adapted to the implementation and limitation of the structures such as the power generation part, the transmission gear part 3, the power storage part, the trigger part 5, and the like, and corresponding limitation structures are also provided.

Example 2

This embodiment is similar to embodiment 1, except that this embodiment has two sets of transmission gear parts 3 and power storage parts, and can perform a double-shot aircraft, not only can launch the aircraft, but also can generate a large number of bubbles at the same time of launching:

as shown in fig. 9, the transmission gear part 3 and the power storage part at least comprise two groups, each group of transmission gear part 3 is meshed with the power gear set 21 for transmission, and a transfer gear set 7 is further arranged between the power storage gear set 41 of each group of power storage part and each group of transmission gear part 3 for meshed transmission; the trigger lever 51 includes at least two abutment blocks 511 respectively abutting against the rotating lever 42 of each group of the power storage portions.

The embodiment can be set into a double-engine mode, the same power gear set 21 is used as a power generation part, a group of power storage part and a transmission part are additionally matched to realize transmission and power storage, and two rotating rods 42 are driven simultaneously, so that more aircrafts can be launched simultaneously, entertainment is stronger, and playability is better.

Other structures and principles of this embodiment are the same as those of embodiment 1.

Example 3

The present embodiment is similar to embodiment 1, except that the specific aircraft 6 in this embodiment includes only a flying saucer 61 with a central shaft movably connected coaxially with a rotating rod 42, the flying saucer 61 includes a plurality of propeller blades 612 uniformly distributed around the central shaft in circumferential direction, and a fixing ring 613 surrounding the ends of the plurality of propeller blades 612, and the plurality of propeller blades 612 are inclined at a certain angle in the same direction. The plurality of propeller blades 612 are inclined at an angle to adjust the direction of lift for flight; the retainer plate 613 sets up in the terminal periphery of a plurality of screw blade 612 can play the guard action, and on the one hand protects screw blade 612 and is difficult for breaking, on the other hand can protect operating personnel or other personnel to be scratched by screw blade 612.

As shown in fig. 10 and 11, the end of the rotating rod 42 is further provided with an outer spiral track 422, an inner spiral track matching with the outer spiral track 422 is provided at the central axis of the flying saucer 61, and at least one flying saucer 61 is provided on the rotating rod 42.

It should be noted that, in the preferred embodiment, through the cooperation of the inner spiral track and the outer spiral track 422, the flying saucer 61 not only obtains an instantaneous burst direction force, but also can obtain a certain rotation stroke, and the flying saucer 61 can be rotated and lifted off better. Meanwhile, one or more flying saucers 61 with internal spiral lines can be sleeved on one rotating rod 42, so that after the rotating rod 42 is triggered, one or more flying saucers 61 can be continuously launched in sequence, and the entertainment and the playability are excellent.

The structure and principle of this embodiment other than the aircraft 6 are the same as those of embodiment 1.

Example 4

This embodiment is similar to embodiment 3, except that it has two sets of transmission gear parts 3 and power storage parts, and has two rotating rods 42:

in the embodiment, the transmission gear part 3 and the power storage part at least comprise two groups, each group of transmission gear part 3 is respectively meshed with the power gear set 21 for transmission, and a transfer gear set 7 is further arranged between the power storage gear set 41 of each group of power storage part and each group of transmission gear part 3 for meshed transmission; the trigger lever 51 includes at least two abutment blocks 511 respectively abutting against the rotating lever 42 of each group of the power storage portions. The embodiment can be set into a double-engine mode, the same power gear set 21 is used as a power generation part, a group of power storage part and a transmission part are additionally matched to realize transmission and power storage, and two rotating rods 42 are driven simultaneously, so that more aircrafts can be launched simultaneously, entertainment is stronger, and playability is better.

Other structures and principles of this embodiment are the same as those of embodiment 3.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (15)

1. A toy gun, comprising:

a gun body (1) comprising a movable trigger (11);

the power generation part comprises a power gear set (21) limited in the gun body (1), and a sliding rack set (22) meshed with the power gear set (21) for transmission, wherein one end of the sliding rack set (22) is positioned outside the gun body (1), and one end of the sliding rack set (22) positioned outside the gun body (1) can slide relative to the gun body (1) under the action of external force and drive the power gear set (21) to rotate;

a transmission gear part (3) limited in the gun body (1), one end of which is meshed with the power gear set (21) for transmission;

the power storage part comprises a power storage gear set (41) limited in the gun body (1), the power storage gear set (41) is in meshed transmission with the other end of the transmission gear part (3), the power storage part further comprises a rotating rod (42) connected with the power storage gear set (41) and used for releasing rotating force, one end of the rotating rod (42) is exposed out of the gun body (1), and the other end of the rotating rod (42) is positioned in the gun body (1);

the trigger part (5) is limited in the gun body (1) and is respectively and movably connected with the rotating rod (42) and the trigger (11), and the trigger (11) is pressed by external force to control the trigger part (5) to release the rotating rod (42) for rotation;

the aircraft (6) is movably connected with one end of the rotating rod (42) exposed outside the gun body (1), and can be separated from the rotating rod (42) after a certain rotation force is achieved.

2. A toy gun according to claim 1, characterized in that the power gear set (21) comprises a first driven gear (211) with a main shaft limited in the gun body (1), a driving gear assembly (212) coaxially arranged with the first driven gear (211), and first unidirectional ratchets (210) for meshed transmission respectively arranged on one side opposite to the driving gear assembly (212) and the first driven gear (211); the driving gear assembly (212) comprises a driving gear (2121) meshed with the first driven gear (211), a first spring (2122) arranged on one side, opposite to the first driven gear (211), of the driving gear (2121), the first spring (2122) is limited between the driving gear (2121) and the gun body (1), the driving gear (2121) can move in an elastic stroke of the first spring (2122), the first driven gear (211) is meshed with the transmission gear part (3) for transmission, and the driving gear (2121) is meshed with the sliding rack set (22) for transmission.

