CN114307183B - Counting Control Track Toy - Google Patents

Abstract

The invention discloses a counting control track toy, which comprises an annular track, a counter and a counting trigger piece, wherein the counter is arranged on the annular track, the counting trigger piece is positioned in the annular track and can be touched by a walking toy walking in the annular track, the counting trigger piece is driven to count once by the counter after being touched once, the counting control track toy also comprises at least one action piece, a linkage mechanism is arranged between the at least one action piece and the counter, when the counter reaches the set number, the counter drives the linkage mechanism to unlock the action piece, and the action piece after the unlocking carries out the set action. The invention realizes the linkage playing method among the walking toy, the annular track and the action piece, and increases the functionality, playability and interactivity of the track toy.

Description

Counting control track toy

Technical Field

The invention relates to the technical field of toys, in particular to a counting control track toy.

Background

Most of the existing track toys are only used as props for walking and guiding toy vehicles, and various running paths can be assembled by utilizing the characteristics of the existing track toys, so that the playing fun of the toy vehicles is improved; it is further possible that some track toys may provide some obstacles or forks on the track for the purpose of racing through the track.

However, these existing tracks are relatively conventional in design, have poor functionality and playability of the track itself, and lack interactive play with the toy vehicle, which makes it difficult for the player to maintain long-lasting interest.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a counting control track toy with higher functionality, playability and interactivity.

The technical scheme of the invention provides a counting control track toy, which comprises an annular track, a counter and a counting trigger piece, wherein the counter is arranged on the annular track, the counting trigger piece is positioned in the annular track and can be touched by a walking toy walking in the annular track, the counting trigger piece is driven to count once by the counter when being touched once, the counting control track toy also comprises at least one action piece, a linkage mechanism is arranged between at least one action piece and the counter, and when the counter reaches a set number, the counter drives the linkage mechanism to unlock the action piece, and the action piece after unlocking executes a set action.

Further, the linkage mechanism comprises a locking piece, at least one action piece is locked on the annular track through the locking piece, the other end of the locking piece is connected with the counter, when the counter reaches the set number, the counter drives the locking piece to be far away from the action piece for unlocking, and the action piece after unlocking executes the set action.

Further, the counter can be movably arranged on the annular track in a stepping manner, the counter steps for a certain distance when the counting trigger piece is triggered once, meanwhile, the counter counts once, the locking piece correspondingly moves for a set distance until the locking piece just moves to a position which is separated from locking the action piece after the counter reaches a set number.

Further, the linkage mechanism comprises a locking piece and an unlocking piece, at least one action piece is locked on the annular track through the locking piece, two ends of the unlocking piece are respectively connected with the counter and the locking piece, when the counter reaches a set number, the counter drives the unlocking piece to unlock the locking piece, and after the locking piece is unlocked, the action piece executes a set action.

Further, the counter is rotatably arranged on the annular track, the counter rotates for a certain angle when the counting trigger piece is triggered once, the counter counts once, the unlocking piece correspondingly moves for a set distance until the counter reaches a set number, and the unlocking piece just moves to a position for pressing the locking piece to unlock.

Further, the counter comprises a countdown wheel, and when the countdown number is manually set, the countdown wheel rotates towards a first direction;

when the walking toy touches the counting trigger piece, the countdown wheel is driven to rotate in a second direction opposite to the first direction;

when the countdown wheel rotates towards a first direction, the countdown wheel drives the unlocking piece to move towards a direction away from the locking piece;

when the countdown wheel rotates towards the second direction, the countdown wheel drives the unlocking piece to move towards the direction of releasing the locking piece from locking the action piece.

Further, at least one of the moving parts comprises a catapulting part which can be connected to the annular track in a catapulting way, the counter is a counter with a manually designed number, the counting quantity of the counter is manually set, and when the trolley winds in the annular track to reach the value of the counting quantity, the counter drives the linkage mechanism to trigger the catapulting part to execute the catapulting action.

Further, the linkage mechanism comprises door opening control pieces, at least one action piece comprises an outlet door, an outlet is formed in the annular track, the outlet door is arranged at the outlet and is controlled to be opened or closed by the door opening control pieces, the counter is a counter with a manually designed number, when the number of the counter is manually set, and when the running toy turns in the annular track to reach the number of the counter, the counter drives the linkage mechanism to trigger the door opening control pieces to control the outlet door to be switched from a closed state to an open state, and the running toy can drive out of the annular track from the outlet.

Further, the linkage mechanism further comprises an unlocking piece, two ends of the unlocking piece are respectively connected with the counter and the door opening control piece, and when the number of times that the walking toy touches the counting triggering piece reaches the set number of the counter, the counter drives the unlocking piece to unlock the door opening control piece.

Further, the linkage mechanism comprises a door opening control member, the action member at least comprises an ejection member and an outlet door, the ejection member is connected to the annular track in an ejected manner, an outlet is formed in the annular track, the outlet door is arranged at the outlet and is controlled to be opened or closed by the door opening control member, the counter can be manually set for counting, and when the number of the counting is reached by the winding of the walking toy in the annular track, the counter drives the linkage mechanism to trigger the ejection member to execute the ejection action, and the linkage mechanism triggers the door opening control member to control the outlet door to be switched from the closed state to the open state.

Further, the linkage mechanism further comprises an unlocking piece and a locking piece, two ends of the unlocking piece are respectively connected with the counter and the door opening control piece, the ejection piece is locked on the annular track through the locking piece, when the number of times that the walking toy touches the counting triggering piece reaches the set number of the counter, the counter drives the unlocking piece to unlock the door opening control piece, and the door opening control piece is unlocked and then triggers the locking piece to unlock the ejection piece, so that the ejection piece is ejected.

After the technical scheme is adopted, the method has the following beneficial effects:

according to the invention, when the running toy turns in the annular track to reach the designed number of the counter, the counter drives the linkage mechanism to unlock the action piece, and after the action piece is unlocked, corresponding setting action is executed. The linkage playing method among the walking toy, the annular track and the action piece is realized, and the functionality, the playability and the interactivity of the track toy are increased.

Drawings

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

FIG. 1 is a perspective view of a digitally controlled track toy according to one embodiment of the present invention;

FIG. 2 is a schematic side view of a digitally controlled track toy according to one embodiment of the present invention;

FIG. 3 is a state diagram of the exit door of the digitally controlled track toy in another embodiment of the present invention;

FIG. 4 is a state diagram of an exit door of a digitally controlled track toy in accordance with another embodiment of the present invention;

FIG. 5 is a schematic diagram of the internal structure of a digitally controlled track toy according to one embodiment of the present invention;

FIG. 6 is a schematic diagram showing an internal structure of a counter according to an embodiment of the present invention;

FIG. 7 is a schematic diagram showing the internal structure of the counter and the counting trigger according to an embodiment of the invention;

FIG. 8 is an unlocked state diagram of an unlock member, door opening control member, and operating assembly in an embodiment of the present invention;

FIG. 9 is a diagram of the locked state of the release member, door opening control member and operating assembly in an embodiment of the present invention;

FIG. 10 is a schematic view of the ejection member, locking member, unlocking member, door opening control member and operating assembly in accordance with another embodiment of the present invention;

FIG. 11 is a diagram of the locked state of the locking member, unlocking member, door opening control member and operating assembly in another embodiment of the present invention;

