CN217163182U

CN217163182U - Deformable gyro robot toy

Info

Publication number: CN217163182U
Application number: CN202123100145.3U
Authority: CN
Inventors: 蔡章培
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-11
Filing date: 2021-12-11
Publication date: 2022-08-12
Anticipated expiration: 2031-12-11

Abstract

The utility model relates to a toy top technical field that is relevant especially relates to a deformable top robot toy, and the top is installed on the transmission of transmission subassembly presss from both sides the mouth, and the drive gear of rotatory gear assembly and the rotating gear intermeshing of top, and rotatory gear assembly and transmission subassembly setting are inside robot toy, and the head passes through the axis of rotation to be installed at the health top, and the arm inserts in the health both sides through the rotation axis, and the health is installed at the lower part of the body top or the lower part of the body front end, and the afterbody is inserted on the round hole of the lower part of the body rear end or arm. The utility model has the advantages that: utilize the slewing gear subassembly to drive the top high-speed rotatory, the transmission subassembly then outwards launches the top from the robot toy is inside, robot toy self accessible dismouting comes the artifical type of machine to convert the dinosaur molding, this application not only makes the top directly launch in the robot toy through simple operation, and robot toy self can realize the variant moreover, greatly improves the interest and the object for appreciation nature of toy.

Description

Deformable gyro robot toy

Technical Field

The utility model relates to a toy top technical field that is relevant especially relates to a flexible top robot toy car.

Background

The spinning top is a toy which is popular among children. The rotation power of the top comes from the top emitter. Connect the top on the joint of top transmitter lower extreme, the top is rotatory under the drive of top transmitter, later breaks away from and independently rotates with the top transmitter. However, the existing toy spinning tops are all separated from the emitters, and are not easy to carry, and the emitters are wound through the built-in spring device, and the spinning tops are operated by carrying a long winding chain when the emitters are separated from the toy spinning tops, so that the operation is inconvenient, the structure is complex, the carrying is inconvenient, and the playing method is single, and therefore, the requirements of consumers are difficult to meet.

The applicant has the defects of the conventional toy top emitting structure, inherits the spirit of research innovation and lean refinement, combines production practice, and provides a practical solution by using a professional scientific method, thereby providing the application.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a flexible top robot toy to existing technical situation.

A transformable gyroscopic robot toy comprising: top, rotatory gear assembly, transmission subassembly and robot toy, its characterized in that: the robot toy mainly comprises a body, arms, a lower body, a tail and a head, wherein the head is arranged at the top of the body through a rotating shaft, the arms are inserted into two sides of the body through the rotating shaft, the body is arranged at the top of the lower body or the front end of the lower body, the tail is inserted into the rear end of the lower body or a round hole of the arms, a cavity is arranged inside the front end of the body and consists of a dinosaur head, and a gyro reflection port is positioned in the cavity.

The emitting assembly mainly comprises a spring, a lower pressing block, an emitting clamping block, an ejecting piece and an open cavity clamping strip, wherein the lower pressing block positioned above the emitting clamping block and the open cavity clamping strip is connected to the inner side of the body through the spring, a baffle at the front end of the lower pressing block is aligned to an inclined plane at the top of the open cavity clamping strip, a pressing plate at the rear end of the lower pressing block is aligned to a convex column at the top of the emitting clamping block, the inverted hook at the rear end of the ejecting piece is buckled by the inverted hook at the front end face of the emitting clamping block, the ejecting piece and the open cavity clamping strip are both provided with springs, and the spring is arranged on the inner side of the bottom of the emitting clamping block.

Specifically, the front end of the ejection piece is provided with a clamping structure used for clamping the bottom of the gyroscope to be placed, two inner sides of the clamping structure are provided with clamping strips protruding towards the middle, the front end of each clamping strip with the cavity is an inclined plane and penetrates through the inclined plane to be inserted into a groove position of the upper cover of the dinosaur head, and a torsion spring is arranged at the joint of the upper cover of the dinosaur head and the body.