3. A toy gun according to claim 2, wherein the sliding rack set (22) comprises a rack (221) and a manual handle (222), the rack (221) is located inside the gun body (1) and meshed with the driving gear (2121), one end of the manual handle (222) penetrates through the gun body (1) and is fixedly connected with the rack (221), the other end of the manual handle (222) is located outside the gun body (1), and a through hole groove (12) for repeatedly penetrating and sliding at the joint of the manual handle (222) and the rack (221) is formed in the gun body (1).

4. A toy gun according to claim 3, wherein said driving gear assembly (212) comprises two sets, said driving gear assemblies (212) being coaxially located on both sides of said first driven gear (211), respectively, and the directions of rotation of said driving gear assemblies (212) being opposite; the number of the racks (221) comprises two groups, and the two groups of racks (221) are respectively meshed with the two groups of driving gear assemblies (212).

5. A toy gun according to claim 4, characterized in that the transmission gear part (3) comprises a second driven gear (31) and a third driven gear (32) which are coaxially arranged and relatively fixed, the second driven gear (31) is meshed with the first driven gear (211), and the third driven gear (32) is meshed with the power storage gear set (41).

6. A toy gun according to claim 5, wherein the power storage gear set (41) comprises a fourth driven gear (411) with a hollow interior, a spring (412) with one end fixed on the inner side wall of the fourth driven gear (411), the other end of the spring (412) is connected with the rotating rod (42), the rotating rod (42) is coaxially arranged with the fourth driven gear (411), and the fourth driven gear (411) is meshed with the third driven gear (32); the power storage gear set (41) further comprises an anti-reversion mechanism (413) which limits the fourth driven gear (411) to rotate in one direction, and a second unidirectional ratchet (414) which is movably abutted with the anti-reversion mechanism (413) is arranged at one side end part of the fourth driven gear (411).

7. A toy gun according to claim 6, wherein the anti-reversion mechanism (413) comprises a contact block (4131), a second spring (4132) sleeved on one end of the contact block (4131) and the other end of the contact block is limited in the gun body (1), and the contact block (4131) is movably abutted against the second unidirectional ratchet (414) in the elastic stroke of the second spring (4132).

8. A toy gun according to claim 1, wherein the trigger part (5) comprises a trigger rod (51), an abutting block (511) movably abutting against the rotating rod (42) is arranged on the trigger rod (51), an abutting groove (421) matched with the trigger rod (51) is formed in the rotating rod (42), one end of the trigger (11) is rotatably connected to the gun body (1) and a third spring (110) is connected between the trigger and the gun body (1) to limit the rotation range of the trigger, and the middle part of the trigger (11) is also abutted against the trigger rod (51); the trigger is characterized by further comprising a fourth spring (52) with one end connected with the trigger rod (51), wherein the other end of the fourth spring (52) is limited in the gun body (1), the trigger (11) can be pressed outside to drive the trigger rod (51) to compress, and the fourth spring (52) drives the abutting block (511) to be separated from the abutting groove (421).

9. The toy gun according to claim 8, wherein the trigger rod (51) is further provided with a limit groove (512), a limit rod (13) with one end located in the limit groove (512) is arranged in the gun body (1), and the limit rod (13) can meet the condition that the abutting block (511) is separated from the abutting groove (421) in the unidirectional movement range of the limit groove (512).

10. A toy gun according to claim 8, characterized in that the transmission gear part (3) and the power storage part at least comprise two groups, each group of transmission gear part (3) is respectively meshed with the power gear set (21) for transmission, and a transfer gear set (7) is further arranged between the power storage gear set (41) of each group of power storage part and each group of transmission gear part (3) for meshed transmission; the trigger lever (51) includes at least two abutting blocks (511) respectively abutting against the rotating lever (42) of each group of the force accumulating portions.

11. A toy gun according to claim 1, characterized in that the aircraft (6) comprises a flying saucer (61) with a central axis movably connected coaxially with the turning stick (42).

12. A toy gun according to claim 11, characterized in that the flying saucer (61) comprises a plurality of propeller blades (612) uniformly distributed circumferentially around the central axis, and a fixing ring (613) surrounding the ends of the plurality of propeller blades (612), the plurality of propeller blades (612) being inclined at an angle in the same direction.

13. A toy gun according to claim 11, characterized in that the end of the rotating rod (42) is provided with an outer spiral track (422), the central axis of the flying saucer (61) is provided with an inner spiral track matching with the outer spiral track (422), and the rotating rod (42) is provided with at least one flying saucer (61).

14. A toy gun according to claim 11, wherein the aircraft (6) further comprises a switching shaft (63) with one end coaxially fixed with the flying saucer (61) and the other end coaxially movably inserted with the rotating rod (42), and a supporting frame (64) sleeved on the switching shaft (63), the supporting frame (64) comprises a plurality of supporting feet (641), and the supporting feet (641) are uniformly distributed along the circumference of the switching shaft (63).

15. A toy gun according to claim 14, characterized in that the tail end of each supporting foot (641) is provided with a bubble forming ring (642), the gun body (1) is further provided with a plurality of liquid storage tanks (14), each bubble forming ring (642) can be correspondingly placed in each liquid storage tank (14), the liquid storage tanks (14) are positioned at the top of the gun body (1) and are provided with upward openings, and the inner ring plane of the bubble forming ring (642) is perpendicular to the emergent direction of the flying saucer (61).

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