CN218097405U - Toy water pistol - Google Patents

Abstract

The utility model relates to the technical field of toys, in particular to a toy water gun which comprises a shell provided with a water storage part, a power device arranged in the shell, a transmission device in driving connection with the power device, and an excitation device connected with the transmission device; the transmission device comprises an intermittent gear which is rotationally arranged in the shell, and the intermittent gear is in driving connection with the power device; the excitation device comprises an excitation cylinder arranged in the shell, a piston rod arranged in the excitation cylinder in a sliding manner, a piston arranged on the piston rod and an elastic piece arranged in the shell; the piston rod is provided with a rack, the bottom of the excitation cylinder is provided with an excitation water outlet hole, the side wall of the excitation cylinder is provided with a water inlet through hole communicated with the water storage part for inputting liquid, and the piston is provided with a position avoiding ring groove; therefore, the continuous exciting injection of the liquid is realized, the liquid range is enlarged, and the damage caused by the blocking and overheating of a motor for pushing the piston to move is prevented.

Description

Toy water pistol

Technical Field

The utility model relates to the technical field of toys, more specifically say, relate to a toy squirt.

Background

The toy water gun is used for conveying stored liquid along a preset direction, endows a certain amount of liquid with kinetic energy and then enables the liquid to be ejected along a preset track, and is popular with vast consumers. However, the water gun in the related art still has the following disadvantages in the practical application process:

firstly, the user needs to repeatedly and continuously pull the trigger to realize the intermittent and continuous liquid excitation and liquid ejection, namely, the toy water gun can only carry out single liquid excitation ejection after the trigger is pulled once, and the toy water gun does not have the function of liquid continuous excitation and ejection;

secondly, in some toy water guns in the related technology, a motor drives a small gear pump to pump liquid, the gear pump can generate small liquid driving force, and the range of the liquid sprayed by the gear pump is short;

thirdly, on some toy squirts among the correlation technique, move in the sleeve through motor drive piston to push out the liquid in the sleeve and accomplish liquid and arouse the injection, but, when the piston was gone to the end and is connect to the sleeve bottom and need reset in order to inhale the liquid that arouses next time, the inlet opening that supplies liquid to introduce on the sleeve was often blockked up by the piston, and the unable removal that resets of leading to the piston because of having vacuum suction between with the sleeve under the unable circumstances of pouring into of liquid, serious still can lead to the motor because of the card is dead and overheat burns out.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a toy squirt that can arouse jet liquid and range far in succession.

The utility model provides a technical scheme that its technical problem adopted is:

the application provides a toy water gun, which comprises a shell provided with a water storage part, a power device arranged in the shell, a transmission device in driving connection with the power device, and an excitation device connected with the transmission device;

the transmission device comprises an intermittent gear which is rotatably arranged in the shell, and the intermittent gear is in driving connection with the power device;

the excitation device comprises an excitation cylinder arranged in the shell, a piston rod arranged in the excitation cylinder in a sliding manner, a piston arranged on the piston rod and an elastic piece arranged in the shell; the piston rod is provided with a rack, the bottom of the excitation cylinder is provided with an excitation water outlet, the side wall of the excitation cylinder is provided with a water inlet through hole communicated with the water storage part for inputting liquid, and the piston is provided with a position avoiding ring groove;

the elastic piece is used for driving the piston rod to drive the piston to slide in the excitation cylinder towards the direction close to the excitation water outlet hole, so that liquid in the excitation cylinder is supported by the piston and is sprayed out through the excitation water outlet hole, the piston is abutted against the bottom of the excitation cylinder, the position avoiding ring groove is communicated with the water inlet through hole, and the intermittent gear can be meshed with the rack in the rotating process; the rack can pass through under the drive of intermittent gear the piston rod drives the piston is towards keeping away from arouse the direction of bobbin base portion and slide, and then make liquid can be via the water inlet through-hole flows into and keeps away the position annular and pour into in the excitation section of thick bamboo.

