CN217548979U - Transformable robot toy capable of ejecting gyroscope - Google Patents

Abstract

The utility model relates to a deformable robot toy capable of ejecting a gyro, which comprises a head trigger button, a robot main body, a handle and a gyro launching mechanism; the handle is arranged at the rear part of the robot main body and is in transmission connection with the gyro launching mechanism through a pull rope; the top launching mechanism is arranged at the front end of the robot main body and comprises a launch wave box and a top arranged on the launch wave box, the launch wave box comprises a wave box base, a transmission gear set, a launch mechanism and a trigger mechanism, the trigger mechanism excites the launch mechanism to launch the top, the transmission gear set transmits external power to the top and drives the top to rotate; the head trigger button is inserted on the lower pressing platform, the bottom of the lower pressing platform is fixedly connected with a lower pressing touch inclined plane, and a lower pressing reset spring is sleeved on the lower pressing touch inclined plane and used for resetting the lower pressing platform; the downward pressing touch inclined plane can be abutted against the inclined plane of the trigger boss of the trigger mechanism on the ejection wave box after moving downwards, and the trigger boss is pushed to move transversely so as to excite the ejection mechanism.

Description

Transformable robot toy capable of ejecting gyroscope

Technical Field

The utility model relates to a children's toys field, especially a transformable robot toy of ejectable top.

Background

The existing toy robots are various in types, but many robot toys are single in function, and the realization of deformation is the design trend of most toy companies, but the single deformation function cannot meet the requirements of children on the toys, how to perfectly combine the toy gyroscope with the robots, and the realization of the function that the robots can eject the gyroscope can arouse the love of the children on the toys.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a transformable robot toy of ejectable top is provided, it can launch out the top of high-speed rotation through integrated power storage ejection mechanism on the robot, lets the child experience the robot and launches the recreation of top and experience the sense.

In order to solve the technical problem, the utility model discloses a realize according to following mode: the utility model relates to a deformable robot toy capable of ejecting a gyro, which comprises a head trigger button, a robot main body, a handle and a gyro launching mechanism; the handle is arranged at the rear part of the robot main body and is in transmission connection with the gyro launching mechanism through a pull rope; the top launching mechanism is arranged at the front end of the robot main body and comprises an ejection wave box and a top arranged on the ejection wave box, the ejection wave box comprises a wave box base, a transmission gear set, an ejection mechanism and a trigger mechanism, the trigger mechanism excites the ejection mechanism to eject the top, and the transmission gear set transmits external power to the top to drive the top to rotate; the head trigger button is arranged at the top of the robot main body and is inserted on the lower pressing platform, the bottom of the lower pressing platform is fixedly connected with a lower pressing touch inclined plane, and a lower pressing reset spring is sleeved on the lower pressing touch inclined plane and used for resetting the lower pressing platform; the downward pressing touch inclined plane can be abutted against the inclined plane of the trigger boss of the trigger mechanism on the ejection wave box after moving downwards, and the trigger boss is pushed to move transversely so as to excite the ejection mechanism.

The transmission gear set is arranged in the wave box base, the power input shaft end of the transmission gear set is connected with a wire drawing disc, and the power output end transmits power to the gyroscope through a gear to drive the gyroscope to rotate;

the ejection mechanism comprises an elastic seat and a clamping platform sliding seat, the front end of the elastic seat is provided with a gyroscope clamping groove, and the gyroscope clamping groove can longitudinally slide in elastic seat sliding grooves on two sides of the front end of the wave box base; the clamping table sliding seat is connected in a groove at the left side of the gyroscope clamping groove, a gyroscope clamping table is arranged at the inner side of the clamping table sliding seat, and the outer side wall of the clamping table sliding seat is abutted against the inner wall of the elastic seat sliding groove; the inner wall of the sliding groove of the elastic seat is provided with a sliding groove bulge, the clamping table sliding seat slides along with the elastic seat, the gyro clamping table stretches and retracts in the gyro clamping groove under the action of the sliding groove bulge, and the gyro clamping table can clamp and connect the gyro in the gyro clamping groove; the middle part of the elastic seat is provided with an elastic rod which is sleeved with a force storage spring, the elastic seat moves backwards, and the force storage spring stores elastic potential energy; the upper end of the rear part of the spring seat is fixedly connected with a limit boss;

