CN210145481U

CN210145481U - Emitter and toy

Info

Publication number: CN210145481U
Application number: CN201920617534.7U
Authority: CN
Inventors: 李建斌
Original assignee: Guangdong Flying Industrial Co Ltd; Alpha Group Co Ltd
Current assignee: Guangdong Flying Industrial Co Ltd; Alpha Group Co Ltd
Priority date: 2019-04-30
Filing date: 2019-04-30
Publication date: 2020-03-17
Anticipated expiration: 2029-04-30

Abstract

The utility model discloses a launcher, which comprises a launcher body, a rotation driving device arranged on the launcher body and at least three connectors which can be used as wheels to rotate and can be connected with and separated from a rotating toy; the connector is rotationally connected on the emitter body, at least one connector is connected with the rotation driving device, and the connector connected with the rotation driving device is an active connector. The utility model discloses a toy. The utility model discloses a transmitter and toy, the method of playing is various, can play as the toy car, also can launch rotatory toy, can also realize bursting the burst effect of car, also can realize top playing method to can be for the top acceleration rate.

Description

Emitter and toy

Technical Field

The utility model relates to a toy technical field especially relates to a transmitter and toy.

Background

Along with the development of society and the improvement of living standard of people, people pay more and more attention to the quality of recreational activities, and various toys come into play. The emitter in the prior art, such as a gyro emitter, can only be used as an emitting gyro, cannot be played as a toy car, and has a single function.

The toy car in the prior art generally only has a moving and transporting function, cannot realize the launching of a rotating toy (such as a spinning top), and has a monotonous playing mode.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a transmitter and toy, it can play as the toy car, can launch rotatory toy again, has richened the playing method of toy.

The technical scheme of the utility model provides a launcher, which comprises a launcher body, a rotation driving device arranged on the launcher body and at least three connectors which can be used as wheels to rotate and can be connected with and separated from a rotating toy;

the connector is rotationally connected on the emitter body, at least one connector is connected with the rotation driving device, and the connector connected with the rotation driving device is an active connector.

Furthermore, the rotation driving device comprises a rotating shaft transmission part, and the driving connector is provided with a connector transmission part;

the rotating shaft transmission part is detachably connected with the connector transmission part;

when the rotating shaft transmission part and the connector transmission part are in a connection state, the rotating shaft transmission part can drive the connector transmission part to synchronously rotate.

Furthermore, a first magnet is arranged in the rotating shaft transmission part, and a second magnet is arranged in the connector transmission part;

the rotating shaft transmission part is connected with the connector transmission part through the first magnet and the second magnet in an adsorption mode.

Furthermore, a connecting head gyroscope point is arranged on the active connecting head.

Furthermore, the rotating shaft transmission part comprises a rotating shaft and a transmission head, the rotating shaft is fixedly connected with the transmission head in a coaxial mode, and the driving connector is detachably connected with the transmission head.

Furthermore, the rotation driving device also comprises a rotating shaft driving mechanism for driving the rotating shaft transmission part to rotate.

Furthermore, the launcher also comprises a launching driving device used for launching the rotating toy on the active connector.

Further, the launching driving device comprises a first pushing member for pushing the rotating toy on the active connector away from the active connector;

the first pushing member is movably mounted in the rotation driving device or movably mounted on the emitter body, and the first pushing member can move towards the direction of the active connector.

Further, the emission driving device further comprises a first driving handle for pushing the first pushing member to move towards the direction of the active connector;

the first driving handle is movably installed on the rotation driving device or the emitter body, and the first driving handle can be contacted and separated with the input end of the first pushing member.

Furthermore, the active connector comprises a connector bottom shell and a connector upper cover used for triggering the rotary toy to separate from the active connector;

the connecting head upper cover is movably arranged on the connecting head bottom shell and can move towards the direction of the connecting head bottom shell;

the output end of the first urging member is capable of contacting and separating with the connector upper cover.

Furthermore, the emission driving device also comprises a second pushing component used for pushing the active connector to leave the rotation driving device;

the second pushing member is movably mounted in the rotation driving device or movably mounted on the emitter body, and the output end of the second pushing member can be contacted with and separated from the active connector.

Furthermore, the emission driving device also comprises a second driving handle used for pushing the second pushing component to move towards the direction of the active connector;

the second driving handle is movably installed on the rotation driving device or the emitter body, and the second driving handle can be contacted and separated with the input end of the second pushing member.

Further, be provided with the installation axle in the transmitter main part, the connector is still including driven connector, driven connector rotationally installs install epaxial in the installation.

The utility model also provides a toy, which comprises a rotary toy used as a wheel and a transmitter in any one of the technical schemes;

the rotating toy comprises a rotating top tip;

at least one of the rotary toys is detachably connected to each of the connection heads of the launcher.

Further, the rotary toy is connected with the connecting head through magnet adsorption.

