CN208389365U - Toy transmitter and toy assembly with it - Google Patents

Abstract

The utility model discloses a kind of toy transmitter and with its toy assembly, the toy transmitter includes: transmitter main body, emitting head, planetary gear train and one-way driver.Emitting head is rotatably arranged in transmitter main body, planetary gear train, planetary gear train is located in transmitter main body, planetary gear train has gear ring, sun gear, planetary gear and planet carrier, a composition driving portion in gear ring and planet carrier, sun gear constitutes operand, and driving portion rotates on triggering, and operand is connected with emitting head.One-way driver is connected between operand and emitting head, and one-way driver is configured to, and when driving portion rotates forward, operand drives emitting head rotation, and when driving portion reversion, operand and emitting head are detached from and cooperate.Accelerated according to multiple stablize that the toy transmitter of the utility model embodiment can be realized emitting head, allows player to allow for the toy body on emitting head using correct tension and obtain higher initial speed.

Description

Toy launcher and toy assembly with same

Technical Field

The utility model relates to a toy field with transmitting function especially relates to a toy transmitter and toy subassembly that has it.

Background

The existing mainstream top toy launcher accelerates the top toy and then launches the top toy mainly through manually pulling a gear or a rope, but because the pulling force required by starting the high-speed launcher is large, a player pulls the top toy hard, and the existing top launcher can not be compatible with various launching speeds.

The prior top toy launcher comprises: 1. the rack gyroscope emitter directly accelerates the gyroscope through a rack, and the emitter is difficult to pull when the emission speed is high; 2. the primary energy storage emitter accelerates the gyroscope only by virtue of the torsion spring, and after the emitter emits the gyroscope out, the gyroscope is low in speed and low in fighting force, and the gyroscope does not have a deformation function, so that the interestingness is poor; 3. the multi-time energy storage emitter accelerates the spinning top by continuously pulling the rope, and the middle emitter cannot enable the spinning top to be automatically thrown out or ejected, so that the feeling of surprise is lacked.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a toy launcher, the toy launcher can be many times steadily play the body with higher speed.

The utility model discloses still aim at providing a toy subassembly that has the toy transmitter.

According to the utility model discloses toy transmitter, include: an emitter body; the emitter head is rotatably arranged on the emitter main body; a planetary gear train provided on the emitter body, the planetary gear train having a ring gear, a sun gear, a planet gear, and a planet carrier, one of the ring gear and the planet carrier constituting a driving part, the sun gear constituting a driven part, the driving part rotating after being triggered, the driven part being connected to the emitter head; the one-way driver is connected between the driven part and the transmitting head, the one-way driver is constructed in a way that the driven part drives the transmitting head to rotate when the driving part rotates forwards, and the driven part is separated from the transmitting head when the driving part rotates backwards.

According to the utility model discloses toy transmitter owing to adopt planetary gear train as drive transmission head pivoted mechanical structure, can make the drive division can drive the transmission head rotation comparatively steadily on the one hand, has improved toy transmitter's reliability, and the tooth number of on the other hand adjustment ring gear, sun gear and planet wheel can realize acceleration function betterly, has improved the slew velocity of transmission head to can improve the overhead specific initial velocity of playing of launching away. In addition, the unidirectional driver arranged between the passive part and the transmitting head can accelerate the transmitting head for many times, so that a player can enable the toy body on the transmitting head to obtain higher initial rotating speed under the condition of using normal pulling force.

In some embodiments, the one-way driver comprises: a ratchet and pawl, one of the ratchet and pawl being disposed on the firing head and the other of the ratchet and pawl being disposed on the passive portion.

Specifically, the pawl is a plurality of pawls, and the plurality of pawls are arranged around the axis of the passive portion.

In some embodiments, the ring gear is fixed within the launcher body, and the planet gears are a plurality disposed around the sun gear.