In some embodiments, the transmission further comprises a first bevel gear coupled to the power unit, a second bevel gear rotatably disposed within the housing, a transmission gear rotatably disposed within the housing;

the second bevel gear is respectively meshed with the first bevel gear and the transmission gear, and the intermittent gear is coaxially arranged with the transmission gear;

the first bevel gear can drive the transmission gear to rotate through the second bevel gear under the driving of the power device, so that the intermittent gear is driven to rotate in the shell, and the intermittent gear can be intermittently meshed with the rack when the piston is positioned at the bottom of the excitation cylinder.

In some embodiments, the excitation device further includes a sealing ring sleeved on the piston, the position-avoiding ring groove is located between the sealing ring and the bottom of the excitation cylinder, and the sealing ring abuts against the piston and the inner wall of the excitation cylinder respectively.

In some embodiments, the excitation device further comprises a guide seat slidably disposed within the housing;

one side surface of the guide seat is abutted against the elastic part, the other opposite side surface of the guide seat is provided with a buffer rubber ring and is connected with the piston rod, and the rack is arranged on the guide seat;

the guide holder is used for being driven by the elastic part to move towards the direction close to the excitation cylinder, and the guide holder is also used for being driven by the rack to move towards the direction far away from the excitation cylinder.

In some embodiments, the excitation device further includes a cross positioning member disposed in the housing, and the elastic member is sleeved on the cross positioning member.

In some embodiments, the excitation device further comprises a water inlet connector detachably arranged on the excitation cylinder, the water inlet connector is communicated with the water inlet through hole, and the water inlet connector is communicated with the water storage piece through a pipeline.

In some embodiments, the toy water gun further comprises a control device, wherein the control device comprises a trigger arranged on the shell in a sliding manner, a trigger switch arranged in the shell, and a resetting piece connected with the trigger;

the trigger can be used for overcoming the elastic force of the reset piece and moving and sliding towards the direction close to the trigger switch so as to enable the trigger switch to be closed by being pushed by the trigger, and further enable the power device to be electrified and operated; the trigger can also be used for resetting and moving towards the direction far away from the trigger switch under the driving of the resetting piece so as to disconnect the trigger switch and further stop the power device.

In some embodiments, the housing has a grip hole and a trigger hole adjacent to the grip hole, and the trigger is exposed in the trigger hole.

In some embodiments, a water injection hole is formed in the top of the water storage member, and the toy water gun further includes a cover rotatably disposed on the water storage member, wherein the cover is used for shielding or opening the water injection hole when rotating.

In some embodiments, the cover body is provided with a vent hole, and the vent hole is used for allowing air to flow into or out of the water storage part.

The utility model discloses a toy squirt has following beneficial effect at least:

the utility model relates to the technical field of toys, in particular to a toy water gun which intermittently transmits the power of a power device to an excitation device through a transmission device, so that the excitation device can still intermittently drive and excite liquid to jet out under the condition that the power device continuously works, and the continuous excitation and injection of the liquid are realized;

moreover, compared with a small gear pump, the elastic force of the elastic piece is used for exciting the liquid to be sprayed, so that the kinetic energy which can be given to a certain amount of liquid by single excitation is increased, namely, the impact force applied to the liquid to be sprayed is increased, and the liquid range is enlarged;

secondly, the water inlet through hole still can be through keeping away the space intercommunication in position annular groove and the excitation section of thick bamboo when the piston butt in the bottom of arousing the section of thick bamboo, especially can with the piston with arouse the space intercommunication between the bobbin base portion, avoid the piston to cause the jam to the water inlet through hole, ensure that liquid can pour into the piston and arouse between the section of thick bamboo low, avoid the piston can't reset because of vacuum suction, prevent that the motor card is dead overheated.

Drawings

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

fig. 1 is a schematic structural diagram of a toy water gun according to a preferred embodiment of the present invention;

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

FIG. 3 is a schematic illustration of the power unit, transmission and excitation unit of the toy water gun of FIG. 2;

fig. 4 is an exploded view of a portion of the structure within the toy water gun of fig. 2;

fig. 5 is a schematic view of another perspective of a portion of the structure within the toy water gun of fig. 2.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 and 2 illustrate a toy water gun 10 according to some preferred embodiments of the present invention, toy water gun 10 being adapted to emit a fluid in a predetermined direction. The toy water gun 10 comprises a shell 1 provided with a water storage part 11, a power device 2 arranged in the shell 1, a transmission device 3 in driving connection with the power device 2, and an excitation device 4 connected with the transmission device 3.