Further, a torque transmission part is arranged on the connecting head, and a torque receiving part is arranged on the rotary toy and detachably connected with the torque transmission part.

Further, the rotating toy connected to the emitter is any one or any combination of a top, a rotating ball, a rotating wheel, a rotating column and a rotating cylinder.

Further, the top comprises a top lower shell and a top upper cover detachably mounted on the top lower shell;

a gyroscope top mounting part extends downwards from the gyroscope lower shell, and the rotary gyroscope top is mounted in the gyroscope top mounting part;

a third magnet is arranged in the lower gyro shell;

wherein a receiving recess capable of receiving at least a part or all of the lower top case is provided in the upper top cover.

Furthermore, at least one connecting head is connected with more than two spinning tops;

any two adjacent gyros are connected through magnet adsorption;

in any two adjacent gyros, the lower gyro shell of one gyro is at least partially or completely inserted into the accommodating concave part of the other gyro.

Furthermore, the connecting head is provided with a connecting head convex part which can be accommodated in the accommodating concave part;

when the spinning top is connected to the connecting head, the convex part of the connecting head is inserted into the accommodating concave part.

By adopting the technical scheme, the method has the following beneficial effects:

the utility model provides a transmitter, its connector can regard as the wheel to use for the transmitter can play as the toy car. The active connector in the connector can be also emitted out to play as a gyroscope, so that the cracking effect of the cracking vehicle is realized. After the rotary toy is assembled on the connecting head, the toy can be launched out to be played in a rotating way as a gyroscope, and the playing method of the toy is enriched.

The utility model provides a toy, rotatory toy can be assembled on the connecting head, both can regard as the wheel to use, also can be launched alone and play as the top, can also launch together with the initiative connecting head and play as the top, can also with the initiative connect the hair to shoot with higher speed on the pivoted rotatory toy, richened the playing method of toy, can bring different enjoyment of playing for the user.

Drawings

Fig. 1 is a schematic diagram of a transmitter according to an embodiment of the present invention;

FIG. 2 is a partial cross-sectional view at the emitter;

FIG. 3 is a schematic view of the rear end of the launcher body provided with a mounting shaft;

FIG. 4 is a schematic view of a top connected to the driving joints at the two ends of the rotation driving device;

FIG. 5 is a schematic view of the device housing of FIG. 4 with the rotational drive removed;

FIG. 6 is a schematic view of the connection between the first pushing member, the second pushing member, the active connector and the top;

FIG. 7 is a schematic view of the installation of the spindle drive mechanism;

FIG. 8 is an exploded view of the shaft transmission part, the first magnet, the connector transmission part and the second magnet;

fig. 9 is a perspective view of the active connector;

fig. 10 is a cross-sectional view of the active connector;

fig. 11 is a perspective view of the driven coupler;

fig. 12 is a cross-sectional view of the driven coupler;

FIG. 13 is a perspective view of the shaft transmission part, the first pushing cylinder, the second pushing cylinder and the connector transmission part assembled together;

FIG. 14 is a cross-sectional view of the assembled spindle drive, first push cylinder, second push cylinder and connector drive of FIG. 13;

FIG. 15 is an exploded view of the spindle drive section, the first push cylinder, the second push cylinder and the connector drive section;

FIG. 16 is an assembled view of the first drive handle, the first pusher arm, the second drive rate handle, and the second pusher arm;

FIG. 17 is a schematic view of the assembly of the shaft driving mechanism with the shaft and the second gear;

fig. 18 is an exploded view of the spindle drive mechanism and the spindle and second gear.

FIG. 19 is a schematic view of a toy according to an embodiment of the present invention;

FIG. 20 is a perspective view of a top;

FIG. 21 is a cross-sectional view of a top;

FIG. 22 is a cross-sectional view of the active connector and top assembled together;

FIG. 23 is a schematic view of multiple gyroscopes superimposed together.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Referring to fig. 1 and 19, an embodiment of the present invention provides a launcher, which includes a launcher body 1, a rotation driving device 3 disposed on the launcher body 1, and at least three connectors 2 that can be used as wheels to rotate and can connect and disconnect a rotating toy 6.

The connectors 2 are rotatably connected to the emitter body 1, at least one connector 2 is connected to the rotation driving device 3, and the connector 2 connected to the rotation driving device 3 is an active connector 21.

That is, the utility model provides a transmitter both can play as the toy car, also can connect rotatory toy 6 to make rotatory toy 6 can separate with connector 2, realize the car effect that bursts, richen the nature of playing of toy.

The connector 2 is mounted on the transmitter body 1, can be rotated, and serves as a wheel. The connector 2 may also be fitted with a rotating toy 6, such as a spinning top, a spinning ball or the like. The rotary toy 6 can also be separated from the connector 2, so that the rotary toy 6 bursts from the emitter body 1 when encountering obstacles, the effect of bursting is realized, and the play performance of the toy is enriched.