Specifically, the top of the body of the robot toy is provided with a through hole, the bottom of the head of the robot toy is provided with a pressing cylinder, the pressing cylinder penetrates through the through hole and drives a pressing block to move downwards, and the inner side of the head of the robot toy is provided with a return spring.

Specifically, the rotary gear assembly mainly comprises a transmission gear, a driving gear, a pull rope base and a spring tube, wherein the driving gear is fixed on the pull rope base, the pull rope is wound on the pull rope base, the spring tube is arranged at the bottom of the pull rope base, the driving gear is meshed with the transmission gear, and the transmission gear is meshed with a rotary gear of the gyroscope.

Specifically, stay cord one end connect in the stay cord base, the stay cord other end extends to the outside of robot toy's health and connects in brake valve handle, brake valve handle adopts the design of T type, is convenient for pull out the stay cord fast.

Specifically, the bottom of the body of the robot toy is provided with an L-shaped sliding strip extending downwards, the rear end face of the body of the robot toy is provided with two longitudinal clamping strips, the top of the crotch of the lower body of the robot toy is provided with a sliding groove, the front end of the crotch of the lower body is provided with a mounting lug connected with the body, and the mutual conversion between the robot model and the dinosaur model is realized through the structure.

Specifically, the L-shaped sliding strip at the bottom of the body is embedded into the sliding groove and installed at the top of the lower body crotch, the upward clamping plate is arranged on the cylindrical button on one side of the lower body crotch, the clamping plate on the sliding groove is correspondingly inserted into the groove on the inner side of the L-shaped sliding strip, and the pressure spring is arranged inside the cylindrical button for resetting.

Specifically, the clamping strip of the rear end face of the body is arranged on the mounting lug, the elastic sheet on one side of the mounting lug is provided with a cambered transverse convex column, the transverse convex column is buckled in the groove on the inner side of the clamping strip, the elastic sheet and the mounting lug are integrally formed, and the elastic sheet utilizes the elasticity of the plastic material of the elastic sheet to clamp the transverse convex column in the groove.

The beneficial effects of the utility model are that: this application utilizes the slewing gear subassembly to drive the top high-speed rotatory, and the transmission subassembly then outwards launches the top from the robot toy is inside, and robot toy self accessible dismouting comes the artifical type of machine to convert the dinosaur molding, and this application not only makes the top directly launch in the robot toy through simple operation, and robot toy self can realize the variant moreover, greatly improves the interest and the object for appreciation nature of toy.

Drawings

FIG. 1 is a perspective view of the dinosaur shape of the present invention;

FIG. 2 is a perspective view of the robot model of the present invention;

FIG. 3 is an internal structure diagram of the launching structure of the present invention;

fig. 4 is an internal structure diagram of the rotary structure of the present invention.

Description of the labeling: the body 1, the arm 2, the lower body 3, the tail 4, the head 5, the top 6, the rotating gear assembly 7, the emitting assembly 8 and the dinosaur head 9; the L-shaped slide bar 11, the clamping bar 12, the sliding slot 21, the mounting lug 22, the lower body crotch 31, the cylindrical button 32 and the clamping plate 33; a transmission gear 71, a driving gear 72, a pull rope 73 and a pull rope base 74; spring 81, lower pressing block 82, launching fixture block 83, ejection piece 84, open cavity fixture strip 85 and clamping structure 86.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

As shown in fig. 1 to 4, a transformable gyroscopic robot toy comprising: top, slewing gear subassembly, transmission subassembly and robot toy, the top install on the transmission nip of transmission subassembly, slewing gear subassembly's drive gear and the slewing gear intermeshing of top, slewing gear subassembly and transmission subassembly set up inside robot toy, robot toy mainly comprises the health, the arm, the lower part of the body, afterbody and head, the head is installed at the health top through the axis of rotation, the arm is inserted in health both sides through the rotation axis, the health is installed at lower part of the body top or lower part of the body front end, the afterbody is inserted on the round hole of lower part of the body rear end or arm, the inside cavity that is equipped with of health front end, the cavity comprises the dinosaur head, top reflection port is located in the cavity.