FIG. 12 is an unlocked state view of the lock, unlock, door opening control and operating assembly in another embodiment of the present invention;

FIG. 13 is a schematic view of an unlocking member, a biasing member and a locking member in an embodiment of the present invention;

FIG. 14 is a schematic view of an unlocking member and locking member in yet another embodiment of the invention;

FIG. 15 is a schematic view of the internal structure of the door opening control member according to an embodiment of the present invention;

FIG. 16 is an enlarged view of a portion of the first shackle when locking the dial in accordance with an embodiment of the present invention;

FIG. 17 is an enlarged view of a portion of the second shackle and strike when unlocked in accordance with an embodiment of the present invention;

FIG. 18 is a state diagram of the touch panel according to an embodiment of the invention;

FIG. 19 is a view showing the touch side plate extending into the track surface in accordance with one embodiment of the present invention;

FIG. 20 is an enlarged view of a portion of the first shackle shown separated from the pulling member in an embodiment of the present invention;

FIG. 21 is an enlarged view of a portion of a second shackle locked with a dial according to an embodiment of the present invention;

fig. 22 is a partial enlarged view of the second latch hook separated from the pulling member according to an embodiment of the present invention.

Reference numeral control table:

count control track toy 10:

circular track 1: mounting base 11, track base 12, track surface 121, track side wall 122, entrance revolving door 13, entrance track 14, exit door 15, door axle 151;

a counter 2: a rotating shaft 21, a second gear 22, a countdown wheel 23, a third gear 24 and a ratchet 231;

counting trigger 3: a contact 31, a finger 32;

an ejector 4;

locking piece 5: an unlock key 51;

unlocking piece 6: a first arc-shaped rack 611;

a pressing piece 7;

operating assembly 8: a first gear 81, a first rack 82, a pressing bar 83;

door opening control member 9: the first lock hook 91, the pulling member 92, the lock lever 921, the pulling hook 922, the connecting rod 93, the unlocking spring 931, the second arc-shaped rack 932, the projection 933, the second hook 934, the second lock hook 94, the second convex portion 941, the elastic lock hook 95, the first hook 951, the touch side plate 96, the first convex portion 961;

Walking toy 20.

Detailed Description

Specific embodiments of the present invention will be further described below with reference to the accompanying drawings.

It is to be readily understood that, according to the technical solutions of the present invention, those skilled in the art may replace various structural modes and implementation modes with each other without changing the true spirit of the present invention. Accordingly, the following detailed description and drawings are merely illustrative of the invention and are not intended to be exhaustive or to limit the invention to the precise form disclosed.

Terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible to be mentioned in the present specification are defined with respect to the configurations shown in the drawings, which are relative concepts, and thus may be changed according to different positions and different use states thereof. These and other directional terms should not be construed as limiting terms.

In some embodiments of the present invention, as shown in fig. 1, a counting control track toy 10 includes a ring track 1, a counter 2, and a counting trigger 3, where the counter 2 is disposed on the ring track 1, the counting trigger 3 is located in the ring track 1 and can be touched by a walking toy 20 walking in the ring track 1, the counting trigger 3 drives the counter 2 to count once every time it is touched, and further includes at least one operation member, a linkage mechanism is disposed between the at least one operation member and the counter 2, and when the counter 2 reaches a set number, the counter 2 drives the linkage mechanism to unlock the operation member, and the unlocked operation member executes a set action.

Preferably, as shown in fig. 1, the circular track 1 is circular, the circular track 1 is an upright track, and the walking toy 20 can circularly slide around the track surface 121 inside the circular track 1.

Alternatively, the endless track 1 may be elliptical, or other irregular endless shape, and the endless track 1 may be laterally arranged, with the toy walking 20 sliding on the sliding track 1 in a lateral direction.

In one embodiment of the present invention, as shown in fig. 2, the annular track 1 includes a track base 12, wherein one surface of the track base 12 forms a track surface 121 for the running toy 20 to run, and track side walls 122 are provided on left and right sides of the track surface 121 in the length direction;

the counter 2 is arranged on the track base 12, and the unlocking piece 6 and the door opening control piece 9 are arranged inside the track base 12.

Specifically, the inner side surface of the track base 12 is a track surface 121, and the left and right sides of the track surface 121 are provided with track side walls 122, wherein the track side walls 122 are used for preventing the running toy 20 from falling out during the sliding process.

Alternatively, the track surface 121 may be provided on the outer side surface of the endless track 1, and the track surface 121 may be provided on the upper surface of the endless track 1 when the endless track 1 is laterally placed.

As shown in fig. 1-2, one end of the counting trigger 3 is connected with the counter 2, the other end extends into the inner side of the annular track 1, and when the walking toy 20 slides on the track surface 121 and passes the position of the counting trigger 3, the counting trigger 3 is touched once, and the counting trigger 3 drives the counter 2 to count once. After the walking toy 20 slides on the annular track 1 for a plurality of times in a winding way, the counter 2 is counted for a plurality of times until the counting amount of the counter 2 reaches a set value, the counter 2 unlocks the action piece through the linkage mechanism, and the action piece after unlocking executes the set action.

Alternatively, the operating member may perform a firing motion, or a rotating motion, or a motion moving in a straight line, or a jumping motion, or a lifting motion, or the like.

In some embodiments of the present invention, the linkage mechanism includes a locking element, at least one actuating element is locked on the annular track 1 by the locking element, the other end of the locking element is connected with the counter 2, and when the counter 2 reaches the set number, the counter 2 drives the locking element to unlock away from the actuating element, and the unlocked actuating element executes the set action.

For example: the action piece can be a launch rocket, the locking piece locks the launch rocket, and after the launch rocket is locked, the launch spring of the action piece stores energy. One end of the locking piece is connected with the launching rocket, the other end of the locking piece is connected with the counter 2, when the counter 2 reaches the designed number, the counter 2 drives the locking piece to unlock the launching rocket, and the launching rocket is launched under the action of the self launching spring, so that the launching action of the launching rocket is realized.

In some embodiments of the present invention, the counter 2 is movably disposed on the circular track 1 in a stepping manner, the counter 2 steps a certain distance when the trigger 3 is triggered once, and the counter 2 counts once, and the locking member correspondingly moves a set distance until the locking member just moves to a position that is out of locking with the action member when the counter 2 reaches a set number.

Alternatively, when the counter 2 reaches the set number, the counter 2 may trigger the locking member, so that the locking member unlocks or triggers the actuating member, so as to start executing the set action on the actuating member.

In other embodiments of the present invention, as shown in fig. 14, the linkage mechanism includes a locking member 5 and an unlocking member 6, at least one actuating member is locked on the annular track 1 by the locking member 5, two ends of the unlocking member 6 are respectively connected with the counter 2 and the locking member 5, when the counter 2 reaches a set number, the counter 2 drives the unlocking member 6 to unlock the locking member 5, and the actuating member performs a set action after the locking member 5 is unlocked.

Optionally, the counter 2 is rotatably disposed on the annular track 1, the counter 2 rotates by a certain angle when the counting trigger 3 is triggered once, the counter 2 counts once, the unlocking member 6 correspondingly moves by a set distance until the counter 2 reaches a set number, and the unlocking member 6 just moves to a position where the unlocking member 5 is pressed to unlock.