the trigger mechanism comprises a trigger sliding seat which can transversely move along the wave box base, a sliding seat clamping table is arranged on the side of the trigger sliding seat, and the sliding seat clamping table can clamp and limit the limiting boss; the upper end of the trigger sliding seat is provided with a trigger boss with an inclined plane; a trigger reset upright post is also arranged on the trigger slide seat, and a reset spring is sleeved on the trigger reset upright post;

the bottommost part of the gyroscope is coaxially and fixedly connected with a gyroscope supporting leg, and a gyroscope toothed ring is coaxially and fixedly connected above the gyroscope supporting leg; and a square table support which can rotate around the central axis of the gyroscope is arranged above the gyroscope toothed ring.

The transmission gear set comprises transmission teeth a, transmission teeth b and transmission teeth c; the transmission teeth b are fixedly connected with the wire drawing disc in a coaxial line manner, and the central shaft of the transmission teeth b is a reset upright post; the reset upright post is connected with a wire drawing disc reset spring; the transmission gear b and the transmission gear c form gear transmission connection, the transmission gear c and the transmission gear a form gear transmission connection, and the transmission gear a and the gyro gear ring form gear transmission connection.

The rear part of the wave box base is transversely connected with a guide wheel which can rotate, the front end of the guide wheel is provided with a guide hole, and a pull rope connected with a handle passes through the guide hole after bypassing the guide wheel and is wound on a wire drawing disc.

The front end face of the gyro clamping table, the front end face of the sliding seat clamping table and the rear end face of the limiting boss are inclined planes.

The utility model discloses an actively the effect: a can launch deformation robot toy of top, it has realized through compact mechanism design that the top can be placed in the robot front and accessible top launching mechanism launches away with the top that rotates at a high speed, and global design is ingenious, and transmission design is comparatively reasonable, has increased robot toy's interest through the powerful function of launching.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of the upright state of the present invention;

fig. 2 is a schematic structural view of the crawling state of the present invention;

FIG. 3 is an exploded view of the crawling mechanism of the present invention;

FIG. 4 is a schematic view of a gyro drive portion;

FIG. 5 is a schematic diagram of a top trigger configuration;

FIG. 6 is a schematic diagram of the structure of a gyro launching mechanism;

FIG. 7 is an exploded view of the launching mechanism of the gyroscope;

FIG. 8 is a schematic view of the internal structure of the wave box base;

FIG. 9 is a schematic diagram of the transmission structure of the gyro launching mechanism;

FIG. 10 is a schematic diagram of the transmission structure of the top launching mechanism;

FIG. 11 is a schematic view of the internal structure of the wave box base;

FIG. 12 is a schematic structural view of a gyro launching mechanism;

in the figure, 1 gyro, 2 launch wave box, 3 drive gear group, 4 square table supports, 5 gyro toothed ring, 6 gyro legs, 7 trigger bosses, 8 wave box bases, 9 gyro clamping tables, 10 elastic seats, 11 gyro clamping grooves, 12 elastic seat sliding grooves, 13 sliding groove protrusions, 14 elastic rods, 15 reset upright posts, 16 limit bosses, 17 guide wheels, 18 wire drawing discs, 19 transmission teeth a, 20 transmission teeth b, 21 transmission teeth c, 22 clamping table sliding seats, 23 sliding table clamping tables, 24 guide holes, 25 trigger reset upright posts, 26 trigger sliding seats, 27 head trigger buttons, 28 handles, 29 gyro launching mechanisms, 30 robot main bodies, 31 down-pressing platforms, 32 pull ropes, 33 down reset springs, 34 down-pressing touch inclined planes, 35 reset springs, 36 wire drawing disc reset springs and 37 force storage springs.

