CN217961286U - Airplane toy capable of emitting bubbles - Google Patents

Abstract

The utility model discloses an airplane toy capable of sending bubbles, which comprises a body and a handheld structure capable of providing bubble liquid; the machine body comprises a wind power device and a bubble generating structure; the bubble outlet structure comprises a rotatable part, the rotatable part is provided with a plurality of bubble outlet holes along the wind power generation direction, and the rotatable part is connected with the wind power device through a transmission mechanism; the bubble outlet hole receives bubble liquid from the handheld structure; along with wind power plant's start-up, the rotatable part is done synchronous rotation, can take place a plurality of papules through a plurality of bubble holes simultaneously rotating. In the prior art, the bubble generating head of the bubble airplane is generally arranged to be single-hole, and although bubbles can be continuously blown out, only one bubble can be blown out at a time; the utility model discloses in: the bubble outlet structure is set to be provided with a plurality of bubble outlet holes, so that a plurality of bubbles can be blown out at one time.

Description

Airplane toy capable of emitting bubbles

Technical Field

The utility model relates to a toy technical field, more specifically relates to an aircraft toy that can send papaw.

Background

The bubble airplane is an improved toy form of the traditional bubble gun, which has a body and a handle; the fuselage is used for modeling, simulating the shape of an airplane. The machine body is usually provided with a bubble outlet, and the machine body is usually internally provided with a fan and a gear transmission mechanism; the fan blows air to the bubble outlet to blow the bubble film on the bubble outlet to form bubbles. However, in the prior art, for example, chinese patent CN202777801U is a remote control flying toy capable of blowing bubbles, the bubble generating head of the bubble airplane is usually configured to be a single hole, and although the bubbles can be blown continuously, only one bubble can be blown at a time, which is not interesting enough. Meanwhile, the airplane propeller in the prior art is usually fixedly installed, does not have assemblability, and is also not interesting.

SUMMERY OF THE UTILITY MODEL

Based on the technical defect, the utility model, through setting up porous and rotatable bubble structure, realize the rotatory limit in limit and go out the technological effect of many bubbles, promoted the interest of papaw aircraft, for this reason, provide an aircraft toy that can send the papaw.

Furthermore, the utility model discloses based on above-mentioned technical defect, set the screw subassembly to detachable construction, promoted the assemblability of toy, help improving child's hands-on ability.

In order to realize the purpose, the utility model discloses a specific technical scheme be: an aircraft toy capable of generating bubbles comprises a body and a handheld structure capable of providing bubble liquid; the machine body is provided with a wind power device and a foam discharging structure; the bubble outlet structure comprises a rotatable part, the rotatable part is provided with a plurality of bubble outlet holes along the wind power generation direction, and the rotatable part is connected with the wind power device through a transmission mechanism; the bubble outlet hole receives bubble liquid through a handheld structure; along with the start-up of wind-force device, rotatable member does synchronous rotation, can take place a plurality of papules through a plurality of bubble holes simultaneously rotating.

Preferably, the rotatable member is arranged in an annular configuration, and the plurality of foam outlet holes are all arranged in a ring of the annular configuration.

Preferably, the circumferential edge of the annular structure is provided as a toothed ring.

Preferably, the circumferential edge of the annular structure is provided as a friction ring.

Preferably, the transmission mechanism comprises a third gear transmission assembly and a first gear transmission assembly; the third gear transmission component is in transmission connection with the first gear transmission component; the third gear transmission assembly comprises a first connecting part connected with the rotatable part; the first gear transmission assembly comprises a second connecting part connected with the wind power device.

Preferably, the wind power device comprises a motor and fan blades; the motor comprises a first output shaft and a second output shaft which are arranged at the front end and the rear end of the motor main body; the fan blades are connected with the first output shaft; the second connecting part is connected with the second output shaft.

Preferably, the bubble outlet is provided with a liquid supply head, and the liquid supply head receives bubble liquid from the handheld structure and supplies the bubble liquid into the bubble outlet.

Preferably, a wind-homogenizing structure is arranged between the foam outlet holes and the wind power device.

Preferably, the fuselage is provided with a propeller assembly, the propeller assembly including a blade detachably connected with the fuselage.

Preferably, the first gear transmission component is also in meshing connection with a second gear transmission component; the propeller assembly is in transmission connection with the second gear transmission assembly through a second bevel gear.

