CN215538395U - Hula hoop synchronous toy - Google Patents

Abstract

The utility model discloses a hula hoop synchronous toy which comprises a hula hoop and a toy piece, wherein the hula hoop is in communication connection with the toy piece, and the toy piece is triggered when the hula hoop is in a rotating state; the toy piece comprises a main body and a simulation piece sleeved outside the main body, and when the toy piece is triggered, the main body drives the simulation piece to rotate around the outer peripheral surface of the main body. The hula hoop is provided with the hula hoop and the toy piece, the toy piece comprises a main body and a simulation piece, the main body simulates a player, the simulation piece simulates the hula hoop, and when the player rotates the hula hoop, the main body in the toy piece is triggered to drive the simulation piece to act, so that the toy piece simulates the state that the player uses the hula hoop, and the toy piece has strong interestingness; when the player stops rotating the hula hoop, the toy piece is not triggered, the action is stopped, the actions of the player and the toy piece are kept synchronous, the interactivity is strong, and the body building strength of the player can be improved.

Description

Hula hoop synchronous toy

Technical Field

The application relates to the technical field of toys, in particular to a hula hoop synchronous toy.

Background

Most dynamic model toys at present are driven through screwing up a clockwork spring, or are driven by turning on a motor switch, or are driven by turning on the motor switch through remote control, and a player of the dynamic model toys can trigger the action of the toys only by operating once, so that the interactivity is poor, the interest in playing is reduced, and the interest of the player is lost easily.

The prior children body-building toy is provided with a music player, a flash lamp and the like in order to improve the interestingness when in use, but most children toys are very easy to lose interest in the body-building toy because the music playing and the flash light mode are adopted to increase the interestingness.

SUMMERY OF THE UTILITY MODEL

The application aims to overcome the defects that the dynamic simulation toy in the prior art is poor in interactivity and the fitness toy is poor in interestingness, and provides a hula hoop synchronous toy which is combined with the dynamic simulation toy and the fitness toy and is strong in interactivity and high in interestingness.

The technical scheme of the application provides a hula hoop synchronous toy which comprises a hula hoop and a toy piece, wherein the hula hoop is in communication connection with the toy piece, and the toy piece is triggered when the hula hoop is in a rotating state;

the toy piece comprises a main body and a simulation piece sleeved outside the main body, and when the toy piece is triggered, the main body drives the simulation piece to rotate around the outer peripheral surface of the main body.

Further, the simulation piece is established for the cover ring in the main part, be provided with in the main part and rotate the piece, at least one tie point of simulation piece with rotate the piece and be connected, when the toy piece is triggered, start rotate the piece and drive the simulation piece is pasting the outer peripheral face of main part rotates.

Furthermore, the main body comprises a shell, the rotating part is a turntable arranged in the shell, a first magnetic attraction part is arranged on the periphery of the turntable, and the simulation part is at least provided with a second magnetic attraction part;

when the rotary table rotates, the first magnetic suction piece adsorbs the second magnetic suction piece to rotate along the outer peripheral surface of the main body.

Further, a base is arranged at the bottom of the main body;

when the simulation piece rotates around the peripheral surface of the main body, the main body is driven to swing by taking the bottom of the base as a fulcrum.

Furthermore, a triggering assembly is arranged on the hula hoop, a driving assembly is arranged on the main body, and the triggering assembly is in communication connection with the driving assembly;

the hula hoop triggers the triggering assembly when in a rotating state, and the triggering assembly controls the driving assembly to drive the simulation piece to rotate.

Furthermore, the driving assembly comprises a driving motor and a start-stop device electrically connected with the driving motor, the triggering assembly is in communication connection with the start-stop device, the triggering assembly controls the driving motor to start and stop through the start-stop device, and the driving motor is used for driving the simulation piece to rotate.

Furthermore, the driving assembly comprises a rotary plate and a transmission gear set, wherein rotary teeth are arranged on the rotary plate, the transmission gear set is connected between the rotary teeth and an output shaft of the driving motor, the output shaft of the driving motor rotates to drive the transmission gear set to rotate, and the transmission gear set drives the rotary plate to rotate around the axis of the rotary plate through the rotary teeth.

Further, still be provided with mounting disc and apron in the main part, drive gear group with the carousel is installed on the mounting disc, the apron lid is established drive gear group with the top of carousel and with the mounting disc is connected, when the toy spare is triggered the carousel for the mounting disc with the apron rotates.