Detailed Description

As shown in fig. 1 to 6, the transformable robot toy of the ejectable top of the utility model comprises a head trigger button 27, a robot main body 30, a handle 28 and a top launching mechanism 29; the handle 28 is arranged behind the robot main body 30 and is in transmission connection with the gyro launching mechanism 29 through a pull rope 32; the gyro launching mechanism 29 is arranged at the front end of the robot main body 30 and comprises an ejection wave box 2 and a gyro 1 arranged on the ejection wave box, the ejection wave box 2 comprises a wave box base 8, a transmission gear set 3, an ejection mechanism and a trigger mechanism, the trigger mechanism excites the ejection mechanism to eject the gyro 1, the transmission gear set 3 transmits external power to the gyro 1 and drives the gyro 1 to rotate; the head trigger button 27 is arranged at the top of the robot main body 30, the head trigger button 27 is inserted on the lower pressing platform 31, the bottom of the lower pressing platform 31 is fixedly connected with a lower pressing touch inclined plane 34, and the lower pressing touch inclined plane 34 is sleeved with a lower pressing reset spring 33 for resetting the lower pressing platform 31; the downward pressing touch inclined plane 34 can abut against the inclined plane of the trigger boss 7 of the trigger mechanism on the catapult wave box 2 after moving downwards, and pushes the trigger boss 7 to move transversely so as to excite the catapult mechanism.

As shown in fig. 6 to 12, the transmission gear set 3 is disposed in the wave box base 8, the power input shaft end of the transmission gear set is connected with the anchor 18, and the power output end transmits power to the spinning top 1 through a gear to drive the spinning top 1 to rotate.

The ejection mechanism comprises an ejection seat 10 and a clamping platform sliding seat 22, the front end of the ejection seat 10 is provided with a gyro clamping groove 11, and the gyro clamping groove 11 can longitudinally slide in the ejection seat sliding grooves 12 on the two sides of the front end of the wave box base 8; the clamping table sliding seat 22 is connected in a groove at the left side of the gyro clamping groove 11, a gyro clamping table 9 is arranged at the inner side of the clamping table sliding seat, and the outer side wall of the clamping table sliding seat 22 is abutted against the inner wall of the elastic seat sliding groove 12; a sliding groove bulge 13 is arranged on the inner wall of the elastic seat sliding groove 12, the clamping platform sliding seat 22 slides along with the elastic seat, the gyro clamping platform 9 stretches and retracts in the gyro clamping groove 11 under the action of the sliding groove bulge 13, and the gyro clamping platform 9 can clamp and connect the gyro in the gyro clamping groove 11; the middle part of the elastic seat 10 is provided with an elastic rod 14, the elastic rod 14 is sleeved with a power storage spring 37, the elastic seat 10 moves backwards, and the power storage spring 37 stores elastic potential energy; the upper end of the rear part of the bullet seat 10 is fixedly connected with a limit boss 16; the bottommost part of the gyroscope 1 is coaxially and fixedly connected with a gyroscope supporting leg 6, and a gyroscope toothed ring 5 is coaxially and fixedly connected above the gyroscope supporting leg 6; a square platform support 4 which can rotate around the central shaft of the gyroscope 1 is arranged above the gyroscope toothed ring 5; when the spinning top 1 is clamped in the spinning top clamping groove 11, the inclined plane at the bottom of the spinning top clamping groove 11 and the spinning top clamping table 9 clamp the square table support 4 together to prevent the square table support from rotating,

the trigger mechanism comprises a trigger sliding seat 26 capable of moving transversely along the wave box base 8, a sliding seat clamping table 23 is arranged on the side of the trigger sliding seat 26, and the limiting boss 16 can be clamped and limited by the sliding seat clamping table 23; the upper end of the trigger sliding seat 26 is provided with a trigger boss 7 with an inclined plane; the trigger slide carriage 26 is further provided with a trigger reset upright post 25, and the trigger reset upright post 25 is sleeved with a reset spring 35.

The transmission gear set 3 comprises a transmission gear a19, a transmission gear b20 and a transmission gear c21; the transmission teeth b20 are coaxially and fixedly connected with the wire drawing disc 18, and the central shaft of the transmission teeth is a reset upright post 15; the reset upright post 15 is connected with a wire drawing disc reset spring 36; the transmission teeth b20 and the transmission teeth c21 form gear transmission connection, the transmission teeth c21 and the transmission teeth a19 form gear transmission connection, and the transmission teeth a19 and the gyro gear ring 5 form gear transmission connection.