The connection manner in which the rotating toy 6 can be connected and disconnected to and from the connecting head 2 is referred to as the detachable connection of the rotating toy 6 to and from the connecting head 2, or the connection manner in which the connecting head 2 can be connected and disconnected to and from the rotating toy 6.

The rotation driving device 3 is installed on the transmitter body 1, and it can output torque to rotate the connector 2 connected thereto. At least one connecting head 2 is connected to a rotary drive 3. The rotation driving device 3 can drive the connector 2 connected to the rotation driving device 3 to rotate, and further drive the emitter to move forward or backward. The coupling head 2 connected to the rotary drive 3 is therefore referred to as the active coupling head 21.

Preferably, the two ends of the rotation driving device 3 are respectively connected with a connecting head 2.

The connector 2 is provided with an annular wheel surface, which is at least partially located below the bottom surface of the transmitter body 1 so as to be capable of contacting with a supporting platform, so that the connector 2 (which supports the transmitter body 1 and can rotate to advance and retract the transmitter) can be moved forward and backward, specifically, as shown in fig. 1 and 9-12, the connector 2 can comprise a driving connector 21 and a driven connector 22, the driving connector 21 is provided with an annular wheel surface 210, the driven connector 22 is provided with an annular wheel surface 220, the wheel surfaces 210 and 220 are at least partially located below the bottom surface of the transmitter body 1 so as to be capable of contacting with the supporting platform, so that the driving connector 21 and the driven connector 22 support the transmitter body 1.

Three connectors 2 or more than three connectors 2 may be arranged on the emitter body 1. When three connectors 2 are arranged, the three connectors 2 are arranged in a triangular shape, and the emitter body 1 can be stably supported.

When three or more connectors 2 are arranged, the connectors 2 may be configured in pairs, and each two connectors 2 form a pair and are symmetrically arranged on both sides of the emitter body 1 to stably support the emitter body 1.

Therefore, the utility model provides a transmitter, its connector 2 can regard as the wheel to use for the transmitter can play as the toy car. After the rotary toy 6 is assembled on the connector 2, the emitter can be burst, the burst vehicle effect is achieved, and the playing method of the toy is enriched.

Preferably, as shown in fig. 6-10, the rotation driving device includes a rotation shaft transmission part 33, and the driving connection head 21 has a connection head transmission part 214. The shaft transmission part 33 is detachably connected to the connector transmission part 214.

The spindle transmission part 33 can be detachably connected or detachably connected with the connector transmission part 214 through magnetic attraction, clamping, engagement, and the like.

When the shaft transmission portion 33 is connected to the connector transmission portion 214, the shaft transmission portion 33 can transmit torque to the driving connector 21 to drive the driving connector 2 to rotate.

The transmission driving device 4 can drive the connection head transmission part 214 to separate from the rotation shaft transmission part 33, so that the active connection head 21 is transmitted from the transmitter, and the rotary play of the active connection head 21 is realized.

The spindle transmission 33 is rotatably mounted in the device case 31.

The active connector 21 can be detachably connected or detachably connected with the rotating shaft transmission part 33 through magnetic adsorption, clamping, occlusion and the like.

The separable connection in the utility model is a connection mode, which means that two components can be connected for transmission and also can be separated or separated.

By controlling the rotation of the rotating shaft transmission part 33, the connector installed on the rotating shaft transmission part 33 can be driven to rotate, and then the emitter is driven to advance or retreat.

The driving connector 21 is detachably connected to the shaft transmission part 33, so as to be connected with the shaft transmission part 33 to transmit torque as required, and also can be separated from the shaft transmission part 33 as required, so that the driving connector 2 is launched. The active connector 2 can be launched together with the rotating toy 6 thereon, or can be launched separately for playing as a toy.

Preferably, two ends of the rotating shaft transmission part 33 are respectively connected with an active connector 21, which is beneficial to supporting the emitter.

Preferably, as shown in fig. 8 to 10, the shaft transmission part 33 is provided with a torque transmission concave-convex part 3321, and the connector transmission part 214 is provided with a torque receiving concave-convex part 2141. The torque transmission concave-convex portion 3321 engages with the torque receiving concave-convex portion 2141. With the arrangement, the torque transmission of the rotating shaft 331 can be realized, the separation of the connector transmission part 214 from the rotating shaft transmission part 33 is not affected, and the assembly is convenient.

Preferably, as shown in fig. 6 and 8-10, a first magnet 32 is provided in the shaft transmission part 33, and a second magnet 215 is provided in the connector transmission part 214. The shaft transmission part 33 and the connector transmission part 214 are connected by attraction between the first magnet 32 and the second magnet 215. Through the magnetic adsorption connection, both can conveniently assemble initiative connector 21 on pivot 331, conveniently drive away initiative connector 21 from pivot 331 again through transmission drive arrangement 4, accomplish the transmission of initiative connector 2.