Furthermore, a mounting bracket is further arranged in the main body, and the driving assembly further comprises a battery and a power switch which are electrically connected with the driving motor;

the mounting bracket is installed on the base, and the battery and the power switch are installed on the mounting bracket.

Furthermore, the triggering assembly is detachably connected with the hula hoop, and a connecting piece is arranged on the triggering assembly and detachably connected with the hula hoop.

After adopting above-mentioned technical scheme, have following beneficial effect:

the hula hoop is arranged, the toy piece comprises a main body and a simulation piece, the main body simulates a player, the simulation piece simulates the hula hoop, when the player rotates the hula hoop, the main body in the toy piece is triggered to drive the simulation piece to act, the toy piece simulates the state that the player uses the hula hoop, and the toy piece has strong interestingness; when the player stops rotating the hula hoop, the toy piece is not triggered, the action is stopped, the actions of the player and the toy piece are kept synchronous, the interactivity is strong, and the body building interest and the body building strength of the player can be improved.

Drawings

The disclosure of the present application will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present application. In the figure:

FIG. 1 is a schematic view of a toy article according to an embodiment of the present application;

FIG. 2 is an exploded view of a toy article according to an embodiment of the present application;

FIG. 3 is an exploded view of the interior of a toy article according to one embodiment of the present application;

FIG. 4 is an exploded view of a portion of the drive assembly of one embodiment of the present application;

FIG. 5 is an exploded view of a mounting plate and turntable of a toy article according to an embodiment of the present application

FIG. 6 is an exploded view of the interior portion of a toy article according to one embodiment of the present application;

FIG. 7 is a hardware circuit diagram of a driving component according to an embodiment of the present application;

FIG. 8 is a schematic view of a hula hoop according to an embodiment of the present application;

FIG. 9 is a schematic view of a trigger assembly of the hula hoop of FIG. 8;

FIG. 10 is a schematic view of a hula hoop according to an embodiment of the present application;

FIG. 11 is a schematic view of a trigger assembly of the hula hoop of FIG. 10.

Reference symbol comparison table:

the hula hoop 001:

the triggering component 02: the actuating member 21, the control member 22, the mounting case 23, the sliding groove 231, the case body 24, the conductive spring 25, the metal cylinder 26, and the insulating ring 27.

Toy 002:

a main body 201:

a housing (01): a left shell 11, a right shell 12, a base 13 and a balancing weight 14;

the driving assembly 03: the device comprises a driving motor 31, an output shaft 311, a start-stop device 32, a battery 33, a power switch 34, a rotary disc 35, a first magnetic suction piece 351, a rotary tooth 352, a circular groove 353, an inner convex ring 354, an arc convex column 355, a transmission gear set 36, a driving gear 361 and a middle gear 362;

mounting plate 04: an outer convex ring 41 and a connecting column 42;

cover plate 05: a connection hole 51;

mounting bracket 06: a battery mounting groove 61 and a switch mounting groove 62;

a PCB circuit board 07;

the simulation 202: a second magnetically attractive element 08.

Detailed Description

Embodiments of the present application are further described below with reference to the accompanying drawings.

It is easily understood that according to the technical solutions of the present application, those skilled in the art can substitute various structures and implementations without changing the spirit of the present application. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present application, and should not be construed as limiting or restricting the technical solutions of the present application in their entirety.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Throughout the description of the present application, it is to be noted that, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "coupled" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The foregoing is to be understood as belonging to the specific meanings in the present application as appropriate to the person of ordinary skill in the art.

The first embodiment is as follows:

the hula hoop synchronous toy in the embodiment of the application comprises a hula hoop 001 shown in fig. 8 and a toy piece 002 shown in fig. 1, wherein the hula hoop 001 is in communication connection with the toy piece 002, and the toy piece 002 is triggered when the hula hoop 001 is in a rotating state;

the toy 002 comprises a main body 201 and a simulation element 202 sleeved outside the main body 201, and when the toy 002 is triggered, the main body 201 drives the simulation element 202 to rotate around the outer peripheral surface of the main body 201.

Specifically, the hula hoop 001 and the toy piece 002 are connected through wireless communication in the form of infrared rays, bluetooth, a wireless network, and the like, the hula hoop 001 is used by a player, and when the player rotates the hula hoop 001, the hula hoop 001 sends a trigger signal to the toy piece 002. The main body 201 of the toy 002 is a doll for simulating a player, the simulation piece 202 simulates a hula hoop 001 to be sleeved outside the main body 201, when the toy 002 is triggered, the main body 201 simulates the action of the player to drive the simulation piece 202, and the simulation piece 202 rotates around the outer peripheral surface of the main body 201.

