CN216023138U - Gyro ejection device - Google Patents

Abstract

The utility model discloses a gyro ejection device, which relates to the technical field of gyro toys and comprises: the ejection base is used for loading at least two gyros; each ejection mechanism corresponds to one gyro and comprises an ejection piece arranged on the ejection base in a sliding mode and an ejection spring for driving the ejection piece, and the front end of each ejection piece is provided with a clamping part for clamping the corresponding gyro; the driving mechanism is arranged on the ejection base and is used for storing energy for at least two gyroscope rotations at the same time; the trigger mechanism is arranged on the ejection base and used for triggering the ejection mechanism to eject the stored energy gyro out. The gyro ejection device provided by the utility model passes through. The gyro ejecting device provided by the utility model solves the problem that a plurality of gyros can be ejected in a short time only by reloading and storing energy, improves the ejecting efficiency of the gyros and increases the interest of playing.

Description

Gyro ejection device

Technical Field

The utility model relates to the technical field of gyro toys, in particular to a gyro ejection device.

Background

The gyro ejection device generally comprises an ejection base, a gyro, an ejection mechanism, a driving mechanism and a triggering mechanism, wherein the driving mechanism is used for driving the gyro to rotate for energy storage, and the triggering mechanism can eject the gyro after energy storage after triggering the ejection mechanism, so that the gyro can rotate on the ground or on a table top.

For example, chinese patent application CN110230947A discloses an ejection toy, which comprises an ejection base, and a driving mechanism, a rotating body, a triggering mechanism and an ejection mechanism arranged on the ejection base; the driving mechanism drives the rotating body to rotate for energy storage, and the ejection mechanism is triggered by the trigger mechanism to push the rotating body after energy storage out of the ejection base.

However, the scheme of the patent application can only realize that one rotating body, namely, the gyroscope rotates and stores force and the ejection release and rotation, after one rotating body is released, the other rotating body can be installed on the driving mechanism of the ejection base, and then the processes of rotating and storing force and ejecting are carried out, so that the use requirements of rapidly releasing a plurality of gyroscopes cannot be met.

Therefore, a new gyro launching device needs to be provided.

SUMMERY OF THE UTILITY MODEL

In order to overcome at least one of the defects of the prior art, the utility model provides a top ejecting device, which is used for optimizing the problem of low efficiency of the existing top ejecting toy for releasing a top.

The technical scheme adopted by the utility model for solving the problems is as follows:

according to one aspect of the present invention, there is provided a gyro launch device comprising: the ejection base is used for loading at least two gyros; each ejection mechanism corresponds to one gyro and comprises an ejection piece arranged on the ejection base in a sliding mode and an ejection spring for driving the ejection piece, and the front end of each ejection piece is provided with a clamping part for clamping the corresponding gyro; the driving mechanism is arranged on the ejection base and is used for storing energy for at least two gyroscope rotations at the same time; the trigger mechanism is arranged on the ejection base and used for triggering the ejection mechanism to eject the stored energy gyro out.

From this, two at least gyros load on launching the base, change the energy storage for two at least top gyros simultaneously through actuating mechanism, when launching, launch the base through the top ejection after the trigger mechanism will store energy, improved the efficiency that the top launched from this, solved need reload, the energy storage just can launch the problem of a plurality of tops in the short time, improved the efficiency that the top popped out, increased the interest of playing.

Further, actuating mechanism includes drive box and sets up the drive assembly at the drive box, and drive assembly includes long tooth spare, driving gear, the linkage gear and the secondary drive gear group that correspond each top setting, and wherein, long tooth spare passes drive box and driving gear drive connection, and all linkage gears all are connected with driving gear drive, and linkage gear, secondary drive gear group and the top that corresponds are drive connection in proper order.

From this, drive linkage gear through long tooth spare and rotate, and then drive secondary drive gear train and rotate, realize providing the purpose of rotatory energy storage for different tops simultaneously, prepare for popping out a plurality of tops.

Furthermore, a first sliding groove is formed in the driving box in a penetrating mode, and the long tooth piece is in sliding fit with the first sliding groove.

Furthermore, a handheld part is arranged on the long gear and is arranged on the ejection base in a sliding mode, and the handheld part and the long gear are used for pushing the elongated gear to drive the driving gear to rotate.