Preferably, as shown in fig. 9-10, the active connector 21 is provided with a connector tip 213. The active connector 21 is provided with a connecting head gyroscope tip 213, and after the active connector 21 is launched out, the connecting head gyroscope tip 213 supports and rotates to realize the function of gyroscope playing, thereby enriching the playing method.

The connecting head gyro tip 213 may be a plastic gyro tip or a metal gyro tip capable of adsorbing a magnet, and is favorable for adsorption connection with a rotary toy.

Preferably, as shown in fig. 2-3 and fig. 6-8, the rotating shaft transmission part 33 includes a rotating shaft 331 and a transmission head 332, the rotating shaft 331 is coaxially and fixedly connected with the transmission head 332, and the driving connection head 21 is detachably connected with the transmission head 332.

The first magnet 32 may be disposed within the drive head 332 and the torque transmission relief 3321 may also be disposed on the drive head 332 for releasable connection with the active connection head 21.

Preferably, as shown in fig. 2, 5-7 and 17-18, the rotation driving device 3 further includes a shaft driving mechanism 5 for driving the shaft transmission part 33 to rotate.

The rotating shaft driving mechanism 5 can be disposed in the device housing 31, or disposed on the emitter body 1, and is used for driving the rotating shaft transmission portion 33, so as to drive the driving connector 21 to rotate, thereby realizing the advancing or retreating of the emitter.

The rotating shaft driving mechanism 5 can be a motor, a pull rope and the like.

Preferably, as shown in fig. 17 to 18, the spindle drive mechanism 5 includes a gear case 50 mounted on the device case 31, a rotary plate 51 mounted in the gear case 50, a power spring 52 mounted on the rotary plate 51, a first gear 53 mounted on the rotary plate 51, and a pull ring 54 located outside the device case 31.

Pull ring 54 is connected to spring 52 by pull wire 55. The rotating shaft 331 is also provided with a second gear 34, and the first gear 53 meshes with the second gear 34.

When pulling the pull ring 54, the spring 52 is compressed and drives the rotation disc 51 to rotate, the rotation disc 51 drives the first gear 53 to rotate, the first gear 53 drives the second gear 24 to rotate, the second gear 24 drives the rotation shaft 21 to rotate, and finally the first top 3 is driven to rotate, so that torque transmission is realized, and the top vehicle moves. When pull ring 54 is released, spring 52 is reset, which simultaneously resets dial 51.

Preferably, as shown in fig. 17-18, the diameter of the second gear 24 is smaller than the diameter of the first gear 53. Setting the diameter of the second gear 24 to be smaller than the diameter of the first gear 53 can serve to increase the rotation speed of the rotating shaft 21.

Preferably, the launcher further comprises a launching drive means 4 for launching the rotating toy 6 on the active connector 21. The transmission driving device 4 may be mounted on the transmitter body 1 or may be mounted on the rotation driving device 3. The transmission drive 4 can be connected to at least one active connection 21. The launching driving device 4 is used for launching the rotary toy 6 on the active connector 2 for rotary playing.

Preferably, as shown in fig. 5-7 and 13-16, the launching drive means 4 comprises a first pushing member (41) for pushing the rotating toy 6 on the active coupling head 21 away from the active coupling head 21.

The first pushing member 41 is movably installed in the rotation driving means 3 or movably installed on the launcher body 1, and the first pushing member 41 can move toward the direction of the active connector 21 so as to be able to contact and separate from the rotating toy 6 on the active connector 21.

The first pushing member 41 may be arranged in the device housing 31 of the rotational drive 3 or on the transmitter body 1, which is movable in the direction of the active connection head 21, so that the so-called first pushing member 41 is movably mounted in the rotational drive 3 or on the transmitter body 1.

By controlling the movement of the first pushing member 41 to move towards the rotating toy 6 or the active connector 21, the output end of the first pushing member 41 contacts the rotating toy 6, and pushes the rotating toy 6 away from the active connector 21.

Specifically, the first pushing member 41 includes a first pushing lever 411 and a first pushing cylinder 412, and both the first pushing lever 411 and the first pushing cylinder 412 are slidably disposed in the device case 31 and both can move along the extending direction of the rotating shaft 331.

The first push lever 411 is an input end of the first push member 41, and the first push cylinder 412 is an output end of the first push member 41.

By controlling the input end of the first pushing member 41, the first pushing rod 411 drives the first pushing cylinder 412 to move, so that the output end of the first pushing member 41 contacts with the rotating toy 6, and the rotating toy 6 is pushed away from the active connector 21. Then, the first pushing cylinder 412 is driven to reset under the action of the reset spring 413, so as to drive the first pushing rod 411 to reset.