Compared with the prior art, the utility model, following beneficial effect has:

the utility model provides an airplane toy capable of sending bubbles, which comprises a body and a handheld structure capable of providing bubble liquid; the machine body comprises a wind power device and a foam discharging structure; the bubble outlet structure comprises a rotatable part, the rotatable part is provided with a plurality of bubble outlet holes along the wind power generation direction, and the rotatable part is connected with the wind power device through a transmission mechanism; the bubble outlet hole receives bubble liquid from the handheld structure; along with wind power plant's start-up, the rotatable part is done synchronous rotation, can take place a plurality of papules through a plurality of bubble holes simultaneously rotating. In the prior art, the bubble outlet head of the bubble airplane is usually provided with a single hole, and although bubbles can be continuously blown out, only one bubble can be blown out at a time; the utility model discloses in: firstly, the bubble outlet structure is set to be a structure provided with a plurality of bubble outlet holes, so that a plurality of bubbles can be blown out at one time; secondly, a rotatable component structure is adopted, and liquid is supplied at a position deviating from the axis of the rotatable component, so that continuous liquid supply can be realized; the structure form does not occupy more space, the structure arrangement is more reasonable, and the technical effects of liquid supply film forming and continuous bubble discharging can be realized in smaller toy structure space.

The present invention will be further described with reference to the accompanying drawings.

Drawings

Fig. 1 is an exploded view of a bubble airplane according to a preferred embodiment of the present invention.

Fig. 2 is a schematic view of a part a of fig. 1.

Fig. 3 is an exploded view of the bubble airplane from another perspective according to the preferred embodiment of the present invention.

Fig. 4 is an exploded view of the bubble airplane from another perspective according to the preferred embodiment of the present invention.

FIG. 5 is a schematic view of the external structure of the bubble airplane according to the preferred embodiment of the present invention.

Description of reference numerals:

10 fuselage, 20 handheld structures, 30 wind power plant, 31 motor, 311 first output shaft, 32 flabellum, 312 second output shaft, 40 bubble structure, 41 rotatable piece, 42 bubble hole, 43 ring gear, 50 drive mechanism, 51 third gear drive assembly, 511 first connecting part, 512 universal driving shaft, 513 gear, 514 ring gear, 515 first bevel gear, 52 first gear drive assembly, 521 second connecting part, 60 liquid supply head, 70 wind-uniforming structure, 80 propeller assembly, 81 first blade, 82 second blade, 91 second gear drive assembly, 92 second connecting shaft, 93 second bevel gear.

Detailed Description

The present invention is further explained and illustrated by the following embodiments, it should be understood that the following embodiments are for the purpose of making the technical solution of the present invention clearer and easier to understand, and do not limit the scope of the claims.

The utility model discloses an aircraft toy capable of sending bubbles, which comprises a body 10 and a handheld structure 20 capable of providing bubble liquid; the machine body 10 is provided with a wind power device 30 and a bubble generating structure 40; the bubble outlet structure 40 comprises a rotatable part 41, the rotatable part 41 is provided with a plurality of bubble outlet holes 42 along the wind power generation direction, and the rotatable part 41 is connected 50 with the wind power device 30 through a transmission mechanism; the bubble outlet 42 receives bubble liquid from the hand-held structure 20; with the wind power device 30 being activated, the rotatable member 41 rotates synchronously, and a plurality of bubbles can be generated through the plurality of bubble outlet holes 42 while rotating.

In a preferred embodiment, the rotatable member 41 is disposed in an annular configuration, and the plurality of foam outlet holes 42 are each disposed within a ring of the annular configuration.

In a preferred embodiment, the circumferential edge of the annular structure is provided as a toothed ring 43.

In a preferred embodiment, the circumferential edge of the annular structure is provided as a friction ring.

In the preferred embodiment, the transmission mechanism includes a third gear assembly 51 and a first gear assembly 52; the third gear transmission assembly 51 is in transmission connection with the first gear transmission assembly 52; the third gear transmission assembly 51 includes a first connection portion 511 connected to the rotatable member 41; the first gear 513 transmission assembly comprises a second connection portion 521 connected with the wind power device 30.

