CN218280536U

CN218280536U - Driving device, gas toy and inflatable toy system

Info

Publication number: CN218280536U
Application number: CN202121710423.4U
Authority: CN
Inventors: 曾迪
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-26
Filing date: 2021-07-26
Publication date: 2023-01-13
Anticipated expiration: 2031-07-26

Abstract

The utility model discloses a driving device, an air toy and an air-filled toy system, wherein the driving device is used for the air-filled toy to drive the air toy to move, and the air-filled toy comprises a supporting cavity and a mounting seat; the mounting seat is provided with a cavity combining part which is used for fixedly or repeatedly connecting and disassembling the supporting cavity; the driving device comprises a mounting head and a movable mechanism, wherein the movable mechanism is fixedly or repeatedly detachably connected to the mounting base through the mounting head; the movable mechanism is provided with an action output end for outputting power to the gas toy. The gas toy comprises a body and an action receiving end, wherein the action receiving end is used for receiving the driving force from the action output end to drive the body to move; the inflatable toy system comprises a supporting cavity, a mounting seat and the driving device. The driving device can lead the inflatable toy to have various dynamic effects, and can be suitable for various different applicable scenes, such as realizing the remote driving of the inflatable toy.

Description

Driving device, gas toy and inflatable toy system

Technical Field

The utility model relates to an aerify toy technical field, especially relate to a drive arrangement, a with gas toy and an aerify toy system with drive arrangement for aerifing the toy.

Background

Among the current category of inflatable toys, there is one that is pre-constructed, usually of fixed construction and shape; and another type of toy that is removably assembled, variably shaped or configured, typically allowing the user to change the shape and configuration of the toy to some degree. The detachable inflatable toy components can adopt various connection modes, and have two types of mutual ventilation and independent inflation, but the existing connecting assembly only has the function of connecting two inflatable toy components generally, and cannot drive the real-time dynamic change of the inflatable toy, so that the interestingness and the flexibility of the inflatable toy are not high.

The above background disclosure is only provided to aid in understanding the concepts and technical solutions of the present invention, and it does not necessarily belong to the prior art of the present patent application, and it should not be used to assess the novelty and inventive step of the present application without explicit evidence that the above content has been disclosed at the filing date of the present patent application.

SUMMERY OF THE UTILITY MODEL

The main object of the present invention is to overcome the drawbacks of the prior art, and to provide a driving device for an inflatable toy, a gas toy, and an inflatable toy system with the driving device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a driving device for an inflatable toy is used for the inflatable toy to drive the inflatable toy to move, and the inflatable toy comprises a supporting cavity and a mounting seat; the mounting seat is provided with a cavity combining part which is used for fixedly or repeatedly connecting the supporting cavity in a dismounting way; the driving device comprises a mounting head and a movable mechanism, wherein the movable mechanism is fixedly or repeatedly detachably connected to the mounting base through the mounting head; the movable mechanism is provided with an action output end, the action output end is arranged on one side of the movable mechanism adjacent to the mounting head or the side opposite to the mounting head, and the action output end is used for being coupled with a driven gas toy so as to realize the movement of the gas toy according to the set action.

Furthermore, the movable mechanism comprises a first air guide interface, and the first air guide interface is communicated with an air source through the mounting seat.

Furthermore, the number of the first air guide interfaces is more than two, wherein at least two first air guide interfaces form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source so as to realize the purposes of respectively inflating and exhausting.

Furthermore, the movable mechanism also comprises a second air guide interface arranged at the action output end or adjacent to the action output end; one end of the second air guide interface is communicated with the first air guide interface through an air passage, and the other end of the second air guide interface is used for conveying air from an air source to the gas toy or other objects except the gas toy. The air from the air source can flow through the movable mechanism to supply devices (such as air-using toys and the like) behind the movable mechanism while being supplied to the movable mechanism, thereby solving the problem that when the movable mechanism without the characteristics is installed on an air path, the air can be blocked by the movable mechanism and can not flow downwards any more.

Furthermore, the number of the air passages is at least two, the number of the first air guide interfaces and the number of the second air guide interfaces are at least two, two ends of each air passage are correspondingly connected with the first air guide interface and the second air guide interface respectively, and at least two air passages form a pair and are used for inflating and exhausting air for the gas toy or other objects except the gas toy respectively.

Further, the movable mechanism comprises a power device, and the power device is connected with the action output end and is used for providing driving force for the action output end.

Further, the power device is a pneumatic power device and is connected with an air source.

Furthermore, the power device is provided with a power air port, and the power air port is connected with the air source through the mounting seat and is used for supplying air from the air source to the power device.

Furthermore, the number of the power air ports is two, and each power air port is communicated with the positive pressure air source and the negative pressure air source respectively so as to be used for inflating and exhausting the power device respectively.

Furthermore, the movable mechanism comprises a power device airflow control device, and the power device airflow control device is arranged at the power air port and is used for controlling the flow direction or/and the flow rate of the air flowing through the power air port.

Further, the movable mechanism comprises a first movable mechanism electric contact which is electrically connected with a power supply and/or a signal source through the mounting seat and is used for introducing current and/or electric signals into the movable mechanism, so that working power can be supplied to the movable mechanism.

Furthermore, the movable mechanism further comprises a second movable mechanism electrical contact, one end of the second movable mechanism electrical contact is electrically connected with the first movable mechanism electrical contact, and the other end of the second movable mechanism electrical contact is electrically connected with the gas toy or other objects except the gas toy, so as to supply power or transmit electrical signals for the gas toy or other objects except the gas toy. The electric/signal from the power/signal source can be supplied to the movable mechanism, and at the same time, the electric/signal can be supplied to the devices (such as gas toy, etc.) behind the movable mechanism through the movable mechanism, thereby solving the problem that when the movable mechanism without the characteristics is installed on the circuit/signal circuit, the electric/signal can be blocked by the movable mechanism and can not be transmitted downwards any more.

Furthermore, the power device is an electric power device, an electromagnetic induction power device or a magnetic power device, and the power device is electrically connected with a power supply and/or a signal source through the mounting seat.

Furthermore, the movable mechanism comprises a first action conversion component, one end of the first action conversion component is fixedly or repeatedly detachably connected with the power device, the other end of the first action conversion component is provided with the action output end, and the first action conversion component is used for converting the power movement mode and state generated by the power device into the required movement mode and state. The power generated by the driving device can generate the changes of direction, amplitude, frequency, speed and the like, thereby realizing more motion states and richer playing effects.

Further, the driving device further comprises a first butt joint piece arranged on the movable mechanism, and the first butt joint piece is used for being fixedly or repeatedly detachably connected with the air toy. The cost can be saved, the convenience is improved, namely, the driving device is not required to be replaced, the same driving device is used, and different motion effects can be generated only by respectively installing different first transmission assemblies.

Furthermore, the first butt joint piece is arranged on the action output end and can drive the gas toy to move along with the action output end. The air pipe/wire connected between the mounting seat and the movable mechanism is reserved with a preset length and is provided with a movable pulling structure, so that the movable mechanism can be separated from the outside of the mounting seat. The activity mechanism is not necessarily limited in the mounting seat, but can be pulled out of the mounting seat and placed at different positions according to the change of the playing method, so that richer playing methods and effects are generated.

A gas toy comprises a body and an action receiving end connected with the body, wherein the action receiving end is coupled with the action output end to receive driving force from the action output end so as to drive the body to move.

Furthermore, the air toy comprises an air toy ventilation interface arranged at the action receiving end or adjacent to the action receiving end; one end of the air toy ventilation port is communicated with the second air guide port to receive air from the air source, and the other end of the air toy ventilation port is communicated with the body to convey air to the body.

Furthermore, the number of the air toy ventilation interfaces is at least two, and each air toy ventilation interface is respectively communicated with the positive pressure air source and the negative pressure air source through the different second air guide interfaces so as to respectively inflate and deflate the body.

Furthermore, the body comprises an air inflation cavity, and the air inflation cavity is a soft deformable air inflation cavity and is communicated with the ventilation interface of the air toy.

Furthermore, the air toy further comprises an air toy airflow control device, and the air toy airflow control device is fixedly or repeatedly detachably connected to the air vent interface of the air toy and used for controlling the flow direction and/or flow of the flowing air.

Furthermore, the ventilation interface of the air toy is used for independently supplying and exhausting air for a plurality of bodies in a time-sharing manner through one air flow control device of the air toy.

Further, the gas-using toy comprises gas-using toy electrical contacts; the electric contact of the gas toy is electrically connected with a second electric contact of the movable mechanism arranged on the movable mechanism and is used for transmitting current and/or electric signals with the second electric contact of the movable mechanism.

Furthermore, the gas toy further comprises a second butt joint piece arranged on the action receiving end, and the second butt joint piece is used for being fixedly or repeatedly detachably connected with the driving device and/or the mounting seat. Under the condition that the second butt joint piece and the movable mechanism or the mounting seat are firmly locked (at the moment, the second butt joint piece cannot move), the driven cavity can still generate required movement under the driving of the power action output end.

Furthermore, one end of the second butt joint piece is hinged with the mounting seat. The access seat can be very firmly arranged on the supporting cavity, so that the access seat can withstand violent impact of children in the playing process.

Further, the second docking member is a second recessed structure for receiving the motion receiving end at least partially therein.

Further, a second accommodating portion is provided on the body, and the motion receiving end is accommodated inside the second accommodating portion.

Furthermore, the gas toy also comprises a second action conversion component, the action receiving end is connected with the body through the second action conversion component, and the second action conversion component is used for converting the power movement mode and state received by the action receiving end into the required movement mode and state.

An inflatable toy system comprising: the supporting cavity, the mounting seat and the driving device are arranged on the supporting cavity; the mounting seat is provided with a cavity combining part which is used for fixedly or repeatedly connecting the supporting cavity in a dismounting way; the driving device is fixedly or repeatedly detachably connected to the mounting seat.

Furthermore, the supporting cavity is a soft deformable inflating cavity, a supporting cavity ventilating interface is arranged on the supporting cavity, one end, located outside the supporting cavity, of the supporting cavity ventilating interface is communicated with an air source, and one end, located inside the supporting cavity, of the supporting cavity ventilating interface is communicated with the inside of the supporting cavity and the mounting seat respectively. The air pipe from the outside of the supporting cavity can enter the inside of the supporting cavity, so that the air pipe is not exposed, and the air pipe is safer and more attractive.