Preferably, as shown in fig. 1, 5 and 16, the firing drive means 4 further comprises a first drive handle 42 for pushing the first pushing member 41 to move towards the active connector 21. The first driving handle 42 is movably installed on the rotation driving means 3 or on the emitter body 1, and the first driving handle 42 can be contacted and separated with the input end of the first push member 41.

The first driving handle 42 may be mounted on the device housing 31 of the rotation driving device 3, or may be mounted on the emitter body 1, and is capable of moving and pushing the first pushing member 41 to move towards the active connection head 21, and the first driving handle 42 is movably mounted on the rotation driving device 3 or movably mounted on the emitter body 1.

By pressing the first driving handle 42, the first driving handle 42 acts on the input end of the first pushing member 41, and further drives the first pushing member 41 to move, so that the output end of the first pushing member 41 contacts with the rotating toy 6 and pushes the rotating toy away from the driving connector 21, and the launching of the rotating toy 6 is completed.

After the firing is completed, the pressure on the first driving handle 42 is released, the first pushing cylinder 412 is driven to reset under the action of the reset spring 413, and then the first pushing rod 411 and the first driving handle 42 are driven to reset through the first pushing cylinder 412.

In order to control the movement of the first push rod 411 conveniently, a first inclined surface 421 is provided on the first driving handle 42 in an inclined manner as follows: the first inclined surface 421 extends obliquely toward the active connector 21 in a direction from the first push lever 411 to the first driving handle 42, so that the first push lever 411 can be pushed to move toward the active connector 21 by pressing the first driving handle 42.

Preferably, as shown in fig. 6 and 9-10, active connector 21 includes a connector base 211 and a connector cover 212 for triggering the rotation of toy 6 away from active connector 21.

The connector top 212 is movably disposed on the connector bottom 211 and can slide along the extending direction of the rotation shaft 331. The output end of the first urging member 41 can be brought into contact with and separated from the connector upper cover 212. By controlling the first pushing member 41, the output end (the first pushing cylinder 412) is in contact with the connector top cover 212, and the connector top cover 212 is further driven to move toward the connector bottom case 211, and finally the side edge of the connector top cover 212 or the bottom of the wheel surface 210 is brought into contact with the rotating toy 6, and the rotating toy 6 is driven to separate from the active connector 21, and the launching is completed.

Specifically, a guide cylinder 217 is provided on the connection head base case 211, which extends in the direction of the rotation shaft 331 toward the direction of the first pushing member 41. The connector transmission part 214 is mounted on the guide cylinder 217. The connector upper cover 212 is slidably fitted over the guide cylinder 217 so that the connector upper cover 212 can slide up and down. A stop screw 2121 is connected between the connector top cover 212 and a post 2111 of the connector bottom housing 211 to prevent the connector top cover 212 from separating from the connector bottom housing 211. A return spring 218 is further sleeved on the guide cylinder 217 and is used for driving the connector upper cover 212 to return.

When the first driving handle 42 pushes the first pushing rod 411 and the first pushing cylinder 412 to move towards the direction of the active connector 21, the first pushing cylinder 412 is enabled to contact with the connector upper cover 212 and pushes the connector upper cover 212 to move towards the direction of the connector bottom shell 211, so that the side edge of the connector upper cover 212 or the bottom of the wheel surface 210 contacts with the rotating toy 6, and the rotating toy 6 is driven to separate from the active connector 21, and the shooting is completed.

The connecting head top 213 is disposed on the connecting head bottom case 211. A fourth magnet 216 is disposed in the connecting head bottom case 211, and is used for being attracted and connected to the rotating toy 6.

A bottom shell tooth 219 (i.e., an embodiment of a torque transmission part) is disposed on the connecting head bottom shell 211, and is used for meshing connection transmission with a top tooth 616 (i.e., an embodiment of a torque receiving part) of the top 61 shown in fig. 21.

Preferably, as shown in fig. 5-7 and 13-15, the transmission drive means 4 further comprises a second pushing member 43 for pushing the active connector 21 away from the rotation drive means 3.

The second pushing member 43 is movably installed in the rotation driving device 3 or movably installed on the emitter body 1, and the output end of the second pushing member 43 can be contacted and separated with the active connector 21.

The second pushing member 43 may be movably mounted in the device housing 31 of the rotation driving device 3, or may be movably mounted on the transmitter body 1, and it can move towards the active connector 2, and further can contact and separate from the active connector 21, and the second pushing member 43 is movably mounted in the rotation driving device 3 or movably mounted on the transmitter body 1.

The emission of the active connector 21 can be completed by controlling the second pushing member 43 to move toward the active connector 21, so as to push the active connector 21 away from the rotation driving device 3 or the rotation shaft 331 thereof. Of course, the launching of the combination of the active connector 21 and the rotating toy 6 assembled thereon may be accomplished, and the active connector 21 may also be launched onto the rotating toy 6 (e.g., the top 61) to increase the rotation speed of the rotating toy 6, thereby improving the rotational stability of the rotating toy 6.

