CN213159379U - Jumping launching toy vehicle and toy combination with same - Google Patents

Abstract

The utility model discloses a toy car of jump transmission, toy car includes: the toy car comprises a car body, a turnover plate and a collision piece, wherein the car body is provided with a containing space for containing the toy body, a launching outlet is arranged below the containing space, the turnover plate is rotatably arranged at the bottom of the car body and provided with a turnover lock retaining position and a turnover unlocking position, at least part of the turnover plate is shielded at the launching outlet when the turnover lock retaining position is achieved so as to limit the toy body, the turnover plate is locked at the turnover lock retaining position through the turnover lock, after the turnover lock is unlocked, the turnover plate moves towards the turnover unlocking position, the turnover plate is knocked down after being unlocked so as to empty the toy car, the launching outlet is opened, the collision piece is arranged on the car body or the turnover plate, the collision piece is matched with the turnover lock, and the collision piece triggers the turnover lock to release the turnover plate when being impacted. According to the utility model discloses toy car can jump, will accomodate the toy body transmission of toy car internal rotation and come out, and can last the rotation after the toy body transmission.

Description

Jumping launching toy vehicle and toy combination with same

Technical Field

The utility model belongs to the technical field of the toy technique and specifically relates to a toy car of jump transmission and toy combination that has it are related to.

Background

At present, the spinning top is popular among the majority of young people, and the existing mainstream spinning top toy emitter accelerates the spinning top toy mainly by manually pulling a rack or a rope, and then emits the spinning top. The gyro only has a play method of accelerating and launching, can not satisfy the interest of player, and when using the rack to give the gyro acceleration moreover, the rack is not only inconvenient to carry, and breaks easily, and the rack damages and makes the gyro can not normally play to make the gyro scrap.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a toy car of jump transmission, the toy car of jump transmission can jump to launch the toy body of accomodating in the toy car, realize toy car and the toy body mutually independent, in addition, the toy body can rotate in the toy car, and the toy body still can last the rotation after launching the toy car, thereby has improved interest, novelty and the surprise of playing and has felt, has also increased the playing method of toy car.

The utility model discloses still provide one kind and have the toy combination of toy car.

According to the utility model discloses toy car of jump transmission of first aspect embodiment, the toy car includes: the toy comprises a toy body, a turnover plate and a collision piece, wherein the toy body is provided with a holding space for holding the toy body, a transmitting outlet is arranged below the accommodating space, the turnover plate is rotatably arranged at the bottom of the vehicle body, the turnover plate is provided with a turnover lock fixing position and a turnover unlocking position, the turnover plate at least partially covers the launching port when the turnover lock is fixed so as to limit the toy body, the turnover plate is locked at the turnover locking position through the turnover lock, after the turnover lock is unlocked, the turnover plate moves towards the turnover unlocking position, the turnover plate slaps downwards after being unlocked so as to empty the toy car, and the emission outlet is opened, the collision piece is arranged on the vehicle body or the turnover plate, the collision piece is matched with the turnover lock, and the turnover lock is triggered to release the turnover plate when the collision piece is impacted by the outside.

According to the toy car provided by the embodiment of the utility model, the turnover plate is rotatably arranged at the bottom of the car body and is provided with the turnover lock retaining position and the turnover unlocking position, when the turnover plate is positioned at the turnover lock retaining position, the turnover plate can seal the emission outlet at the bottom of the car body, so that the toy body is limited in the accommodating space of the car body; when the turnover plate turns to the turnover unlocking position, the turnover plate beats the ground in the rotating process, so that the toy car can be emptied, and meanwhile, the turnover plate does not limit the toy body any more, so that the toy body can be separated from the car body from the launching port, so that the toy car has two playing methods, the toy body is thrown out from the toy car to give visual stimulation to a player, and the interest and the stimulation of playing can be improved.

In addition, according to the utility model discloses a toy car of jump transmission can also have following additional technical characterstic:

in some embodiments of the present invention, the toy vehicle has wheels, the toy vehicle further includes a driving mechanism, the driving mechanism has a rotation output member for driving the toy body, the rotation output member is provided on the vehicle body and at least partially located in the accommodating space, the driving mechanism is connected with the wheels to be driven by the wheels to rotate the rotation output member.

Optionally, the drive mechanism comprises: and the energy storage body is connected with the wheel.

Optionally, the rotation output member is provided with a matching portion for combining with the toy body, and the toy car further comprises a launching assembly for separating the toy body from the matching portion.