In a preferred embodiment, the wind power device 30 comprises a motor 31 and a fan blade 32; the motor 31 comprises a first output shaft 311 and a second output shaft 312 which are arranged at the front end and the rear end of the main body of the motor 31; the fan blade 32 is connected with the first output shaft 311; the second connecting portion 521 is connected to the second output shaft 312.

In a preferred embodiment, a liquid supply head 60 is disposed at the foam outlet 42, and the liquid supply head 60 receives the bubble liquid from the hand-held structure 20 and supplies the bubble liquid into the foam outlet 42.

In a preferred embodiment, a wind-evening structure 70 is arranged between the foam outlet holes 42 and the wind-force device 30.

In a preferred embodiment, the fuselage 10 is provided with a propeller assembly 80, the propeller assembly 80 including blades that are removably attached to the fuselage 10.

In the preferred embodiment, the first gear assembly 52 is further in meshing engagement with a second gear assembly 91; the propeller assembly 80 is drivingly connected to the second gear assembly 91 via a second bevel gear 93.

The invention will be further illustrated by the following specific examples.

Examples

The embodiment provides a bubble airplane, which comprises a fuselage 10 and handlebars; the handle is connected below the machine body 10; the handle is used for storing bubble liquid and providing the bubble liquid for the main body 10. The machine body 10 can blow bubbles; the fuselage 10 is configured as a shell structure, and a motor 31, a fan blade 32, a first gear transmission assembly 52, a second gear transmission assembly 91, a first bevel gear 515, a second bevel gear 93, a third gear transmission assembly 51 and a propeller assembly 80 are arranged in the shell. One end of the motor 31 is provided with a first output shaft 311, and the fan blades 32 are connected with the first output shaft 311; the fan blades 32 rotate to generate wind power; the other end of the motor 31 is provided with another second output shaft 312, and the second output shaft 312 is provided with spiral insections distributed along the axial direction. The first gear 513 transmission assembly is connected with the second output shaft 312 through spiral insection meshing.

The first gear assembly 52 is also connected to the third gear assembly 51 via a first bevel gear 515; the second output shaft 312 is provided to save space, that is, one motor 31 can be used to realize both axial rotation of the fan blades 32 at one end and meshing transmission of the gear 513 at the other end.

The first bevel gear 515 is engaged with the third gear transmission assembly 51, and can transmit the power of the motor 31 to the third gear 513 transmission assembly 51.

The third gear 513 transmission assembly 51 comprises a linkage shaft 512, a gear 513 and a ring gear 514; the ring gear 514 is provided with a plurality of outlet holes 42.

Ring gear 514 forms a foam outlet for fuselage 10; the ring gear 514 is provided with a plurality of foam outlet holes 42 at positions which can be matched with the fan blades 32 in a blowing way; the liquid supply head 60 is arranged close to the position of the porous and is connected with the handle; the fan blade 32 blows air to the bubble outlet hole, so that the membrane liquid on the porous hole can be blown out to form bubbles; the film liquid on the foam outlet holes is provided by the liquid supply head 60 (note that the liquid supply head 60 does not have a rotational motion). The concrete mode is as follows: the liquid supply head 60 supplies bubble liquid from the handle to the porous body; meanwhile, because the ring gear 514 is meshed with the gear 513, the gear 513 is connected with the first bevel gear 515 through the linkage shaft 512, and the first bevel gear 515 is meshed with the transmission component of the first gear 513, so that the motor 31 can drive the ring gear 514 to rotate together with the rotation of the motor; therefore, the liquid supply head 60 can continuously supply the bubble liquid to different bubble outlet holes, and the bubble outlet hole at the position of the non-liquid supply head 60 blows out a plurality of bubbles under the wind force of the fan blades 32.

In the prior art, the bubble generating head of the bubble airplane is generally provided with a single hole, and although bubbles can be continuously blown out, only one bubble can be blown out at a time. The utility model discloses in: firstly, the bubble outlet is set to be a porous structure (a structure with a plurality of bubble outlet holes), so that a plurality of bubbles can be blown out at one time; meanwhile, a rotatable structural form of the ring gear 514 is adopted, and the liquid supply head 60 is arranged at a position deviating from the axis of the ring gear 514, so that continuous liquid supply can be realized; the structure form does not occupy more space, the structure setting is more reasonable, and the technical effects of liquid supply film forming and continuous bubble generation can be realized in smaller toy structure space.