In some embodiments, the toy launcher further comprises: the rope winding part is connected with the driving part, the rope body is wound on the rope winding part, and the inner end of the rope body is connected with the rope winding part.

In some embodiments, the toy launcher further comprises: the energy accumulator is respectively connected with the driving part and the emitter main body, the energy accumulator is used for storing energy when the driving part rotates forwards relative to the emitter main body, and the energy accumulator drives the driving part to rotate backwards relative to the emitter main body when releasing energy.

Specifically, a matching column is arranged on the emitter main body, and a matching groove is arranged on the matching column; the accumulator includes: the energy storage disc is provided with a matching hole, the energy storage disc is sleeved on the matching column through the matching hole, the energy storage disc is connected with the driving part, the coil spring is wound on the matching column, the inner end of the coil spring is inserted and connected into the matching groove, and the outer end of the coil spring is connected with the energy storage disc.

Specifically, the planet carrier is formed in a disc shape, the planet carrier and the energy accumulator are coaxially arranged, and the planet carrier is connected with the energy accumulator through a plurality of connecting pieces.

In some embodiments, the emitter body comprises: the upper part of the bottom shell is opened; the cover shell covers the bottom shell, and an assembly opening is formed in the cover shell; the planetary gear train and the one-way driver are arranged in the bottom shell, and the transmitting head is matched at the assembling opening and connected with the one-way driver.

In some embodiments, the transmitting head is provided with a transmitting groove, the inner wall of the transmitting groove is provided with a plurality of matching ribs extending along the axial direction of the transmitting head, and one end of each matching rib, which is far away from the driven part, is provided with a matching inclined plane.

According to the utility model discloses toy subassembly, include: a toy launcher, said toy launcher being the toy launcher described above; the toy launcher comprises a toy body and a launcher, wherein the toy body and the launcher are independent, and the toy body can be matched with the launcher and rotate along with the launcher when the launcher rotates.

According to the utility model discloses toy subassembly, owing to have the aforesaid toy transmitter for the player can just make the toy body obtain higher initial rotational speed and automatic departure under the circumstances that uses normal pulling force, has improved the interest of toy, has reduced the degree of difficulty that the player launched the toy body, has improved customer satisfaction.

In some embodiments, the toy body is a top, the top is provided with an action piece and an unlocking device matched with the action piece, and after the unlocking device is triggered, the action piece is unfolded and deformed, or the action piece pivots to enable the top to be emptied and turned.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is an overall structural view of a toy module according to an embodiment of the present invention.

Figure 2 is an exploded schematic view of a toy assembly in accordance with an embodiment of the present invention.

Fig. 3 is a sectional view taken along line a-a of fig. 2.

Fig. 4 is an exploded view of a toy launcher according to an embodiment of the present invention.

Fig. 5 is a partial structural view of a toy launcher according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of the toy body according to the embodiment of the present invention after being deformed.

Reference numerals:

a toy component 1,

Toy launcher 10

The transmitter body 110, the bottom case 111, the mating post 1111, the mating groove 1112, the cover case 112, the mounting hole 1121,

A transmitting head 120, a transmitting groove 121, a matching rib 1211, a matching inclined plane S,

Planetary gear train 130, ring gear 131, driven part 132, sun gear 1321, planet gear 133, drive part 134, planet carrier 1341,

A one-way driver 140, a ratchet 141, a pawl 142,

A rope winding part 150,

An accumulator 160, an accumulator disk 161, a coil spring 162,

Toy body 20

The actuator 211, the deformation portion 2111, the movable shaft 2112, the lock piece 2113,

An unlocking device 220,

A main body 230,

A trigger 240.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like, indicate the orientation or positional relationship indicated based on the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The specific structure of the toy launcher 10 according to the embodiment of the present invention will be described below with reference to fig. 1 to 5.