Furthermore, the rotation output piece is at least one end open-ended cavity spare, the emission subassembly is including establishing the thimble in the rotation output piece, when one end of thimble was triggered the other end of thimble is used for with the toy body is lifted off the rotation output piece.

The utility model discloses an in some embodiments, be equipped with the mating holes on the perisporium of rotation output piece, the cooperation portion is established telescopically cooperation hole department, be equipped with the connection on the rotation output piece the combination elastic component of cooperation portion, it is used for promoting to combine the elastic component the one end of cooperation portion stretches out combine in the cooperation hole the toy body, the other end of cooperation portion is connected the thimble.

Optionally, two opposite matching holes are formed in the peripheral wall of the rotation output member, the matching portions are arranged at the two matching holes, the combining elastic member is arranged between the two matching portions, and a guide hole for matching the two matching portions is formed in the end portion of the ejector pin.

Optionally, the transmitting assembly further comprises: the automobile body is provided with a first launching connecting rod and a second launching connecting rod, the first launching connecting rod can be arranged on the automobile body in a sliding mode, one end of the first launching connecting rod extends to the position of the turnover plate, the second launching connecting rod is arranged on the automobile body in a rotating mode, one end of the second launching connecting rod is connected with the other end of the first launching connecting rod, the other end of the second launching connecting rod is lapped on the ejector pin, and when the turnover plate is turned to a turning unlocking position, the turnover plate pushes the ejector pin to move through the first launching connecting rod and the second launching connecting rod.

In some embodiments of the present invention, the collision member is slidably disposed on the vehicle body between the non-striking position and the striking position, the flip lock is connected to the collision member, the flip lock is locked to the flip plate when the collision member is in the non-striking position, and the flip plate is separated from the flip plate when the collision member is in the striking position.

Optionally, the striker is disposed on a front side of the toy vehicle in the direction of travel, and the flipping panel moves toward a rear side of the toy vehicle in the direction of travel when unlocked.

The utility model discloses still provide a toy combination of the toy car that has above-mentioned embodiment.

According to the utility model discloses toy combination of second aspect embodiment, toy combination includes toy car and top, the top can be held in the accommodation space.

According to the utility model discloses toy combination is through with the top holding in the accommodation space of toy car for the top can move about along with the toy car when the accommodation space, and rotate through the wheel rotation drive top, receives the striking back when the toy car, and the top can be followed and launched in the toy car, can continuously rotate in falling to ground or other spatial structure, thereby can increase toy combination's playing method, also can carry out top contest etc..

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a toy assembly according to an embodiment of the present invention in a configuration for impact;

FIG. 2 is a schematic diagram of a toy assembly according to an embodiment of the present invention, showing a top in an emitting configuration;

FIG. 3 is a schematic diagram of a toy assembly according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of a toy assembly according to an embodiment of the present invention;

FIG. 5 is a cross-sectional view of a toy assembly according to an embodiment of the present invention after launching a top;

FIG. 6 is a schematic view of a toy playset with a vehicle cover removed according to an embodiment of the present invention;

FIG. 7 is a schematic view of a toy building set with the hull, impact member, roll-over lock and roll-over plate removed, according to an embodiment of the present invention;

fig. 8 is a schematic view of the structure of the collision member, the flip lock and the flip plate of the toy combination according to the embodiment of the present invention.

Reference numerals:

100: a toy vehicle; 1: a vehicle body; 2: a turnover plate; 21: protruding positions; 3: a collision member; 4: a wheel; 5: a drive mechanism; 51: an energy storage body; 52: a rotation output member; 521: a fitting portion; 522: an elastic member; 523: a mating hole; 53: a transmission assembly; 6: a transmitting assembly; 61: a thimble; 611: a guide hole; 62: a first launching link; 63: a second launching link; 7: a flip lock; 8: a non-slip mat; 1000: a toy combination; 200: a spinning top.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "back", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A jump launching toy vehicle 100 according to an embodiment of the present invention is described below with reference to fig. 1-8.

As shown in fig. 1 to 8, a toy vehicle 100 according to an embodiment of the present invention includes: a vehicle body 1, a roll-over panel 2 and a collision member 3.