In some embodiments of the present invention, as shown in fig. 6, the counter 2 includes a countdown wheel 23, and when the countdown number is manually set, the countdown wheel 23 rotates in a first direction;

when the walking toy 20 touches the counting trigger piece 3, the countdown wheel 23 is driven to rotate towards a second direction opposite to the first direction;

When the countdown wheel rotates in the first direction, the countdown wheel 23 drives the unlocking piece 6 to move in a direction away from the locking piece 5;

when the countdown wheel rotates in the second direction, the countdown wheel 23 drives the unlocking member 6 to move towards the direction of unlocking the locking member 5 to the action member.

Specifically, when the countdown wheel 23 rotates around the center of the rotating shaft 21 and the countdown number is manually set, the countdown wheel 23 rotates in the counterclockwise direction in fig. 6, the countdown wheel 23 is provided with a counting scale, and the number currently displayed is the set countdown number. The walking toy 20 touches the counting trigger 3 once, and the counting trigger 3 drives the countdown wheel 23 to rotate clockwise by a scale value, so that the number currently displayed by the countdown wheel 23 is reduced by one number.

When the countdown wheel rotates in the first direction, the countdown wheel 23 drives the unlocking piece 6 to move in a direction away from the locking piece 5, and at the moment, the locking piece 5 keeps locking the action piece, and the action piece does not execute action;

when the countdown wheel rotates in the second direction, the countdown wheel 23 drives the unlocking piece 6 to move towards the direction of unlocking the locking piece 5 to lock the action piece until the countdown amount on the countdown wheel 23 is zero, the unlocking piece 6 just moves to the position of unlocking the locking piece 5 at the moment, the locking piece 5 releases the limit on the action piece, and the action piece starts to execute the set action.

Alternatively, the countdown wheel 23 may be manually toggled to rotate the countdown wheel 23 in the first direction. The countdown wheel 23 may also be mechanically driven, or electrically driven, by other means to rotate in the first direction.

In some embodiments of the present invention, as shown in fig. 10, at least one actuating element includes an ejector element 4, the ejector element 4 may be connected to the circular track 1 in an ejector manner, the counter 2 may be manually set to a number, and the counter 2 drives the linkage mechanism to trigger the ejector element 4 to perform the ejector action when the trolley turns around the circular track 1 to the number of the number by manually setting the count of the counter 2.

The ejection piece 4 can be in a rocket shape, an automobile shape, an airplane shape, a doll shape, a top or the like, the linkage mechanism triggers the ejection of the ejection piece 4, and after the ejection piece 4 is ejected, the ejection piece can fly for a certain distance towards the sky or is ejected to a game table surface for continuous playing.

In other embodiments of the present invention, as shown in fig. 3-5, the linkage mechanism includes a door opening control member 9, at least one action member includes an outlet door 15, an outlet door 15 is provided on the circular track 1, the outlet door 15 is provided at the outlet, and is controlled to be opened or closed by the door opening control member 9, the counter 2 can be manually set to a number, and when the running toy 20 turns around the circular track 1 to reach the number counted by the counter 2, the counter 2 drives the linkage mechanism to trigger the door opening control member 9 to control the outlet door 15 to switch from a closed state to an open state, and the running toy 20 can be driven out of the circular track 1 from the outlet.

The running toy 20 may be a toy car, and circulates around the track surface 121 to slide, when the running toy 20 turns around the annular track 1 to reach a counting value, the counter 2 drives the linkage mechanism to trigger the door opening control member 9 to control the outlet door 15 to switch from the closed state to the open state, and the running toy 20 can be driven out of the annular track 1 from the outlet.

Optionally, the exit of the annular track 1 may be connected with another track, or another counting control track toy, and after the walking toy 20 exits from one counting control track toy, the walking toy can enter the next track toy to continue playing, and different track toys may be combined arbitrarily, so as to increase the challenges, interestingness and playability.

Alternatively, as shown in fig. 2, the annular rail 1 may further include an entrance revolving door 13, an entrance is formed on the annular rail 1, the entrance revolving door 13 is rotatably mounted on the entrance, the entrance revolving door 13 forms a part of a track surface of the annular rail 1, and the entrance revolving door 13 is located adjacent to the exit door 15.

In this embodiment, the entrance revolving door 13 can be opened toward the inside of the endless track 1, and the walking toy 20 pushes the entrance revolving door 13 away from the outside of the endless track 1, and then enters the track surface 121 on the inside of the endless track 1. When the walking toy 20 slides on the track surface 121, a force directed outward is applied to the entrance revolving door 13, and at this time, the entrance revolving door 13 is not rotated, and the entrance revolving door 13 remains as a part of the track surface of the endless track 1. The entrance revolving door 13 may be closed under the action of its own weight, or the entrance revolving door 13 may be closed when the walking toy 20 passes the entrance revolving door 13.

In some embodiments of the present invention, as shown in fig. 2, the endless track 1 further includes an entrance track 14, the entrance track 14 is abutted with the entrance, the entrance revolving door 13 is turned open toward the inside of the endless track 1 when the walking toy 20 slides from the entrance track 14 to the entrance, the walking toy 20 enters onto the track surface, and the entrance revolving door 13 is closed when the walking toy 20 then slides on the track surface 121.

Specifically, the inlet track 14 is a section of circumscribed track, and the inlet track 14 may be a straight track, a curved track, or an arc track. The entrance track 14 guides the walking toy 20 into the entrance, the walking toy 20 collides with the entrance revolving door 13 to enter the track surface 121 on the inner side of the annular track 1, and after the entrance revolving door 13 is closed, the walking toy 20 can only slide around the track surface 121 of the annular track 1 for a plurality of times, so that the ejection piece 4 is launched.

Alternatively, the entrance track 14 and the entrance revolving door 13 may not be provided, and the walking toy 20 may be directly placed on the track surface 121 of the endless track 1 and slid.

In some embodiments of the present invention, as shown in fig. 5, the linkage mechanism further includes an unlocking member 6, two ends of the unlocking member 6 are respectively connected with the counter 2 and the door opening control member 9, and when the number of times that the walking toy 20 touches the counting trigger member 3 reaches the set number of the counter 2, the counter 2 drives the unlocking member 6 to unlock the door opening control member 9.

In other embodiments of the present invention, the linkage mechanism includes a door opening control member 9, the action member includes at least an ejection member 4 and an outlet door 15, the ejection member 4 is connected to the annular track 1 in an ejecting manner, the annular track 1 is provided with an outlet, the outlet door 15 is arranged at the outlet and is controlled to be opened or closed by the door opening control member 9, the counter 2 can be manually set to a number, the counter 2 can manually set the count of the counter 2, when the running toy 20 turns around in the annular track 1 to reach the count value, the counter 2 drives the linkage mechanism to trigger the ejection member 4 to execute the ejection action, and the linkage mechanism triggers the door opening control member 9 to control the outlet door 15 to switch from the closed state to the open state.

In this embodiment, the linkage mechanism triggers the ejector 4 and also triggers the door opening control member 9 to control the outlet door 15.

In still other embodiments of the present invention, as shown in fig. 10, the linkage mechanism further includes an unlocking member 6 and a locking member 5, two ends of the unlocking member 6 are respectively connected with the counter 2 and the door opening control member 9, the ejection member 4 is locked on the annular track 1 through the locking member 5, when the number of times that the running toy 20 touches the counting triggering member 3 reaches the designed number of the counter 2, the counter 2 drives the unlocking member 6 to unlock the door opening control member 9, and the locking member 5 is triggered to unlock the ejection member 4 after the door opening control member 9 is unlocked, so that the ejection member is ejected.