As shown in fig. 3-4, the toy launcher 10 according to the embodiment of the present invention includes a launcher body 110, a launcher head 120, a planetary gear train 130 and a one-way driver 140, the launcher head 120 is rotatably disposed on the launcher body 110, the planetary gear train 130 is disposed on the launcher body 110, the planetary gear train 130 has a ring gear 131, a sun gear 1321, a planetary gear 133 and a planet carrier 1341, one of the ring gear 131 and the planet carrier 1341 constitutes a driving portion 134, the sun gear 1321 constitutes a driven portion 132, the driving portion 134 rotates after being triggered, the driven portion 132 is connected with the launcher head 120, the one-way driver 140 is connected between the driven portion 132 and the launcher head 120, the one-way driver 140 is configured such that the driven portion 132 drives the launcher head 120 to rotate when the driving portion 134 rotates forwardly, and the driven portion 132 is disengaged from the launcher head 120 when the driving portion 134.

It should be noted that, when the ring gear 131 is the driving portion 134, the planet carrier 1341 is fixed on the emitter main body 110, and the planet gear 133 can only rotate around its own axis to rotate the sun gear 1321. When the planet carrier 1341 is the driving portion 134, the ring gear 131 is fixed on the emitter main body 110, the rotation of the planet carrier 1341 drives the planet gear 133 to revolve around the axis of the planet carrier 1341, and since the planet gear 133 is engaged with the ring gear 131, the planet gear 133 rotates around its own axis in the process of revolving the planet gear 133, thereby driving the sun gear 1321 to rotate.

It can be understood that, by adopting the planetary gear train 130 as a mechanical structure for driving the transmission head 120 to rotate, on one hand, the driving part 134 can drive the transmission head 120 to rotate relatively stably, so as to improve the reliability of the toy transmitter 10, and on the other hand, the acceleration function can be better realized by adjusting the tooth numbers of the gear ring 131, the sun gear 1321 and the planet gear 133, so as to improve the rotation speed of the transmission head 120, thereby improving the initial speed of the toy body 20 transmitted from the transmission head 120.

In addition, since the one-way driver 140 is disposed between the passive part 132 and the emitter 120, the one-way driver 140 functions such that the passive part 132 rotates the emitter 120 when the driving part 134 rotates forward, and the passive part 132 disengages from the emitter 120 when the driving part 134 rotates backward. Multiple accelerations of the head 120 may be achieved, for example, in some embodiments, the driving portion 134 is driven by a rack, and the player may pull the rack multiple times to continuously accelerate the head 120 according to the above analysis without affecting the rotation of the head 120 when the rack is pulled back. Therefore, the player can enable the toy body 20 on the launching head 120 to obtain higher initial rotating speed under the condition of using normal pulling force, and the winning rate of the toy body 20 is improved.

According to the utility model discloses toy transmitter 10, owing to adopt planetary gear 130 as drive transmission head 120 pivoted mechanical structure, can make drive portion 134 can drive transmission head 120 rotation comparatively steadily on the one hand, the reliability of toy transmitter 10 has been improved, on the other hand adjusts ring gear 131, the number of teeth of sun gear 1321 and planet wheel 133 can realize acceleration function betterly, the slew velocity of transmission head 120 has been improved to can improve the initial velocity of the toy body 20 of launching away on the transmission head 120. In addition, the one-way driver 140 installed between the passive part 132 and the launching head 120 enables multiple accelerations of the launching head 120, so that the player can obtain a higher initial rotation speed of the toy body 20 on the launching head 120 under the condition of using a normal pulling force.