It will be appreciated that the housing 1 serves to mount and secure the remaining devices, and also to secure the water storage member 11; the water storage part 11 is used for storing liquid, and specifically, a cavity for accommodating liquid can be formed in the water storage part 11; the power device 2 is used for providing power to the transmission device 3, and specifically, the transmission device 3 can be a motor; the excitation device 4 is used to excite the liquid ejection.

As shown in fig. 1 to 5, the transmission device 3 includes an intermittent gear 31 rotatably disposed in the housing 1, and the intermittent gear 31 is drivingly connected to the power device 2.

It will be appreciated that the intermittent gear 31 serves to transmit power to the energiser unit 4 intermittently, so that power is transmitted to the energiser unit 4 only for part of the time during a cycle; specifically, the intermittent gear 31 is a gear provided with teeth only at a partial position, and therefore transmission of the motive power is enabled only when the portion provided with teeth is engaged with the rest of the components during rotation, and intermittent driving of the excitation device 4 is achieved.

As shown in fig. 1 to 5, the excitation device 4 includes an excitation cylinder 41 disposed in the housing 1, a piston rod 42 slidably disposed in the excitation cylinder 41, a piston 43 disposed on the piston rod 42, and an elastic member 44 disposed in the housing 1; the piston rod 42 is provided with a rack 45, the bottom of the excitation cylinder 41 is provided with an excitation water outlet 411, the side wall of the excitation cylinder 41 is provided with a water inlet through hole 412 communicated with the water storage part 11 for liquid input, and the piston 43 is provided with a clearance ring groove 431.

As will be appreciated, the excitation cylinder 41 is used to contain the liquid to be excited to emit; the piston rod 42 is used for driving the piston 43 to slide in the excitation cylinder 41; the radius of the piston 43 is matched with the inner diameter of the excitation cylinder 41, liquid is limited between the piston 43 and the bottom of the excitation cylinder 41, the piston 43 causes the space capable of containing the liquid between the piston 43 and the bottom of the excitation cylinder 41 to increase or decrease when sliding, so that the liquid is driven to enter or be discharged out of the excitation cylinder 41, the liquid enters the excitation cylinder 41 to be excited and discharged, and the liquid is excited after being pushed by the piston 43 and then is discharged out of the excitation cylinder 41; the elastic member 44 is for providing an elastic force to the piston rod 42, and specifically, the elastic member 44 may be a spring; the excitation water outlet 411 arranged at the bottom of the excitation cylinder 41 is a through hole, and liquid is discharged through the excitation water outlet 411 and is ejected along a predetermined track when being pushed by the piston; the water inlet through hole 412 provided in the side wall of the excitation cylinder 41 is also a through hole for introducing the liquid into the excitation cylinder 41, specifically, into the space between the piston 43 and the bottom of the excitation cylinder 41.

The elastic member 44 is used for driving the piston rod 42 to drive the piston 43 to slide in the excitation cylinder 41 in a direction close to the excitation water outlet hole 411, so that liquid in the excitation cylinder 41 is supported by the piston 43 and is ejected out through the excitation water outlet hole 411, the piston 43 is abutted against the bottom of the excitation cylinder 41, the position avoiding ring groove 431 is communicated with the water inlet through hole 412, and the intermittent gear can be meshed with the rack 45 in the rotating process; the rack 45 can drive the piston 43 to slide towards the direction far away from the bottom of the excitation cylinder 41 through the piston rod 42 under the driving of the intermittent gear, so that liquid can flow into the position avoiding annular groove 431 through the water inlet through hole 412 and is injected into the excitation cylinder 41;