Furthermore, a supporting cavity airflow control device is connected between the supporting cavity ventilation interface and the mounting seat. The mounting seat and the supporting seat airflow control device can be detachably connected through a clamping connection mode, a threaded connection mode and the like.

Furthermore, an access piece is arranged on the supporting cavity body and used for improving the connection stability and air tightness; the access piece is connected with the supporting cavity in an airtight mode, and a first airflow control device installation structure and a supporting cavity ventilation interface are arranged on the access piece; the first airflow control device mounting structure is used for mounting the support cavity airflow control device in a detachable mode.

Furthermore, at least two support cavity ventilation interfaces are arranged, wherein at least two support cavity ventilation interfaces form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source so as to realize respective inflation and air exhaust.

Furthermore, a supporting cavity electric contact is arranged on the supporting cavity; the supporting cavity is characterized in that one end, located outside the supporting cavity, of the supporting cavity electric contact is electrically connected with a power supply and/or a signal source, and one end, located inside the supporting cavity, of the supporting cavity electric contact is electrically connected with the mounting seat.

Further, a first accommodating part is arranged on the supporting cavity, and the mounting seat is accommodated inside the first accommodating part. Through setting up first portion of holding, can wrap up the mount pad of stereoplasm with the soft inflation cavity to it is safer to the children of playing.

Furthermore, the mounting seat comprises a mounting seat ventilation interface, one end of the mounting seat ventilation interface is communicated with an air source, and the other end of the mounting seat ventilation interface is communicated with a first air guide interface arranged on the movable mechanism so as to transmit air to the movable mechanism.

Furthermore, one end of the mounting seat ventilation interface is arranged in the supporting cavity and penetrates out of the supporting cavity through an air pipe to be communicated with the air source.

Furthermore, the number of the installation seat ventilation interfaces is at least two, wherein at least two installation seat ventilation interfaces form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source so as to realize the purposes of respectively inflating and exhausting.

Further, a second airflow control device mounting structure is arranged at the ventilating interface of the mounting seat and used for mounting the airflow control device in a detachable mode.

Furthermore, the inflatable toy system further comprises a mounting seat electrical contact, one end of the mounting seat electrical contact is arranged inside the supporting cavity and penetrates out of the supporting cavity through an electric wire to be electrically connected with a power source and/or a signal source, and the other end of the mounting seat electrical contact is electrically connected with a first electrical contact of a movable mechanism arranged on the movable mechanism to supply power to the movable mechanism or provide an electrical signal.

Further, the mounting seat is a first recessed structure, and the driving device is at least partially accommodated in the first recessed structure so as to improve safety and attractiveness.

Further, the inflatable toy system further comprises the inflatable toy, and the inflatable toy is arranged on the inflatable toy system through the driving device and is driven by the driving device. By increasing the number of the gas-using toys, the playing scene is richer, the interaction change is more, and the amusement is more interesting. In some embodiments, each inflatable toy may be an inflatable chamber that may be inflated independently and at different times.

Furthermore, an inflation cavity capable of receiving independent inflation and deflation at different times is further arranged on the gas toy. For example, the support cavity and other inflation cavities can be connected by any one of the following connection modes: heat sealing, glue bonding, connecting through an air pipe, connecting through a connecting piece, connecting through a valve, and connecting through a pneumatic or electric device. In the actual playing scene, when only one cavity is provided, the playing method is rigid, the plot is simple and changes monotonously, and when other cavities are provided, different shapes, combinations, action responses, plot interaction and the like of the cavities can have abundant changes, so that the playing method is more interesting. Wherein each inflation cavity is communicated with the air source through an independent air pipe, so that each action can be respectively carried out on the support cavity and other inflation cavities, and the action change is asynchronous, thereby being richer.

Furthermore, the inflatable toy system also comprises an entertainment auxiliary device which is arranged on the supporting cavity and/or the inflatable toy and is connected with a power supply through an electric wire or connected with an air source through an air pipe.

Further, the inflatable toy system may further comprise other chambers fixedly or repeatedly detachably connected to the support chamber.

Further, the weight-bearing structure of the support cavity is configured to bear the weight of a player when inflated and is provided with a spatial structure sized to allow the player to play thereon.

Compared with the prior art, the method has the following beneficial effects: on one hand, the inflatable toy is driven by independently arranging the movable mechanism, and can show actions such as swinging, stretching, rotating, ejecting and the like to realize various dynamic effects of the inflatable toy; on the other hand, the mounting seat is fixedly arranged on the supporting cavity body or can be repeatedly disassembled and assembled, and the movable mechanism is fixedly arranged on the mounting seat or can be repeatedly disassembled and assembled, so that the movable mechanism is convenient to replace and maintain, and is suitable for various different applicable scenes, and the air toy for remote driving is realized.

In a further aspect, the present application also has the following advantages:

1. the inflatable toy has the advantages that the supporting cavity, other cavities and the inflatable toy are inflated and exhausted by the air source through the independent air pipes, and the inflatable toy is enabled to have a dynamic transformation effect through the transformation of inflation and exhaust;

2. according to the inflatable toy, the wire contacts are respectively arranged on the supporting cavity, the mounting seat, the driving device and the inflatable toy, so that the inflatable toy can supply power to the entertainment auxiliary device on the inflatable toy while realizing various actions, and a richer and more flexible interaction effect of the inflatable toy is realized;

3. the utility model provides a can design according to the use scene needs with supporting the cavity and assemble with gas toy, and gas circuit, the circuit of each gas toy communicate simultaneously, and the participant that supplies to play plays excites imagination, tempers the health, easy operation, portable.

Drawings

Fig. 1 is a schematic view of an air-filled toy of embodiment 1.

Fig. 2 is a partial exploded view of fig. 1.

Fig. 3 is a schematic view of the air-filled toy of embodiment 2.

Fig. 4 is a schematic view of the air-filled toy of embodiment 3.

FIG. 5 is a schematic view of the air-filled toy of embodiment 4.

FIG. 6 is a schematic view of the air-filled toy of embodiment 5.

FIG. 7 is a schematic view of the air-filled toy of embodiment 6.

Fig. 8 is a schematic view of the air-filled toy of embodiment 7.

Fig. 9 is a schematic view of the air-filled toy of embodiment 8.

Fig. 10 is a schematic view of the air-filled toy of embodiment 9.

Fig. 11 is a partial exploded view of fig. 10.

Fig. 12 is a schematic view of the air-filled toy of embodiment 10.

Fig. 13 is a partial exploded view of fig. 12.

Fig. 14 is a schematic view of the air-filled toy of embodiment 11.

Fig. 15 is a partial exploded view of fig. 14.

Fig. 16 is a schematic view of the air-filled toy of embodiment 12.

Fig. 17 is a partial exploded view of fig. 16.

FIG. 18 is a schematic view of an air-filled toy according to embodiment 13.

FIG. 19 is a schematic view of the air-filled toy of embodiment 14.

Fig. 20 is a schematic view of the air-filled toy of embodiment 15.

Fig. 21 is a schematic view of the air-filled toy of embodiment 16.

Description of reference numerals:

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the embodiments of the present invention more clearly understood, the following description is made in conjunction with the accompanying drawings and the embodiments of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. In addition, the connection may be for either a fixing function or a circuit connection function.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the embodiments of the present invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example 1

As shown in fig. 1 to 2, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900, an inflatable toy 800 and an entertainment auxiliary device 1100; the mounting base 300 is provided with a cavity combining part 360, the cavity combining part 360 is used for fixedly or repeatedly detachably connecting and supporting the cavity 200, and the cavity combining part 360 can adopt a buckle, a thread or an interference connection structure, and can also adopt a heat seal or adhesive connection mode; the driving device 1900 is fixedly or repeatedly detachably connected to the mounting base 300, the inflatable toy of the embodiment can work by being connected to the air source 100 through the air pipe 900, and the air source 100 is divided into a positive pressure air source and a negative pressure air source.

Wherein:

the supporting cavity 200 is a soft deformable inflatable cavity, the supporting cavity 200 is provided with a supporting cavity ventilation interface 220, one end of the supporting cavity ventilation interface 220, which is positioned outside the supporting cavity 200, is communicated with the air source 100 through an air pipe 900, one end of the supporting cavity ventilation interface 220, which is positioned inside the supporting cavity 200, is respectively communicated with the inside of the supporting cavity 200 and the mounting seat 300 through a supporting cavity airflow control device 1300, and the supporting cavity airflow control device 1300 specifically adopts a flow divider and an air valve; the number of the supporting cavity ventilation interfaces 220 is at least two, wherein at least two supporting cavity ventilation interfaces 220 form a pair and are respectively communicated with a positive pressure air source and a negative pressure air source through different air pipes 900 so as to realize respective inflation and air exhaust. A support cavity electrical contact 230 is arranged on the support cavity 200; the end of the support chamber electrical contact 230 located outside the support chamber 200 is electrically connected to a power and/or signal source, and the end of the support chamber electrical contact 230 located inside the support chamber 200 is electrically connected to the mount electrical contact 320 via an electrical wire 1000. The support cavity 200 is provided with an access member 260 for increasing the contact area between the support cavity vent interface 220 and the support cavity 200 to improve the stability and the air tightness of the connection; the access member 260 is hermetically connected with the support cavity 200, the support cavity vent interface 220, the support cavity electrical contact 230 and the first airflow control device mounting structure 270 are fixedly disposed on the access member 260, and the first airflow control device mounting structure 270 is used for repeatedly mounting the support cavity airflow control device 1300 in a detachable manner when necessary. The support chamber 200 is provided with a first receiving portion 210, and the mount 300 is received inside the first receiving portion 210 so as to wrap the hard mount 300 with a soft inflatable chamber, thereby making it safer for the playing child. The load-bearing structure of the support cavity is configured to bear the weight of a player when inflated and is provided with a spatial structure sized to allow a player to play thereon. The support cavity 200 may be either fixed to the ground or a gas toy, and when the support cavity 200 is fixed to the ground, the support cavity 200 can bear the weight of a player and allow the player to move on the support cavity 200, so that the player can keep a safe distance from the ground on the support cavity 200. In addition, the support chamber 200 may be a powered air toy 800.