In some embodiments, as shown in FIG. 4, the unidirectional driver 140 includes a ratchet 141 and a pawl 142, one of the ratchet 141 and the pawl 142 being disposed on the firing head 120 and the other of the ratchet 141 and the pawl 142 being disposed on the passive portion 132. It should be noted that in some embodiments, the ratchet 141 is disposed on the emitter head 120 and the pawl 142 is disposed on the passive portion 132. In some embodiments, the ratchet 141 is disposed on the passive portion 132 and the pawl 142 is disposed on the emitter head 120. The operation of the unidirectional driver 140 will now be described by way of example with the ratchet 141 on the emitter head 120 and the pawl 142 on the passive part 132. When the driving part 134 rotates forwards, the driven part 132 rotates forwards, the pawl 142 on the driven part 132 is meshed with the gear teeth of the ratchet wheel 141 to drive the ratchet wheel 141 to rotate, and the ratchet wheel 141 is arranged on the transmitting head 120, so that the transmitting head 120 rotates along with the rotation of the ratchet wheel 141, and the driven part 132 drives the transmitting head 120 to rotate when the driving part 134 rotates forwards. When the driving portion 134 rotates reversely, the driven portion 132 rotates reversely, and due to the unidirectional transmission characteristics of the ratchet wheel 141 and the pawl 142, the pawl 142 rotates along with the driven portion 132, but the pawl 142 cannot drive the ratchet wheel 141 to rotate. In summary, the one-way driver 140 is relatively simple to operate with a ratchet 141 in cooperation with a pawl 142.

Of course, in other embodiments of the present invention, the one-way transmission 140 may also adopt other structures to realize the one-way transmission function, for example, in some embodiments, the transmitting head 120 and the driven part 132 are both formed as gears, but the gear on the driven part 132 may also revolve relative to the driving part 134 while rotating. When the driving part 134 rotates forward, the gear of the driven part 132 rotates toward the direction close to the emitter 120 and meshes with the gear on the emitter 120; when the driving part 134 rotates reversely, the gear of the driven part 132 rotates in a direction away from the emitter 120 and disengages from the gear on the emitter 120, so that the one-way transmission function can be realized.

Specifically, the pawl 142 is plural, and the plural pawls 142 are arranged around the axis of the passive portion 132. Therefore, when the driving part 134 rotates forward, the driven part 132 can drive the emitter head 120 to rotate stably.

In some embodiments, as shown in fig. 4, the ring gear 131 is fixed within the emitter body 110 and the planet gears 133 are a plurality disposed around the sun gear 1321. It should be noted that, since the ring gear 131 is fixed in the emitter main body 110, the planet carrier 1341 will serve as the driving part 134 to drive the driven part 132 to rotate, specifically, when the planet carrier 1341 rotates, the planet wheels 133 on the planet carrier 1341 rotate around the rotating shaft of the planet carrier 1341, and since the planet wheels 133 are meshed with the ring gear 131 and the sun gear 1321, the planet wheels 133 can rotate around their own axes due to the meshing action while following the rotation of the planet carrier 1341, thereby driving the sun gear 1321 to rotate. It will be appreciated that providing a plurality of planets 133 increases the rotational stability of the sun 1321 and reduces the likelihood that the planet 133 will self-lock, causing the sun 1321 to stop rotating. Advantageously, three planet wheels 133 are provided.

In some embodiments, as shown in fig. 3-4. The toy launcher 10 further includes a rope portion 150 and a rope body (not shown), the rope portion 150 being connected to the driving portion 134, the rope body being wound on the rope portion 150 and having an inner end connected to the rope portion 150. Thus, when the player pulls the rope, the driving part 134 may be driven to rotate, so that the passive part 132 rotates to drive the transmission head 120 to rotate. The driving method of pulling the rope body to drive the emitting head 120 to rotate is adopted, so that the driving force of a player can be reduced, the player can easily drive the emitting head 120 to rotate, and the toy body 20 arranged in the emitting head 120 is driven to rotate. Of course, in other embodiments of the present invention, the toy launcher 10 may also use other devices to drive the driving portion 134 to rotate, for example, a gear is formed on the driving portion 134, and the player uses a rack to drive the driving portion 134 to rotate.

In some embodiments, as shown in fig. 3-4, the toy launcher 10 further comprises an accumulator 160, the accumulator 160 is connected to the driving portion 134 and the launcher body 110, respectively, the accumulator 160 is configured such that when the driving portion 134 rotates forward relative to the launcher body 110, the accumulator 160 accumulates energy, and when the accumulator 160 releases energy, the driving portion 134 rotates backward relative to the launcher body 110.