Specifically, the vehicle body 1 is provided with a containing space for containing the toy bodies, a launching outlet is arranged below the containing space, the turnover plate 2 is rotatably arranged at the bottom of the vehicle body 1, the turnover plate 2 is provided with a turnover lock fixing position and a turnover unlocking position, the turnover plate 2 at least partially covers the launching outlet when the turnover lock fixing position is achieved so as to limit the toy bodies, the turnover plate 2 is locked at the turnover lock fixing position through a turnover lock 7, after the turnover plate 2 is unlocked, the turnover plate 2 moves towards the turnover unlocking position, the turnover plate 2 is knocked down after being unlocked so as to empty the toy vehicle 100, the launching outlet is opened, the collision piece 3 is arranged on the vehicle body 1 or the turnover plate 2, the collision piece 3 is matched with the turnover lock 7, and the collision piece 3 triggers the turnover lock 7 to release the turnover plate 2 when being impacted by the outside.

That is, when the roll-over panel 2 is positioned in the roll-over locking position, the overall shape of the toy vehicle 100 is similar to that of a conventional toy vehicle, the toy vehicle 100 has a play method of a conventional toy vehicle, that is, the toy vehicle 100 can move on the ground, and the toy vehicle 100 may be any one of a hand-push type toy vehicle, an energy storage type toy vehicle, an inertial type toy vehicle, or an electric type toy vehicle, but is not limited to the above-mentioned types of toy vehicles. At this time, the toy car 100 can serve as a warehouse of the toy body, and when the turnover plate 2 is positioned at the turnover lock for fixation, the warehouse door is closed, so that the toy body can not freely enter and exit the warehouse, and the toy body can move together with the toy car 100 in the toy car 100; when the turnover lock 7 is unlocked, namely the warehouse door is opened, the toy body can be separated from the warehouse through the warehouse door, and the toy body and the toy car 100 are two independent bodies.

After the collision piece 3 of the toy car 100 is collided, the turnover lock 7 can turn to the turnover unlocking position from the turnover lock position, and in the process that the turnover lock 7 turns to the turnover unlocking position, the turnover lock 7 unlocks and releases the turnover plate 2, and the turnover plate 2 does not shield the emission outlet, so that the toy body in the accommodating space can be separated from the toy car 100 from the emission outlet. Further, the turnover lock 7 rotates towards the ground and strikes the ground, so that the toy car 100 can be emptied, and in the process of emptying the toy car 100, a larger space can be provided for the toy body to be emitted from the toy car 100, so that the toy body can be well separated from the toy car 100 without interference, and the toy car 100 has two playing methods, and in addition, the toy body is thrown away from the toy car 100 to give visual stimulation to a player, so that the interest and the stimulation of playing can be improved.

Optionally, the turnover plate 2 is configured to move towards the turnover unlocking position, so that after the collision piece 3 is impacted and the turnover plate 2 is released, the turnover plate 2 can automatically move towards the turnover unlocking position, that is, the turnover plate 2 turns to the turnover unlocking position from the turnover locking position, so that the toy body in the accommodating space can be released. For example, an elastic member such as a torsion spring may be provided on the flipping panel 2, and when the flipping panel 2 is in the flipping lock position, the elastic member is in the energy storage state, and when the flipping panel is unlocked, the elastic member releases energy, so that the flipping panel 2 may be driven to rotate toward the flipping unlock position.

The striker 3 may be provided on the vehicle body 1 or the roll-over panel 2, in other words, the striker 3 may be provided on the vehicle body 1, and the striker 3 may be provided on the roll-over panel 2, so that the vehicle body 1 or the roll-over panel 2 can support the striker 3. Furthermore, collision piece 3 cooperatees with upset lock 7, and upset lock 7 is used for the lock solid returning face plate 2 to spacing to returning face plate 2, so that returning face plate 2 is in the upset and locks the maintenance, and collision piece 3 receives the striking back, and upset lock 7 breaks away from with returning face plate 2, thereby makes returning face plate 2 turn to the upset position of unlocking.

According to the toy car 100 of the embodiment of the present invention, the turning plate 2 is rotatably disposed at the bottom of the car body 1, and the turning plate 2 has the turning locking position and the turning unlocking position, when the turning plate 2 is located at the turning locking position, the turning plate 2 can seal the launch opening at the bottom of the car body 1, so that the toy body is limited in the accommodating space of the car body 1; when the turnover plate 2 turns to the turnover unlocking position, the turnover plate 2 beats the ground in the rotation process, so that the toy car 100 can be emptied, meanwhile, the turnover plate 2 does not limit the toy body any more, the toy body can be separated from the car body 1 from the launching port, the toy car 100 has two playing methods, the toy body is thrown out of the toy car 100, the visual stimulation can be given to a player, and the interesting and the stimulating feeling of the playing can be further improved.