The mount 300 includes a mount vent interface 320 and mount electrical contacts 320. Mount vent interface 320 communicates with gas source 100 on one end and first gas guide interface 410 on the other end for delivering gas to driver 1900. One end of the mounting seat ventilation interface 320 is disposed inside the supporting cavity 200, and penetrates out of the supporting cavity 200 through the air tube 900 to communicate with the air source 100, and the other end of the mounting seat ventilation interface 320 is located outside the supporting cavity 200. The number of the mounting seat ventilation interfaces 320 is at least two, wherein at least two mounting seat ventilation interfaces 320 form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source so as to realize the purposes of respectively inflating and exhausting. A second airflow control device mounting structure 370 is disposed at the mount plenum interface 320 for mounting the air guide airflow control device 1800 for repeated removable mounting as required. The inflatable toy further comprises an air guide airflow control device 1800 mounted on the second airflow control device mounting structure 370, the air guide airflow control device 1800 is connected among the mounting seat air vent interface 320, the first air guide interface 410 and the power air port 451, two flow dividers are specifically adopted as the air guide airflow control device 1800, each mounting seat air vent interface 320 is respectively connected to the first air guide interface 410 and the power device airflow control device 1700 through one flow divider, and the air in the mounting seat air vent interface 320 is divided into the first air guide interface 410 and the power air port 451. One end of the electrical contact 320 of the mounting seat is disposed inside the supporting cavity 200 and penetrates out of the supporting cavity 200 through the wire 1000 to be electrically connected to a power source and/or a signal source, and the other end of the electrical contact 320 of the mounting seat is electrically connected to the first electrical contact 430 of the movable mechanism for transmitting current or an electrical signal to the movable mechanism 400. Mount 300 is a first recessed structure 310 and drive 1900 is at least partially received within first recessed structure 310 to enhance safety and aesthetics. Mount 300 is removably connected to drive 1900.

The driving device 1900 includes a mounting head 500, a moving mechanism 400 and a first docking member 4110, wherein the moving mechanism 400 is fixedly or repeatedly detachably connected to the mounting base 300 through the mounting head 500, and the mounting head 500 may adopt a connection structure of screw threads, snap fasteners or interference; the moving mechanism 400 is provided with an action output terminal 460, and the action output terminal 460 is provided on a side of the moving mechanism 400 adjacent to the mounting head 300 or a side opposite to the mounting head 300, for coupling with the driven air toy 800 to realize the movement of the air toy 800 according to a set action. The movable mechanism 400 comprises a first air guide port 410 and a second air guide port 420, wherein one end of the first air guide port 410 is communicated with the second air guide port 420, and the other end is communicated with the air source 100 through the mounting base 300. The number of the first air guide ports 410 is more than two, wherein at least two first air guide ports 410 form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source so as to realize the purposes of respectively inflating and exhausting. The second air guide interface 420 is disposed at the action output end or a position adjacent to the action output end, one end of the second air guide interface 420 is communicated with the first air guide interface 410 through the air passage 4100, and the other end is used for conveying the air from the air source 100 to the gas toy 800 or other objects except the gas toy 800. At least two air passages 4100 are provided, at least two first air guide interfaces 410 and at least two second air guide interfaces 420 are provided, two ends of each air passage 4100 are respectively and correspondingly connected with the respective first air guide interface 410 and the second air guide interface 420, wherein at least two air passages form a pair of the two air passages 4100, one air passage is used for inflating the gas toy 800, and the other air passage is used for exhausting air. The motive mechanism 400 includes a power device 450, the power device 450 is used for providing a driving force for the action output end 460, the power device is a pneumatic power device, the power device 450 is provided with a power air port 451, a power device air flow control device 1700 is arranged at the power air port 451, the power device air flow control device 1700 specifically adopts an air valve, and the power device air flow control device 1700 is connected between the power air port 451 and the air guide air flow control device 1800 and is used for providing the air from the air source 100 to the power device. The moving mechanism 400 further includes a moving mechanism first electrical contact 430, the moving mechanism first electrical contact 430 being electrically connected to a power and/or signal source via the mount electrical contact 320 for introducing an electrical current and/or signal into the moving mechanism 400. The action output end 460 further includes a second moving mechanism contact 440, one end of the second moving mechanism contact 440 is electrically connected to the first moving mechanism contact 430, and the other end is used for electrically connecting to the gas toy 800 or another object other than the gas toy 800, so as to supply power or transmit an electrical signal to the gas toy 800 or another object other than the gas toy 800. The movable mechanism 400 includes a first motion conversion component 470, one end of the first motion conversion component 470 is fixedly or repeatedly detachably connected with the power device 450, the other end is provided with a motion output end 460, the motion output end 460 is coupled with the gas toy 800, and the first motion conversion component 470 is used for converting the motion mode and state of the power generated by the power device 450 into the required motion mode and state to drive the motion output end 460, wherein the motion mode of the power includes motion direction, amplitude and frequency. The first butt joint piece 4110 is arranged on the moving mechanism 400, the first butt joint piece 4110 is fixedly installed and does not move along with the movement of the output end 460, the second air guide interface 420 and the moving mechanism second electric contact 440 are both arranged on the first butt joint piece 4110, the first movement conversion component 470 is not connected with the first butt joint piece 4110, the first butt joint piece 4110 is fixedly connected with the second butt joint piece 700 or can be repeatedly connected in a detachable and detachable mode, the first butt joint piece 4110 is connected with the second butt joint piece 700 in a detachable and detachable mode through threads and buckles, when the first butt joint piece 4110 is connected with the second butt joint piece 700, the second air guide interface 420 is connected with the air use toy ventilation interface 710, the moving mechanism second electric contact 440 is connected with the air use toy electric contact 720 in a butt joint mode, and the first movement conversion component 470 is connected with the second movement conversion component 750 in a butt joint mode, so that convenience, firmness and reliability of butt joint are improved.

The air toy 800 comprises a body 820, an action receiving end 830, a second docking member 700, an air toy ventilation interface 710, an air toy electrical contact 720, a second action switching assembly 750 and an air toy airflow control device 1600, wherein the action receiving end 830 is disposed on the body 820 and is used for being coupled with the action output end 460 to receive a driving force from the action output end 460 to drive the body 820 to move. The air toy ventilation interface 710 is disposed at or near the motion receiving end 830, one end of the air toy ventilation interface 710 is used for communicating with the second air guide interface 420 to receive air from the air source 100, and the other end is used for communicating with the body 820 to supply and exhaust air to and from the body 820. The body 820 comprises an inflation cavity which is a soft deformable inflation cavity, and the interior of the inflation cavity is communicated with the ventilation interface 710 of the gas toy; the air toy ventilation interface 710 is fixedly or repeatedly detachably connected to an air toy ventilation interface 1600, and is used for controlling the flow direction and/or flow rate of air flowing through, when the air toy 800 comprises a plurality of bodies 320, the air toy ventilation interface 710 supplies and exhausts air for the plurality of bodies 820 in a time-sharing and independent manner through one air toy ventilation control 1600. With gas toy air flow control device 1600 specifically adopts the solenoid valve, and positive pressure air supply and negative pressure air supply run through support cavity 200, mount pad 300, moving mechanism 400 in proper order through trachea 900, insert inside body 820, inflate the bleed through trachea 900 to body 820 to utilize with gas toy air flow control device 1600 control body 820 and with the gas flow direction and/or the flow between the gas toy ventilation interface, and then realize the activity of body 820. The second docking member 700 is disposed on the motion receiving end 830, and is used for being fixedly or repeatedly detachably connected with the first docking member 4110 and the mounting seat 300, so as to increase the stability of connection between the gas toy and the movable mechanism. The second docking member 700 is a second recessed structure 760 for receiving the motion-receiving end 830 at least partially within the second recessed structure 760 such that the motion-receiving end 830 is not directly visible or accessible from the exterior. One end of the gas toy electrical contact 720 is electrically connected with the second electrical contact 440 of the movable mechanism, and the other end is electrically connected with the gas toy airflow control device 1600 and the entertainment auxiliary device 1100 arranged on the body 820, respectively, and the gas toy electrical contact 720 is used for transmitting current and/or electrical signals with the second electrical contact 440 of the movable mechanism, thereby supplying power or transmitting electrical signals for the entertainment auxiliary device 1100 and the gas toy airflow control device 1600 on the gas toy 800. The motion receiving end 830 is connected to the main body 820 via a second motion conversion component 750, the second motion conversion component 750 is detachably connected to the first motion conversion component 470 in a replaceable manner, and the second motion conversion component 750 is configured to convert the motion mode and state of the power received by the motion receiving end 830 into a desired motion mode and state for driving the main body 820 to move. The air toy 800 may further include any one or any combination of two or more of a plush toy, a plastic article, an electric article, a soft article, a luminous article, a sound article, a pneumatic article, and an electronic product. The air toy 800 is installed on the air-filled toy through the moving mechanism 400 and driven by the moving mechanism 400. The same driving unit 1900 can simultaneously drive more than two air toys 800. In addition, an inflation cavity capable of receiving independent inflation and deflation can be additionally arranged on the body 820.

The inflatable toy further comprises other cavities 1400 fixedly or repeatedly detachably connected with the supporting cavity 200, and the connecting mode between the supporting cavity 200 and the other cavities 1400 is one of the following modes: the supporting cavity 200 and the other cavities 1400 are respectively communicated with the air source 100 through different air pipes 900 and can respectively receive independent and time-sharing air charging/discharging.

The inflatable toy further comprises an entertainment aid 1100, wherein the entertainment aid 1100 is disposed on the support cavity 200 and/or the inflatable toy 800 and is connected to a power source through a wire 1000 or connected to the air source 100 through an air tube 900. The entertainment auxiliary device 1100 is any one or any combination of two or more of a projector, a bubble blower, a paper sprayer, a smoke sprayer, a ball blower, a water spraying device, a magnetic device, a heating nozzle, an AR environment sensing camera, a projection screen, a display screen, an LED lamp, a projection type spot light, a motion bearing part, an electrostatic generating device, a changeable balloon, a common camera, a loudspeaker, a sound, an additional toy, an ultraviolet disinfection device, a plasma disinfection device, an inflation cavity, an electromechanical device and a pneumatic device.