It will be appreciated that, in view of the foregoing description, since the toy launcher 10 of the present invention has the one-way actuator 140, the one-way actuator 140 allows the player to accelerate the toy body 20 mounted on the launching head 120 a plurality of times. When the toy launcher 10 is provided with the rope winding part 150 and the rope body and the energy accumulator 160 is connected with the rope winding part 150, when the player pulls the rope body to make the driving part 134 rotate forward so that the driven part 132 rotates, the driven part 132 drives the launching head 120 to rotate under the action of the one-way driver 140, and the energy accumulator 160 accumulates energy; when the rope is pulled to a certain distance or the end, the energy accumulator 160 discharges the stored energy, the rope winds back the rope portion 150 and drives the driving portion 134 to rotate reversely, so that the driven portion 132 rotates, the driven portion 132 is disengaged from the transmitting head 120 under the action of the one-way driver 140, that is, the rope does not decelerate the transmitting head 120 when being automatically wound back. Therefore, the user can pull the rope for many times to accelerate the launching head 120 for many times, so that the initial rotating speed of the launching head 120 after the toy body 20 flies out is increased, and the winning rate of the toy body 20 is increased.

Specifically, as shown in fig. 5, the emitter body 110 is provided with a fitting pillar 1111, and the fitting pillar 1111 is provided with a fitting groove 1112. The energy accumulator 160 comprises an energy storage disc 161 and a coil spring 162, wherein the energy storage disc 161 is provided with a matching hole, the energy storage disc 161 is sleeved on a matching column 1111 through the matching hole, the energy storage disc 161 is connected with the driving part 134, the coil spring 162 is wound on the matching column 1111, the inner end of the coil spring 162 is inserted and connected into the matching groove 1112, and the outer end of the coil spring 162 is connected with the energy storage disc 161. Thereby, the energy storage disc 161 is rotated by the driving part 134 to roll up the coil spring 162 to store energy.

In some alternative embodiments, as shown in fig. 4, the planet carrier 1341 is formed in a disc shape, the planet carrier 1341 is coaxially arranged with the accumulator 160, and the planet carrier 1341 is connected with the accumulator 160 through a plurality of connecting members. Therefore, the energy accumulator 160 can stably accumulate energy when the planet carrier 1341 rotates, so that the rope body can smoothly and automatically retract. Of course, in other embodiments of the present invention, the planet carrier 1341 may be formed in other shapes, such as square, polygon, etc. It should be added that, in some embodiments of the present invention, the accumulator 160 may serve as the planet carrier 1341, i.e. the planet wheel 133 may be connected between the housings of the accumulator 160 in this case.

In some embodiments, as shown in fig. 3, the emitter body 110 includes a bottom shell 111 and a cover shell 112, wherein the bottom shell 111 is open at the top, the cover shell 112 covers the bottom shell 111, and the cover shell 112 is provided with a mounting opening 1121. The planetary gear train 130 and the one-way driver 140 are provided in the bottom case 111, and the emitter head 120 is fitted at the fitting hole 1121 and connected to the one-way driver 140. Thus, the planetary gear train 130 and the one-way driver 140 may be enclosed in a space defined by the cover case 112 and the bottom case 111, thereby preventing foreign materials from entering the planetary gear train 130 and the one-way driver 140, ensuring reliability of the planetary gear train 130 and the one-way driver 140, and improving reliability of the toy launcher 10.