In addition, the collision piece 3 is triggered by the collision of the toy car 100 and a foreign object, so that the turnover plate 2 is unlocked and rotated, the toy body is released from the toy car 100, the structure is simple, and the player can be surprised.

In one example, the non-slip mat 8 is arranged at one end of the turnover plate 2 close to the collision piece 3, specifically, the non-slip mat 8 can be matched with the contact position between the turnover plate 2 and the vehicle body 1, so that the friction force between the vehicle body 1 and the turnover plate 2 can be increased, and when the turnover lock is fixed at the position of the turnover plate 2, the turnover plate 2 can slide down, so that the turnover plate 2 can stably shield the emission outlet, and further the toy body can be stably accommodated in the accommodating space.

In some embodiments of the present invention, the toy vehicle 100 has a wheel 4, the toy vehicle 100 further includes a driving mechanism 5, the driving mechanism 5 has a rotation output member 52 for driving the toy body to rotate, the rotation output member 52 is disposed on the vehicle body 1 and at least partially located in the accommodating space, and the driving mechanism 5 is connected to the wheel 4 to drive the rotation output member 52 to rotate by the wheel 4. It is understood that the driving mechanism 5 may be designed to be different driving mechanisms according to different types of toy vehicles, such as an inertia driving mechanism, an energy storage driving mechanism, a wind driving mechanism or an electric driving mechanism, and the like, and is not particularly limited herein.

Therefore, the wheels 4 of the toy vehicle 100 can drive the toy vehicle 100 to move on the ground, when the wheels 4 rotate, the wheels 4 can drive the driving mechanism 5 to move, and after the driving mechanism 5 moves, the driving mechanism 5 can drive the rotation output piece 52 to move. Further, a part of the rotation output member 52 is fitted in the accommodating space, and the rotation output member 52 is fitted with the toy body, so that the rotation output member 52 can drive the toy body to rotate, the toy body can rotate when being separated from the toy car 100, and the new playing method of the toy car 100 can be increased when the toy body falls on the ground to rotate. For example, when the toy body is the spinning top 200, the spinning top 200 can rotate in the accommodating space of the toy car 100, and after the spinning top 200 is launched from the toy car 100, the spinning top 200 can rotate to play a game. For toy vehicle 100, launching a toy body from toy vehicle 100 may increase play of toy vehicle 100. For the toy body, the toy body is launched from the toy car 100 and can rotate, so that the launching mode of the toy body is increased, and the launching novelty is improved.

As shown in fig. 6, the driving mechanism 5 may further include a transmission assembly 53, and the transmission assembly 53 may be formed by cooperating multiple gears, where the multiple gears include: first gear, intermediate gear and end gear, first gear can with the pivot cooperation of wheel 4, when the pivot of wheel 4 rotated, the pivot can drive first gear revolve, can drive intermediate gear after the first gear revolve, can drive after the intermediate gear revolve with rotate output 52 complex end gear revolve, can drive after the end gear revolve and rotate output 52 and rotate. In addition, the rotation speed can be adjusted by changing the number of teeth of the gear in the transmission assembly 53, so that the rotation speed of the toy body can be adjusted.

Alternatively, the drive mechanism 5 includes: the energy storage body 51 connected with the wheel 4, for example, as shown in fig. 6 and 7, the energy storage body 51 stores energy, so that the energy storage body 51 can drive the wheel 4 to rotate when releasing energy, the wheel 4 can drive the driving mechanism 5 to move when rotating, and the driving mechanism 5 can transmit torque to the rotation output member 52, so that the rotation output member 52 can drive the toy body to rotate. In addition, the wheels 4 can drive the toy car 100 to move, and when the toy car 100 moves and collides with an obstacle, the collision piece 3 is triggered, so that the turnover plate 2 is unlocked, and the rotating toy body is launched from the toy car 100.

Optionally, the rotating output member 52 is provided with a matching portion 521 for combining with the toy body, the toy car 100 further comprises a launching assembly 6 for separating the toy body from the matching portion 521, that is, when the rotating output member 52 rotates, the matching portion 521 rotates along with the rotating output member 52, further, the matching portion 521 can be matched with the toy body, so that the toy body can be stably matched in the accommodating space, that is, when the matching portion 521 is matched with the toy body, the toy body can be stably accommodated in the accommodating space, and when the matching portion 521 is separated from the toy body, and the turnover plate 2 is located at the turnover unlocking position, the toy body can be separated from the toy car 100. In addition, after the matching part 521 rotates, the matching part 521 can drive the toy body to rotate.