The hula hoop synchronous toy in the embodiment of the application is provided with the toy piece 002 to simulate the action of rotating the hula hoop 001 by a player, and the toy piece 002 is triggered to act by rotating the hula hoop 001 by the player, so that the interaction between the player and the toy piece 002 is increased, the interestingness of the movement of the hula hoop is improved, and the amount of exercise of children is increased.

Further, the simulation part 202 is a circular ring sleeved on the main body 201, a rotating part is arranged on the main body 201, at least one connecting point of the simulation part 202 is connected with the rotating part, and when the toy part 002 is triggered, the rotating part is started to drive the simulation part 202 to be attached to the outer peripheral surface of the main body 201 to rotate.

Specifically, the simulator 202 is provided in the main body 201 in a ring shape, and can simulate the use state of the hula hoop 001. The simulation piece 202 is connected to the rotating piece in the main body 201 through at least one connecting point, and the rotating piece drives the simulation piece 202 to rotate, so that the rotating state of the hula hoop on a player can be simulated.

Further, the main body 201 comprises a housing 01, the rotating member is a rotating disc 35 disposed in the housing 01, a first magnetic attraction member 351 is mounted on the outer periphery of the rotating disc 35, and the simulation member 202 is at least provided with a second magnetic attraction member 08;

when the rotating disc 35 rotates, the first magnetic attraction piece 351 attracts the second magnetic attraction piece 08 to rotate along the outer peripheral surface of the main body 201.

Specifically, the turntable 35 is installed in the housing 01, the simulation member 202 is sleeved outside the housing 01, the first magnetic attraction member 351 and the second magnetic attraction member 08 can be attracted to each other, and the first magnetic attraction member 351 and the second magnetic attraction member 08 can be made of magnets or made of magnets and metal capable of being attracted by the magnets. The second magnetic attraction piece 08 can be attracted by the first magnetic attraction piece 351, and when the rotary disc 35 rotates, the first magnetic attraction piece 351 attracts the second magnetic attraction piece 08 to rotate along the outer peripheral surface of the shell 01, so that the rotating effect of the hula hoop is simulated.

Preferably, the first magnetic attraction pieces 351 are provided with three pieces, three pieces of the first magnetic attraction pieces 351 are uniformly arranged on the periphery of the rotating disc 35, and one piece of the first magnetic attraction piece 351 adsorbs the second magnetic attraction piece 08. Three first magnetic attraction members 351 are provided for equalizing the weight of the toy piece 002 so that the center of gravity of the toy piece 002 is on its own axis.

Optionally, a circumferential sliding groove may be formed in the housing 01, and the first magnetic attraction member 351 is installed in the sliding groove, so that the second magnetic attraction member 08 can rotate along with the first magnetic attraction member 351, and the simulation member 202 can be prevented from being separated from the main body 201.

Further, as shown in fig. 1, the bottom of the main body 201 is provided with a base 13 (see fig. 2);

when the simulation member 202 rotates around the outer peripheral surface of the main body 201, the main body 201 is driven to swing with the bottom of the base 13 as a fulcrum.

As shown in fig. 2, the housing 01 of the main body 201 includes a left housing 11, a right housing 12 and a base 13 connected below the left housing 11 and the right housing 12, the base 13 is hemispherical, a weight 14 is installed in the base, the weight 14 is made of a metal material, so that the center of gravity of the main body 201 is lowered to the weight 14, the main body 201 forms a tumbler, the tumbler can rock with the bottom of the base 13 as a pivot, the rocking motion of a player rotating a hula hoop is simulated, and the interestingness is stronger.

When toy 002 is triggered, and simulation 202 rotates around the outer peripheral face of main part 201, simulation 202 drives main part 201 and rocks, and the simulation player rotates the form of hula hoop 001, has increased toy 002 interestingly.

Further, as shown in fig. 8, a triggering assembly 02 is arranged on the hula hoop 001, as shown in fig. 2, a driving assembly 03 is arranged on the main body 201, and the triggering assembly 02 is in communication connection with the driving assembly 03;

when the hula hoop 001 is in a rotating state, the triggering assembly 02 is triggered, and the triggering assembly 02 controls the driving assembly 03 to drive the simulation part 202 to rotate.