In some embodiments, as shown in fig. 3, the emitter head 120 is provided with an emitter slot 121, the inner wall of the emitter slot 121 is provided with a plurality of engaging ribs 1211 extending along the axial direction of the emitter head 120, and one end of the engaging rib 1211 away from the passive portion 132 is provided with an engaging inclined surface S. It can be understood that the matching rib 1211 is used for clamping the toy body 20 to be launched in the launching slot 121, the matching inclined surface S on the matching rib 1211 contacts with the toy body 20, an upward acting force is exerted on the toy body 20 in the process that the launching head 120 drives the toy body 20 to rotate, and when the rotating speed of the launching head 120 reaches a certain value, the toy body 20 can obliquely fly out of the launching slot 121, so that the toy launcher 10 can automatically launch the toy body 20, and the playability of the toy launcher 10 is improved.

The toy launcher 10 of one embodiment of the present invention is described below with reference to fig. 1-5.

The toy launcher 10 of the present embodiment includes a launcher body 110, a launching head 120, a planetary gear train 130, a one-way transmission 140, a cord wrap 150, a cord body (not shown), and an accumulator 160.

The emitter head 120 is rotatably provided on the emitter body 110, the planetary gear train 130 is provided on the emitter body 110, the planetary gear train 130 includes a ring gear 131, a sun gear 1321, three planetary gears 133, and a carrier 1341, and the one-way driver 140 includes a pawl 142 provided on the sun gear 1321 and a ratchet 141 provided on the emitter head 120. The rope winding portion 150 is connected to the carrier 1341 and the accumulator 160, respectively. Three planet wheels 133 are arranged around the axis of the sun wheel 1321, each planet wheel 133 meshing with the sun wheel 1321 and with the ring gear 131, the ring gear 131 being fixed to the emitter body 110.

When the rope body is extended to enable the planet carrier 1341 to rotate positively so as to drive the sun gear 1321 to rotate positively, the pawl 142 is meshed with the ratchet wheel 141 so that the sun gear 1321 drives the transmitting head 120 to rotate, and meanwhile, the energy accumulator 160 accumulates energy; when the rope is pulled a certain distance or end, the accumulator 160 discharges the stored energy, and the rope winds back the rope portion 150 and drives the planet carrier 1341 to rotate reversely, so that the sun gear 1321 rotates reversely, and simultaneously the pawl 142 and the ratchet 141 are disengaged to disengage the passive portion 132 from the transmitting head 120.

The emitter body 110 includes a bottom case 111 and a cover case 112, the bottom case 111 is opened at the upper side, the cover case 112 covers the bottom case 111 at the upper side, the cover case 112 is provided with an assembling hole 1121, the planetary gear train 130 and the one-way driver 140 are provided in the bottom case 111, and the emitting head 120 is fitted at the assembling hole 1121 and connected to the one-way driver 140. The emitter head 120 is provided with an emitter groove 121, the inner wall of the emitter groove 121 is provided with a plurality of matching ribs 1211 extending along the axial direction of the emitter head 120, and one end of the matching ribs 1211, which is far away from the passive part 132, is provided with a matching inclined plane S.

The bottom shell 111 is provided with a matching column 1111, and the matching column 1111 is provided with a matching groove 1112. The energy accumulator 160 comprises an energy storage disc 161 and a coil spring 162, wherein the energy storage disc 161 is provided with a matching hole, the energy storage disc 161 is sleeved on a matching column 1111 through the matching hole, the energy storage disc 161 is connected with the driving part 134, the coil spring 162 is wound on the matching column 1111, the inner end of the coil spring 162 is inserted and connected into the matching groove 1112, and the outer end of the coil spring 162 is connected with the energy storage disc 161.

The specific playing method of the toy launcher 10 of the utility model is as follows: the player can drive the rope winding part 150 to rotate by pulling the rope body, meanwhile, the energy accumulator 160 stores energy, the rotation of the rope winding part 150 can drive the planet carrier 1341 to rotate, so that the three planet wheels 133 rotate to drive the sun wheel 1321 to rotate, the sun wheel 1321 rotates, and meanwhile, the pawl 142 arranged on the sun wheel 1321 is meshed with the ratchet wheel 141 arranged on the emitting head 120 to drive the emitting head 120 to rotate, at the moment, the player body 20 in the emitting groove 121 can synchronously rotate, and the planet gear train 130 drives the emitting head 120 to rotate, so that the player body 20 can have a higher rotating speed when the player pulls the rope.