The deformable gyro robot toy drives the gyro to rotate rapidly through the rotating gear set, the gyro is ejected rapidly by the transmitting assembly, and the robot toy can be transformed into two different states to mutually transform between the robot model and the dinosaur model.

Above-mentioned scheme, the transmission subassembly mainly by spring, lower briquetting, transmission fixture block, launch the piece and open the chamber card strip and constitute, the lower briquetting that is located transmission fixture block and opens chamber card strip top passes through spring coupling in the inboard top of health, the inclined plane at the chamber card strip top is opened in the alignment of baffle of lower briquetting front end, the projection at transmission fixture block top is aimed at to the press plate of lower briquetting rear end, the overhead kick of launching the piece rear end is detained through the overhead kick of preceding terminal surface to the transmission fixture block, launch the piece and open chamber card strip rear end face and all be equipped with the spring, transmission fixture block bottom inboard is equipped with the spring. The front end of the ejection piece is provided with a clamping structure used for clamping the bottom of the gyroscope, two inner sides of the clamping structure are provided with clamping strips protruding towards the middle, the front end of the cavity-opening clamping strip is an inclined plane and is inserted into a groove position of the upper cover of the dinosaur head through the inclined plane, and a torsion spring is arranged at the joint of the upper cover of the dinosaur head and the body. The top of the body of the robot toy is provided with a through hole, the bottom of the head of the robot toy is provided with a pressing cylinder, the pressing cylinder penetrates through the through hole and drives a pressing block to move downwards, and the inner side of the head of the robot toy is provided with a reset spring.

The ejection mode is as follows: when the robot is modeled, the head of the robot toy is pressed downwards, the pressing block is pressed by the pressing cylinder at the bottom of the head, the pressing block is pushed to move backwards by pushing the inclined surface at the top of the cavity opening clamping strip in the downward displacement process of the pressing block, the cavity opening clamping strip is separated from the slot position of the dinosaur head upper cover, the dinosaur head upper cover is turned upwards under the action of the torsion spring to open the cavity; when the lower pressing block continues to press downwards, the lower pressing block drives the emission clamping block to move downwards, the ejection piece is separated from the inverted hook at the front end of the emission clamping block, the pressure spring at the rear end of the ejection piece is released, the ejection piece moves forwards quickly, the spinning top is separated from the clamping opening structure of the ejection piece, and the emission action of the spinning top is achieved.

According to the scheme, the rotary gear assembly mainly comprises a transmission gear, a driving gear, a pull rope base and a spring tube, wherein the driving gear is fixed on the pull rope base, the pull rope is wound on the pull rope base, the spring tube is arranged at the bottom of the pull rope base, the driving gear is meshed with the transmission gear, and the transmission gear is meshed with the rotary gear of the gyroscope. One end of the pull rope is connected to the pull rope base, and the other end of the pull rope extends to the outside of the body of the robot toy and is connected to the pulling handle.

The rotation mode is as follows: when the robot is modeled, the pull rope can be pulled quickly to drive the pull rope base to rotate quickly, the top can rotate quickly by the pull rope base through the transmission gear and the driving gear, and the spring enables the pull rope base to rotate and reset.

According to the scheme, the L-shaped sliding strip extending downwards is arranged at the bottom of the body of the robot toy, the two longitudinal clamping strips are arranged on the rear end face of the body of the robot toy, the sliding groove is formed in the top of the crotch of the lower body of the robot toy, and the mounting lug for being connected to the body is arranged at the front end of the crotch of the lower body.

Modeling the robot: the L-shaped sliding strip at the bottom of the body is embedded into the sliding groove and installed at the top of the crotch of the lower body, the upward clamping plates are arranged on the cylindrical buttons on one side of the crotch of the lower body, and the clamping plates positioned on the sliding groove are correspondingly inserted into the grooves on the inner side of the L-shaped sliding strip. The body is arranged on the top of the crotch of the lower body, the head is turned over to the top of the body, and the tail of the dinosaur shape is arranged on the arm, so that the robot shape of the toy is realized.