specifically, after the current liquid ejection is activated, the piston 43 is located in the activation cylinder 41 and at the bottom of the activation cylinder 41, and with further rotation of the intermittent gear 31, the toothed portion of the intermittent gear 31 will be engaged with the rack 45 on the piston rod 42 again, and the rack 45 will drive the piston rod 42 to move away from the activation cylinder 41 against the elastic force of the elastic member 44 under the driving of the intermittent gear 31, so that the piston 43 moves away from the activation water outlet 411 in the activation cylinder 41, and with the movement of the piston 43, the space between the bottom of the activation cylinder 41 and the piston 43 will present a vacuum, so as to suck the liquid into the activation cylinder 41 through the water inlet through hole 412;

with the further rotation of the intermittent gear 31, the portion of the intermittent gear 31 provided with teeth will gradually separate from the rack 45, the compression amount of the elastic member 44 will increase continuously in the process, when the intermittent gear 31 is completely separated from the rack 45 and is not engaged any more, the elastic member 44 releases the driving piston rod 42 instantaneously to drive the piston 43 to move towards the cylinder bottom direction of the excitation cylinder 41, and the liquid in the excitation cylinder 41 is supported and sprayed out through the excitation water outlet 411 in the process that the piston 43 advances in the excitation cylinder 41.

In addition, it should be especially noted that, in order to prevent the liquid from being sprayed out from the water inlet through hole 412 during the activation process, a one-way valve may be disposed at the water inlet through hole 412, so that the liquid inside the activation cylinder 41 cannot flow back into the water storage member 11 through the water inlet through hole 412; accordingly, in order to prevent the external air from flowing back into the exciting cylinder 41 through the exciting water outlet 411, a one-way valve may be disposed at the exciting water outlet 411 to prevent the air from being sucked back into the exciting cylinder 41, so as to increase the water absorption capacity of the exciting cylinder 41 for absorbing water once.

As shown in fig. 1 to 5, the transmission device 3 may further include a first bevel gear 32 connected to the power device 2, a second bevel gear 33 rotatably disposed in the housing 1, a transmission gear 34 rotatably disposed in the housing 1 in some embodiments; the second bevel gear 33 is engaged with the first bevel gear 32 and the transmission gear 34, respectively, and the intermittent gear 31 is disposed coaxially with the transmission gear 34. The first bevel gear 32 can drive the transmission gear 34 to rotate through the second bevel gear 33 under the driving of the power device 2, so as to drive the intermittent gear to rotate in the housing 1, and further enable the intermittent gear to be intermittently meshed with the rack 45 when the piston 43 is located at the bottom of the excitation cylinder 41.

It will be understood that the first bevel gear 32 and the second bevel gear 33 are both bevel gears common in the related art, that is, gears having a cross section similar to a cone, and the transmission gear 34 is used for receiving power from the second bevel gear 33 and driving the intermittent gear 31 to rotate coaxially, so that the intermittent gear 31 can perform regular rotation, and thus the intermittent gear 31 can perform periodic intermittent meshing and separation with and from the rack 45.

It is also understood that the second bevel gear 33 and the transmission gear 34 can be directly engaged, one or more gears can be additionally arranged for indirect engagement, and even indirect engagement can be realized through two coaxially rotating gears.

As shown in fig. 3 to 5, the activating device 4 may further include a sealing ring 432 sleeved on the piston 43, the relief ring groove 431 is located between the sealing ring 432 and the bottom of the activating cylinder 41, and the sealing ring 432 abuts against the inner walls of the piston 43 and the activating cylinder 41, respectively.

As can be appreciated, relief groove 431 is configured to receive seal 432 and define the location of seal 432; the sealing ring 432 is used for sealing a fit clearance between the piston 43 and the inner wall of the excitation cylinder 41, so as to avoid liquid leakage, and meanwhile, the sealing ring is also helpful for maintaining the pressure between the piston 43 and the cylinder body of the excitation cylinder 41, so as to ensure that the liquid can be sucked into the excitation cylinder 41, and further improve the range of the liquid after the excitation injection.