When the counter 2 reaches the set number, the unlocking piece 6 drives the door opening control piece 9, the door opening control piece 9 drives the locking piece 5 to unlock, and meanwhile, the outlet door 15 is controlled to be switched from the closed state to the open state, so that after the ejection piece 4 is ejected, the walking toy 20 also slides out of the annular track 1 from the outlet door 15.

Alternatively, the counter 2 may also be linearly moved, and each time the counter is triggered to move a certain distance, the unlocking member 6 is driven to move a set distance, and when the counter 2 reaches a set number, the unlocking member 6 drives the door opening control member 9.

The following illustrate several preferred embodiments of the invention:

embodiment one:

as shown in fig. 1, the counting track toy 10 comprises an annular track 1, a counter 2 and a counting trigger piece 3, wherein the counter 2 is arranged on the annular track 1, the counting trigger piece 3 is positioned in the annular track 1 and can be touched by a walking toy 20 walking in the annular track 1, the counting trigger piece 3 drives the counter 2 to count once when touched once, the counting track toy further comprises a catapulting piece 4, a locking piece 5 and an unlocking piece 6, the catapulting piece 4 can be connected to the annular track 1 in a catapulting way and is locked through the locking piece 5, the unlocking piece 6 is linked with the counter 2 and the locking piece 5, when the walking toy 20 winds in the annular track 1 to reach the set number of the counter 2, the counter 2 drives the unlocking piece 6 to unlock the locking piece 5, and after the locking piece 5 is unlocked, the catapulting piece 4 is catapulting out.

The linkage mechanism comprises a locking piece 5 and an unlocking piece 6, and the action piece is an ejection piece 4.

Specifically, as shown in fig. 1, the endless track 1 is circular, the endless track 1 is an erected track, and the running toy 20 can circulate and slide on a track surface inside the endless track 1.

As shown in fig. 1, one end of the counting trigger 3 extends into the inner side of the annular track 1, and when the walking toy 20 passes through the counting trigger 3 once, the counting trigger 3 is touched once, and the counting trigger 3 drives the counter 2 to count once.

The counter 2 is arranged on the annular track 1, the counter 2 is linked with the unlocking piece 6, and when the count of the counter 2 reaches the set number, the counter 2 drives the unlocking piece 6 to move.

One end of the unlocking member 6 is connected to the counter 2, and the other end of the unlocking member 6 is connected to the locking member 5 as shown in fig. 14. After the ejector 4 is connected with the locking member 5, the locking member 5 locks the ejector 4, and the ejector 4 keeps a tendency to be ready for ejection. At this time, the unlocking member 6 does not act on the locking member 5.

When the counter 2 drives the unlocking piece 6 to move, the unlocking piece 6 unlocks the locking piece 5, and the ejection piece 4 is ejected after the locking piece 5 is unlocked.

According to the embodiment, the running toy 20 slides on the annular track 1, the counting trigger piece 3 is triggered, the counter 2 is driven to count by the counting trigger piece 3, when the counting reaches the set number, the counter 2 drives the unlocking piece 6 to unlock the locking piece 5, and finally ejection of the ejection piece 4 is realized. In this embodiment, when the walking toy 20 plays on the counting rail toy 10, the counting rail toy 10 is triggered, so that the counting rail toy 10 has more functions and playability, and the walking toy 20 and the counting rail toy 10 have interactivity, so that a player has more durable interest in the counting rail toy 10.

In this embodiment, the walking toy 20 is a toy car, and the ejection member 4 is a rocket shape. Alternatively, the walking toy 20 may be a toy plane, a toy ball, or the like capable of sliding on the endless track 1, and the ejection member 4 may be a cartoon character, an animal model, a dolly model, or the like.

In this embodiment, as shown in fig. 2, a mounting seat 11 for connecting the ejector 4 is provided on the annular track 1, the locking member 5 is provided on the mounting seat 11, and the locking member 5 includes a locking spring (not shown) to make it always tend to be in a locked state, and the locking member 5 locks the ejector 4 after the ejector 4 is connected to the mounting seat 11.

Specifically, as shown in fig. 2, the mounting seat 11 is located at the top of the annular track 1, the mounting seat 11 is used for mounting the locking piece 5, and is convenient for connecting the ejection piece 4 with the locking piece 5, and in addition, the other end of the unlocking piece 6 also extends into the mounting seat 11 and is used for unlocking the locking piece 5.

When the unlocking member 6 does not act on the locking member 5, the locking member 5 is kept in the locked state by the locking spring. The ejector 4 is locked by the locking piece 5 after being inserted into the locking piece 5. The ejection member 4 itself carries an ejection spring (not shown) which stores energy when the ejection member 4 is locked with the locking member 5. After the locking piece 5 is unlocked, the ejection piece 4 is released, and the ejection piece 4 is ejected under the action of the ejection spring.

Alternatively, the mounting 11 may be located at other positions of the circular track 1, for example: the mounting 11 may be located at the upper left or upper right of the endless track 1 when the endless track 1 is placed upright. When the circular rail 1 is placed transversely, the mounting seat 11 can be positioned at any position of the circular rail 1 and emit towards different directions. The number of the mounting seats 11 on the annular track 1 can be one or more than two, and the corresponding number of the counter 2, the counter trigger piece 3, the unlocking piece 6, the locking piece 5 and the ejection piece 4 can also be correspondingly arranged, so that the playing method of sequentially transmitting a plurality of ejection pieces 4 is realized.

In a modification of this embodiment, as shown in fig. 13, a pressing member 7 is disposed between the unlocking member 6 and the locking member 5, the pressing member 7 is movably connected to the annular track 1, and when the unlocking member 6 performs the unlocking action, the pressing member 7 is driven to press against the locking member 5, so that the locking member 5 overcomes the elasticity of the locking spring and moves to the unlocking state.

Specifically, the propping piece 7 is installed in the installation seat 11, the propping piece 7 is rotationally connected with the installation seat 11, and a torsion spring is arranged at the rotation position of the propping piece 7.

In the locked state, the unlocking key 51 of the locking member 5 protrudes toward the pressing member 7, and the pressing member 7 and the locking member 5 are not in action.

As shown in fig. 13, in the unlocking state, the unlocking member 6 drives the pressing member 7 to rotate, so that the pressing member 7 presses the unlocking key 51, and the unlocking key 51 is retracted into the housing of the locking member 5, thereby unlocking the locking member 5. When the pressing piece 7 rotates, the torsion spring stores energy. When the unlocking member 6 does not act on the pressing member 7, the pressing member 7 is returned to a position where it does not act on the locking member 5 by the torsion spring.

In the present embodiment, as shown in fig. 6, the counter 2 is rotatably connected to the endless track 1 via a rotation shaft 21;

when the number is set, the counter 2 is manually shifted to rotate towards the first direction;

when the walking toy 20 touches the counting trigger piece 3, the counter 2 is driven to rotate towards a second direction opposite to the first direction;

when the counter 2 rotates in the first direction, the counter 2 drives the unlocking piece 6 to move in a direction away from the locking piece 5;

when the counter 2 rotates in the second direction, the counter 2 drives the unlocking member 6 to move in a direction approaching the locking member 5.