Therefore, the handheld part is held to slide relative to the ejection base, so that the elongated gear is pushed to drive the driving gear to rotate, and the purpose of storing energy for the rotation of the gyroscope on the loading and ejection base is achieved.

Further, the secondary transmission gear set comprises a sliding gear and a secondary transmission gear, the secondary transmission gear is used for being in driving connection with a corresponding spinning top, a sliding groove is formed in the driving box, and the sliding gear is arranged in the sliding groove in a sliding mode so as to be in driving connection with or separated from the secondary transmission gear.

Furthermore, the triggering mechanism comprises a first moving part longitudinally arranged on the ejection base in a sliding manner and a first pressing part transversely arranged on the ejection base in a sliding manner, a first limiting block is arranged on the lower side of the ejection part of one ejection mechanism, a first locking block matched with the first limiting block is arranged at the top of the first moving part, and the first moving part is connected with the ejection base through a first telescopic spring arranged at the bottom of the first moving part; the middle part of the first moving part is provided with a through hole, the bottom of the through hole is provided with a first slope, one end of the first pressing part penetrates through the through hole and is arranged on the ejection base through a pressing spring, and a top pressing block matched with the first slope of the through hole is arranged at the joint of the first pressing part and the first moving part.

Therefore, the first telescopic spring provides upward elastic force for the first moving piece, so that the first limiting piece is abutted against the first locking block to keep locking and limiting on the ejection piece and keep in a triggering state; when the ejection piece needs to be triggered, the ejection piece is made to overcome the sliding of the pressing spring by pressing the first pressing piece, so that the jacking piece on the first pressing piece abuts against the first slope surface to drive the first moving piece to move downwards, the first locking piece is made to be separated from the abutting joint with the first limiting block to trigger the ejection piece, and then the gyroscope loaded on the ejection piece is ejected out of the ejection base, so that the purpose of releasing the gyroscope is achieved.

Furthermore, a first reset inclined plane is further arranged on the first locking block and arranged towards the direction in which the ejection piece pops up.

From this, the ejection piece pulls back and makes first stopper support and press first inclined plane that resets in order to order about first moving member and move down, and first stopper is behind the top of first moving member, and the first expanding spring who is located first moving member bottom orders about first moving member and shifts up for a terminal surface butt towards the ejection piece direction of popping out promptly of first locking piece and the preceding terminal surface of first stopper, thereby makes the ejection piece locking that resets.

Furthermore, the triggering mechanism comprises a second moving part horizontally and longitudinally arranged on the ejection base in a sliding mode and a second pressing part fixed with the second moving part and penetrating out of the ejection base in a sliding mode, a second limiting block is arranged on the upper side of the ejection part of the other ejection mechanism, the second moving part is located above the ejection part, a second locking block matched with the second limiting block is arranged on the lower side of the second moving part, and a second expansion spring connected with the ejection base is arranged on the second moving part.

Therefore, the second telescopic spring provides horizontal elastic retaining force for the second moving piece, so that the second limiting piece abuts against the second locking block to keep locking and limiting on the ejection piece and keep in a triggering state; when the ejection piece needs to be triggered, the second pressing piece is pressed to overcome the sliding of the second telescopic spring, so that the second locking block is separated from the abutting joint with the second limiting block, the ejection piece is triggered, and then the spinning top loaded on the ejection piece is ejected out of the ejection base, so that the purpose of releasing the spinning top is achieved.

Furthermore, one end, deviating from the second pressing piece, of the second moving piece is provided with a first unlocking limiting block, and a second unlocking limiting block which can be abutted against the first unlocking limiting block to limit the movement of the first unlocking limiting block is further arranged on the gyro ejection device.

Therefore, when the second unlocking limiting block is abutted against the first unlocking limiting block, the second moving piece cannot slide towards the first unlocking limiting block, so that the safety function is achieved, and the second moving piece cannot be pressed through the second pressing piece until the second unlocking limiting block is separated from the first unlocking limiting block and the movement limitation of the first unlocking limiting block is removed, so that the second moving piece can slide, the triggering operation is further carried out, and the probability of occurrence of false triggering is reduced.