The hula hoop 001 is in communication connection with the driving component 03 of the toy piece 002 through the trigger component 02, and linkage of the hula hoop 001 and the toy piece 002 is achieved.

Specifically, as shown in fig. 9, the triggering assembly 02 includes an actuating member 21 and a control member 22, and the control member 22 is in communication connection with the driving assembly 03;

when the hula hoop 001 is in a rotating state, the actuating member 21 is driven to act and the control member 22 is triggered, and the control member 22 controls the driving assembly 03 to drive the simulation member 202 to rotate.

The operating member 21 and the control member 22 are installed in the installation box 23, and the installation box 23 is fixed at the outer side of the hula hoop 001, so that the use of the hula hoop 001 is prevented from being influenced.

In the embodiment of the present application, a sliding groove 231 is provided in the mounting box 23, two ends of the sliding groove 231 are respectively provided with a control member 22, and the control member 22 is triggered by pressing a spring thereon; both control members 22 are in communication connection with the driving assembly 03, and when any one of the control members 22 is pressed to trigger, a trigger signal is sent to the driving assembly 03. The operating member 21 is located between the two control members 22, and the operating member 21 is configured as a round ball, and the diameter of the round ball is slightly smaller than the width of the sliding slot 231, so that the round ball can slide in the sliding slot 231.

When the player rotates the hula hoop 001, the action piece 21 is swung to one end of the sliding groove 231, the action piece 21 continuously presses and triggers the control piece 22 at the end to send a signal to the driving assembly 03, and the driving assembly 03 is controlled to drive the simulation piece 202 to rotate. The player stops rotating the hula hoop 001, the operating member 21 is no longer subjected to the whipping force, the control member 22 stops being pressed, the control member 22 no longer sends a signal to the driving assembly 03, and the simulation member 202 stops rotating. A synchronized action of the player and the toy element 002 is achieved, enabling the child to actively move by enhancing the interactivity.

Optionally, the triggering assembly 02 is detachably connected with the hula hoop 001, and a connecting member is arranged on the triggering assembly 02 and detachably connected with the hula hoop 001.

The connecting piece can be arranged into structures such as buckles, the buckles are clamped on the hula hoop 001, the trigger assembly 02 is fixed on the hula hoop 001, a specific hula hoop does not need to be used, the trigger assembly 02 only needs to be arranged on a common hula hoop, the hula hoop 001 can be replaced according to the actual situation of a player, and the comfort level of the player for rotating the hula hoop 001 is improved. Further, as shown in fig. 7, the driving assembly 03 includes a driving motor 31 and a start-stop device 32 electrically connected to the driving motor 31, the triggering assembly 02 is in communication connection with the start-stop device 32, the triggering assembly 02 controls the driving motor 31 to start and stop through the start-stop device 32, and the driving motor 31 is used for driving the simulation member 202 to rotate.

The driving assembly 03 is provided with a driving motor 31 for driving, the start and stop of the driving motor 31 are controlled by a start and stop device 32, the start and stop device 32 is controlled by a trigger assembly 02 on the hula hoop 001, and the communication connection between the hula hoop 001 and the toy piece 002 is realized.

In particular, the drive assembly 03 further comprises a battery 33 for supplying electrical energy to the drive motor 31, and a power switch 34 connected in series between the drive motor 31 and the battery 33, in which circuit the start-stop device 32 is likewise connected in series. The start-stop device 32 directly controls the start-stop of the drive motor 31 with the power switch 34 open.

Alternatively, the start-stop device 32 may be configured as an inductive switch that completes the circuit by receiving a trigger signal from the trigger assembly 02. The start-stop device 32 can also be set to be a control circuit comprising a control chip, a wireless communication module and a switch piece, wherein the wireless communication module and the switch piece are electrically connected with the control chip, as an example, the control chip can adopt a single chip microcomputer, the wireless communication module can adopt a Bluetooth communication module or an infrared communication module, the switch piece can adopt switch tubes such as a triode, the switch piece is connected in series in a circuit formed by the driving motor 31, the battery 33 and the power switch 34, the wireless communication module receives a trigger signal of the trigger component 02 and sends the trigger signal to the control chip to control the switch piece to be switched on. The start stop 32 may be mounted within the body 201 integrated in the PCB board 07 (see fig. 3).