Specifically, as shown in fig. 6, when the number is set, the player manually dials the counter 2 to rotate along the first direction (counterclockwise direction in fig. 6), and the counter 2 drives the unlocking member 6 to be far away from the locking member 5;

when the walking toy 20 slides on the annular track 1, the counting trigger piece 3 is touched once, the counter 2 is driven to rotate towards the second direction (clockwise direction in fig. 6), and the counter 2 drives the unlocking piece 6 to move towards the direction approaching to the locking piece 5, so that the unlocking of the locking piece 5 is realized.

Therefore, when the count amount is set, the distance between the unlocking piece 6 and the locking piece 5 is set; when the number of touches of the walking toy 20 reaches the set number, the unlocking piece 6 just moves to a position acting on the locking piece 5, thereby unlocking the locking piece 5.

Further, as shown in fig. 6, a gear is coaxially connected to the rotating shaft 21 of the counter 2, and a rack is disposed at the connection position of the unlocking member 6 corresponding to the counter 2, where the rack is in transmission with the gear.

Specifically, as shown in fig. 6, the second gear 22 is coaxially connected to the rotating shaft 21 of the counter 2, the second gear 22 is meshed with the third gear 24, and the third gear 24 is meshed with the first arc-shaped rack 611 of the first unlocking portion 61.

When the counter 2 rotates, the second gear 22 is driven to rotate synchronously, the second gear 22 drives the third gear 24 to rotate, and the third gear 24 drives the first arc-shaped rack 611 to move.

Further, as shown in fig. 7, the counter 2 further includes a countdown wheel 23, the countdown wheel 23 rotates around the rotating shaft 21, a plurality of ratchets 231 are arranged on the side wall of the countdown wheel 23, and the counting trigger 3 includes a contact piece 31 and a pusher dog 32;

when the counter 2 is rotated in the first direction, the ratchet 231 does not act with the pawl 32;

when the sliding toy touches the contact piece 31 once, the contact piece 31 drives the pusher dog 32 to contact with the ratchet 231 and pushes the countdown wheel 23 to rotate one frame towards the second direction.

Specifically, the player manually dials the countdown wheel 23 of the counter 2 in a first direction, at which time the pawl 32 is disengaged from the ratchet teeth 231, or does not interact.

When the walking toy 20 slides over the contact piece 31, the contact piece 31 is pressed downwards, the contact piece 31 drives the pusher dog 32 to move upwards, the pusher dog 32 is in contact with the ratchet teeth 231, the ratchet teeth 231 are pushed, the countdown wheel 23 rotates one lattice towards the second direction, the plurality of ratchet teeth 231 are continuously arranged along the circumferential direction of the countdown wheel 23, the pusher dog 32 corresponds to one ratchet tooth 231 at a time, and each time the countdown wheel 23 rotates one lattice corresponds to one counting of the counter 2.

The invention realizes the linkage playing method of the walking toy 20 and the counting control track toy 10, triggers the launching of the ejection piece 4 after the walking toy 20 winds to a set number on the annular track 1, increases the functionality, interactivity and playability of the counting control track toy 10, promotes the interest of players in the toy, and can play for a long time.

Embodiment two:

as shown in fig. 3-5, the track toy 10 comprises an annular track 1, a counter 2 and a counting trigger piece 3, wherein the counter 2 is arranged on the annular track 1, the counting trigger piece 3 is positioned in the annular track 1 and can be touched by a walking toy 20 walking in the annular track 1, the counter trigger piece 3 is driven to count once by touching the counter 2 every time, the track toy further comprises an outlet door 15, a door opening control piece 9 and an unlocking piece 6, the annular track 1 is provided with an outlet, the outlet door 15 is arranged at the outlet, the outlet door 15 is controlled to be opened or closed by the door opening control piece 9, two ends of the unlocking piece 6 are respectively connected with the counter 2 and the door opening control piece 9, when the number of times that the walking toy 20 touches the counting trigger piece 3 reaches the set number of the counter 2, the counter 2 drives the unlocking piece 6 to unlock the door opening control piece 9, the outlet door 15 is controlled to be switched from a closed state to an open state after the door opening control piece 9 is unlocked, and the walking toy 20 can be driven out of the annular track 1 from the outlet.

Wherein the linkage mechanism is an unlocking piece 6, and the operating piece is an outlet door 15.

Specifically, as shown in fig. 3, the endless track 1 is circular, the endless track 1 is an erected track, and the running toy 20 can circulate and slide on the track surface 121 inside the endless track 1.

Alternatively, the endless track 1 may be elliptical, or other irregular endless shape, and the endless track 1 may be laterally arranged, with the toy walking 20 sliding on the sliding track 1 in a lateral direction.

In this embodiment, as shown in fig. 3, the annular track 1 includes a track base 12, one surface of the track base 12 forms a track surface 121 on which the running toy 20 runs, and track side walls 122 are provided on left and right sides in the length direction of the track surface;

the counter 2 is arranged on the track base 12, and the unlocking piece 6 and the door opening control piece 9 are arranged inside the track base 12.

Specifically, the inner side surface of the track base 12 is a track surface 121, and the left and right sides of the track surface 121 are provided with track side walls 122, wherein the track side walls 122 are used for preventing the running toy 20 from falling out during the sliding process.

Alternatively, the track surface 121 may be provided on the outer side surface of the endless track 1, and the track surface 121 may be provided on the upper surface of the endless track 1 when the endless track 1 is laterally placed.

As shown in fig. 5, the exit door 15 is provided on the exit of the endless track 1, and when the exit door 15 is closed, the exit door 15 can constitute a part of the track surface 121 of the endless track 1, constituting a closed endless track surface 121, so that the running toy 20 can circulate around the track surface 121.

As shown in fig. 5, one end of the counting trigger 3 extends into the inner side of the annular track 1, and when the walking toy 20 passes through the counting trigger 3 once, the counting trigger 3 is touched once, and the counting trigger 3 drives the counter 2 to count once.

The counter 2 is arranged on the annular track 1, the counter 2 is linked with one end of the unlocking piece 6, and when the count of the counter 2 reaches the designed number, the counter 2 drives the unlocking piece 6 to move. Since the other end of the unlocking member 6 is connected to the door opening control member 9, the unlocking member 6 unlocks the door opening control member 9, and after unlocking the door opening control member 9, the outlet door 15 is controlled to switch from the closed state to the open state.

As shown in fig. 4, the exit door 15 is opened by the unlocking member 6 and the door opening control member 9, and the running toy 20 running on the track surface 121 can be ejected from the exit.

Alternatively, after the door opening control member 9 is unlocked, the door opening control member 9 can drive the outlet door 15 to move to the open state, or the door opening control member 9 is separated from the outlet door 15, and the outlet door 15 is switched to the open state under the action of self weight.

In this embodiment, when the running toy 20 turns around the annular track 1 to reach the designed number of the counter 2, the counter 2 drives the unlocking member 6 to unlock the door opening control member 9, and after the door opening control member 9 is unlocked, the exit door 15 is controlled to switch from the closed state to the open state, so that the running toy 20 can be driven out of the annular track 1 from the exit. The linkage playing method is realized between the walking toy and the ring body track, and the functionality, playability and interactivity of the track toy are increased.

In this embodiment, walking toy 20 is a toy car. Alternatively, walking toy 20 may be a toy aircraft, a toy ball, or the like capable of sliding on endless track 1.