Furthermore, the second unlocking limiting block is arranged on the ejection piece of the ejection mechanism triggered by the first moving piece, and the first unlocking limiting block is arranged on the ejection piece of the ejection mechanism triggered by the second moving piece.

Therefore, only when the ejection mechanism triggered by the first moving member is triggered and one of the gyros is ejected, conditions can be provided for triggering the ejection mechanism triggered by the second moving member, and the probability of occurrence of false triggering is further reduced.

According to the technical scheme, the embodiment of the utility model at least has the following advantages and positive effects:

1) the gyroscope ejection device has the advantages that at least two gyroscopes can be loaded simultaneously, the force is stored for the rotation of the at least two gyroscopes, and the ejection is triggered, so that the ejection efficiency of the gyroscopes is improved, the problem that a plurality of gyroscopes can be ejected in a short time only by reloading and storing energy is solved, the ejection efficiency of the gyroscopes is improved, and the playing interest is increased;

2) and a safety mechanism is also arranged, so that the occurrence probability of the false triggering and popping of the gyroscope is reduced.

Drawings

Fig. 1 is a schematic view of an overall structure of a gyro device according to an embodiment of the present invention;

FIG. 2 is an exploded view of the gyroscope device according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a first view angle of a hidden portion of a gyro device according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating a second view of a hidden portion of a gyroscope device according to an embodiment of the utility model;

FIG. 5 is a schematic diagram illustrating a third view of a hidden portion of a gyroscope device according to an embodiment of the utility model;

FIG. 6 is a schematic structural view of the connection between the ejection mechanism and the spinning top according to the embodiment of the present invention;

FIG. 7 is a schematic view of the sliding gear of the drive cassette of an embodiment of the present invention in a first position;

FIG. 8 is a schematic view of the sliding gear of the drive cartridge in a second position according to an embodiment of the present invention;

FIG. 9 is a schematic view of a hidden sliding gear of the driving box according to the embodiment of the present invention;

FIG. 10 is a schematic view of the connection of the gears of the drive box with the top in the embodiment of the present invention;

FIG. 11 is a schematic view of the connection of two ejection mechanisms according to an embodiment of the present invention;

fig. 12 is a schematic view of the connection of the ejector members of the two ejector mechanisms in the embodiment of the present invention.

Wherein the reference numerals have the following meanings:

1. ejecting the base; 101. a second chute; 2. an ejection mechanism; 201. an ejection member; 2011. a clamping part; 2012. a slider; 2013. a top pillar; 2014. a first stopper; 2015. a second limiting block; 20151. a second reset inclined plane; 202. an ejection spring; 3. a drive mechanism; 301. a drive cartridge; 3011. a hand-held portion; 3012. a sliding groove; 3012a, a first position; 3012b, a second position; 302. a drive assembly; 3021. a long tooth member; 3022. a driving gear; 3023. a linkage gear; 3024. a secondary drive gear set; 3024a, sliding gear; 3024b, secondary drive gear; 4. a trigger mechanism; 401. a first moving member; 4011. a first lock block; 40111. a first reset inclined plane; 4012. a through hole; 4013. a first slope surface; 402. a first pressing member; 4021. a pressing spring; 403. a first extension spring; 404. a second moving member; 4041. a second lock block; 4042. a first unlocking limit block; 405. a second pressing member; 406. a second extension spring; 5. a top; 501. an energy storage gear; 6. and a second unlocking limit block.

Detailed Description

For better understanding and implementation, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Examples

Referring to fig. 1-12, the utility model discloses a gyro ejection device, which comprises an ejection base 1, an ejection mechanism 2, a driving mechanism 3 and a triggering mechanism 4, wherein the ejection base 1 is used for loading at least two gyros 5; the ejection mechanisms 2 are arranged corresponding to each spinning top 5, each ejection mechanism 2 comprises an ejection piece 201 arranged on the ejection base 1 in a sliding mode and an ejection spring 202 for driving the ejection piece 201, and the front end of the ejection piece 201 is provided with a clamping portion 2011 for clamping the corresponding spinning top 5; the driving mechanism 3 is arranged on the ejection base 1 and is used for storing energy for at least two gyros 5 in a rotating mode; the triggering mechanism 4 is arranged on the ejection base 1 and used for triggering the ejection mechanism 2 to eject the energy-stored spinning top 5.