The separation of the toy body can be realized in two ways:

first, when the flipping panel 2 is unlocked and the launch opening is opened, the toy body may automatically drop down off the toy vehicle 100 under its own weight, i.e., without the components of the launch assembly 6.

Secondly, when the turnover plate 2 is unlocked and the launching port is opened, the launching assembly 6 can drive the matching part 521 to move, so that the toy body is separated from the matching part 521, and the toy car 100 can be launched out from the launching port after the toy body is separated from the matching part 521. In addition, the toy body is driven to move downwards through the launching component 6, and the turnover plate 2 is matched to rotate downwards and flap the ground at the moment, so that a larger space is provided for launching the toy body, and the toy body is launched more smoothly.

Further, the rotation output member 52 is a hollow member having at least one open end, the ejector assembly 6 includes a thimble 61 provided in the rotation output member 52, and the other end of the thimble 61 is used for ejecting the toy body from the rotation output member 52 when one end of the thimble 61 is activated, for example, as shown in fig. 4 and 5, the upper end of the rotation output member 52 may be formed as an opening through which the thimble 61 may be fitted in the rotation output member 52, specifically, one end of the thimble 61 may be fitted to the ejector assembly 6, and the other end of the thimble 61 may be fitted to a fitting portion 521 of the rotation output member 52, whereby, when the ejector assembly 6 is activated, the ejector assembly 6 activates and activates the thimble 61, and the thimble 61 may activate the fitting portion 521, and the fitting portion 521 may be activated to separate it from the toy body, so that the toy body may be ejected.

Optionally, a mating hole 523 is formed in a peripheral wall of the rotation output member 52, the mating portion 521 is telescopically disposed at the mating hole 523, a combining elastic member 522 connected to the mating portion 521 is disposed on the rotation output member 52, the combining elastic member 522 is used for pushing one end of the mating portion 521 to extend out of the mating hole 523 to combine the toy body, and the other end of the mating portion 521 is connected to the thimble 61.

That is to say, the elastic member 522 is matched with the matching portion 521, so that the elastic member 522 is in a natural state, the matching portion 521 can be pushed to be matched in the matching hole 523, after the matching portion 521 is matched in the matching hole 523, the matching portion 521 can be abutted against the toy body, so that the matching portion 521 can limit the toy body, the toy body can be stably located in the accommodating space, and when the rotation output member 52 rotates, the matching portion 521 can drive the toy body to rotate.

When the thimble 61 drives the other end of the matching part 521 to move towards the direction of the elastic member 522, the matching part 521 moves and compresses the elastic member 522, so that the matching part 521 can be pulled out from the matching hole 523 by matching one end of the matching hole 523, at this time, the toy body is not limited by the matching part 521 any more, and the toy body can be launched from the launching port.

In one example, a rotation hole corresponding to the fitting hole 523 of the rotation output member 52 is provided on the toy body, specifically, the fitting hole 523 is formed as a through hole, one end of the fitting portion 521 passes through the fitting hole 523 to be fittable into the rotation hole of the toy body, and when the rotation output member 52 rotates, the fitting portion 521 rotates along with it, and when the fitting portion 521 rotates, the fitting portion 521 can drive the toy body to rotate through the rotation hole, so that the toy body can rotate along with the rotation output member 52.

Furthermore, two opposite matching holes 523 are formed in the peripheral wall of the rotation output element 52, matching portions 521 are formed in the two matching holes 523, a combining elastic element 522 is arranged between the two matching portions 521, a guide hole 611 for matching the two matching portions 521 is formed in the end portion of the thimble 61, that is, one end of one matching portion 521 is connected with the elastic element 522, the other end of the matching portion 521 is opposite to the matching hole 523 and can extend into the matching hole 523 and also be pulled out of the matching hole 523, the matching mode of the other matching portion 521 is similar, and details are omitted here. It can be understood that the two ends of the elastic member 522 are respectively connected with the two matching parts 521, when the elastic member 522 is in a natural state, the two matching parts 521 respectively extend into the matching holes 523 opposite to the two matching parts, so that the two matching parts 521 can be matched with the toy body and limit the toy body, the toy body can be more firmly matched in the toy car 100, the toy body is prevented from being separated from the matching parts 521 when not launched, and if the toy body is separated from the matching parts 521, the matching parts 521 cannot rotate to drive the toy body to rotate.