Alternatively, the outlet door 15 is slidably connected to the circular track 1 along the arc surface of the circular track 1, and the door opening control member 9 is driven by the unlocking member 6 to control the outlet door 15 to slide to an open state.

In this embodiment, as shown in fig. 5, one end of the exit door 15 is connected to the circular track 1 through a door shaft 151, and the other end extends in the opposite direction of the traveling toy 20 to form an arc door panel matching the arc of the circular track 1, and the door opening control member 9 is disposed in the circular track 1 near the door shaft 151 to control the rotational opening and closing of the exit door 15.

Specifically, the walking toy 20 slides in the clockwise direction of the endless track 1, and the other end of the exit door 15 extends in the counterclockwise direction. When the exit door 15 is rotated upward about the door shaft 151 and opened, the walk toy 20 can be driven out from the opened exit.

When the outlet door 15 is closed, the outlet door 15 and the track surface 121 of the annular track 1 are spliced into a circle of closed annular surface, the radian of the outlet door 15 is matched with the radian of the track surface 121, so that the walking toy 20 can circularly slide around the closed annular surface, the counting trigger piece 3 is triggered for multiple times, the outlet door 15 is opened after the set number of the counter 2 is reached, and the walking toy 20 is driven out from the outlet.

In this embodiment, as shown in fig. 15 to 16, the door opening control member 9 includes a first lock hook 91, a pulling member 92, and a connecting rod 93, one end of the connecting rod 93 is connected to the first lock hook 91 and the pulling member 92, and the other end is connected to the unlocking member 6; the pulling member 92 is connected with the outlet door 15, the first locking hook 91 is used for locking the pulling member 92 to enable the outlet door 15 to be in a closed state, and the connecting rod 93 pushes the first locking hook 91 to unlock the pulling member 92 under the unlocking action of the unlocking member 6, and the pulling member 92 drives the outlet door 15 to be switched from the closed state to the open state.

Specifically, the unlocking member 6 and the door opening control member 9 are both installed inside the circular track 1. Wherein, unlocking piece 6 is the arc pole, and both ends are connected with counter 2 and connecting rod 93 respectively. The connecting rod 93 is also an arc-shaped rod, one end of the connecting rod 93 is connected with the first lock hook 91 and the pulling member 92, and the other end is connected with the unlocking member 6.

As shown in fig. 16, the first lock hook 91 is located at the lower end of the connecting rod 93, the first lock hook 91 is rotatably connected with the annular track 1, and a torsion spring is disposed at the rotation position of the first lock hook 91, so that the first lock hook 91 always tends to be locked with the shifting member 92.

As shown in fig. 16, the locking lever 921 is provided on the pulling member 92, after the first locking hook 91 and the locking lever 921 are locked, the pulling member 92 is kept in a locked state, the pulling hook 922 extends from the lower end of the pulling member 92, one end of the outlet door 15 is locked in the pulling hook 922, and when the pulling member 92 is locked, the outlet door 15 is kept in a closed state.

When the connecting rod 93 moves along the lower side of fig. 5 under the action of the unlocking member 6, the connecting rod 93 pushes the first latch hook 91 to rotate downwards, so that the first latch hook 91 is separated from the latch rod 921, and a torsion spring is also arranged at the rotating position of the shifting member 92, so that the shifting member 92 has a tendency to rotate downwards, and after the shifting member 92 is unlocked, the shifting member rotates downwards and drives the outlet door 15 to switch to an open state.

In this embodiment, as shown in fig. 15 to 22, the door opening control member 9 further includes a side control assembly, the side control assembly includes a touch side plate 96 and a second latch hook 94, the second latch hook 94 locks the pulling member 92 after the first latch hook 91 releases the pulling member 92, and the touch side plate 96 extends to the track surface 121 of the circular track 1;

when the walking toy 20 runs to the track surface 121 where the touch side plate 96 is located, the walking toy 20 bumps the touch side plate 96 to enable the touch side plate 96 to turn over, the touch side plate 96 drives the second lock hook 94 to unlock the shifting piece 92, and the shifting piece 92 drives the outlet door 15 to switch from the closed state to the open state.

Specifically, as shown in fig. 15, there are two touching side plates 96, and there are two second lock hooks 94, which are respectively located on the left and right sides of the first lock hook 91, and are coaxially arranged with the first lock hook 91.

As shown in fig. 18, when the link 93 moves upward and is locked with the unlocking member 6, the link 93 drives the two touching side plates 96 to turn over and open to both sides, and the walking toy 20 can smoothly slide between the two touching side plates 96 when passing the track surface 121. As shown in fig. 17, the touching side plate 96 drives the second latch hook 94 to rotate upwards, so that the second latch hook 94 and the latch lever 921 of the pulling member 92 are not latch hooks.

As shown in fig. 20, when the link 93 is unlocked from the unlocking member 6, the link 93 moves downward, and the protrusion 933 of the link 93 pushes the first latch hook 91 to be separated from the dial 92. Meanwhile, the link 93 is separated from the touch side plate 96, and the touch side plate 96 is turned down to the inside under its own weight (see fig. 8), forming an obstacle to the travel path of the walking toy 20. As shown in fig. 10, after the touch side plate 96 is turned down, it is separated from the second latch hook 94, and the second latch hook 94 is turned down under the action of its own torsion spring and then is latched with the latch lever 921 of the pulling member 92, so that the pulling member 92 is kept in a locked state, and at this time, the pulling member 92 is still kept in a state of closing the outlet door 15.

As shown in fig. 22, when the walking toy 20 travels to the track surface 121 where the touching side plates 96 are located, the walking toy 20 will strike against the touching side plates 96 and strike the two touching side plates 96 upward, the first protrusion 961 of the touching side plate 96 lifts up the second protrusion 941 of the second latch hook 94, driving the second latch hook 94 to flip up and separate from the pulling member 92, the pulling member 92 flip down under the action of its torsion spring, and the pulling hook 922 drives the outlet door 15 to flip up and open, thereby opening the outlet.

The side control assembly is provided to prevent the running toy 20 from opening the exit door 15 after the last time the running toy 20 touches the counting trigger 3, and the distance between the running toy 20 and the exit door 15 is short from touching the counting trigger 3, so that the situation that the running toy 20 hits the opening exit door 15 or the possibility that the running toy 20 is turned upside down by the opening exit door 15 easily occurs.

Alternatively, when the outlet door 15 is spaced from the count trigger 3 by a sufficient distance so that the outlet door 15 has enough time to open, the side control assembly may not be provided, and the outlet door 15 is opened immediately after the first latch hook 91 unlocks the dial 92.

In this embodiment, as shown in fig. 8-9, an elastic latch hook 95 is disposed between the unlocking member 6 and the connecting rod 93, an unlocking spring 931 is disposed on the connecting rod 93, and the elastic latch hook 95 includes a locked state and an unlocked state:

when in a locking state, the elastic lock hook 95 locks the connecting rod 93, and the unlocking spring 931 is in an energy storage state;

in the unlocking state, the unlocking piece 6 pushes the elastic locking hook 95, so that the elastic locking hook 95 unlocks the connecting rod 93, and the unlocking spring 931 can drive the connecting rod 93 to push the first locking hook 91 to unlock the shifting piece 92.