From this, two at least tops 5 load on launching base 1, be two at least tops 5 rotatory energy storage simultaneously through actuating mechanism 3, when launching, launch launching base 1 through the top 5 after the trigger mechanism 4 will store energy, improved the efficiency that top 5 launched from this, solved need reload, the energy storage just can launch a plurality of tops 5's problem in the short time, improved the efficiency that top 5 popped out, increased the interest of playing.

The ejection base 1 of the present invention can be designed into a plurality of different ejection structures, and in order to better illustrate the technical solution of the present invention, in this embodiment, the ejection base 1 is preferably a gun body ejection base 1, wherein the gun body ejection base 1 includes a gun body structure (not labeled in the figure), and an ejection cavity (not labeled in the figure), a driving cavity (not labeled in the figure), and a triggering cavity (not labeled in the figure) disposed in the gun body structure, and accordingly, the ejection mechanism 2, the driving mechanism 3, and the triggering mechanism 4 are respectively installed in the ejection cavity, the driving cavity, and the triggering cavity.

In the present embodiment, an embodiment in which two spinning tops 5 are installed is taken as an example, and an embodiment in which three or more spinning tops 5 are installed may be adaptively adjusted to increase the number of spinning tops 5 with reference to this facility placement.

Further, the clamping portion may adopt a clamping structure common in the prior art, and the application is not limited.

Further, the driving mechanism 3 includes a driving box 301 and a driving assembly 302 disposed on the driving box 301, the driving assembly 302 includes a long gear 3021, a driving gear 3022, a linkage gear 3023 disposed corresponding to each top 5, and a secondary transmission gear group 3024, wherein the long gear 3021 passes through the driving box 301 and is in driving connection with the driving gear 3022, all the linkage gears 3023 are in driving connection with the driving gear 3022, and the linkage gear 3023, the secondary transmission gear group 3024 and the corresponding top 5 are in driving connection in turn.

From this, drive linkage gear 3023 through long tooth 3021 and rotate, and then drive secondary drive gear group 3024 and rotate, realize providing the purpose of rotatory energy storage for different tops 5 simultaneously, prepare for popping out a plurality of tops 5.

Further, a first sliding slot (not labeled) is formed in the driving box 301, and the long tooth 3021 is slidably fitted in the first sliding slot.

Further, the long gear 3021 is provided with a hand-held portion 3011, the hand-held portion 3011 is slidably disposed on the ejection base 1, and the hand-held portion 3011 and the long gear 3021 are used for pushing the long gear 3021 to drive the driving gear 3022 to rotate.

Thus, the hand-held unit 3011 is held and slid relative to the ejection base 1, and the elongated gear 3021 is pushed to rotate the driving gear 3022, thereby accumulating energy for rotating the top 5 loaded on the ejection base 1.

Further, the secondary transmission gear group 3024 includes a sliding gear 3024a and a secondary transmission gear 3024b, the secondary transmission gear is used for being in driving connection with the corresponding spinning top 5, and specifically, the secondary transmission gear is meshed with the energy storage gear 501 arranged on the spinning top 5 to realize the driving connection with the spinning top 5;

the drive cassette 301 is provided with a slide slot 3012, and a slide gear 3024a is slidably provided in the slide slot 3012 so as to be drivingly connected to or disconnected from a secondary transmission gear 3024 b.

As shown, the slide gear 3024a is slidable on the slide slot 3012 at a first position 3012a and a second position 3012b, thereby switching two different states of driving connection to and disconnection from the secondary transmission gear 3024 b.

Thus, the driving gear 3022 is engaged with the slide gear 3024a through the interlocking gear 3023, so that the conversion rate of the output is increased, and the kinetic energy of the spinning top 5 is more excellent; meanwhile, transmission transition is performed through the linkage gear 3023, so that rotation of the driving gear 3022 is more stable, shaking due to impact of the sliding gear 3024a is avoided, and kinetic energy output is more stable.