The supporting cavity airflow control device 1300, the airflow control device 1600 for the gas toy, the airflow control device 1700 for the power device and the airflow control device 1800 in the application can adopt any one or any combination of more than two of an air valve (group), a multi-way flow divider, a one-way valve and a plug according to specific use requirements.

The working process of the embodiment:

1. the driving device 1900 is installed on the installation base 300, and the air pipes 900 and the electric wires 1000 in the system are connected, so that various air flow control devices can be installed at corresponding positions according to the use requirements of the application scene.

2. The supporting cavity 200, the other cavities 1400 and the gas toy 800 are respectively communicated with the gas source 100 through different gas pipes 900, and can respectively receive independent and time-sharing gas charging/discharging, so that the gas charging/discharging of the supporting cavity 200, the other cavities 1400 and the gas toy 800 can be respectively changed by charging and discharging the gas from the gas source 100, and the gas charging toy can show a dynamic change effect.

3. The air source 100 is used for controlling the power device 450 to work through the air pipe 900, the first motion conversion assembly 470 converts the telescopic motion mode of the power output by the power device 450 into the swinging motion mode of the power, and then the second motion conversion assembly 750 drives the air toy 800 to move; the second air guide interface 420 controls the air supply and exhaust of the air toy 800 through the air toy airflow control device 1600.

4. The power supply supplies power to the supporting cavity 200 and/or each entertainment auxiliary device 1100 on the gas toy 800 through the electric wire 1000, so that the gas toy can emit light or sound while realizing various actions, and the richer and more flexible interaction effect of the gas toy is realized;

5. when the application scene of the inflatable toy needs to be changed, or the driving device 1900 needs to be replaced and maintained, the driving device 1900 only needs to be detached from the mounting base 300, replaced and assembled, and then mounted on the mounting base 300 again, so that the application scene replacement and the maintenance replacement of the driving device 1900 can be realized.

Example 2

In order to enhance the flexibility and applicability of the driving device 1900, in this embodiment, on the basis of embodiment 1, the other cavity 1400 is removed, the airflow control device 1600 and the second motion conversion assembly 750 of the air toy are removed from the air toy 800, and the driving device 1900 adopts another structure.

As shown in fig. 3, the present embodiment discloses an inflatable toy, which includes a support chamber 200, a mounting base 300, a driving device 1900, an inflatable toy 800, and an entertainment auxiliary device 1100.

Wherein:

the driving device 1900 includes the mounting head 500 and the moving mechanism 400, and the moving mechanism 400 is fixedly or repeatedly detachably attached to the mounting base 300 by the mounting head 500; the moving mechanism 400 includes a motion output 460, a first docking member 4110, a first air directing port 410, a second air directing port 420, a moving mechanism first electrical contact 430, a moving mechanism second electrical contact 440, a first motion translating element 470, and a power plant airflow control device 1700. The motion output terminal 460 is used for coupling with the motion receiving terminal 830 to realize the motion of the gas toy 800 according to the set motion. The first motion conversion assembly 470 drives the motion output end 460 to move, the first butt joint piece 4110 is arranged on the motion output end 460, the first butt joint piece 4110 adopts a movable installation mode, the gas toy 800 can move along with the first butt joint piece 4110 under the driving of the motion output end 460, the second air guide interface 420 and the second moving mechanism electrical contact 440 are both arranged on the first butt joint piece 4110, the first butt joint piece 4110 also moves along with the first butt joint piece 4110, the first butt joint piece 4110 and the second butt joint piece 700 are connected in a detachable and repeatable mode, when the first butt joint piece 4110 is in butt joint with the second butt joint piece 700, the second air guide interface 420 and the gas toy air vent interface 710 are in butt joint, and the second moving mechanism electrical contact 440 and the gas toy electrical contact 720 are in butt joint, so that the convenience, the firmness and the reliability of the butt joint are improved. The air passage 4100 connected between the first air guide interface 410 and the second air guide interface 420, and the electric wire 1000 connected between the first moving mechanism electrical contact 430 and the second moving mechanism electrical contact 440 are disposed inside the first motion converting member 470 and are not visible or touched from the outside.

One end of the second air guide interface 420 is communicated with the first air guide interface 410 through an air passage 4100, and the other end is used for conveying the air from the air source 100 to the gas toy 800 or other objects except the gas toy 800. The air guide device comprises two air passages 4100, at least two first air guide interfaces 410 and two second air guide interfaces 420 are respectively arranged, two ends of each air passage 4100 are respectively and correspondingly connected with the first air guide interface 410 and the second air guide interface 420, an air guide airflow control device 1800 is connected between the first air guide interface 410, the mounting seat air guide interface 320 and the power device airflow control device 1700, the air guide airflow control device 1800 comprises an air valve and two flow dividers, the mounting seat 300 is provided with the two mounting seat air guide interfaces 320, each mounting seat air guide interface 320 is respectively connected into the air valve and the power device airflow control device 1700 through one air flow divider, the other end of the air valve is connected with the first air guide interface 410, each air passage can inflate the air toy 800 and deflate the air, in the embodiment, the air toy airflow control device is not adopted, and the two bodies 820 can be inflated and deflated independently in a time-sharing mode only through the air guide airflow control device 1800, so that the movement of the bodies 820 is realized.

The movable mechanism 400 comprises a power device 450 used for providing driving force for the action output end 460, the power device 450 is a pneumatic power device, specifically, a cylinder can be adopted, the pneumatic power device is provided with two power air ports 451, a power device air flow control device 1700 is arranged at the power air port 451, the power device air flow control device 1700 specifically adopts an air valve, the power device air flow control device 1700 is connected between the power air ports 451 and an air flow divider of the air flow control device 1800 and used for controlling the flow direction and the flow rate of air flowing through the power air ports 451, and each power air port 451 is respectively communicated with a positive pressure air source and a negative pressure air source through the power device air flow control device 1700 so as to be respectively used for inflating and exhausting the pneumatic power device.

The gas-using toy 800 comprises a body 820, a motion receiving end 830, a second docking member 700, a gas-using toy ventilation interface 710, and gas-using toy electrical contacts 720; the body 820 comprises two inflatable cavities, wherein the inflatable cavities are soft deformable inflatable cavities, and the interiors of the inflatable cavities are communicated with the ventilation ports 710 of the gas toy. At least two air toy ventilation interfaces 710 are provided, and each air toy ventilation interface 710 is connected 420 with a corresponding second air guide interface respectively, so that each air toy ventilation interface is used for inflating and exhausting each body 820, and further the movement of the body 820 is realized.

A first airflow control device mounting structure 270 is disposed on the access member 260 at the support cavity ventilation interface 220, and is used to mount a required support cavity airflow control device 1300 according to use requirements, in this embodiment, the support cavity airflow control device 1300 specifically uses an air valve (set), and the support cavity ventilation interface 220 is respectively communicated with the inside of the support cavity 200 and the mounting seat ventilation interface 320 through the support cavity airflow control device 1300, and is used to control the flow direction and/or flow rate of the gas flowing through.

The working process of the embodiment is as follows:

1. the driving device 1900 is installed on the installation base 300, and the air pipes 900 and the electric wires 1000 in the system are connected, so that the air flow control device required by the installation according to the application scene can be used.

2. The supporting cavity 200 and the gas toy 800 are respectively communicated with the gas source 100 through different gas pipes 900, and can respectively receive independent and time-sharing gas charging/discharging, so that the gas charging/discharging of the gas toy and the gas toy can be respectively changed by utilizing the gas source 100, and the gas charging/discharging effect of the gas toy can be dynamically changed.

3. The air source 100 controls the power device 450 to work through the air pipe 900, the first motion conversion assembly 470 converts the telescopic motion mode of the power output by the power device 450 into a swinging motion mode, and then drives the first butt joint member 4110 to move, and the first butt joint member 4110 drives the body 820 to move through the second butt joint member 700.

Example 3

In order to enhance the flexibility and applicability of the driving device 1900, the driving device 1900 is configured in another way in addition to embodiment 2. The pneumatic toy in this embodiment is also the supporting chamber 200 itself, i.e. the supporting chamber 200 is driven by the driving device 1900 to move.

As shown in fig. 4, the present embodiment discloses an inflatable toy, which includes a support chamber 200, a mounting base 300, and a driving device 1900.

Wherein, the mounting seat 300 is arranged on the supporting cavity 200 (horse belly), and the second butt piece 700 is arranged on the supporting cavity 200 (horse leg); the driving device 1900 includes the mounting head 500 and the moving mechanism 400, and the moving mechanism 400 is fixedly or repeatedly detachably attached to the mounting base 300 by the mounting head 500; the mobility mechanism 400 includes a motion output 460, a first docking member 4110, and a motive device 450. The motion output terminal 460 is coupled to the motion receiving terminal 830 for driving the swing thereof; the power device 450 specifically adopts an inflation cavity, the power device 450 drives the motion output end 460 to move, the first butt joint member 4110 is arranged on the motion output end 460 and moves along with the motion output end 460, the first butt joint member 4110 and the second butt joint member 700 are fixedly or repeatedly detachably connected, and one end of the second butt joint member 700 is hinged to the mounting base 300; as the volume of the power device 450 increases or decreases, the included angle between the second docking member 700 and the mounting base 300 gradually increases or decreases, so as to achieve the effect of swinging the support cavity 200 (horse leg).

Example 4

In order to enhance the flexibility and applicability of the driving device 1900, and facilitate the driving device 1900 to be applied to the air toy 800 far away from the supporting cavity 200, in this embodiment, the mounting base 300 is divided into the first mounting base 301 and the second mounting base 302 on the basis of embodiment 2, and the air tube 900 and the electric wire 1000 can be flexibly extended and contracted, and the driving device 1900 has another structure.