Specifically, as shown in fig. 9, an elastic latch hook 95 is installed inside the circular track 1 and rotatably connected, and a torsion spring is provided at a rotation position of the elastic latch hook 95, so that the elastic latch hook 95 has a state in which it tends to lock the link 93. The first hook 951 is disposed at one end of the elastic latch hook 95, the second hook 934 is correspondingly disposed on the connecting rod 93, the first hook 951 hooks the second hook 934, the locking state of the connecting rod 93 is maintained, the lower end (i.e. the end connected with the first latch hook 91) of the connecting rod 93 moves upwards, at this time, the unlocking spring 931 stores energy, and the unlocking member 6 is separated from the elastic latch hook 95.

As shown in fig. 8, when the unlocking member 6 moves toward the direction of the elastic latch hook 95 and pushes the elastic latch hook 95 to rotate clockwise, the first hook portion 951 of the elastic latch hook 95 is separated from the second hook portion 934 of the link 93, the link 93 is separated from the elastic latch hook 95 by the unlocking spring 931, and the lower end of the link 93 moves downward, so that the link 93 pushes the first latch hook 91 to release the locking of the dial 92.

Alternatively, the elastic latch hook 95 may not be provided, and the unlocking member 6 directly acts on the link 93 to lock and unlock the link 93.

Further, the operation assembly 8 includes a driving part connected to the link 93 and used for driving the link 93 to move, and an operation part extending to the outside of the circular track 1, and the link 93 can be moved to a position locked with the elastic lock hook 95 by operating the operation part.

Specifically, as shown in fig. 8-9, the operation assembly 8 includes a first gear 81, a first rack 82 and a pressing rod 83, wherein the first gear 91 is a driving part, a second arc rack 932 is arranged on the connecting rod 93, the first gear 81 is meshed with the second arc rack 932, meanwhile, the first gear 81 is meshed with the first rack 82, the pressing rod 83 is an operation part, and the pressing rod 83 is installed above the first rack 82;

As shown in fig. 8, the link 93 moves toward the right side of fig. 8 under the action of the unlocking spring 931, the second arc-shaped rack 932 drives the first gear 81 to rotate in the forward direction (counterclockwise direction in fig. 8), and the first gear 81 drives the first rack 82 to move upward;

as shown in fig. 9, when the pressing rod 83 is pushed downward, the pressing rod 83 and the first rack 82 are moved downward, the first rack 82 drives the first gear 81 to rotate reversely (clockwise in fig. 9), and the first gear 81 drives the second arc rack 932 to move towards the direction of the elastic latch hook 95 and lock with the elastic latch hook 95, so that the connecting rod 93 can be driven to return to the position locked with the elastic latch hook 95 by the operating component 8.

Alternatively, the operation of the pressing lever 83 may be performed manually by a player, or the pressing down of the pressing lever 83 may be performed by another operation member.

The invention realizes the linkage playing method of the walking toy 20 and the counting control track toy 10, and triggers the opening of the exit door 15 after the walking toy 20 turns on the annular track 1 to a set number, so that the walking toy 20 finishes sliding on the annular track 1 and slides out of the exit door 15, the functionality, interactivity and playability of the counting control track toy 10 are increased, the interest of players on the toy is promoted, and the toy can be played for a long time.

Embodiment III:

as shown in fig. 5 and 10, the linkage mechanism comprises an unlocking member 6, a locking member 5 and a door opening control member 9, the action member comprises an ejection member 4 and an outlet door 15, the ejection member 4 is connected to the annular track 1 in an ejection manner, the annular track 1 is provided with an outlet, the outlet door 15 is arranged at the outlet and is controlled to be opened or closed by the door opening control member 9, the counter 2 is a counter with a designed number, the counter 2 is set by people, when the number of windings of the walking toy 20 in the annular track 1 reaches the number value, the counter 2 drives the linkage mechanism to trigger the ejection member 4 to execute the ejection action, and the linkage mechanism triggers the door opening control member 9 to control the outlet door 15 to switch from the closed state to the open state.

Specifically, the two ends of the unlocking piece 6 are respectively connected with the counter 2 and the door opening control piece 9, the ejection piece 4 is locked on the annular track 1 through the locking piece 5, when the number of times that the running toy 20 touches the counting triggering piece 3 reaches the designed number of the counter 2, the counter 2 drives the unlocking piece 6 to unlock the door opening control piece 9, and the locking piece 5 is triggered to unlock the ejection piece 4 after the door opening control piece 9 is unlocked, so that the ejection piece 4 is ejected.

Further, when the counter 2 reaches the designed number, the unlocking piece 6 drives the door opening control piece 9, the door opening control piece 9 drives the locking piece 5 to unlock, and meanwhile, the outlet door 15 is controlled to be switched from the closed state to the open state, so that after the ejection piece 4 is ejected, the walking toy 20 also slides out of the annular track 1 from the outlet door 15.

In this embodiment, as shown in fig. 11-12, the other end of the unlocking member 6 is linked with one end of the elastic latch hook 95, the other end of the elastic latch hook 95 is linked with the connecting rod 93, and the connecting rod 93 is linked with the pressing member 7;

in the locking state, the unlocking piece 6 and the elastic locking hook 95 do not act, and the elastic locking hook 95 and the connecting rod 93 are locked;

in the unlocking state, the unlocking piece 6 drives the elastic lock hook 95 to rotate, so that the elastic lock hook 95 is separated from the connecting rod 93, and the connecting rod 93 drives the pressing piece 7 under the action of the self unlocking spring 931, so that the pressing piece 7 abuts against the locking piece 5.

Specifically, as shown in fig. 11, in the locked state, the unlocking member 6 and the elastic lock hook 95 do not act, the elastic lock hook 95 rotates to a state locked with the link 93 under the action of the torsion spring, and the first hook portion 951 at the right end of the elastic lock hook 95 is hooked with the second hook portion 934 of the link 93. The connecting rod 93 does not act on the presser 7 at this time.

As shown in fig. 12, in the unlocked state, the unlocking member 6 moves toward the direction of the elastic latch hook 95 and pushes the left end of the elastic latch hook 95 so that the elastic latch hook 95 rotates clockwise, and the first hook portion 951 of the elastic latch hook 95 is separated from the second hook portion 934 of the link 93. The self-unlocking spring 931 (see fig. 10) of the link 93 drives the link 93 at this time to toggle the pressing piece 7 so that the pressing piece 7 rotates toward the lock piece 5 and abuts against the lock piece 5.

Meanwhile, the connecting rod 93 moves towards the directions of the first lock hook 91, the second lock hook 94 and the pulling member 92 under the driving of the unlocking spring 931, and is used for driving the first lock hook 91 to unlock the pulling member 92, simultaneously triggering the second lock hook 94 to lock the pulling member 92, and driving the two touching side plates 96 to extend towards the track surface 121, so as to prepare for opening the outlet door 15.