The second pushing member 43 includes a second pushing rod 431 and a second pushing cylinder 432, and both the second pushing rod 431 and the second pushing cylinder 432 are slidably disposed in the device case 31 and are respectively movable in the direction of the rotating shaft 331.

The second push rod 431 is an input end of the second push member 43, and the second push cylinder 432 is an output end of the second push member 43.

The input end of the second pushing member 43 is controlled to drive the second pushing rod 431 to move toward the active connector 21, and further drive the second pushing cylinder 432 to move toward the active connector 21 and contact with the connector transmission portion 214 on the active connector 21, and finally push the connector transmission portion 214 to separate from the rotation shaft transmission portion 33, so that the active connector 21 is separated from the rotation shaft 331, and the firing is completed. After the firing is finished, the second pushing cylinder 432 can be driven to reset through the reset spring 433, and then the second pushing rod 431 is driven to reset.

The second push rod 431 directly pushes the second push cylinder 432 in the above-described manner.

The second pushing rod 431 can also be used for indirectly pushing the second pushing cylinder 432: as shown in fig. 13-15, a ring cover 434 is disposed over the second push cylinder 432 and the first push cylinder 412.

The ring cap 434 covers the openings of the second pushing cylinder 432 and the first pushing cylinder 412, and when the second pushing cylinder 432 is moved downward, it contacts the ring cap 434, so as to push the first pushing cylinder 412 and the second pushing cylinder 432 to move synchronously toward the direction of the active connector 21, and the second pushing cylinder 432 contacts the connector transmission part 214, so as to push the active connector 21 away from the rotating shaft 331, thereby completing the firing. When the rotary toy 6 is connected to the driving connector 21, the second pushing cylinder 432 contacts the connector transmission part 214 first, and then the first pushing cylinder 412 contacts the connector upper cover 212, or when the second pushing cylinder 432 contacts the connector transmission part 214, the first pushing cylinder 412 contacts the connector upper cover 212, so that the combined launching of the driving connector 2 and the rotary toy 6 can be completed.

Preferably, as shown in fig. 1, 4-5 and 16, the firing drive means 4 further comprises a second drive handle 44 for pushing the second pushing member 43 towards the active connection head 21.

The second driving handle 44 is movably installed on the rotation driving means 3 or on the emitter body 1, and the second driving handle 44 can be contacted and separated with the input end of the second push member 43.

The second driving handle 44 may be movably mounted on the device housing 31 of the rotation driving device 3, or may be movably mounted on the emitter body 1, and it can be slidably contacted with and separated from the input end of the second pushing member 43, and the second driving handle 44 is called as being movably mounted on the rotation driving device 3 or movably mounted on the emitter body 1.

By pressing the second driving handle 44, the second driving handle 44 acts on the input end of the second pushing member 43, and further drives the second pushing member 43 to move, so that the output end of the second pushing member 43 contacts the active connector 2 and pushes the active connector away from the rotating shaft 331, thereby completing the emission of the active connector 2.

After the firing is finished, the pressure on the second driving handle 44 is released, the second pushing cylinder 432 is driven to reset under the action of the return spring 433, and then the second pushing rod 431 and the second driving handle 44 are driven to reset through the second pushing cylinder 432.

In order to facilitate the control of the movement of the second push rod 431, a second inclined surface 441 is provided on the second driving handle 44 in such a manner that: in the direction from the second push rod 431 to the second driving handle 44, the second slope 441 extends obliquely toward the direction of the active connector 21, so that the second push rod 431 can be moved toward the direction of the active connector 21 by pressing the second driving handle 44.

Preferably, as shown in fig. 1-3, the transmitter body 1 is provided with a mounting shaft 11, and the connector 2 further includes a driven connector 22, wherein the driven connector 22 is rotatably mounted on the mounting shaft 11.

The mounting shaft 11 is provided on the transmitter body 1 in parallel with the rotation shaft 331. The coupling head 2 mounted on the mounting shaft 11 is rotated by the driving coupling head 21, so that the coupling head mounted on the mounting shaft 11 is referred to as a driven coupling head 22.

As shown in fig. 11 to 12, the driven coupler 22 includes a coupler main body 221, and a mounting hole 223 for coupling with the mounting shaft 11 is provided on the top surface of the coupler main body 221. A driven coupling head gyro tip 222 may be provided at the bottom of the coupling head main body 221, and a fifth magnet may be provided inside thereof for attracting the rotating toy.

The driven connecting head gyroscope tip 222 can be a plastic gyroscope tip or a metal gyroscope tip capable of being adsorbed by a magnet, and is favorable for being adsorbed and connected with a rotary toy.

A main body tooth 224 (i.e., an embodiment of a torque transmission part) is further disposed on the connecting head main body 221, and is used for meshing connection transmission with a gyro tooth 616 (i.e., an embodiment of a torque receiving part) of the gyro 61 shown in fig. 21.