It can be understood that, in order to ensure that the spinning top 5 can be ejected out smoothly, the front end of the ejection cavity of the gun body ejection base 1 is provided with a trajectory (not labeled in the figure) in cooperation with the ejector 201.

In this embodiment, preferably, the ejection element 201 is further provided with two oppositely arranged sliders 2012, the two sliders 2012 are respectively located at two sides of the ejection element 201, and the ejection base 1 is provided with a second chute 101 matched with the sliders 2012; specifically, the second chute 101 is located on both inner sides of the trajectory.

From this, through the cooperation of slider 2012 and second spout 101 for top 5 can be more stable when popping out, and difficult production is rocked.

It can be understood that, in order to realize the installation of the ejection spring 202, the rear end of the ejection member 201 is provided with a top post 2013, one end of the ejection spring 202 is sleeved on the top post 2013315, and the other end of the ejection spring 202 abuts against the inner wall of the ejection cavity.

Of course, the ejector spring 202 may be mounted in other different manners, and the utility model is not limited in this respect.

Further, the triggering mechanism 4 comprises a first moving part 401 longitudinally slidably arranged on the ejection base 1 and a first pressing part 402 transversely slidably arranged on the ejection base 1, a first limiting block 2014 is arranged on the lower side of the ejection part 201 of one of the ejection mechanisms 2, a first locking block 4011 matched with the first limiting block 2014 is arranged at the top of the first moving part 401, and the first moving part 401 is connected with the ejection base 1 through a first telescopic spring 403 arranged at the bottom; first moving member 401 middle part is provided with through-hole 4012, and the bottom of through-hole 4012 is equipped with first slope 4013, and the one end of first pressing piece 402 passes through-hole 4012 and sets up on launching base 1 through pressing spring 4021, and the junction of first pressing piece 402 and first moving member 401 is equipped with the top briquetting with the first slope 4013 matched with of through-hole 4012.

Therefore, the first extension spring 403 provides an upward elastic force to the first moving member 401, so that the first stopper abuts against the first locking block 4011 to maintain the locking and limiting of the ejector 201, and the ejector is kept in a triggered state; when the ejection piece 201 needs to be triggered, the first pressing piece 402 is pressed to overcome the sliding of the pressing spring 4021, so that the jacking piece on the first pressing piece 402 abuts against the first slope surface 4013 to drive the first moving piece 401 to move downwards, the first locking piece 4011 is separated from the first limiting block 2014 to abut against, the ejection piece 201 is triggered, and then the gyroscope 5 loaded on the ejection piece 201 is ejected out of the ejection base 1, so that the purpose of releasing the gyroscope 5 is achieved.

Further, the first lock block 4011 is provided with a first reset inclined surface 40111 which is provided in a direction in which the ejector 201 is ejected.

Therefore, the ejecting member 201 is pulled back to enable the first limiting block 2014 to abut against the first reset inclined plane 40111 to drive the first moving member 401 to move downwards, after the first limiting block 2014 passes through the upper part of the first moving member 401, the first expansion spring 403 at the bottom of the first moving member 401 drives the first moving member 401 to move upwards, so that the first locking block 4011 abuts against one end face of the first limiting block 2014 in the ejecting direction of the ejecting member 201, and the ejecting member 201 is reset and locked.

Further, the triggering mechanism 4 includes a second moving member 404 horizontally and longitudinally slidably disposed on the ejection base 1 and a second pressing member 405 fixed with the second moving member 404 and slidably penetrating from the ejection base 1, a second stopper 2015 is disposed on an upper side of the ejection member 201 of another ejection mechanism 2, the second moving member 404 is located above the ejection member 201, a second lock 4041 matched with the second stopper 2015 is disposed on a lower side of the second moving member 404, and a second expansion spring 406 connected with the ejection base 1 is disposed on the second moving member 404.

Therefore, the second extension spring 406 provides a horizontal elastic retaining force for the second moving member 404, so that the second limiting member abuts against the second locking block 4041 to maintain the locking and limiting of the ejector 201, and the ejector is kept in a triggering state; when the ejection piece 201 needs to be triggered, the second pressing piece 405 is pressed to overcome the sliding of the second telescopic spring 406, so that the second locking piece 4041 is separated from the abutting joint with the second limiting block 2015, the ejection piece 201 is triggered, and then the spinning top 5 loaded on the ejection piece 201 is ejected out of the ejection base 1, and the purpose of releasing the spinning top 5 is achieved.