Further, as shown in fig. 3 and 4, the driving assembly 03 includes a rotating disc 35 and a transmission gear set 36, a rotating tooth 352 is disposed on the rotating disc 35, the transmission gear set 36 is connected between the rotating tooth 352 and an output shaft 311 of the driving motor 31, the output shaft 311 of the driving motor 31 rotates to drive the transmission gear set 36 to rotate, and the transmission gear set 36 drives the rotating disc 35 to rotate around its axis through the rotating tooth 352.

The driving motor 31 is a rotating motor, and the transmission gear set 36 is connected with the output shaft 311 and the turntable 35 to realize the transmission of the driving motor 311 and the turntable 35.

Specifically, as shown in fig. 4, the transmission gear set 36 includes a driving gear 361 and three intermediate gears 362, the driving gear 361 is mounted on the output shaft 311 of the driving motor 31, the three intermediate gears 362 are uniformly arranged around the driving gear 361 and are meshed with the driving gear 361, the three intermediate gears 362 are also meshed with the rotary teeth 352 at the same time, the driving gear 361 is driven by the driving motor 31 to rotate, and the driving gear 361 drives the rotary plate 35 to rotate through the three intermediate gears 362.

The three intermediate gears 362 are all duplicate gears, and include large gears and small gears which rotate coaxially, the large gears are meshed with the driving gears 361, the small gears are meshed with the rotary teeth 352 of the rotary disc 35, and the intermediate gears 362 are used for achieving linkage between the driving gears 361 and the rotary teeth 352.

Preferably, the rotary plate 35 is annular, the rotary teeth 352 are arranged on the inner wall of the rotary plate 35, and the pinions of the three intermediate gears 362 extend into the rotary plate 35. The occupation of main part 201 inner space has been saved in so setting up, and carousel 35 can play limiting displacement to three intermediate gear 362 simultaneously, has improved the stability of structure.

The transmission gear set 36 of the embodiment of the application adopts a structure that three intermediate gears 362 are circumferentially arranged around the driving gear 361, so that the rotation stability of the turntable 35 is improved, the balance of the weight of the toy piece 002 is considered, and the gravity center of the toy piece 002 is controlled to be positioned on the axis.

Further, as shown in fig. 3, a mounting plate 04 and a cover plate 05 are further disposed in the main body 201, the transmission gear set 36 and the rotary plate 35 are mounted on the mounting plate 04, the cover plate 05 is covered above the transmission gear set 36 and the rotary plate 35 and connected with the mounting plate 04, and the rotary plate 35 rotates relative to the mounting plate 04 and the cover plate 05 when the toy 002 is triggered.

Specifically, as shown in fig. 5, an inner collar 354 is disposed on a lower surface of the turntable 35, an outer collar 41 is disposed on an upper surface of the mounting plate 04, the inner collar 354 is mounted in the outer collar 41, an outer circumferential surface of the inner collar 354 is made to abut against an inner circumferential surface of the outer collar 41, the inner collar 354 rotates relative to the outer collar 41 when the turntable 35 rotates, and the outer collar 41 is used for limiting rotation of the turntable 35.

Preferably, the outer circumferential surface of the inner collar 354 is uniformly provided with convex arc-shaped protruding columns 355 at intervals, and the arc-shaped protruding columns 355 are in contact with the inner circumferential surface of the outer collar 41, so that the contact area between the turntable 35 and the outer collar 41 is reduced, and the friction resistance when the turntable 35 rotates is reduced.

As shown in fig. 3, a convex connection column 42 is arranged on the mounting plate 04, a connection hole 51 is arranged on the cover plate 05 corresponding to the connection column 42, the transmission gear set 36 and the rotary plate 35 are sequentially arranged on the mounting plate 04, a circular groove 353 which is concave downwards is arranged on the upper surface of the rotary plate 35, the cover plate 05 covers the rotary teeth 352 and the transmission gear set 36, the connection column 42 is inserted into the corresponding connection hole 51, and the mounting plate 04 is connected with the cover plate 05.

The installation disc 04 and the cover plate 05 are arranged in the embodiment of the application, and the turntable 35 and the middle gear 362 can be prevented from shaking up and down.

Further, as shown in fig. 6, a mounting bracket 06 is further disposed in the main body 201, and the driving assembly 03 further includes a battery 33 and a power switch 34 electrically connected to the driving motor 31;

the mounting bracket 06 is mounted on the base 13, and the battery 33 and the power switch 34 are both mounted on the mounting bracket 06.