As shown in fig. 3 to 5, the excitation device 4 may further comprise, in some embodiments, a guide seat 46 slidably disposed within the housing 1; one side surface of the guide seat 46 is abutted against the elastic piece 44, the other opposite side surface of the guide seat 46 is provided with a buffer rubber ring 461 and is connected with the piston rod 42, and the rack 45 is arranged on the guide seat 46; the guide seat 46 is driven by the elastic member 44 to move towards the direction close to the excitation cylinder 41, and the guide seat 46 is also driven by the rack 45 to move towards the direction away from the excitation cylinder 41.

It can be understood that the guide seat 46 is used for receiving the elastic force of the elastic element 44 and sliding along a predetermined direction, and specifically, a sliding rail structure or a sliding bar sliding groove structure and the like may be disposed between the guide seat 46 and the housing 1, so as to define the sliding direction of the guide seat 46, and further prevent the driving piston 43 from deviating, shaking and the like, and avoid a poor operation. The buffer rubber ring 461 is used for buffering the impact force of the guide seat 46 impacting the excitation cylinder 41 under the driving of the elastic element 44, so as to avoid impact injury and improve the durability of the product.

It will be understood that, in order to prevent the end of the elastic member 44 from separating from the guide seat 46, a groove with a certain depth for receiving the end of the elastic member 44 may be provided on the guide seat 46 to prevent the end of the elastic member 44 from coming out.

As shown in fig. 3 to 5, the excitation device 4 further includes a cross positioning member 47 disposed in the housing 1 in some embodiments, and the elastic member 44 is sleeved on the cross positioning member 47.

It can be understood that the cross-shaped positioning element 47 has a cross-shaped cross section in the vertical direction, and can fix the end of the elastic element 44 away from the piston 43, and can prevent the elastic element 44 from bending and deforming; the cross positioning element 47 can be fixed in the housing 1 through a seat body, and the cross positioning element 47 gradually decreases in cross street area in the vertical direction, so that the matching depth of the elastic element 44 and the cross positioning element 47 can be increased, the contact area with the elastic element 44 can be reduced, and excessive abrasion to the elastic element 44 is avoided.

As shown in fig. 3 to 5, the excitation device 4 may further include a water inlet connector 48 detachably disposed on the excitation cylinder 41, the water inlet connector 48 is communicated with the water through hole 412, and the water inlet connector 48 is communicated with the water storage member 11 through a pipeline.

It is understood that the water inlet connector 48 may be provided with a one-way valve for one-way fluid communication into the interior of the priming barrel 41, the water inlet connector 48 may be configured to be detachably disposed on the priming barrel 41, and then the water inlet connector 48 and the priming barrel 41 may be sealed by a rubber ring, and the water inlet connector 48 may also be configured to be integrally disposed on the priming barrel 41.

It will be appreciated that the top of the water inlet connector 48 may be configured to have a water pipe connector, which can communicate with the cavity inside the water inlet connector 48 and further communicate with the water inlet through hole 412 through the cavity, and of course, the water pipe connector may be disposed at other positions of the water inlet connector 48 as long as the liquid can flow into the exciting cylinder 41.

The water inlet joint 48 may be disposed on the water inlet through hole 412 in a sleeved manner, or may be disposed in the water inlet through hole 412 in an embedded manner.

As shown in fig. 2-5, toy water gun 10 may further include a control device 5 in some embodiments; the control device 5 is used for controlling the power device 2 to start and stop. The control device 5 includes a trigger 51 slidably disposed on the housing 1, a trigger switch 52 disposed in the housing 1, and a reset piece 53 connected to the trigger 51.

As will be appreciated, the trigger 51 is used to hold the trigger switch 52 closed during sliding; the trigger 51 may be connected to the housing 1 by a sliding connection such as a slide bar. The trigger switch 52 may be a tact switch or the like, and the trigger switch 52 is preferably configured as a switching element or a switching structure having a self-resetting capability. The reset member 53 is used to provide a means for actuating the trigger 51 to rotate or slide away from the trigger switch 52 so that, upon release of the trigger 51 by the user, the trigger 51 can be quickly reset for the next liquid actuation; the return member 53 may be a spring or other resilient element.

It will also be understood that, in order to enable the trigger 51 to push the trigger switch 52 to close, the trigger 51 may also be arranged on the housing 1 through a rotating connection mechanism, and when the user drives the trigger 51 to rotate, the trigger 51 can also push the trigger switch 52 to close, so as to drive the power device 2 to operate.