When the rope is pulled to the end and loosened, the energy stored in the energy accumulator 160 is released to drive the rope winding portion 150 to wind back the rope and simultaneously drive the planet carrier 1341 to rotate reversely, so that the sun gear 1321 rotates reversely, and the sun gear 1321 does not drive the launcher 120 to rotate when rotating reversely due to the unidirectional transmission characteristics of the ratchet 141 and the pawl 142, that is, when the rope retracts under the action of the energy accumulator 160, the launcher 120 does not rotate reversely. Thus, the player continuously pulls the string to rotate the transmission head 120 faster and faster until the toy body 20 is transmitted.

The toy launcher 10 of the present embodiment, by installing the accumulator 160 and the planetary gear train 130, the player can obtain a higher initial rotation speed of the toy body 20 under the condition of using normal pulling force, and the winning rate of the toy body 20 is improved.

As shown in fig. 1-2, a toy assembly 1 according to an embodiment of the present invention includes a toy launcher 10 and a toy body 20, the toy launcher 10 is the toy launcher 10 in the front, the toy body 20 is independent from the toy launcher 10, the toy body 20 can cooperate with a launching head 120, and rotate with the launching head 120 when the launching head 120 rotates.

It can be understood that the toy launcher 10 described above can accelerate the launcher 120 many times, so that the player can obtain a higher initial rotation speed of the toy body 20 on the launcher 120 under the condition of using normal tension, and when the rotation speed of the launcher 120 reaches a certain value, the toy body 20 can fly out automatically, which greatly improves the interest of the toy assembly 1, reduces the difficulty of the player launching the toy body 20, and improves the satisfaction of the client.

According to the utility model discloses toy subassembly 1, owing to have foretell toy transmitter 10 for the player can just make the toy body 20 obtain higher initial rotational speed and automatic departure under the circumstances that uses normal pulling force, has improved toy subassembly 1's interest, has reduced the degree of difficulty that the player launched toy body 20, has improved customer satisfaction.

In some embodiments, as shown in fig. 3 and 6, the toy body 20 is a top, the top is provided with an action piece 211 and an unlocking device 220 matched with the action piece 211, and after the unlocking device 220 is triggered, the action piece 211 is unfolded and deformed, or the action piece 211 is pivoted to make the top empty and turn.

It will be appreciated that toy figure 20 may be deformed or inverted after being launched to further enhance the enjoyment of toy assembly 1. It should be noted that there are various ways of triggering the unlocking device 220 in the toy assembly 1 of the present invention, for example, in some embodiments, the unlocking device 220 is unlocked by the toy body 20 immediately after the toy body is separated from the launching head 120; in some embodiments, the unlocking device 220 is unlocked when the toy body 20 falls to the ground and is impacted by the ground; in some embodiments, the unlocking device 220 unlocks when the toy body 20 collides with another toy body 20.

The toy assembly 1 of one embodiment of the present invention is described below with reference to fig. 1-6.

The toy assembly 1 of the present embodiment includes a toy launcher 10 and a toy body 20 formed as a top, and the structure of the toy launcher 10 is described in detail in the foregoing and is not described herein.

As shown in fig. 3 and 6, the toy body 20 includes a body 230, an action piece 211, an unlocking device 220, and a trigger piece 240. The action piece 211 comprises a movable shaft 2112 and a deformation part 2111, the movable shaft 2112 is arranged on the deformation part 2111 in a penetrating mode and can move along the vertical direction, and a locking block 2113 matched with the unlocking device 220 is arranged below the movable shaft 2112. When the delatch device 220 is mated with the lock block 2113, the movable shaft 2112 locks the actuator 211 to the body 230. The trigger 240 is slidably disposed on the body 230, and the trigger 240 is connected to the unlocking device 220, so that the unlocking device 220 unlocks the movable shaft 2112 when the trigger 240 is impacted by another toy body 20, thereby deforming the operating member 211.