Further, a second reset inclined plane 20151 is further arranged on the second limiting block 2015 and arranged towards the ejecting direction of the ejector 201.

From this, the ejector 201 pulls back, and second inclined plane 20151 that resets offsets with second locking piece 4041, orders about second moving member 404 horizontal migration, and until second stopper 2015 through second moving member 404 after, second expanding spring 406 orders about second moving member 404 reverse translation for the preceding terminal surface of second locking piece 4041 and second stopper 2015 pops out the terminal surface butt of direction towards ejector 201 promptly, thereby makes ejector 201 reset and lock.

Further, one end of the second moving part 404, which is away from the second pressing part 405, is provided with a first unlocking limiting block 4042, and the gyro ejection device is further provided with a second unlocking limiting block 6, which can abut against the first unlocking limiting block 4042 to limit the movement of the gyro ejection device.

Therefore, when the second unlocking limiting block 6 abuts against the first unlocking limiting block 4042, the second moving member 404 cannot slide in the direction of the first unlocking limiting block 4042, so that the safety function is achieved, and until the second unlocking limiting block 6 is separated from the first unlocking limiting block 4042, the movement limitation of the first unlocking limiting block 4042 is removed, the second moving member 404 cannot be pressed by the second pressing member 405 to slide, so that the triggering operation is performed, and the probability of occurrence of false triggering is reduced.

Further, the second unlocking limit block 6 is provided on the ejector 201 of the ejector mechanism 2 triggered by the first moving member 401, and the first unlocking limit block 4042 is provided on the ejector 201 of the ejector mechanism 2 triggered by the second moving member 404.

Therefore, only when the ejection mechanism 2 triggered by the first moving member 401 is triggered and one of the gyros 5 is ejected, a condition can be provided for triggering the ejection mechanism 2 triggered by the second moving member 404, and the probability of false triggering is further reduced.

Of course, the second unlocking limiting block 6 can also be arranged on the ejection base 1 in a pluggable manner, so that the triggering action of the triggering mechanism 4 can be independent without the need of a sequential triggering sequence on the premise of achieving the purpose of safety.

The implementation process and the principle of the utility model are as follows:

firstly, resetting each trigger mechanism 4 in sequence, and loading the spinning top 5 on the clamping part 2011 of the ejection piece 201;

it should be noted that, due to the arrangement of the first unlocking limiting block 4042 and the second unlocking limiting block 6, the ejection piece 201 of the second unlocking limiting block 6 needs to be reset first, and then the ejection piece 201 of the first unlocking limiting block 4042 needs to be reset.

After the gyroscope 5 is loaded, the hand-held part 3011 is slid, the long gear 3021 is pushed and pulled to drive the driving gear 3022 to rotate, the linkage gear 3023 is driven to rotate, the secondary transmission gear group 3024 is driven to rotate, the loaded gyroscope 5 is subjected to rotary energy storage, and due to the arrangement of the linkage gear 3023, at least two gyroscopes 5 can be simultaneously subjected to rotary energy storage.

After energy storage is completed, when the spinning top 5 is ejected, firstly, the ejection mechanism 2 triggered and controlled by the first moving part is triggered, namely, the first pressing piece 402 is pressed to overcome the sliding of the pressing spring 4021, so that the pressing piece on the first pressing piece 402 is pressed against the first slope surface 4013 to drive the first moving piece 401 to move downwards, so that the first locking piece 4011 is separated from the first limiting block 2014 to be abutted, the ejection piece 201 of the ejection mechanism 2 is triggered, and then the spinning top 5 loaded on the ejection piece 201 is ejected out of the ejection base 1, so that the spinning top 5 is released;

then, the second unlocking limiting block 6 is separated from the first unlocking limiting block 4042 along with the movement of the first moving part 401, so that the second moving part 404 is in a movable and triggerable state, that is, the second pushing part 405 is pushed to overcome the second expansion spring 406 to slide, so that the second locking block 4041 is separated from the second limiting block 2015 to be abutted, the ejector 201 of the triggering mechanism 4 can be triggered, and then the spinning top 5 loaded on the ejector 201 is ejected out of the ejection base 1, so that the purpose of releasing another spinning top 5 is achieved.