The trigger 51 can be used for overcoming the elastic force of the reset piece 53 and moving and sliding towards the direction close to the trigger switch 52, so that the trigger switch 52 is pushed by the trigger 51 to be closed, and further the power device 2 is electrified to work; the trigger 51 is also adapted to move in a direction away from the trigger switch 52 upon actuation of the reset member 53 to cause the trigger switch 52 to open and thereby deactivate the power unit 2.

It can be understood that, during the process that the trigger 51 slides towards the direction close to the trigger switch 52, the reset piece 53 may be configured to always provide a certain resistance to the trigger 51, so as to buffer the impact force applied to the trigger switch 52 by the trigger 51 when a user pulls the trigger, and avoid the trigger switch 52 from being damaged; the elastic member 53 may be configured to move the trigger 51 away from the trigger switch 52 in a contracted or expanded state, depending on the arrangement of the elastic member 53 and the internal space of the housing 1, i.e. to change whether the reset member 53 is gradually compressed or gradually stretched during the process of the user pulling the trigger 52.

As shown in fig. 1 and 2, the housing 1 may be formed with a grip hole 12 and a trigger hole 13 adjacent to the grip hole 12 in some embodiments, and the trigger 51 is exposed in the trigger hole 13.

Understandably, the holding hole 12 is a through hole, which is convenient for a user to hold; the trigger hole 13 is also a through hole, and a user can pass through the trigger hole 13 to buckle the trigger 52, so that the liquid is excited, and the use convenience of the product is improved.

As shown in fig. 2, in some embodiments of the housing 1, a water injection hole 111 is formed at a top of the water storage 11, and the toy water gun 10 further includes a cover 14 rotatably disposed on the water storage 11, wherein the cover 14 is used for shielding or opening the water injection hole 111 when rotating.

It will be appreciated that the water injection hole 111 is used for injecting the liquid into the water storage member 11, and the cover 14 is used for closing or opening the water storage member 11, thereby preventing the liquid in the water storage member 11 from overflowing and contaminants from falling into the water storage member 11. The cap 14 and the water inlet 111 may be sealed by a sealing ring.

In some embodiments of the housing 1, as shown in fig. 2, a vent hole 141 is opened on the cover 14, and the vent hole 141 is used for air to flow into or out of the water storage member 11.

It can be understood that the vent hole 141 is used for allowing external air to enter the water storage member 11, and when the space defined by the piston 43 and the excitation cylinder 41 is vacuum for water absorption, the external air is introduced into the water storage member 11 in time, so as to avoid the situation that the liquid cannot be smoothly supplied to the excitation cylinder 41 due to the pressure reduction in the water storage member 11.

The utility model discloses a toy squirt has following beneficial effect at least:

the utility model relates to the technical field of toys, in particular to a toy water gun which intermittently transmits the power of a power device to an excitation device through a transmission device, so that the excitation device can still intermittently drive and excite liquid to jet out under the condition that the power device continuously works, and the continuous excitation and injection of the liquid are realized;

moreover, compared with a small gear pump, the elastic force of the elastic piece is used for exciting the liquid to be sprayed, so that the kinetic energy which can be given to a certain amount of liquid by single excitation is increased, namely, the impact force applied to the liquid to be sprayed is increased, and the liquid range is enlarged;

secondly, the water inlet through hole still can be through keeping away the space intercommunication in position annular groove and the excitation section of thick bamboo when the piston butt in the bottom of arousing the section of thick bamboo, especially can with the piston with arouse the space intercommunication between the bobbin base portion, avoid the piston to cause the jam to the water inlet through hole, ensure that liquid can pour into the piston and arouse between the section of thick bamboo low, avoid the piston can't reset because of vacuum suction, prevent that the motor card is dead overheated.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and implement the present invention accordingly, which can not limit the protection scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.