In order to achieve the above technical effect of generating bubbles at one time, the ring gear 514 may be configured as a belt ring; the belt ring comprises a ring body and a driving belt arranged along the circumferential direction; correspondingly, the gear 513 needs to be a friction disc which can be in friction fit with the belt; the friction disc is in friction fit with the belt; the belt is driven to move through the rotation of the friction disc, and then the rotation of the ring body is realized.

In this way, other conventional driving methods are possible, as long as it is ensured that the plurality of foam outlet holes 42 at the foam outlet can be rotatably engaged with the liquid supply head 60. For example, a ring rotatable with the motor 31; the ring body is connected with the motor 31 through a transmission shaft; the ring body is provided with a plurality of foam outlet holes 42, and the ring body can synchronously rotate along with the motor 31, so that the playing interest is improved.

In addition, in order to realize the rotatable function, the ring body is not necessarily arranged in a ring shape, and other rotatable shape structures, such as a square shape and a polygon shape, can be arranged; of course, if the ring structure is not circular, the transmission mode needs to be changed to the mode that the rotatable part 41 rotates coaxially with the motor 31, instead of the transmission at the edge of the ring body as in the above technical solution.

When a non-annular or circular structure is adopted, the transmission of the edge-meshed gear 513 or the friction wheel transmission cannot be adopted, and the transmission mode that the motor 31 and the rotatable part 41 rotate coaxially is required.

The rotatable mode is not limited to the above-mentioned gear engagement transmission or friction transmission, but may be directly transmitted through the first output shaft 311 of the motor 31, but in order to ensure slow rotation of the rotatable structure, a speed reduction transmission mechanism is required between the first output shaft 311 and the rotatable structure.

In addition, a grid structure is arranged between the fan blades 32 and the bubble outlet. The grid structure is used for uniform air quantity, so that air blown out by the fan blades 32 is more uniformly dispersed to a plurality of holes.

In particular, the grid structure comprises a plurality of spacer plates. A plurality of partition plates are joined from the center of the wind power region and extend in the radial direction, and are arranged at intervals in the circumferential direction.

In addition, a net structure can be arranged between the fan blades 32 and the bubble outlet. For the technical purpose of realizing uniform wind, a net structure can also be adopted.

The air-evening structure 70 is provided for evening the air to ensure uniform distribution of air to the plurality of air outlet holes 42.

Furthermore, the first gear transmission assembly 52 is in transmission connection with the second gear transmission assembly 91 through a second linkage shaft 92; one gear in the first gear transmission assembly 52 is connected with one gear in the second gear transmission assembly 91 through a second linkage shaft 92; the synchronous rotation of the second gear assembly 91 can be achieved by the second coupling shaft 92.

Further, the gears in the second gear assembly 91 are provided in a decorative shape and the housing is provided in a transparent structure. The decorative shape is specifically constructed as follows: the gear transmission assembly can be arranged into gear shapes with different sizes, the number of teeth of each gear is small, and the volume of each gear is larger than that of gears of other gear transmission assemblies. When the motor 31 is started, the second gear transmission assembly 91 of the ornamental shape rotates together, thereby increasing the interest of the toy.

Specifically, the second gear transmission assemblies 91 can also be symmetrically arranged, and the symmetrical gear assemblies can be synchronously and rotatably connected through a third connecting shaft 92; thereby improving the interest of playing.

In addition, one end gear of the second gear transmission assembly 91 is in meshed connection with the second bevel gear 93; the propeller assembly 80 is connected with the second bevel gear 93 in a meshing manner; the power of the motor 31 is transmitted to the propeller assembly 80 through the meshing connection of the transmission assembly of the second bevel gear 93 and the second gear 513, so that the propeller assembly 80 can synchronously rotate while the motor 31 is started.

Specifically, the second bevel gear 93 is provided with a prism-shaped connection hole; the propeller assembly 80 includes an insertion shaft corresponding to the connection hole; the inserting shaft is inserted and matched with the connecting hole; the synchronous rotation of the propeller assembly 80 can be realized, and the interest of the toy is increased.

Further, the paddle includes a first paddle 81 and a second paddle 82; the first paddle 81 is detachably connected with the second paddle 82; the playability of the toy is improved through the manner of assembling.