The rear part of the wave box base 8 is transversely connected with a rotatable guide wheel 17, the front end of the guide wheel 17 is provided with a guide hole 24, and a pull rope 32 connected with a pull handle 28 passes through the guide hole 24 after bypassing the guide wheel 17 and is wound on a pull wire disc 18.

The front end face of the gyro clamping table 9, the front end face of the sliding seat clamping table 23 and the rear end face of the limiting boss 16 are all inclined planes.

The utility model discloses a use method:

the utility model discloses a shape shifting robot toy of ejectable top, when using at first open the opening of top launching mechanism 29 front end, aim at top draw-in groove 11 and push the top draw-in groove 11 of robot chest with top 1's square platform support 4, push the both sides support arm of top draw-in groove 11 on the bullet seat 10 before and will be in the foremost of bullet seat spout 12, top card platform 9 is also in the state of withdrawing; along with the pushing-in of the spinning top 1, at the moment, the elastic seat 10 also moves backwards and compresses the force accumulation spring 37 to store elastic potential energy, the card table sliding seat 22 synchronously slides along with the elastic seat 10, the spinning top card table 9 on the card table sliding seat 22 gradually extends out under the action of the sliding groove bulge 13 arranged on the inner wall of the elastic seat sliding groove 12, and finally the spinning top card table is clamped on the surface of the square table support 4 of the spinning top 1; in the process that the bullet seat 10 moves backwards, the limit boss 16 on the bullet seat 10 also moves backwards and is finally clamped by the sliding seat clamping table 23 of the trigger mechanism; at the moment, the gyroscope 1 and the elastic seat 10 are both in a limiting state, and the gyroscope toothed ring 5 of the gyroscope 1 in the limiting state is in transmission connection with the transmission gear set 3.

The pulling is around acting as go-between on the anchor 18, anchor 18 passes through drive gear group 3, with power transmission to top 1, drive top 1 rotates at a high speed, it is fixed that the center pin both ends of driving tooth a19 are the slotted hole among the drive gear group 3, can play the clutch effect, can guarantee to mesh when driving tooth a19 and top ring gear 5 to top 1 input power in-process, nevertheless when anchor 18 reset in-process, 3 antiport of drive gear group, driving tooth a19 and top ring gear 5 will leave a definite clearance this moment, thereby pause power input, top 1 still will last the rotation under the inertial force effect.

When the spinning top 1 rotates to reach a certain speed, the pressing platform is pressed through the head trigger button, the front end of the spinning top launching mechanism 29 is opened, the pressing contact inclined plane 34 of the pressing platform 31 moves downwards and then can be abutted to the inclined plane of the trigger boss 7 of the trigger mechanism on the launch wave box 2, the trigger boss 7 moves transversely, the sliding seat clamping table 23 loses the limit on the limit boss 16 in the moving process, the elastic seat 10 moves forwards quickly under the action of the power storage spring 37 to push the spinning top 1, after the front end is moved, the clamping table sliding seat 22 leaves the sliding groove bulge 13, the spinning top clamping table 9 retracts under the action of inertial thrust of the spinning top, the retracted spinning top clamping table 9 loses the limit on the spinning top 1, at the moment, the spinning top 1 is ejected out and rotates at a high speed, namely, after the head trigger button is pressed, the spinning top is ejected out quickly from the front end Zhang Kouchu and rotates at a high speed on the ground, the whole process has little loss on the rotation power of the spinning top 1, and the spinning top 1 keeps a long rotation time.

The above mentioned is only for illustrating the present invention related to some functional structure principles of the transformable robot toy of a catapult top, since it is easy for those skilled in the same technical field to perform a plurality of modifications on this basis, therefore this specification does not need to limit the present invention to a transformable robot toy of a catapult top shown or the specific mechanism and application range, so all the corresponding modifications and equivalents that may be utilized all belong to the protection scope of the present invention.