In conclusion, the gyro ejecting device provided by the utility model solves the problem that a plurality of gyros 5 can be ejected in a short time only by reloading and storing energy, improves the ejecting efficiency of the gyros 5, and increases the interest of playing.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims (10)

1. A top ejection device, comprising:

the ejection base is used for loading at least two gyros;

the ejection mechanisms are arranged corresponding to the gyros, each ejection mechanism comprises an ejection piece arranged on the ejection base in a sliding mode and an ejection spring for driving the ejection piece, and the front end of each ejection piece is provided with a clamping portion used for clamping the corresponding gyro;

the driving mechanism is arranged on the ejection base and can be used for storing energy for at least two gyroscope rotations at the same time;

the trigger mechanism is arranged on the ejection base and used for triggering the ejection mechanism to eject the stored energy gyro out.

2. The top ejection device according to claim 1, wherein the driving mechanism comprises a driving box and a driving assembly disposed on the driving box, the driving assembly comprises a long gear, a driving gear, a linkage gear corresponding to each top, and a secondary transmission gear set, wherein the long gear passes through the driving box and is drivingly connected to the driving gear, all the linkage gears are drivingly connected to the driving gear, and the linkage gear, the secondary transmission gear set, and the corresponding tops are drivingly connected in sequence.

3. The top ejection device of claim 2, wherein the drive cartridge has a first slot therethrough, and wherein the elongated tooth member is slidably engaged within the first slot.

4. The top ejection device according to claim 3, wherein a handle is disposed on the long gear, and the handle is slidably disposed on the ejection base and is used for pushing and pulling the long gear to drive the driving gear to rotate through the handle and the long gear.

5. The top ejection device of claim 2, wherein the secondary transmission gear set comprises a sliding gear and a secondary transmission gear, the secondary transmission gear is used for being in driving connection with the corresponding top, a sliding groove is formed in the driving box, and the sliding gear is slidably arranged in the sliding groove so as to be in driving connection with or separated from the secondary transmission gear.

6. The gyroscopic ejection device of claim 1, wherein the triggering mechanism comprises a first moving member longitudinally slidably disposed on the ejection base and a first pressing member laterally slidably disposed on the ejection base, wherein a first stopper is disposed on a lower side of the ejection member of one of the ejection mechanisms, a first locking block matched with the first stopper is disposed on a top of the first moving member, and the first moving member is connected to the ejection base through a first extension spring disposed on a bottom of the first moving member; the ejection device comprises a first moving piece and a second moving piece, and is characterized in that a through hole is formed in the middle of the first moving piece, a first slope surface is arranged at the bottom of the through hole, one end of the first pressing piece penetrates through the through hole and is arranged on the ejection base through a pressing spring, and a top pressing block matched with the first slope surface of the through hole is arranged at the joint of the first pressing piece and the first moving piece.

7. The top ejection device of claim 6, wherein the first lock block further comprises a first reset inclined surface disposed toward the ejection direction of the ejection member.

8. The gyroscopic ejection device of claim 6, wherein the triggering mechanism comprises a second moving member horizontally and longitudinally slidably disposed on the ejection base and a second pressing member fixed to the second moving member and slidably disposed on the ejection base, a second stopper is disposed on an upper side of the ejection member of the other ejection mechanism, the second moving member is located above the ejection member, a second locking block engaged with the second stopper is disposed on a lower side of the second moving member, and a second extension spring connected to the ejection base is disposed on the second moving member.

9. The gyro ejection device according to claim 8, wherein a first unlocking limiting block is arranged at one end of the second moving member, which is far away from the second pressing member, and a second unlocking limiting block which can abut against the first unlocking limiting block to limit the movement of the gyro ejection device is further arranged on the gyro ejection device.

10. The gyroscopic ejection device of claim 9, wherein said second unlocking limit block is disposed on said ejector on said ejection mechanism triggered by said first moving member, and said first unlocking limit block is disposed on said ejector on said ejection mechanism triggered by said second moving member.

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