As shown in fig. 5, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900, an inflatable toy 800, and an entertainment auxiliary device 1100; support cavity 200 and set up in holding the cavity top, wherein:

the driving device 1900 includes the mounting head 500 and the moving mechanism 400, and the moving mechanism 400 is fixedly or repeatedly detachably attached to the mounting base 300 by the mounting head 500. The motion output terminal 460 is used for coupling with the motion receiving terminal 830 to realize the motion of the gas toy 800 according to the set motion.

The mounting base 300 is divided into a first mounting base 301 and a second mounting base 302, the first mounting base 301 is arranged on the support cavity 200, and the second mounting base 302 is arranged at a designated position far away from the support cavity 200; the air tube 900/wire 1000 connected between the mounting base 300 and the driving device 1900 has a reserved length and a structure capable of being pulled out movably, so that the movable mechanism 400 can be taken away from the mounting base 300 as required during the playing process; the electric wire 1000 may be a spiral electric wire 1000, and the air tube 900 may be a spiral air tube 900, so that the driving unit 1900 may be pulled to the second mounting seat 302 after being detached from the first mounting seat 301.

The air toy 800 comprises an air toy 800 comprising a body 820, an action receiving end 830, a second butt piece 700, an air toy ventilating interface 710 and an air toy electric contact 720, wherein the body 820 is an air inflation cavity and is arranged at a position far away from the support cavity 200; the body 820 is provided with a second accommodating part 810 which is concave inwards, the action receiving end 830 is accommodated in the second accommodating part 810, the action receiving end 830 is arranged on the second docking member 700, and the action receiving end 830 is used for being coupled with the action output end 460; an air toy ventilation interface 710 and air toy electrical contacts 720 are disposed on the second docking member 700.

The working process of the embodiment:

1. mounting the driving device 1900 on the first mounting base 301, and connecting the air pipes 900 and the electric wires 1000 in the system;

2. when a game scene needs to be changed, and the driving device 1900 is connected to the gas toy 800 far away from the support cavity 200, the driving device 1900 is detached from the first mounting seat 301, is mounted on the second mounting seat 302, is connected with the gas toy 800, and is used for driving the gas toy 800 to move in a telescopic manner;

3. the supporting cavity 200 and the main body 820 are respectively communicated with the air source 100 through different air pipes 900, and can respectively receive independent and time-sharing air inflation/air exhaust, and the air source 100 can be used for respectively performing air inflation and air exhaust conversion on the supporting cavity 200 and the main body, so that the inflatable toy presents a dynamic conversion effect.

4. The power device 450 is controlled by the air source 100 through the air pipe 900 to work, and the power device 450 drives the air toy 800 to move through the second docking member 700.

5. The power supply supplies power to the supporting cavity 200 or each entertainment auxiliary device 1100 on the body 820 through the electric wire 1000, so that the inflatable toy can emit light or sound while realizing various actions, and the interaction effect of enriching agility of the inflatable toy is realized;

6. when the application scene of the inflatable toy needs to be changed, or the driving device 1900 needs to be replaced and maintained, the driving device 1900 is detached from the first mounting seat 301 or the second mounting seat 302, and is replaced and assembled and then is installed on the first mounting seat 301 or the second mounting seat 302 again, so that the application scene replacement and the maintenance replacement of the driving device 1900 can be realized.

Example 5

In order to increase the entertainment use scenes of the inflatable toy, and to achieve the longitudinal telescopic movement and the lateral telescopic movement of the inflatable toy 800, and further achieve the richer and more complex dynamic effects of the inflatable toy 800, the driving device 1900 of embodiment 4 is replaced by another structure in this embodiment, and the driving device 1900 includes two power devices 450.

As shown in fig. 6, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900, an inflatable toy 800 and an entertainment auxiliary device 1100.

The driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 including a power device 450, the power device 450 including a cylinder and a bellows; the bottom of the corrugated pipe is arranged on the mounting base 300, the top of the corrugated pipe is provided with an air cylinder, and an air cylinder rod of the air cylinder is an action output end 460 which is connected with the gas toy 800 and drives the gas toy 800 to move; the air pipe 900 penetrates through the supporting cavity 200 and then is connected to the inside of the corrugated pipe and the air input end of the air cylinder respectively, the air valve is arranged at the air input end of the air cylinder, and the air source 100 charges and exhausts the power device 450 through the air pipe 900, so that the height of the driving device 1900 can be changed, and the air toy 800 can be driven to stretch and retract.

The working process of the embodiment:

1. mounting the driving device 1900 on the mounting base 300, and connecting the air pipes 900 and the electric wires 1000 in the system;

2. the air source 100 is used for respectively charging and exhausting air to and from the supporting cavity 200, the power device 450 and the gas toy 800 through the air pipe 900, so that the corrugated pipe is deformed in a telescopic manner, and when the corrugated pipe is extended, the gas toy 800 rises along with the air cylinder connected to the upper end of the corrugated pipe; the control cylinder drives the gas toy 800 to do transverse telescopic motion, so that the complex dynamic change effect of the gas toy 800 is realized;

3. the power supply supplies power to the entertainment auxiliary device 1100 through the electric wire 1000, and the inflatable toy 800 can emit light or sound while realizing various actions, so that the interaction effect of enriching the agility of the inflatable toy is realized;

4. when the application scene of the inflatable toy needs to be changed, or the driving device 1900 needs to be replaced and maintained, the driving device 1900 is detached from the mounting base 300, and is replaced and assembled and then mounted on the mounting base 300 again, so that the application scene replacement and the maintenance replacement of the driving device 1900 can be realized.

Example 6

In order to increase the entertainment using scene of the inflatable toy and realize the dynamic ejecting effect of the inflatable toy 800, the present embodiment changes the driving device 1900 in embodiment 5 into another structure, and only uses the bellows as the power device 450.

As shown in fig. 7, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800;

the driving device 1900 includes a mounting head 500 and a movable mechanism 400, the movable mechanism 400 is a structure capable of changing the external shape, the movable mechanism 400 includes a power device 450, the power device 450 is a bellows, and the external shape of the bellows is changed by inflating and deflating the bellows; the bottom of the power device 450 is mounted on the mounting base 300, and the top of the power device 450 is provided with an action output end 460 which is connected with the gas toy 800 in a non-fixed manner; the air pipe 900 penetrates through the supporting cavity 200 to be connected into the power device 450, then the air penetrates through the power device 450 to be connected into the air toy 800, the air source 100 charges and exhausts the power device 450 through the air pipe 900, and meanwhile, the air source 100 is also provided for the air toy 800; the power device 450 is connected with the gas toy 800 in a non-fixed mode, and when the gas toy 800 is ejected by the power device 450, the power device 450 can be automatically separated from the gas toy 800.

The power device 450 of the present embodiment may also be used with other propelling devices having ejection functions other than bellows.

The working process of the embodiment:

1. mounting the driving device 1900 on the mounting base 300, and connecting the air pipes 900 in the system;

2. the air source 100 is used for respectively inflating and deflating the support cavity 200 and the air toy 800 through the air pipe 900, then the power device 450 (namely the corrugated pipe) is inflated and deflated through the air pipe 900, so that the corrugated pipe is stretched after being inflated, a driving force is provided for the air toy 800, the air toy 800 is ejected out, and dynamic change of ejection is realized;

3. when the application scene of the inflatable toy needs to be changed, or the driving device 1900 needs to be replaced and maintained, the mounting base 300 of the driving device 1900 is detached, replaced and assembled, and then mounted on the mounting base 300 again, so that the application scene replacement and the maintenance and replacement of the driving device 1900 can be realized.

Example 7

In order to increase the entertainment use scenes of the inflatable toy, the power device 450 can adopt a pneumatic driving mode or an electric driving mode so as to adopt the adaptive movable mechanism 400 according to different use scenes of the inflatable toy, and the power device 450 of the embodiment 6 is replaced by an electric power device.

As shown in fig. 8, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting seat 300, a driving device 1900, and an inflatable toy 800;

the supporting cavity 200 is a 7-shaped or arched structure, the mounting base 300 is arranged at the top of the supporting cavity 200, the opening of the mounting base is arranged downwards, and the driving device 1900 is arranged on the supporting cavity 200 through the mounting base 300; the driving device 1900 is detachably connected with the second docking piece 700, the gas toy 800 is hung below the driving device 1900, and the driving device 1900 drives the gas toy 800 to move up and down.

The driving device 1900 includes a mounting head 500 and a moving mechanism 400, the moving mechanism 400 includes a power device 450, the power device 450 specifically adopts an electric winding machine, a rope on the electric winding machine is connected with the gas toy 800, and a dynamic effect of lifting the gas toy 800 can be realized; in order to freely receive and release the gas toy 800 by matching with the rope, the lengths of the electric wire 1000 and the air pipe 900 can be extended and contracted, so that a gas source and a power supply are provided for the gas toy 800; in addition, the present embodiment may also adopt a pulley in cooperation, or may also adopt more than two moving mechanisms 400 in cooperation, so that the gas toy 800 presents more abundant and complicated moving dynamic effects.

The working process of the embodiment:

2. the air source 100 is used for respectively inflating and exhausting the supporting cavity 200 and the gas toy 800 through the air pipe 900, the electric wire winder is provided with a power supply through the electric wire 1000, and the electric wire winder moves up and down when lifting the gas toy 800 by winding and unwinding a rope, so that the dynamic effect of lifting the gas toy 800 is realized;

3. the power supply supplies power to each entertainment auxiliary device 1100 through the electric wire 1000, and the inflatable toy 800 can emit light or sound while realizing various actions, so that the inflatable toy has richer and more flexible interaction effects;

Example 8

In order to increase the entertainment use scene of the air toy and realize the dynamic effect of the rotation of the air toy 800 at a designated height, the present embodiment replaces the mount 300 and the driving device 1900 of embodiment 7 with another structure.

As shown in fig. 9, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800;

the mounting base 300 is a structure capable of changing the external shape, the height of the mounting base 300 can be adjusted in a telescopic manner, and the height of the mounting base 300 can be adjusted in an electric, pneumatic or manual manner; the driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 includes a power device 450, the power device 450 is an electric power device, and specifically adopts a speed reduction motor, a motor shaft of the speed reduction motor is connected with the gas toy 800 and drives the gas toy 800 to rotate, so as to realize a dynamic effect of rotating the gas toy 800 at a specified height; in order to be suitable for the installation seats 300 with different heights, the lengths of the electric wire 1000 and the air pipe 900 can be adjusted in a telescopic mode, and an air source and a power source are provided for the air toy 800.