The toy assembly 1 of the present embodiment has the advantages that the player can obtain a higher initial rotation speed of the toy body 20 and fly out automatically under the condition of using normal pulling force, the interest of the toy assembly 1 is improved, the difficulty of launching the toy body 20 by the player is reduced, and the satisfaction degree of the client is improved.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (12)

1. A toy launcher, comprising:

an emitter body;

the emitter head is rotatably arranged on the emitter main body;

a planetary gear train provided on the emitter body, the planetary gear train having a ring gear, a sun gear, a planet gear, and a planet carrier, one of the ring gear and the planet carrier constituting a driving part, the sun gear constituting a driven part, the driving part rotating after being triggered, the driven part being connected to the emitter head;

the one-way driver is connected between the driven part and the transmitting head, the one-way driver is constructed in a way that the driven part drives the transmitting head to rotate when the driving part rotates forwards, and the driven part is separated from the transmitting head when the driving part rotates backwards.

2. The toy launcher according to claim 1, wherein the one-way actuator comprises: a ratchet and pawl, one of the ratchet and pawl being disposed on the firing head and the other of the ratchet and pawl being disposed on the passive portion.

3. The toy launcher according to claim 2, wherein the plurality of detents are disposed about an axis of the passive portion.

4. The toy launcher according to claim 1, wherein the ring gear is fixed within the launcher body, and the planet gears are a plurality disposed around the sun gear.

5. The toy launcher according to claim 1, further comprising: the rope winding part is connected with the driving part, the rope body is wound on the rope winding part, and the inner end of the rope body is connected with the rope winding part.

6. The toy launcher according to claim 1, further comprising: the energy accumulator is respectively connected with the driving part and the emitter main body, the energy accumulator is used for storing energy when the driving part rotates forwards relative to the emitter main body, and the energy accumulator drives the driving part to rotate backwards relative to the emitter main body when releasing energy.

7. The toy launcher according to claim 6, wherein the launcher body is provided with a mating post, the mating post being provided with a mating groove;

the accumulator includes: the energy storage disc is provided with a matching hole, the energy storage disc is sleeved on the matching column through the matching hole, the energy storage disc is connected with the driving part, the coil spring is wound on the matching column, the inner end of the coil spring is inserted and connected into the matching groove, and the outer end of the coil spring is connected with the energy storage disc.

8. The toy launcher according to claim 6, wherein the planet carrier is formed in a disk shape, the planet carrier is disposed coaxially with the accumulator, and the planet carrier is connected to the accumulator through a plurality of connecting members.

9. The toy launcher according to claim 1, wherein the launcher body comprises:

the upper part of the bottom shell is opened;

the cover shell covers the bottom shell, and an assembly opening is formed in the cover shell; wherein,

the planetary gear train and the one-way driver are arranged in the bottom shell, and the transmitting head is matched at the assembling port and connected with the one-way driver.

10. The toy launcher according to any one of claims 1 to 9, wherein the launcher head is provided with a launching groove, the inner wall of the launching groove is provided with a plurality of engaging ribs extending in the axial direction of the launcher head, and one end of the engaging ribs away from the passive portion is provided with an engaging inclined surface.

11. A toy assembly, comprising:

a toy launcher according to any one of claims 1-10;

the toy launcher comprises a toy body and a launcher, wherein the toy body and the launcher are independent, and the toy body can be matched with the launcher and rotate along with the launcher when the launcher rotates.

12. The toy assembly of claim 11, wherein the toy body is a spinning top, the spinning top is provided with an action piece and an unlocking device matched with the action piece, and after the unlocking device is triggered, the action piece is unfolded and deformed or pivots to enable the spinning top to be emptied and turned.