As shown in fig. 19, an embodiment of the present invention provides a toy, which includes a rotating toy 6 that can be used as a wheel of a vehicle and a transmitter according to any of the previous embodiments.

The rotating toy 6 comprises a rotating top tip 60. At least one rotating toy 6 is detachably connected to each connector 2 of the launcher.

For the structure, structure and operation principle of the transmitter, please refer to the description part of the transmitter, which is not repeated herein.

Rotatory toy 6 can be connected on connector 2 through the mode of magnetism absorption, joint to realize

rotatory toy

6 and 2 separable connections of connector, thereby can be followed the transmission on the transmitter, richen the play method of toy.

The rotary toy 6 may be used as a wheel, and after the rotary toy 6 is assembled to the connector 2, the rotary toy 6 is used as a wheel instead of the connector 2.

When the toy encounters an obstacle during travel, the rotating toy 6 can be disengaged from the launcher and burst, achieving a burst car effect.

Therefore, the utility model provides a toy, rotatory toy 6 can be assembled on connector 2, both can regard as the wheel to use, also can be launched alone and play as the top, can also launch with initiative connector 21 together and play as the top, can also launch initiative connector 21 and accelerate on being pivoted rotatory toy, richened the playing method of toy, can bring different enjoyment of playing for the user.

Preferably, the rotating toy 6 is connected with the connector 2 through magnet attraction. Be provided with magnet in rotatory toy 6, also be provided with magnet in connector 2, rotatory toy 6 passes through the magnet adsorption with connector 2 and is connected, both conveniently assembles rotatory toy 6 on connector 2, also conveniently accomplishes the separation transmission with rotatory toy 6 from connector 2.

Preferably, a torque transmission part is provided on the connection head 2, and a torque receiving part is provided on the rotary toy 6, the torque receiving part being detachably connected to the torque transmission part.

The torque transmission part and the torque receiving part are used for transmitting torque to drive the rotating toy 6 to rotate, and the torque transmission part and the torque receiving part can be separated from each other, so that the rotating toy can be launched.

The torque transmission part and the torque receiving part may be transmission teeth, respectively, for example, as shown in fig. 9 to 10, a bottom shell tooth part 219 is provided on the active connector 21, which is an embodiment of the torque transmission part; 11-12, a body tooth 224, also an embodiment of a torque transmitting portion, is provided on the driven coupler 22; as shown in fig. 21, a top tooth 616 provided in the top 61 is an example of a torque receiving portion.

During transmission, the torque on the driving connector 21 is transmitted to the top teeth 616 engaged with the bottom shell teeth 219 through the bottom shell teeth 219, and then drives the top 61 connected to the driving connector 21 to rotate. The torque of the driven connector 22 is transmitted to the top tooth 616 engaged with the driven connector 22 through the main body tooth 224, and then the top 61 connected to the driven connector 22 is rotated.

Preferably, the rotating toy 6 connected to the launcher is any one or any combination of a top 61, a rotating ball, a rotating wheel, a rotating column and a rotating cylinder, so that the diversity and toy playing method of the toy are enriched.

Preferably, as shown in fig. 20 to 21, the top 61 includes a top lower case 611 and a top upper cover 612 detachably mounted on the top lower case 611.

The gyro lower case 611 has a gyro tip mounting portion 6111 extending downward, and the rotary gyro tip 60 is mounted in the gyro tip mounting portion 6111.

A third magnet 614 is provided in the top lower case 611.

Here, a receiving recess 615 capable of receiving at least a part or all of the top lower shell 611 is provided in the top upper cover 612.

The top 61 is mainly composed of a bottom shell 611, a top cover 612, and a third magnet 614.

In order to meet the requirement that a plurality of gyros can be stacked, a gyro tip mounting portion 6111 extends downward from the gyro lower shell 611, and a receiving recess 615 capable of receiving at least part or all of the gyro lower shell 611 is provided in the gyro upper cover 612. So that the tip mounting portion 6111 can be inserted or fitted into the receiving recess 615, and the tip mounting portion 6111 matches the surface contour of the receiving recess 615 to fit substantially snugly together.

By arranging the accommodating concave portion 615 on the top cover 612, at least part or all of the top lower shell 611 of the additional top 61 (for example, the top tip mounting portion 6111) can be accommodated, the upper top and the lower top are directly adsorbed by the third magnet 614, no additional connecting piece is needed, the structure of the top 61 is simplified, the two stacked tops 61 are basically and closely attached together, a simple top function is diversified by using geometric similarity, and the stability of the top in the rotation process is improved.

The gyroscope 61 also includes a gyroscope ring 613.

A locking groove is formed between the peripheral edge of the top cover 612 and the peripheral edge of the top lower shell 611.