In this embodiment, as shown in fig. 11-12, the device further includes an operation assembly 8, where the operation assembly 8 includes a first gear 81, a first rack 82 and a pressing rod 83, where the first gear 91 is a driving part, a second arc rack 932 is disposed on the connecting rod 93, the first gear 81 is meshed with the second arc rack 932, and meanwhile, the first gear 81 is meshed with the first rack 82, the pressing rod 83 is an operation part, and the pressing rod 83 is installed above the first rack 82;

as shown in fig. 12, the link 93 moves toward the right side of fig. 12 under the action of the unlocking spring 931, the second arc-shaped rack 932 drives the first gear 81 to rotate in the forward direction (counterclockwise direction in fig. 12), and the first gear 81 drives the first rack 82 to move upward;

as shown in fig. 11, when the pressing rod 83 is pushed downward, the pressing rod 83 and the first rack 82 are moved downward, the first rack 82 drives the first gear 81 to rotate reversely (clockwise in fig. 11), and the first gear 81 drives the second arc rack 932 to move towards the direction of the elastic latch hook 95 and lock with the elastic latch hook 95, so that the connecting rod 93 can be driven to return to the position locked with the elastic latch hook 95 by the operating component 8.

In this embodiment, the pushing of the pressing rod 83 is implemented by the ejector 4, when the ejector 4 is locked with the locking member 5, the pressing rod 83 is pushed downward, so that the return of the connecting rod 93 is realized, the connecting rod 93 is locked with the elastic latch hook 95 again, the pushing member 7 releases the action on the pushing member 7, and the unlocking key 51 is released by the pushing member 7, so that the locking member 5 keeps locking the ejector 4.

Alternatively, the lever 83 may extend outside the endless track 1, operated by manual pressing of the toy.

In the embodiment, the linkage playing method of the walking toy 20 and the counting control track toy 10 is realized, and when the walking toy 20 turns on the annular track 1 to reach the set number, the launching of the ejection piece 4 is triggered, so that the walking toy 20 reaches the set number, and a certain ceremony feel is realized; at the same time, the opening of the exit door 15 is triggered, so that the walking toy 20 finishes sliding on the annular track 1 and slides out of the exit door 15, the embodiment increases the functionality, interactivity and playability of the counting control track toy 10, promotes the interest of players in the toy, and can play for a long time.

What has been described above is merely illustrative of the principles and preferred embodiments of the present invention. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the invention and should also be considered as the scope of protection of the present invention.

Claims (10)

1. A counting control track toy (10), which comprises an annular track (1), a counter (2) and a counting trigger piece (3), wherein the counter (2) is arranged on the annular track (1), the counting trigger piece (3) is positioned in the annular track (1) and can be touched by a walking toy (20) walking in the annular track (1), the counting trigger piece (3) is driven to count once by touching once every time, the counting control track toy is characterized in that,

the counter (2) drives the linkage mechanism to unlock the action piece, and the action piece after unlocking executes set actions;

at least one action piece comprises an ejection piece (4), the ejection piece (4) can be connected to the annular track (1) in an ejection mode, the counter (2) is a counter with a manually-settable number, the counting quantity of the counter (2) is manually set, and when the trolley turns in the annular track (1) to reach the counting quantity value, the counter (2) drives the linkage mechanism to trigger the ejection piece (4) to execute ejection action.

2. The counting control track toy (10) according to claim 1, wherein the linkage mechanism comprises a locking piece, at least one action piece is locked on the annular track (1) through the locking piece, the other end of the locking piece is connected with the counter (2), when the counter (2) reaches a set number, the counter (2) drives the locking piece to unlock away from the action piece, and the action piece after unlocking executes a set action.

3. The counting control track toy (10) according to claim 2, characterized in that the counter (2) is movably arranged on the annular track (1) in a stepping manner, the counter (2) steps a certain distance each time the counting trigger piece (3) is triggered, and the counter (2) counts once, and the locking piece correspondingly moves a set distance until the locking piece just moves to a position which is out of locking with the action piece after the counter (2) reaches a set number.

4. The counting control track toy (10) according to claim 1, wherein the linkage mechanism comprises a locking piece (5) and an unlocking piece (6), at least one action piece is locked on the annular track (1) through the locking piece (5), two ends of the unlocking piece (6) are respectively connected with the counter (2) and the locking piece (5), when the counter (2) reaches a set number, the counter (2) drives the unlocking piece (6) to unlock the locking piece (5), and the action piece performs a set action after the locking piece (5) is unlocked.

5. The counting control track toy (10) according to claim 4, wherein the counter (2) is rotatably arranged on the annular track (1), the counter (2) rotates by a certain angle when the counting trigger piece (3) is triggered once, the counter (2) counts once, the unlocking piece (6) correspondingly moves by a set distance, and the unlocking piece (6) just moves to a position for pressing the locking piece (5) to unlock after the counter (2) reaches a set number.

6. The count control track toy (10) of claim 4, characterized in that,

the counter (2) comprises a countdown wheel, and when the countdown number is manually set, the countdown wheel rotates towards a first direction;

when the walking toy (20) touches the counting trigger piece (3), the countdown wheel is driven to rotate in a second direction opposite to the first direction;

when the countdown wheel rotates in a first direction, the countdown wheel drives the unlocking piece (6) to move in a direction away from the locking piece (5);

when the countdown wheel rotates towards the second direction, the countdown wheel drives the unlocking piece (6) to move towards the direction for unlocking the locking piece (5) from the action piece.

7. The counting control track toy (10) according to claim 1, wherein the linkage mechanism comprises a door opening control piece (9), at least one action piece comprises an outlet door (15), an outlet is formed in the annular track (1), the outlet door (15) is arranged at the outlet and is controlled to be opened or closed by the door opening control piece (9), the counter (2) can be manually set for a number, the counter (2) can manually set the counting amount of the counter (2), and when the walking toy (20) winds in the annular track (1) to reach the counting amount, the counter (2) drives the linkage mechanism to trigger the door opening control piece (9) to control the outlet door (15) to be switched from a closed state to an open state, and the walking toy (20) can be driven out of the annular track (1) from the outlet.

8. The counting control track toy (10) according to claim 7, wherein the linkage mechanism further comprises an unlocking piece (6), two ends of the unlocking piece (6) are respectively connected with the counter (2) and the door opening control piece (9), and when the number of times that the running toy (20) touches the counting trigger piece (3) reaches the set counting amount of the counter (2), the counter (2) drives the unlocking piece (6) to unlock the door opening control piece (9).

9. The counting control track toy (10) according to claim 1, wherein the linkage mechanism comprises a door opening control piece (9), the action piece at least comprises an ejection piece (4) and an outlet door (15), the ejection piece (4) is connected to the annular track (1) in an ejected mode, an outlet is formed in the annular track (1), the outlet door (15) is arranged at the outlet and is controlled to be opened or closed by the door opening control piece (9), the counter (2) is a counter with a manually-settable number, and when the number of the counter (2) is manually set, and when the running toy (20) turns in the annular track (1) to reach the number of the count, the counter (2) drives the linkage mechanism to trigger the ejection piece (4) to execute the ejection action, and the door opening control piece (9) is triggered to control the outlet door (15) to be switched from the closed state to the open state.

10. The counting control track toy (10) according to claim 9, wherein the linkage mechanism further comprises an unlocking piece (6) and a locking piece (5), two ends of the unlocking piece (6) are respectively connected with the counter (2) and the door opening control piece (9), the ejection piece (4) is locked on the annular track (1) through the locking piece (5), when the number of times of the counting triggering piece (3) touched by the walking toy (20) reaches the set counting amount of the counter (2), the counter (2) drives the unlocking piece (6) to unlock the door opening control piece (9), and the door opening control piece (9) is unlocked and then triggers the locking piece (5) to unlock the ejection piece (4) so as to eject the same.