The mounting bracket 06 is provided with a battery mounting groove 61, a switch mounting groove 62, and a driving motor groove (not shown), the battery 33 is mounted in the battery mounting groove 61, the power switch 34 is mounted in the switch mounting groove 62, and the driving motor 31 is mounted in the driving motor groove.

Specifically, the driving motor groove is recessed downward from the mounting bracket 06, and the driving motor 31 is mounted into the driving motor groove from top to bottom; the battery mounting grooves 61 are recessed upwards from the mounting bracket 06, the batteries 33 are mounted in the battery mounting grooves 61 from bottom to top, preferably, three batteries 33 are provided, the mounting bracket 06 is correspondingly provided with three battery mounting grooves 61, and the three battery mounting grooves 61 are distributed in a triangular shape, so that the weight of the toy piece 002 is balanced; the switch mounting groove 62 is a notch, and a pin of the power switch 34 is inserted into the switch mounting groove 62 from bottom to top to be electrically connected with the driving motor 31.

When the battery 33 is replaced or the power switch 34 is opened or closed, the assembly of the base 13 and the weight 14 is removed to expose the battery 33 and the power switch 34.

Alternatively, the counterweight 14 may be eliminated from the base 13 and the position of the bracket 06 mounted to counterbalance the weight of the battery 33. In the hula hoop synchronous toy in the embodiment of the application, the battery 33 is installed in the toy piece 002, and when the power switch 34 is turned on, when a player rotates the hula hoop 001, the actuating piece 21 of the triggering assembly 02 on the hula hoop 001 presses the control piece 22 under the action of the whipping power to continuously send a starting signal to the start-stop device 32 of the toy piece 002, the start-stop device 32 controls the driving motor 31 to rotate, the driving motor 31 drives the rotating disc 35 to rotate through the transmission gear set 36, the first magnetic attraction piece 351 on the rotating disc 35 attracts the second magnetic attraction piece 08 on the simulation piece 202 to rotate, so that the simulation piece 202 presents a motion state of rotating along the outer peripheral surface of the main body 201, and along with the rotation of the simulation piece 202, the main body 201 is driven to rock by taking the bottom of the base 13 as a fulcrum, and the motion state of the rotating hula hoop by the player is simulated. When the player stops rotating the hula hoop 001, the operating part 21 in the hula hoop 001 does not press the control part 22 any more, the control part 22 stops sending the starting signal, the driving motor 31 stops rotating, and the simulation part 202 stops rotating.

According to the hula hoop synchronous toy in the embodiment of the application, the player uses the hula hoop to trigger, the toy piece can simulate the action of rotating the hula hoop by the player, the action of the toy piece and the action of the player are synchronous, the player stops using the hula hoop and stops acting the toy piece, the interaction between the player and the toy piece is enhanced, the interestingness of movement is enhanced, and the children can be effectively guided to actively move.

Example two:

the hula hoop synchronizing toy in the embodiment of the present application includes a hula hoop 001 shown in fig. 10 and a toy piece 002 shown in fig. 1-7, wherein the structure of the toy piece 002 is the same as the structure of the toy piece in the first embodiment, and the description of the structure of the hula hoop 001 is omitted in this embodiment.

As shown in fig. 10, the hula hoop 001 is provided with a trigger assembly 02, and the trigger assembly 02 is in an elliptical ball shape, is mounted on the hula hoop 001, and extends outward.

As shown in fig. 11, the trigger assembly 02 includes a case 24, and an actuating member and a control member (not shown) installed in the case 24, the actuating member including a conductive spring 25, a metal tube 26, and an insulating ring 27, the conductive spring 25 and the metal tube 26 being electrically connected to the control member.

The conductive spring 25 is installed in the metal cylinder 26, the conductive spring 25 is not in contact with the metal cylinder 26 under the action of no external force, pins of the conductive spring 25 and the metal cylinder 26 are separated through the insulating ring 27, when a player rotates the hula hoop 001, the conductive spring 25 moves towards the metal cylinder 26 under the action of whipping force, the conductive spring 25 is in contact with the metal cylinder 26, and the trigger control member sends out a trigger signal to control the toy member 002 to move.

The contact triggering control piece of the conductive spring and the metal barrel is arranged on the triggering assembly in the hula hoop, the conductive spring and the metal barrel can be in a contact state when the hula hoop rotates, the hula hoop is disconnected when the hula hoop does not rotate, and the toy piece can be accurately triggered to act.