Wherein, the air pipe 900 and the electric wire 1000 are connected with the gas toy 800, in order to prevent the power device 450 from generating the problem that the gas toy 800 cannot rotate due to the pulling of the air pipe 900 and the electric wire 1000 when the gas toy 800 is driven to rotate, in this embodiment, a rotary joint is arranged on the gas toy 800, so that the air pipe 900 and the electric wire 1000 both pass through the rotary joint.

The working process of the embodiment is as follows:

2. the air source 100 is used for respectively inflating and exhausting the supporting cavity 200 and the air toy 800 through the air pipe 900, the power device 450 is provided with a power supply through the electric wire 1000, the height of the air toy 800 is adjusted through the mounting base 300, then the power device 450 (a speed reduction motor) drives the air toy 800 to rotate, and the dynamic effect of rotation of the air toy 800 positioned at the appointed height is achieved;

Example 9

In order to change the power output mode of the power device 450 from a telescopic mode to a rotary mode so as to be suitable for various entertainment scenes of the inflatable toy and improve the compatibility of the power device 450, the embodiment changes the driving device 1900 of the embodiment 6 into another structure, and the activity mechanism 400 further comprises a first motion conversion component 470 detachably connected with the power device 450.

As shown in fig. 10 to 11, the present embodiment discloses an inflatable toy, which includes a support cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 including the power device 450 and the first motion converting member 470; the power device 450 is a cylinder; one end of the first motion conversion assembly 470 is removably connected to the power device 450, such as a removable connection structure with a snap-fit connection, a threaded connection, or an interference connection. The other end of the first motion conversion assembly 470 is provided with a motion output end 460, and the motion output end 460 is connected with the gas toy 800 in a repeatable disassembly and assembly manner, such as a repeatable disassembly and assembly connection structure adopting a snap connection, a threaded connection, or an interference connection. The first motion conversion assembly 470 is used to convert the motion mode of the power output by the power device 450 into a required power motion mode to drive the gas toy 800, in this embodiment, the motion mode conversion is to convert a telescopic motion into a rotary motion and drive the gas toy 800 to perform a rotary motion, so as to achieve a dynamic effect of rotating the gas toy 800.

Specifically, the first motion conversion assembly 470 includes a top bar 471, a sliding sleeve 472, a bolt 473, a guide post 474 and a rotating shaft 475; one end of the rotating shaft 475 is connected with the central shaft of the guide post 474, the other end is provided with an action output end 460, and the action output end 460 is connected with the gas toy 800 in a repeatable disassembly and assembly manner; the outer surface of the guide post 474 is provided with a wave-shaped chute which is connected end to form a closed-loop guide rail; the sliding sleeve 472 is sleeved outside the guide post 474, the bolt 473 is in threaded connection with the sliding sleeve 472 and extends into the corrugated sliding groove through the sliding sleeve 472, the bolt 473 slides along the corrugated sliding groove, and the sliding sleeve 472 can move up and down to drive the guide post 474 to rotate through the bolt 473; one end of the push rod 471 is connected with the central shaft of the sliding sleeve 472, and the other end is connected with the power device 450 in a repeatable dismounting manner; in addition, in the embodiment, two bolts 473 are symmetrically arranged on the sliding sleeve 472. The first motion conversion assembly 470 is used to convert the motion mode of the power output by the power device 450 into a required power motion mode to drive the gas toy 800, in this embodiment, the motion mode conversion is to convert a telescopic motion into a rotary motion and drive the gas toy 800 to perform a rotary motion, so as to achieve a dynamic effect of rotating the gas toy 800.

The working process of the embodiment is as follows:

1. the driving device 1900 is installed on the installation base 300, and all air pipes 900 and the electric wires 1000 in the system are connected;

2. the air source 100 is used for respectively inflating and deflating the supporting cavity 200 and the air toy 800 through the air pipe 900, then the power device 450 is controlled through the air pipe 900 to perform telescopic motion, the telescopic motion of the power device 450 is converted into rotary motion suitable for the game scene through the first motion conversion assembly 470, and the air toy 800 is driven to perform rotary motion;

3. the power supply supplies power to each entertainment auxiliary device 1100 on the gas toy 800 through the electric wire 1000, and the gas toy 800 can emit light or sound while realizing various actions so as to realize richer and more flexible interaction effects of the gas toy;

4. when the application scene of the inflatable toy needs to be changed, if the inflatable toy 800 needs to be driven in a swinging manner, the first motion conversion assembly 470 is detached from the power device 450, and is replaced by another first motion conversion assembly 470 with a swinging motion power output manner, so that the switching of the equipment can be realized;

5. when the application scene of the inflatable toy needs to be changed, the inflatable toy 800 needs to be driven in a telescopic mode, the first action conversion assembly 470 is detached from the power device 450, and the power device 450 is directly connected with the inflatable toy 800, so that the switching of equipment can be realized;

6. when the driving device 1900 needs to be replaced and maintained, the driving device 1900 is detached from the mounting base 300, replaced and assembled, and then re-mounted on the mounting base 300, so that the driving device 1900 can be maintained and replaced.

Example 10

In order to change the power output mode of the power unit 450 from a telescopic mode to a swing mode so as to be suitable for various entertainment scenes of the inflatable toy and improve the compatibility of the power unit 450, the first motion converting assembly 470 in embodiment 9 is replaced by another structure.

As shown in fig. 12 to 13, the present embodiment discloses an inflatable toy, which includes a support cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 including the power device 450 and the first motion converting member 470; the power device 450 is a cylinder.

Specifically, the first motion conversion assembly 470 includes a top rod 471, a sliding sleeve 472, and a swing rod 476; the sliding sleeve 472 is sleeved outside the swing rod 476 and can slide along the swing rod 476; one end of the top rod 471 is hinged with the sliding sleeve 472, and the other end is connected with the power device 450 in a repeatable dismounting manner; the swing rod 476 is a 7-shaped structure, a hinge point is arranged at the corner of the swing rod 476, one end of the swing rod 476 is connected with the sliding sleeve 472, a limiting block 477 is arranged at the end part and used for preventing the sliding sleeve 472 from sliding out of the swing rod 476, the other end of the swing rod 476 is provided with a power action output end 460, and the action output end 460 is connected with the pneumatic toy 800 in a repeatable dismounting and mounting mode; the first motion converting assembly 470 is used to convert the motion mode of the power output by the power device 450 into a required power motion mode to drive the gas toy 800, in this embodiment, the motion mode conversion is to convert a telescopic motion into a swinging motion and drive the gas toy 800 to perform a swinging motion, so as to achieve a dynamic effect of swinging the gas toy 800.

The working process of the embodiment:

1. installing the movable mechanism 400 on the installation base 300, and connecting the air pipes 900 and the electric wires 1000 in the system;

2. the air source 100 is used for respectively inflating and exhausting the supporting cavity 200 and the gas toy 800 through the air pipe 900, then the power device 450 is controlled by the air pipe 900 to perform telescopic motion, the power device 450 converts the telescopic motion into swinging motion suitable for the game scene through the first action conversion assembly 470, and the gas toy 800 is driven to perform swinging motion;

3. the power supply supplies power to all the electric appliances 1100 on the gas toy 800 through the electric wire 1000, and the gas toy 800 can emit light or sound while realizing various actions so as to realize richer and more flexible interaction effect of the gas toy;

4. when the application scene of the inflatable toy needs to be changed, the inflatable toy 800 needs to be driven in a rotating mode, the first motion conversion component 470 is detached from the power device 450, and is replaced by another motion conversion component with a power output mode of rotating motion, so that the switching of the equipment can be realized;

5. when the application scene of the inflatable toy needs to be changed, the inflatable toy 800 needs to be driven in a telescopic mode, the first motion conversion assembly 470 is detached from the power device 450, and the power device 450 is directly connected with the inflatable toy 800, so that the switching of equipment can be realized;

Example 11

In order to change the power output mode of the power device 450 from a rotary mode to a telescopic mode, so as to be suitable for various entertainment scenes of the inflatable toy and improve the compatibility of the power device 450, the driving device 1900 in the embodiment 9 is changed into another structure.

As shown in fig. 14 to 15, the present embodiment discloses an inflatable toy, which includes a support cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 is a structure that can change the external shape, the moving mechanism 400 includes the power device 450 and the first motion converting member 470; the power device 450 is a pneumatic motor.

Specifically, the first motion conversion assembly 470 comprises an eccentric 478, a push rod 471, a slide rail 479, a connecting rod 4710 and a bendable telescopic tube 4713; the central shaft of the eccentric 478 is connected to the rotor of the pneumatic motor, and one end of the connecting rod 4710 is hinged (detachably connected) to the rim of the eccentric 478 and the other end is hinged to the push rod 471; the push rod 471 is installed on the slide rail 479 and can slide along the slide rail 479, one end of the push rod 471 is hinged with the connecting rod 4710, and the other end is connected with the flexible telescopic pipe 4713; an action output end 460 is arranged at the outer end of the flexible extension tube 4713, the action output end 460 is connected with the gas toy 800 in a repeatedly detachable way, and the flexible extension tube 4713 can be bent and deformed at any angle; the first motion converting assembly 470 is used to convert the motion mode of the power outputted by the power device 450 into a required motion mode of power, so as to drive the gas toy 800, in this embodiment, the motion mode conversion converts the rotation motion into a telescopic motion, and drives the gas toy 800 to perform a telescopic motion, so as to achieve a dynamic effect of the telescopic motion of the gas toy 800.