Specifically, the first paddle 81 is provided with an insertion groove, and the second paddle 82 is provided with an insertion protruding strip corresponding to the insertion groove; the inserting grooves are matched with the inserting convex strips in an inserting mode to form a cross-shaped paddle structure together. The playability of the toy is improved through the assembling mode.

Specifically, the handle comprises a liquid storage cavity, a water pump, a switch and a battery; the water pump is connected with the liquid storage cavity and is connected with the liquid supply head 60 through a hose; the battery and the water pump can be electrically connected through the switch; pressing the switch to connect the water pump and the battery, wherein the water pump pumps the bubble liquid and conveys the bubble liquid to the liquid supply head 60 through the hose, and the liquid supply head 60 supplies the bubble liquid to the hole; the liquid supply system is substantially in accordance with conventional solutions.

Specifically, the liquid supply head 60 includes a cap-shaped cover, a liquid outlet pipe is arranged inside the cap-shaped cover, and the liquid outlet pipe penetrates through the top of the cap-shaped cover to form a liquid outlet; the liquid outlet pipe is connected with the water pump through a hose.

The present invention has been described in terms of embodiments, but not limitations, and other variations of the disclosed embodiments, as would be readily apparent to one skilled in the art, are intended to be included within the scope of the present invention as defined in the following claims, in view of the description of the present invention.

Claims (10)

1. An aircraft toy capable of generating bubbles, which is characterized in that:

comprises a body (10) and a handheld structure (20) capable of providing bubble liquid;

the machine body (10) is provided with a wind power device (30) and a foam discharging structure (40);

the bubble outlet structure (40) comprises a rotatable part (41), the rotatable part (41) is provided with a plurality of bubble outlet holes (42) along the wind power generation direction, and the rotatable part (41) is connected with the wind power device (30) through a transmission mechanism (50);

the bubble outlet (42) receives bubble liquid from the hand-held structure (20);

with the start of the wind power device (30), the rotatable member (41) rotates synchronously, and a plurality of bubbles can be generated through the plurality of bubble outlet holes (42) while rotating.

2. The bubble emitting aircraft toy of claim 1, wherein:

the rotatable member (41) is arranged in an annular configuration, and the plurality of foam outlet holes (42) are arranged in a ring of the annular configuration.

3. The bubble generating aircraft toy of claim 2, wherein:

the circumferential edge of the annular structure is provided as a toothed ring (43).

4. The bubble generating aircraft toy of claim 2, wherein:

the circumferential edge of the annular structure is arranged as a friction ring.

5. The bubble generating aircraft toy of claim 1, wherein:

the transmission mechanism comprises a third gear transmission assembly (51) and a first gear transmission assembly (52);

the third gear transmission assembly (51) is in transmission connection with the first gear transmission assembly (52);

the third gear transmission assembly (51) comprises a first connecting part (511) connected with the rotatable part (41);

the first gear assembly (52) comprises a second connection portion (521) connected with the wind power device (30).

6. The bubble generating aircraft toy of claim 5, wherein:

the wind power device (30) comprises a motor (31) and fan blades (32);

the motor (31) comprises a first output shaft (311) and a second output shaft (312) which are arranged at the front end and the rear end of a motor (31) main body;

the fan blade (32) is connected with the first output shaft (311);

the second connecting portion (521) is connected to a second output shaft (312).

7. The bubble emitting aircraft toy of claim 1, wherein:

the bubble outlet hole (42) is provided with a liquid supply head (60), and the liquid supply head (60) receives bubble liquid from the handheld structure (20) and supplies the bubble liquid into the bubble outlet hole (42).

8. The bubble emitting aircraft toy of claim 1, wherein:

and a wind-homogenizing structure (70) is arranged between the foam outlet hole (42) and the wind power device (30).

9. The bubble generating aircraft toy of claim 5, wherein:

the aircraft body (10) is provided with a propeller assembly (80), and the propeller assembly (80) comprises blades detachably connected with the aircraft body (10).

10. The bubble generating aircraft toy of claim 9, wherein:

the first gear transmission component (52) is also in meshed connection with a second gear transmission component (91);

the propeller assembly (80) is in transmission connection with the second gear transmission assembly (91) through a second bevel gear (93).

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