What has been described above is merely the principles and preferred embodiments of the present application. It should be noted that, for those skilled in the art, the embodiments obtained by appropriately combining the technical solutions respectively disclosed in the different embodiments are also included in the technical scope of the present invention, and several other modifications may be made on the basis of the principle of the present application and should be regarded as the protective scope of the present application.

Claims (10)

1. A hula hoop synchronous toy is characterized by comprising a hula hoop (001) and a toy piece (002), wherein the hula hoop (001) is in communication connection with the toy piece (002), and the toy piece (002) is triggered when the hula hoop (001) is in a rotating state;

toy spare (002) include main part (201) and cover establish simulator (202) outside main part (201), when toy spare (002) was triggered, main part (201) drive simulator (202) are round the outer peripheral face of main part (201) rotates.

2. The hula hoop synchronizing toy according to claim 1, wherein the simulating piece (202) is a circular ring sleeved on the main body (201), the main body (201) is provided with a rotating piece, at least one connecting point of the simulating piece (202) is connected with the rotating piece, and when the toy piece (002) is triggered, the rotating piece is started to drive the simulating piece (202) to rotate along the outer peripheral surface of the main body (201).

3. The hula hoop synchronizing toy according to claim 2, wherein the main body (201) comprises a housing (01), the rotating member is a rotating disc (35) arranged in the housing (01), a first magnetic attraction member (351) is arranged on the periphery of the rotating disc (35), and the simulating member (202) is provided with at least one second magnetic attraction member (08);

when the rotary table (35) rotates, the first magnetic suction piece (351) sucks the second magnetic suction piece (08) to rotate along the peripheral surface of the main body (201).

4. A hula hoop synchronizing toy according to claim 1, wherein the bottom of the body (201) is provided with a base (13);

when the simulation piece (202) rotates around the peripheral surface of the main body (201), the main body (201) is driven to swing by taking the bottom of the base (13) as a fulcrum.

5. The hula hoop synchronizing toy according to claim 4, wherein a triggering assembly (02) is arranged on the hula hoop (001), a driving assembly (03) is arranged on the main body (201), and the triggering assembly (02) is in communication connection with the driving assembly (03);

when the hula hoop (001) is in a rotating state, the triggering assembly (02) is triggered, and the triggering assembly (02) controls the driving assembly (03) to drive the simulation piece (202) to rotate.

6. The hula hoop synchronous toy as claimed in claim 5, wherein the driving assembly (03) comprises a driving motor (31) and a start-stop device (32) electrically connected with the driving motor (31), the triggering assembly (02) is in communication connection with the start-stop device (32), the triggering assembly (02) controls the driving motor (31) to start and stop through the start-stop device (32), and the driving motor (31) is used for driving the simulation piece (202) to rotate.

7. The hula hoop synchronizing toy according to claim 6, wherein the driving assembly (03) comprises a rotating disc (35) and a transmission gear set (36), the rotating disc (35) is provided with a rotating tooth (352), the transmission gear set (36) is connected between the rotating tooth (352) and an output shaft (311) of the driving motor (31), the output shaft (311) of the driving motor (31) rotates to drive the transmission gear set (36) to rotate, and the transmission gear set (36) drives the rotating disc (35) to rotate around the axis of the transmission gear set (36) through the rotating tooth (352).

8. A hula hoop synchronous toy according to claim 7, wherein a mounting disc (04) and a cover plate (05) are further arranged in the main body (201), the transmission gear set (36) and the rotary disc (35) are mounted on the mounting disc (04), the cover plate (05) is arranged above the transmission gear set (36) and the rotary disc (35) in a covering mode and connected with the mounting disc (04), and the rotary disc (35) rotates relative to the mounting disc (04) and the cover plate (05) when the toy piece (002) is triggered.

9. The hula hoop synchronizing toy according to claim 6, wherein a mounting bracket (06) is further provided in the main body (201), the driving assembly (03) further comprises a battery (33) and a power switch (34) electrically connected with the driving motor (31);

the mounting bracket (06) is mounted on the base (13), and the battery (33) and the power switch (34) are mounted on the mounting bracket (06).

10. The hula hoop synchronizing toy according to claim 5, wherein the trigger assembly (02) is detachably connected with the hula hoop (001), and a connecting piece is arranged on the trigger assembly (02) and detachably connected with the hula hoop (001).

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