The working process of the embodiment:

2. the air source 100 is used for respectively inflating and deflating the supporting cavity 200 and the air toy 800 through the air pipe 900, then the power device 450 is controlled by the air pipe 900 to rotate, the power device 450 converts the rotation motion into a telescopic motion suitable for the game scene through the first motion conversion assembly 470, and the air toy 800 is driven to realize the telescopic motion;

3. the power supply supplies power to each entertainment auxiliary device 1100 on the gas toy 800 through the electric wire 1000, and the gas toy 800 can emit light or sound while realizing various actions, so that the interaction effect of richer agility of the gas toy is realized;

4. when the application scene of the inflatable toy needs to be changed, and the inflatable toy 800 needs to be driven in a non-telescopic manner, the first motion conversion assembly 470 is detached from the power device 450, and other first motion conversion assemblies 470 are replaced, so that the switching of the equipment can be realized;

5. when the driving device 1900 needs to be replaced and maintained, the driving device 1900 is detached from the mounting base 300, replaced and assembled, and then re-mounted on the mounting base 300, so that the driving device 1900 can be maintained and replaced.

Example 12

In order to change the power output mode of the power device 450 from a rotary mode to a rocking mode to adapt it to various entertainment scenes of the inflatable toy and improve the compatibility of the power device 450, the present embodiment changes the structure of the driving device 1900 of embodiment 11 into another structure.

As shown in fig. 16 to 17, the present embodiment discloses an inflatable toy, which includes a support cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The driving device 1900 includes the mounting head 500 and the moving mechanism 400, the moving mechanism 400 including the power device 450 and the first motion converting member 470; the power device 450 is a pneumatic motor.

Specifically, the first motion converting assembly 470 includes a first bevel gear 4711, a second bevel gear 4712, an eccentric 478, and a connecting rod 4710; a rotor of the pneumatic motor is coaxially connected with a central shaft of the first bevel gear 4711 and is used for driving the first bevel gear 4711 to rotate; a second bevel gear 4712 coaxially connected with the center axis of the eccentric 478, the eccentric 478 rotating together with the second bevel gear 4712, the second bevel gear 4712 meshing with the first bevel gear 4711; the middle part of the connecting rod 4710 is a hinged connection point and is used as a pivot point for swinging of the connecting rod 4710; one end of the connecting rod 4710 is hinged with the edge of the eccentric wheel 478, a strip-shaped hole is formed at the joint of the connecting rod 4710 and the eccentric wheel 478, so that the eccentric wheel 478 drives the connecting rod 4710 to swing around a fulcrum, the other end of the connecting rod 4710 is provided with an action output end 460, and the action output end 460 is connected with the gas toy 800; the first motion conversion assembly 470 is used for converting the motion mode of the power output by the power device 450 into a required power motion mode to drive the gas toy 800, in this embodiment, the motion mode conversion is to convert a rotational motion into a swinging motion and drive the gas toy 800 to perform a swinging motion, so as to achieve a dynamic effect of swinging the gas toy 800.

The entertainment auxiliary device comprises an electricity-using entertainment auxiliary device and a gas-using entertainment auxiliary device, wherein the electricity-using entertainment auxiliary device 1100 is electrically connected with a power supply through a wire 1000, and the gas-using entertainment auxiliary device is connected with a gas source through a gas pipe 900 and used for supplying power and gas for the entertainment auxiliary device 1100.

The working process of the embodiment:

2. the air source 100 is used for respectively inflating and exhausting the supporting cavity 200 and the gas toy 800 through the air pipe 900, then the power device 450 is controlled by the air pipe 900 to rotate, the power device 450 converts the rotation motion into the swinging motion suitable for the game scene through the first action conversion component 470, and the gas toy 800 is driven to realize the swinging motion;

4. when the application scene of the inflatable toy needs to be changed, the inflatable toy 800 needs to be driven in a telescopic mode, the first motion conversion assembly 470 is detached from the power device 450, and is replaced by other motion conversion assemblies with telescopic motion power output modes, so that the switching of the equipment can be realized;

5. when the application scene of the inflatable toy needs to be changed, the inflatable toy 800 needs to be driven in a rotating manner, the first motion conversion assembly 470 is detached from the power device 450, and the power device 450 is directly connected with the inflatable toy 800, so that the switching of the equipment can be realized;

Example 13

In order to enrich the usage scenarios of the inflatable toys, the present embodiment sets the number of the inflatable toys 800 in embodiment 8 to four, and each inflatable toy 800 adopts a different driving device 1900 to realize different movement modes.

As shown in fig. 18, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, an actuating device 1900 and an inflatable toy 800, wherein the actuating device 1900 may adopt any one of embodiments 9 to 12.

The mounting base 300 is divided into a primary mounting base 303 and a secondary mounting base 304, the air toy 800 is divided into a primary air toy 801 and a secondary air toy 802, and the driving device 1900 is divided into a primary driving device 1901 and a secondary driving device 1902; the primary mounting seat 303 is arranged on the support cavity 200, and the secondary mounting seat 304 is arranged on the primary gas toy 801; the primary air-using toy 801 is connected to the primary mounting seat 303 of the support cavity 200 by a primary driving device 1901, and the secondary air-using toy 802 is connected to the primary air-using toy 801 by a secondary driving device 1902. In this embodiment, the primary air toy 801 and the secondary air toy 802 adopt inflation cavities, and the two inflation cavities are respectively communicated with the air source 100 through different air pipes 900, and can receive independent and time-sharing inflation and deflation, so that the inflation toys can present a dynamic transformation effect by respectively performing inflation and deflation transformation on the air source 100.

The working process of the embodiment is as follows:

2. the air source 100 is used for respectively inflating and exhausting the supporting cavity 200 and each gas toy 800 through the air pipe 900, then each driving device 1900 is controlled to move through the air pipe 900, and each gas toy 800 is driven to realize different movements;

4. when the application scene of the inflatable toy needs to be changed, the driving mode of the driving device 1900 needs to be changed, and then the driving device 1900 is detached from the mounting base 300 and replaced by the required driving device 1900, so that the switching of the equipment can be realized;

Example 14

In order to enrich the usage scenario of the inflatable toy, the present embodiment removes the second docking member from the inflatable toy 800 in embodiment 10, sets the mounting base 300 to be in a flat plate structure, and changes the first motion conversion assembly to another structure.

As shown in fig. 19, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The first motion transfer assembly 470 includes a rocker 476; a fulcrum is arranged between two ends of the swing rod 476, one end of the swing rod 476 is hinged to the power device 450, and the other end of the swing rod 476 is used for being connected with or contacting the gas toy 800, when the power device 450 moves in a telescopic manner, the swing rod 476 is driven to swing around the fulcrum, and then the gas toy 800 is driven to beat the supporting cavity 200, so that the dynamic effect of shaking of the supporting cavity 200 is achieved.

The mounting seat 300 is a flat plate structure, which is simpler in structure and more convenient for the mounting seat driving device 1900, in this embodiment, the supporting cavity 200 is not provided with a supporting cavity ventilation interface, an air source is directly connected into the supporting cavity 200 through an air pipe 900, and the supporting cavity 200 is hermetically connected with the air pipe 900; the mounting base 300 penetrates the interior of the supporting cavity through the air pipe 900 and is connected with the air source 100.

Example 15

In order to enrich the usage scenario of the inflatable toy, the present embodiment employs a non-solid connection structure between the driving device 1900 and the inflatable toy 800 in embodiment 6.

As shown in fig. 20, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900, and an inflatable toy 800, wherein the inflatable toy 800 is a windmill disposed above the supporting cavity 200.

The driving device 1900 includes a mounting head 500 and a moving mechanism 400, the moving mechanism 400 includes a power device 450 and a power device airflow control device 1700, the power device 450 is a blowing nozzle, the power device airflow control device 1700 is connected to the air inlet 451, and the power device airflow control device 1700 controls the power device 450 to blow air to the gas toy 800, so as to drive the gas toy 800 to rotate.

Example 16

As shown in fig. 21, the present embodiment discloses an inflatable toy, which includes a supporting cavity 200, a mounting base 300, a driving device 1900 and an inflatable toy 800.

The driving device 1900 includes a mounting head 500 and a moving mechanism 400, the moving mechanism 400 includes a power device 450, the power device 450 is an electromagnetic induction power device, specifically, an electromagnetic coil is used to control the magnitude and direction of the magnetic force by controlling the conducting state and current direction of the electromagnetic coil, and an action output end 460 is disposed on the power device 450 for driving the air toy 800 to move.

The gas toy 800 includes a body 820, a second docking member 700, and a second motion conversion assembly 750, wherein one end of the second motion conversion assembly 750 is connected to the body 820, and the other end is provided with a motion receiving end 830, the motion receiving end 830 is a magnet, and the motion receiving end 830 interacts with a magnetic field generated by the power device 450, so that the body 820 is driven to swing by the second motion conversion assembly 750.

In addition, the power device 450 of the present embodiment may also adopt a magnetic power device, and a power receiving end cooperating with the pneumatic toy 800 is disposed on the pneumatic toy 800 to drive the pneumatic toy 800 to move.

In the above embodiment of the present application, the air source 100 is used to respectively inflate and deflate the support cavity 200 and the air toy 800 through the air pipe 900, and the inflatable toy presents a dynamic changing effect through the change of inflation and deflation; the supporting cavity 200 is provided with the mounting seat 300 for mounting the driving device 1900, and is used for mounting the driving device 1900 in a detachable manner, so that the driving device 1900 is convenient to replace and maintain, and the gas toy 800 and the driving device 1900 can be conveniently detached, so that the driving device 1900 is suitable for various application scenes, such as the realization of remotely driving the gas toy 800; the driving device 1900 is installed on the installation base 300 and used for driving the inflatable toy 800 to swing, stretch, rotate, eject and the like to realize various dynamic effects of the inflatable toy; set up the electric wire contact respectively on supporting cavity 200, mount pad 300, drive arrangement 1900, with gas toy 800, can use gas toy 800 to supply power for amusement auxiliary device 1100 on the gas toy 800 when realizing multiple action to realize inflating the interactive effect that the toy is more abundant nimble.

The background section of the present invention may contain background information about the problems or environments of the present invention rather than describing the prior art by others. Accordingly, the inclusion in this background section is not an admission by the applicant that prior art is available.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific/preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. For those skilled in the art to which the invention pertains, a plurality of alternatives or modifications can be made to the described embodiments without departing from the concept of the invention, and these alternatives or modifications should be considered as belonging to the protection scope of the invention. In the description herein, references to the description of the term "one embodiment," "some embodiments," "preferred embodiments," "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 invention. In this specification, the schematic representations of the terms used above are not necessarily intended to 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. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent. Although the embodiments of the present invention and their advantages have been described in detail, it should be understood that various changes, substitutions and alterations can be made herein without departing from the scope of the invention as defined by the appended claims.