A snap ring extends from the inner ring surface of the gyro ring 613, and the snap ring is clamped in the snap groove 617.

The gyro ring 613 can be an attack ring or a defense ring, thereby improving the diversity of playing. When the top 61 is rotated as a wheel, the top ring 613 is used as a wheel surface and is in contact with the support platform.

Since the bottom opening 6151 is provided at the bottom of the accommodating recess 615, the bottom of the upper top 6161 stacked together passes through the bottom opening 6151 and is closer to the magnet of the lower top 61, so that the magnetic attraction force between the two is stronger.

Preferably, as shown in fig. 21 and 23, at least one connector 2 is connected with two or more tops 61. Any two adjacent gyros 61 are connected by magnet attraction.

In any two adjacent spinning tops 61, the top lower shell 611 of one spinning top 61 is at least partially or completely inserted into the receiving recess 615 of the other spinning top 61.

At least part or all of the gyro lower shell 611 of the upper gyro 61 (for example, the gyro tip mounting part 6111) is inserted into the accommodating concave part 615 of the gyro 61 positioned below, so that the third magnet 614 in the gyro 61 positioned below and the third magnet 614 in the gyro 61 positioned above are connected in an adsorbing manner, no additional connecting piece is needed, the structure of the gyro 61 is simplified, the two gyros 61 are basically and closely attached together after being superposed, a simple gyro function is diversified by utilizing the geometric similarity, and the stability of the gyro in the rotating process is improved.

Preferably, as shown in fig. 1, 9-12 and 22, the connection head 2 is provided with a connection head protrusion 20 that can be received in the receiving recess 615.

When the top 61 is attached to the connector head 2, the connector head protrusion 20 is inserted into the receiving recess 615.

The contour of the connector boss 20 matches the surface contour of the receiving recess 615 to fit substantially closely together, and the connector 2 and the top 61 are closely combined by geometric similarity.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the invention. It should be noted that, for those skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the protection scope of the present invention should be considered.

Claims

1. The launcher is characterized by comprising a launcher body, a rotation driving device arranged on the launcher body and at least three connectors which can be used as wheels to rotate and can be connected with and disconnected from a rotating toy;

2. The transmitter of claim 1, wherein the rotation driving device comprises a shaft transmission part, and the driving connector comprises a connector transmission part;

3. The transmitter of claim 2, wherein a first magnet is disposed within the shaft drive and a second magnet is disposed within the connector drive;

4. The transmitter of claim 2, wherein the active connector has a connector tip thereon.

5. The transmitter of claim 2, wherein the shaft transmission part comprises a shaft and a transmission head, the shaft is coaxially and fixedly connected with the transmission head, and the driving connector is detachably connected with the transmission head.

6. The transmitter of claim 2, wherein the rotation driving device further comprises a shaft driving mechanism for driving the shaft transmission part to rotate.

7. Launcher according to any of claims 1-6, characterized in that it further comprises a launch drive means for launching the rotating toy on the active connection head.

8. The launcher according to claim 7, wherein the launching drive device comprises a first pushing member for pushing a rotating toy on the active connector away from the active connector;

9. The launcher according to claim 8, wherein said launch drive means further comprises a first drive handle for urging said first urging member to move in a direction toward said active connector;

10. The launcher according to claim 8, wherein said active connector comprises a connector base and a connector cover for triggering said rotating toy to move away from said active connector;

11. The transmitter of claim 7, wherein the transmission driving device further comprises a second pushing member for pushing the active connector away from the rotation driving device;

12. The device as claimed in claim 11, wherein the driving means further comprises a second driving handle for pushing the second pushing member to move toward the active connector;

13. The transmitter of claim 1, wherein the transmitter body is provided with an installation shaft, and the connector further comprises a driven connector, and the driven connector is rotatably installed on the installation shaft.

14. A toy comprising a rotating toy which can be used as a wheel for turning and a transmitter according to any one of claims 1 to 13;

the rotating toy comprises a rotating top tip;

15. The toy of claim 14, wherein the rotating toy is connected to the connector by magnetic attraction.

16. A toy according to claim 14 or 15, wherein a torque transmitting portion is provided on the connector and a torque receiving portion is provided on the rotary toy, the torque receiving portion being detachably connectable to the torque transmitting portion.

17. The toy of claim 14, wherein the rotating toy connected to the launcher is any one or any combination of a top, a rotating ball, a rotating wheel, a rotating column, and a rotating cylinder.

18. The toy of claim 17, wherein the top includes a top lower shell and a top upper cover removably mounted on the top lower shell;

a third magnet is arranged in the lower gyro shell;

19. The toy of claim 18, wherein more than two of said spinning tops are connected to at least one of said connecting heads;

any two adjacent gyros are connected through magnet adsorption;

20. The toy of claim 18, wherein the connector head is provided with a connector head protrusion that is receivable in the receiving recess;