After the two engaging holes 523 on the peripheral wall of the rotation output member 52 are oppositely arranged, and the two engaging portions 521 are respectively connected to the two ends of the elastic member 522, the two engaging portions 521 can respectively oppose the engaging holes 523 and move relative to the engaging holes 523. Meanwhile, when the elastic member 522 is pressed, the fitting portion 521 may be more conveniently separated from the fitting hole 523. It is understood that the peripheral wall of the rotation output member 52 may be provided with a fitting hole 523, a plurality of fitting portions 521 are formed on the rotation output member 52, and the fitting hole 523 and the fitting portions 521 are arranged in one-to-one correspondence, so that the toy body can be more firmly fitted in the toy vehicle 100 by the plurality of fitting portions 521. The number of the plural is two or more, and is not limited.

For example, as shown in fig. 5 and fig. 6, a guide hole 611 is provided at one end of the thimble 61 facing the engaging portion 521, specifically, the guide hole 611 has a gradually decreasing diameter from bottom to top, and the maximum diameter of the guide hole 611 is not smaller than the overall peripheral dimension of the two engaging portions 521 connected to the two ends of the elastic member 522, so that when the thimble 61 moves downward, the guide hole 611 moves toward the engaging portion 521, and the guide hole 611 can accommodate the two engaging portions 521, and the thimble 61 continues to move downward, and the guide hole 611 has a gradually decreasing diameter, so that the two engaging portions 521 gradually approach each other, and the engaging portion 521 can be disengaged from the engaging hole 523, so that the engaging portion 521 does not limit the play object.

In one example, the outer shape of the guide hole 611 may be an inverted cone shape, and the portions of the two fitting parts 521 that fit into the guide hole 611 may be formed in a cone shape, whereby when the guide hole 611 moves downward and fits into the fitting parts 521, the fitting parts 521 can move along the walls of the guide hole, so that the guide hole 611 can guide the fitting parts 521, so that the fitting parts 521 can be well abutted together and can be separated from the fitting hole 523.

In some embodiments of the present invention, the transmitting assembly 6 further comprises: the turnover mechanism comprises a first launching connecting rod 62 and a second launching connecting rod 63, wherein the first launching connecting rod 62 is slidably arranged on the vehicle body 1, one end of the first launching connecting rod 62 extends to the turnover plate 2, the second launching connecting rod 63 is rotatably arranged on the vehicle body 1, one end of the second launching connecting rod 63 is connected with the other end of the first launching connecting rod 62, the other end of the second launching connecting rod 63 is lapped on the thimble 61, and when the turnover plate 2 is turned over to a turnover unlocking position, the thimble 61 is pushed to move by the turnover plate 2 through the first launching connecting rod 62 and the second launching connecting rod 63.

That is, the first launching link 62 is movable in the up-down direction with respect to the toy vehicle 100, one end of the first launching link 62 is adjacent to the rotation shaft of the turning plate 2, the other end of the first launching link 62 is connected to one end of the second launching link 63, the other end of the second launching link 63 abuts against the thimble 61, and in addition, the second launching link 63 is rotatably provided on the toy vehicle 100, and specifically, the second launching link 63 is rotatable with respect to the toy vehicle 100 around the connection.

Further, a protruding portion 21 is formed on the rotating shaft of the flipping board 2, as shown in fig. 6 and 8, the protruding portion 21 protrudes relative to the rotating shaft, so that when the flipping board 2 rotates after being unlocked, the protruding portion 21 on the rotating shaft also rotates, the protruding portion 21 can jack up the first launching link 62 during the rotation process, after the first launching link 62 moves upward, the first launching link 62 drives the second launching link 63 to move upward, so that the second launching link 63 rotates around the joint, one end of the second launching link 63 rotates upward, and the other end of the second launching link 63 abutting against the thimble 61 moves downward, so that the second launching link 63 can push the thimble 61 to move downward, and further the matching portion 521 is separated from the toy body, so that the toy body can be launched out.

The joint of the second launching link 63 and the toy car 100 is arranged near one end of the second launching link 63 connected with the first launching link 62, so that when the first launching link 62 pushes the second launching link 63 for a small distance, the other end of the second launching link 63 can move downwards for a large distance, and the thimble 61 can push the toy car 100 out conveniently.

In some embodiments of the present invention, the collision member 3 is slidably disposed on the vehicle body 1 between the non-striking position and the striking position, the collision member 3 is configured to move toward the non-striking position, the flip lock 7 is connected to the collision member 3, the flip lock 7 is locked to the flip plate 2 at the non-striking position, and the flip plate 2 is separated from the flip lock 7 at the striking position.