Claims

1. A driving device is characterized by being used on an inflatable toy to drive the inflatable toy to move, wherein the inflatable toy comprises a supporting cavity and a mounting seat; the mounting seat is provided with a cavity combining part which is used for fixedly or repeatedly connecting the supporting cavity in a detachable way; the driving device comprises a mounting head and a movable mechanism, wherein the movable mechanism is fixedly or repeatedly detachably connected to the mounting base through the mounting head; the movable mechanism is provided with an action output end, the action output end is arranged on one side of the movable mechanism adjacent to the mounting head or the side opposite to the mounting head, and the action output end is used for being coupled with a driven gas toy so as to realize the movement of the gas toy according to the set action.

2. The drive device of claim 1, wherein the movable mechanism comprises a first air guide port, and the first air guide port is in communication with an air source via the mounting base.

3. The driving device as claimed in claim 2, wherein there are more than two first air guide ports, and at least two of the first air guide ports form a pair and are respectively communicated with the positive pressure air source and the negative pressure air source for respectively inflating and deflating.

4. The drive arrangement of claim 2, wherein the motive means further comprises a second air directing interface disposed at or adjacent the motive output; one end of the second air guide interface is communicated with the first air guide interface through an air passage, and the other end of the second air guide interface is used for conveying air from an air source to the gas toy or other objects except the gas toy.

5. The driving device as claimed in claim 4, wherein there are at least two air passages, there are at least two air passages for the first air guide port and the second air guide port, and two ends of each air passage are respectively connected to the first air guide port and the second air guide port, wherein at least two air passages form a pair for respectively inflating and deflating the gas toy or other objects besides the gas toy.

6. The drive of claim 1, wherein the motive mechanism includes a motive device coupled to the motive output for providing a motive force to the motive output.

7. The drive of claim 6, wherein the power device is a pneumatic power device, and the power device is connected to a gas source.

8. The drive of claim 7, wherein the power unit is provided with a power port that interfaces with the gas source through the mounting block for providing gas from the gas source to the power unit.

9. The drive of claim 8 wherein there are two of said power ports, each power port being in communication with a positive pressure gas source and a negative pressure gas source, respectively, for enabling separate use for inflating and deflating said power plant.

10. The drive of claim 8, wherein the motive means comprises a motive device flow control device disposed at the motive port for controlling the flow direction and/or the flow rate of the gas through the motive port.

11. The drive of claim 1, wherein the movable mechanism comprises a movable mechanism first electrical contact electrically connected to a power source and/or a signal source via the mount for introducing an electrical current and/or an electrical signal into the movable mechanism.

12. The actuator of claim 11, wherein the movable mechanism further comprises a second movable mechanism electrical contact, one end of the second movable mechanism electrical contact being electrically connected to the first movable mechanism electrical contact, and the other end of the second movable mechanism electrical contact being adapted to be electrically connected to the gas-using toy or another object other than the gas-using toy to supply power or transmit an electrical signal to the gas-using toy or another object other than the gas-using toy.

13. The driving device according to claim 6, wherein the power device is an electric power device, an electromagnetic induction power device or a magnetic power device, and the power device is electrically connected with a power source and/or a signal source through the mounting seat.

14. The driving device as claimed in claim 6, wherein the movable mechanism comprises a first motion conversion assembly, one end of the first motion conversion assembly is fixedly or repeatedly detachably connected with the power device, the other end of the first motion conversion assembly is provided with the motion output end, and the first motion conversion assembly is used for converting the motion mode and state of the power generated by the power device into the required motion mode and state.

15. The drive device as claimed in claim 1, further comprising a first docking member disposed on the movable mechanism for fixedly or repeatedly detachably connecting with the gas toy.

16. The driving device as claimed in claim 15, wherein the first docking member is disposed on the motion output end and is capable of moving the gas toy along with the motion output end.

17. A gas toy comprising a body and an action receiving terminal connected to the body, the action receiving terminal being adapted to be coupled to the action output terminal of the driving device according to any one of claims 1 to 16 to receive a driving force from the action output terminal to drive the body to move.

18. The air-using toy of claim 17, comprising an air-using toy vent port disposed at or near the motion receiving port; one end of the air toy ventilation port is communicated with the second air guide port to receive air from an air source, and the other end of the air toy ventilation port is communicated with the body to convey air to the body.

19. The air toy of claim 18, wherein there are at least two air toy vent interfaces, and each air toy vent interface is respectively in communication with a positive pressure air source and a negative pressure air source via a different second air guide interface for respectively inflating and deflating the body.

20. The air-using toy of claim 18, wherein said body comprises an air-inflating cavity, said air-inflating cavity being a flexible deformable air-inflating cavity and communicating with said air-using toy vent port.

21. The air toy of claim 18, further comprising an air toy airflow control device fixedly or repeatedly detachably connected to the air vent interface for controlling a flow direction and/or a flow rate of air flowing therethrough.

22. The air-using toy of claim 21, wherein the air-using toy ventilation interface supplies and exhausts air to and from a plurality of said bodies independently and in a time-sharing manner through one said air flow control device.

23. The gas-using toy of claim 17, comprising electrical contacts for the gas-using toy; the electric contact of the gas toy is electrically connected with a second electric contact of the movable mechanism arranged on the movable mechanism and is used for transmitting current and/or electric signals with the second electric contact of the movable mechanism.

24. A gas-using toy according to claim 17, further comprising a second docking member provided on said motion-receiving end, said second docking member being adapted to be fixedly or repeatably coupled to said drive means and/or said mounting block.

25. The air toy as recited in claim 24, wherein said second docking member is hingedly connected at one end to said mounting base.

26. A gas-using toy according to claim 24, wherein said second docking member is a second recessed formation for receiving said motion-receiving end at least partially therein.

27. The air toy as claimed in claim 17, wherein said body is provided with a second receiving portion, and said motion-receiving end is received in said second receiving portion.

28. The gas toy as recited in claim 17, further comprising a second motion transforming member, said motion receiving end being connected to said body via said second motion transforming member, said second motion transforming member being adapted to transform a dynamic motion mode and state received by said motion receiving end into a desired motion mode and state.

29. An inflatable toy system, comprising: a support cavity, a mount and a drive arrangement according to any one of claims 1 to 16; the mounting seat is provided with a cavity combining part which is used for fixedly or repeatedly connecting the supporting cavity in a dismounting way; the driving device is fixedly or repeatedly detachably connected to the mounting seat.

30. The inflatable toy system of claim 29, wherein the support cavity is a soft deformable inflatable cavity, a support cavity vent port is disposed on the support cavity, one end of the support cavity vent port is connected to a gas source, and the other end of the support cavity vent port is connected to the inside of the support cavity and the mounting seat, respectively.

31. An inflatable toy system according to claim 30 wherein a support chamber airflow control means is connected between the support chamber vent interface and the mounting socket.

32. An inflatable toy system according to claim 30 wherein the support cavity is provided with an access means for improving the stability and air-tightness of the connection; the access piece is connected with the supporting cavity in an airtight mode, and a first airflow control device installation structure and a supporting cavity ventilation interface are arranged on the access piece; the first airflow control device mounting structure is used for mounting the support cavity airflow control device in a detachable mode.

33. The inflatable toy system of claim 30, wherein there are at least two of said support cavity vent interfaces, wherein at least two of said support cavity vent interfaces form a pair that communicate with a positive pressure gas source and a negative pressure gas source, respectively, for inflation and deflation, respectively.

34. The inflatable toy system of claim 29, wherein the support cavity has support cavity electrical contacts disposed thereon; the supporting cavity is characterized in that one end, located outside the supporting cavity, of the supporting cavity electric contact is electrically connected with a power supply and/or a signal source, and one end, located inside the supporting cavity, of the supporting cavity electric contact is electrically connected with the mounting seat.

35. An inflatable toy system according to claim 29, wherein a first receptacle is provided on the support cavity, the mounting socket being received within the first receptacle.

36. An inflatable toy system according to claim 29 wherein said mounting seat includes a mounting seat air vent, one end of said mounting seat air vent communicating with an air source and the other end communicating with a first air vent provided on said movable mechanism.

37. An inflatable toy system according to claim 36 wherein one end of said mount vent interface is disposed within said support cavity and extends out of said support cavity through an air tube in communication with said air source.

38. The inflatable toy system of claim 36, wherein the number of the mounting seat vent interfaces is at least two, wherein at least two of the mounting seat vent interfaces form a pair that are in communication with a positive pressure gas source and a negative pressure gas source, respectively, for inflation and deflation, respectively.

39. An inflatable toy system according to claim 36, wherein a second airflow control device mounting structure is provided at the mount ventilation interface for repeatably mounting an airflow control device.

40. An inflatable toy system according to claim 29, further comprising a mount electrical contact, one end of the mount electrical contact being disposed within the support cavity and passing through the support cavity via a wire to be electrically connected to a power source and/or a signal source, the other end of the mount electrical contact being electrically connected to the movable mechanism first electrical contact disposed on the movable mechanism.

41. An inflatable toy system according to claim 29 wherein the mounting is a first recessed formation and the driving means is at least partially received within the first recessed formation.

42. An inflatable toy system according to claim 29, further comprising said inflatable toy, said inflatable toy being disposed on said inflatable toy system by said drive means and being driven by said drive means.

43. An inflatable toy system according to claim 42 wherein said inflatable toy is further provided with an inflatable chamber adapted to receive a separate, time-sharing inflation and deflation.

44. An inflatable toy system according to claim 42, further comprising an entertainment aid provided on said support chamber and/or on the inflatable toy and connected to a power source via an electrical cord or to a gas source via a gas hose.

45. An inflatable toy system according to claim 29, further comprising a further chamber fixedly or repeatedly removably connected to the support chamber.

46. An inflatable toy system according to claim 29, wherein the weight-bearing structure of the support cavity is configured to bear the weight of a player when inflated and is provided with a spatial structure sized to allow a player to play thereon.