Modeling the dinosaur: the clamping strip on the back end face of the body is arranged on the mounting lug, the elastic sheet on one side of the mounting lug is provided with a cambered transverse convex column, and the transverse convex column is buckled in the groove on the inner side of the clamping strip. The body of the robot toy is inserted into the mounting lug, the tail of the dinosaur shape is mounted on the hole site at the rear end of the crotch of the lower body, and the head of the robot is turned backwards, so that the dinosaur shape of the toy is realized.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims

1. A transformable gyroscopic robot toy comprising: top, slewing gear subassembly, transmission subassembly and robot toy, its characterized in that: the robot toy mainly comprises a body, arms, a lower body, a tail and a head, wherein the head is arranged at the top of the body through a rotating shaft, the arms are inserted into two sides of the body through the rotating shaft, the body is arranged at the top of the lower body or the front end of the lower body, the tail is inserted into the rear end of the lower body or a round hole of the arms, a cavity is arranged inside the front end of the body and consists of a dinosaur head, and a gyro reflection port is positioned in the cavity.

2. A transformable gyroscopic robot toy according to claim 1, wherein: the transmission subassembly mainly by the spring, lower briquetting, launch the fixture block, launch the piece and open the chamber card strip and constitute, the lower briquetting that is located transmission fixture block and open chamber card strip top passes through spring coupling in the inboard top of health, the inclined plane at the open chamber card strip top is aimed at to the baffle of lower briquetting front end, the projection at transmission fixture block top is aimed at to the press plate of lower briquetting rear end, the overhead kick of launching the piece rear end is detained through the overhead kick of preceding terminal surface to the transmission fixture block, launch the piece and open chamber card strip rear end face and all be equipped with the spring, transmission fixture block bottom inboard is equipped with the spring.

3. A transformable gyroscopic robot toy according to claim 2, wherein: the front end of the ejection piece is provided with a clamping structure used for clamping the bottom of the gyroscope, two inner sides of the clamping structure are provided with clamping strips protruding towards the middle, the front end of the cavity-opening clamping strip is an inclined plane and is inserted into a groove position of the upper cover of the dinosaur head through the inclined plane, and a torsion spring is arranged at the joint of the upper cover of the dinosaur head and the body.

4. A transformable gyroscopic robot toy according to claim 3, wherein: the top of the body of the robot toy is provided with a through hole, the bottom of the head of the robot toy is provided with a pressing cylinder, the pressing cylinder penetrates through the through hole and drives a pressing block to move downwards, and the inner side of the head of the robot toy is provided with a reset spring.

5. A transformable gyroscopic robot toy according to claim 1 or 4, wherein: the rotary gear assembly mainly comprises a transmission gear, a driving gear, a pull rope base and a spring tube, wherein the driving gear is fixed on the pull rope base, the pull rope is wound on the pull rope base, the spring tube is arranged at the bottom of the pull rope base, the driving gear is meshed with the transmission gear, and the transmission gear is meshed with a rotary gear of the gyroscope.

6. A transformable gyroscopic robot toy according to claim 5, wherein: one end of the pull rope is connected to the pull rope base, and the other end of the pull rope extends to the outside of the body of the robot toy and is connected to the pulling handle.

7. A transformable gyroscopic robot toy according to claim 1, wherein: the bottom of the body of the robot toy is provided with an L-shaped sliding strip extending downwards, the rear end face of the body of the robot toy is provided with two longitudinal clamping strips, the top of the crotch of the lower body of the robot toy is provided with a sliding slot, and the front end of the crotch of the lower body is provided with a mounting lug for connecting with the body.

8. A transformable gyroscopic robot toy according to claim 7, wherein: the L-shaped sliding strip at the bottom of the body is embedded into the sliding groove and is installed at the top of the lower body crotch, an upward clamping plate is arranged on the cylindrical button on one side of the lower body crotch, and the clamping plate positioned on the sliding groove is correspondingly inserted into a groove on the inner side of the L-shaped sliding strip.

9. A transformable gyroscopic robot toy according to claim 7, wherein: the clamping strip on the back end face of the body is arranged on the mounting lug, the elastic sheet on one side of the mounting lug is provided with a cambered transverse convex column, and the transverse convex column is buckled in the groove on the inner side of the clamping strip.