That is, the collision member 3 can slide relative to the toy vehicle 100, and when the toy vehicle 100 is played normally, i.e. the collision member 3 is not triggered by a collision, the collision member 3 is located at the non-collision position, and at this time, the flip board 2 and the collision member 3 can be locked together by the flip lock 7, and the flip board 2 is limited, so that the flip board 2 is located at the position of the flip lock. When the collision piece 3 is impacted, the collision piece 3 moves from the non-impact position to the impact position, and after the collision piece 3 moves to the impact position, the turnover lock 7 is unlocked, so that the turnover lock 7 is not limited to the turnover plate 2, and the turnover plate 2 can rotate towards the turnover unlocking position.

Optionally, the collision member 3 is disposed at a front side of the toy vehicle 100 in the traveling direction, and the flipping board 2 moves toward a rear side of the toy vehicle 100 in the traveling direction when unlocked, so that when the toy vehicle 100 travels forward, if there is an obstacle, the collision member 3 collides with the obstacle first, and after colliding with the collision member 3, the flipping board 2 is unlocked to rotate backward and slaps the ground, so that the toy vehicle 100 is emptied, wherein the flipping board 2 rotates backward, the launch opening is opened, and the toy body can be launched forward and splashed out, so that surprise and visual impact can be given to a player.

The utility model also provides a toy combination 1000 of the toy car 100 of the above-mentioned embodiment.

According to the utility model discloses toy combination 1000 includes: toy car 100 and top 200, top 200 can be held in the accommodation space, therefore, when toy car 100 does not receive the striking, top 200 can be held in the accommodation space to move along with toy car 100, can drive top 200 to rotate when wheel 4 of toy car 100 rotates. When the collision member 3 of the toy car 100 is struck, the flipping board 2 is unlocked and rotated to the rear side, and the launching assembly 6 is moved at the same time to push the spinning top 200 out of the accommodating space, to launch the spinning top 200, and the spinning top 200 is rotated all the way after falling to the ground, so that a competition can be conducted, thereby increasing the fun of playing.

According to the utility model discloses toy combination 1000, through with top 200 holding in toy car 100's accommodation space for top 200 can be along with toy car 100 activity together when the accommodation space, and it is rotatory to rotate through wheel 4 and drive top 200, receive the striking back when toy car 100, top 200 can follow toy car 100 and launch away, can continuously rotate in falling to ground or other spatial structure, thereby can increase toy combination 1000's play method, also can carry out top 200 contests etc..

Specific processes in the specific installation and movement of the toy vehicle 100 and toy set 1000 having the same of the present invention are described below with reference to fig. 1-8.

When the wheels 4 of the toy car 100 rotate to drive the toy car 100 to move on the ground, the collision piece 3 on the toy car 100 is in the non-hit position, the turnover lock 7 connected with the collision piece 3 can lock the turnover plate 2, so that the turnover plate 2 is positioned in the turnover lock to be fixed, the turnover plate 2 can shield at least part of the injection hole, and the turnover plate 2 can limit the spinning top 200 in the accommodating space of the toy car 100. Furthermore, one end of the driving mechanism 5 is matched with the wheel 4, and the other end of the driving mechanism 5 is matched with the rotation output piece 52, so that the wheel 4 can drive the driving mechanism 5 to rotate when rotating, and the driving mechanism 5 can drive the rotation output piece 52 to rotate after rotating. In addition, the matching part 521 on the rotation output part 52 can be matched with the gyroscope 200 and limit the gyroscope 200, so that the gyroscope 200 can be firmly matched in the accommodating space, and the matching part 521 can drive the gyroscope 200 to rotate when rotating.

When the collision piece 3 of the toy car 100 is collided when moving, the collision piece 3 moves from the non-hit position to the hit position, the turnover lock 7 is unlocked after the collision piece 3 moves to the hit position, so that the turnover plate 2 is not limited by the turnover lock 7, the turnover plate 2 turns to the turnover unlocking position from the turnover lock position, the turnover plate 2 can flap the ground in the rotating process, and the toy car 100 can be emptied and further give people visual impact. Meanwhile, when the turning plate 2 rotates, the protruding position 21 on the rotating shaft of the turning plate can trigger the transmitting assembly 6, the transmitting assembly 6 moves and presses the thimble 61, so that the thimble 61 moves downwards and the two matching parts 521 are matched in the guide hole 611 of the thimble 61, after the matching parts 521 are matched in the guide hole 611, the matching parts 521 do not limit the spinning top 200, so that the spinning top 200 moves downwards under the action of gravity, and the spinning top 200 can be separated from the toy car 100 through the transmitting opening. Toy vehicle 100 vacates more launching space for top 200 to launch, thereby freeing top 200 from interference.