Claims (10)

1. A toy water gun is characterized by comprising a shell provided with a water storage part, a power device arranged in the shell, a transmission device in driving connection with the power device, and an excitation device connected with the transmission device;

the transmission device comprises an intermittent gear which is rotatably arranged in the shell, and the intermittent gear is in driving connection with the power device;

the excitation device comprises an excitation cylinder arranged in the shell, a piston rod arranged in the excitation cylinder in a sliding manner, a piston arranged on the piston rod and an elastic piece arranged in the shell; the piston rod is provided with a rack, the bottom of the excitation cylinder is provided with an excitation water outlet, the side wall of the excitation cylinder is provided with a water inlet through hole communicated with the water storage part for inputting liquid, and the piston is provided with a position avoiding ring groove;

the elastic piece is used for driving the piston rod to drive the piston to slide in the excitation cylinder towards the direction close to the excitation water outlet hole, so that liquid in the excitation cylinder is supported by the piston and is sprayed out through the excitation water outlet hole, the piston is abutted against the bottom of the excitation cylinder, the position avoiding ring groove is communicated with the water inlet through hole, and the intermittent gear can be meshed with the rack in the rotating process; the rack can pass through under the drive of intermittent gear the piston rod drives the piston is towards keeping away from arouse the direction of bobbin base portion and slide, and then make liquid can be via the water inlet through-hole flows into and keeps away the position annular and pour into in the excitation section of thick bamboo.

2. The toy water gun as claimed in claim 1, wherein said transmission further includes a first bevel gear connected to said power unit, a second bevel gear rotatably disposed within said housing, a transmission gear rotatably disposed within said housing;

the second bevel gear is meshed with the first bevel gear and the transmission gear respectively, and the intermittent gear and the transmission gear are arranged coaxially;

the first bevel gear can drive the transmission gear to rotate through the second bevel gear under the driving of the power device, so that the intermittent gear is driven to rotate in the shell, and the intermittent gear can be intermittently meshed with the rack when the piston is positioned at the bottom of the excitation cylinder.

3. The toy water gun as claimed in claim 1, wherein said trigger mechanism further includes a sealing ring sleeved on said piston, said avoiding ring groove is located between said sealing ring and a bottom of said trigger cylinder, said sealing ring is respectively abutted against said piston and an inner wall of said trigger cylinder.

4. The toy water gun as claimed in claim 1, wherein said excitation device further includes a guide seat slidably disposed within said housing;

one side surface of the guide seat is abutted against the elastic part, the other opposite side surface of the guide seat is provided with a buffer rubber ring and is connected with the piston rod, and the rack is arranged on the guide seat;

the guide holder is used for being driven by the elastic part to move towards the direction close to the excitation cylinder, and the guide holder is also used for being driven by the rack to move towards the direction far away from the excitation cylinder.

5. The toy water gun as claimed in claim 1, wherein said actuating device further includes a cross positioning member disposed within said housing, said elastic member being sleeved on said cross positioning member.

6. The toy water gun as claimed in claim 1, wherein the excitation device further includes a water inlet joint detachably disposed on the excitation barrel, the water inlet joint is communicated with the water inlet through hole, and the water inlet joint is communicated with the water storage member through a pipeline.

7. The toy water gun as claimed in claim 1, further comprising a control device including a trigger slidably disposed on said housing, a trigger switch disposed in said housing, and a reset member connected to said trigger;

the trigger can be used for overcoming the elastic force of the resetting piece and moving and sliding towards the direction close to the trigger switch so as to enable the trigger switch to be propped by the trigger to be closed, and further enable the power device to be electrified and operated; the trigger can also be used for resetting and moving towards the direction far away from the trigger switch under the driving of the resetting piece so as to disconnect the trigger switch and further stop the power device.

8. The toy water gun as claimed in claim 7, wherein said housing defines a grip opening and a trigger opening adjacent said grip opening, said trigger being exposed in said trigger opening.

9. The toy water gun as claimed in claim 1, wherein a water injection hole is opened at a top of the water storage member, and the toy water gun further includes a cover rotatably disposed on the water storage member, the cover being configured to shield or open the water injection hole when rotated.

10. The toy water gun as claimed in claim 9, wherein the cover has a vent hole for air to flow into or out of the water storage member.

Images