Claims (6)

1. A transformable robot toy capable of ejecting a top is characterized in that: the robot comprises a head trigger button, a robot main body, a handle and a gyro launching mechanism; the handle is arranged at the rear part of the robot main body and is in transmission connection with the gyro launching mechanism through a pull rope; the top launching mechanism is arranged at the front end of the robot main body and comprises an ejection wave box and a top arranged on the ejection wave box, the ejection wave box comprises a wave box base, a transmission gear set, an ejection mechanism and a trigger mechanism, the trigger mechanism excites the ejection mechanism to eject the top, and the transmission gear set transmits external power to the top to drive the top to rotate; the head trigger button is arranged at the top of the robot main body, the head trigger button is inserted on the lower pressing platform, the bottom of the lower pressing platform is fixedly connected with a lower pressing touch inclined plane, and a lower pressing reset spring is sleeved on the lower pressing touch inclined plane and used for resetting the lower pressing platform; the downward pressing touch inclined plane can be abutted against the inclined plane of the trigger boss of the trigger mechanism on the ejection wave box after moving downwards, and the trigger boss is pushed to move transversely so as to excite the ejection mechanism.

2. The transformable robotic toy of a catapultable top of claim 1, wherein: the transmission gear set is arranged in the wave box base, the power input shaft end of the transmission gear set is connected with a wire drawing disc, and the power output end transmits power to the gyroscope through a gear to drive the gyroscope to rotate;

the ejection mechanism comprises an ejection seat and a clamping platform sliding seat, the front end of the ejection seat is a gyroscope clamping groove, and the gyroscope clamping groove can longitudinally slide in the ejection seat sliding grooves on the two sides of the front end of the wave box base; the clamping table sliding seat is connected in a groove at the left side of the gyroscope clamping groove, a gyroscope clamping table is arranged at the inner side of the clamping table sliding seat, and the outer side wall of the clamping table sliding seat is abutted against the inner wall of the elastic seat sliding groove; the inner wall of the sliding groove of the elastic seat is provided with a sliding groove bulge, the clamping table sliding seat slides along with the elastic seat, the gyro clamping table stretches and retracts in the gyro clamping groove under the action of the sliding groove bulge, and the gyro clamping table can clamp and connect the gyro in the gyro clamping groove; the middle part of the elastic seat is provided with an elastic rod which is sleeved with a force storage spring, the elastic seat moves backwards, and the force storage spring stores elastic potential energy; the upper end of the rear part of the spring seat is fixedly connected with a limit boss;

the trigger mechanism comprises a trigger sliding seat which can transversely move along the wave box base, a sliding seat clamping table is arranged on the side of the trigger sliding seat, and the sliding seat clamping table can clamp and limit the limit boss; the upper end of the trigger sliding seat is provided with a trigger boss with an inclined plane; the trigger slide is also provided with a trigger reset upright post which is sleeved with a reset spring.

3. The transformable robotic toy of an ejectable top of claim 2, wherein: the bottommost part of the gyroscope is coaxially and fixedly connected with a gyroscope supporting leg, and a gyroscope toothed ring is coaxially and fixedly connected above the gyroscope supporting leg; and a square table support which can rotate around the central axis of the gyroscope is arranged above the gyroscope toothed ring.

4. The transformable robotic toy of an ejectable top of claim 2, wherein: the transmission gear set comprises transmission teeth a, transmission teeth b and transmission teeth c; the transmission teeth b are fixedly connected with the wire drawing disc in a coaxial line manner, and the central shaft of the transmission teeth b is a reset upright post; the reset upright post is connected with a wire drawing disc reset spring; the transmission teeth b and the transmission teeth c form gear transmission connection, the transmission teeth c and the transmission teeth a form gear transmission connection, and the transmission teeth a and the gyro gear ring form gear transmission connection.

5. The transformable robotic toy of an ejectable top of claim 2, wherein: the rear part of the wave box base is transversely connected with a guide wheel which can rotate, the front end of the guide wheel is provided with a guide hole, and a pull rope connected with a handle passes through the guide hole after bypassing the guide wheel and is wound on a wire drawing disc.

6. The transformable robotic toy of an ejectable top of claim 2, wherein: the front end face of the gyro clamping table, the front end face of the sliding seat clamping table and the rear end face of the limiting boss are inclined planes.

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