After being launched from the toy car 100, the top 200 can fall on the ground to rotate, and the top 200 can also fall on the playing field of the top 200 game to play the game, so that the top 200 can be more angry to play and the people are surprised.

Other constructions and operations of the toy assembly 1000 according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "some embodiments," "optionally," "further," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A jump launch toy vehicle, said toy vehicle comprising:

the toy comprises a toy body, a toy body and a control device, wherein the toy body is provided with an accommodating space for accommodating the toy body, and a transmitting outlet is arranged below the accommodating space;

the turnover plate is rotatably arranged at the bottom of the vehicle body and provided with a turnover lock fixing position and a turnover unlocking position, at least part of the turnover plate is shielded at the launching port when the turnover lock is fixed so as to limit the toy body, the turnover plate is locked at the turnover locking position through the turnover lock, after the turnover lock is unlocked, the turnover plate moves towards the turnover unlocking position, and the turnover plate is slapped downwards after being unlocked so as to empty the toy vehicle and open the launching port;

the collision piece is arranged on the vehicle body or the turnover plate, the collision piece is matched with the turnover lock, and the turnover lock is triggered to release the turnover plate when the collision piece is impacted by the outside.

2. The jump launch toy vehicle of claim 1, wherein the toy vehicle has wheels, the toy vehicle further comprising a drive mechanism having a rotational output for driving the toy body in rotation, the rotational output being disposed on the body and at least partially within the receiving space, the drive mechanism being coupled to the wheels for rotation of the rotational output by the wheels.

3. The jump launch toy vehicle of claim 2 wherein the drive mechanism comprises: and the energy storage body is connected with the wheel.

4. The jump launching toy vehicle of claim 2, wherein the rotational output member is provided with an engagement portion for engaging with the toy body, the toy vehicle further comprising a launching assembly for disengaging the toy body from the engagement portion.

5. The jump launch toy vehicle of claim 4 wherein the rotation output is a hollow member open at least at one end, the launch assembly comprising a thimble disposed within the rotation output, one end of the thimble being activated and the other end of the thimble being adapted to eject the toy body away from the rotation output.

6. The jump launching toy car according to claim 5, wherein a fitting hole is formed in a peripheral wall of the rotation output member, the fitting portion is telescopically arranged at the fitting hole, a combining elastic member connected with the fitting portion is arranged on the rotation output member, the combining elastic member is used for pushing one end of the fitting portion to extend out of the fitting hole to be combined with the toy body, and the other end of the fitting portion is connected with the ejector pin.

7. The jump launching toy vehicle of claim 6, wherein the peripheral wall of the rotation output member is provided with two opposing engagement holes, the two engagement holes are provided with the engagement portions, the coupling elastic member is provided between the two engagement portions, and the tip of the thimble is provided with a guide hole for engaging the two engagement portions.

8. The jump launch toy vehicle of claim 5 wherein the launch assembly further comprises:

the first launching connecting rod is slidably arranged on the vehicle body, and one end of the first launching connecting rod extends to the turnover plate;

the second launching connecting rod is rotatably arranged on the vehicle body, one end of the second launching connecting rod is connected with the other end of the first launching connecting rod, and the other end of the second launching connecting rod is lapped on the thimble;

when the turnover plate is turned to the turnover unlocking position, the turnover plate pushes the ejector pins to move through the first emission connecting rod and the second emission connecting rod.

9. The jump launch toy vehicle of claim 1 wherein the striker is slidably disposed on the body between an unstroked position and a stricken position, the roll-over lock being coupled to the striker, the roll-over lock being locked to the roll-over plate in the unstroked position and the roll-over plate being disengaged from the roll-over lock in the stricken position.

10. The jump launch toy vehicle of claim 9 wherein the striker is disposed forward of a direction of travel of the toy vehicle, the flipping panel moving toward a rear of the direction of travel of the toy vehicle when unlocked.

11. A toy combination comprising a toy vehicle according to any one of claims 1 to 10 and a top receivable in said receiving space, said toy vehicle being a jump launch toy vehicle.

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