CN109364497B - Gyro toy car - Google Patents

Abstract

The invention relates to a gyroscopic toy vehicle, which comprises a vehicle underframe, a ratchet mechanism, a vehicle body seat, an ejection mechanism, a gyroscope body, a pawl piece, a carriage part and a magnetic elastic fastener, wherein the ratchet mechanism is arranged on the vehicle underframe; the front end of the chassis is provided with a pair of front wheels, and the ratchet mechanism is arranged on a rotating shaft of the front wheels; the vehicle body seat is arranged above the vehicle underframe; the ejection mechanism is obliquely arranged on the vehicle body seat towards the rear end of the vehicle underframe, and is positioned above the ratchet mechanism; the top body is movably arranged on the ejection mechanism, one end of the pawl piece is propped against the ejection mechanism, and the other end of the pawl piece is propped against the carriage part; the bottom of the carriage part is twisted and arranged on the vehicle body seat, and the top of the carriage part is buckled through a magnetic elastic buckle. The toy car toy has ingenious design, can combine the top body and the toy car for playing, has compact structure and strong connectivity, has multiple playing methods and has good playing effect.

Description

Gyro toy car

Technical Field

The invention relates to the technical field of toys, in particular to a gyroscopic toy vehicle.

Background

The toy is used as an important tool for the intelligence development and entertainment play of children, and the pursuit of the quality and the function of the toy is higher and higher along with the continuous improvement of the living standard of people.

Among them, toy vehicles are one of the popular toy products. Generally, an inertial drive is adopted as a main power structure of a toy car, however, the power device can only store energy for the inertial structure through rotation in a single direction, and can not effectively store energy for the inertial structure when rotating in the opposite direction, so that the playing method is single.

In addition, gyroscopes are one of the popular toy products. The existing top generally adopts a pull rope to store energy for the top body, and then the top body is placed in a disc to perform rotary collision, so that the playing method is single.

At present, two toys are usually used separately in the market, and the two toys are not combined together to play at the same time, so that a better playing effect is achieved.

Disclosure of Invention

Based on the above, the invention aims to overcome the defects of the prior art and provide the gyroscopic toy vehicle, which has ingenious design, can combine the gyroscope body and the toy vehicle for playing, has compact structure and strong connectivity, has multiple playing methods and has good playing effect.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

a gyroscopic toy vehicle comprises a vehicle underframe, a ratchet mechanism, a vehicle body seat, an ejection mechanism, a gyroscope body, a pawl, a carriage part and a magnetic elastic fastener; the front end of the chassis is provided with a pair of front wheels, and the ratchet mechanism is arranged on a rotating shaft of the front wheels; the vehicle body seat is arranged above the vehicle underframe; the ejection mechanism is obliquely arranged on the vehicle body seat towards the rear end of the vehicle underframe, and is positioned above the ratchet mechanism; the top body is movably arranged on the ejection mechanism, one end of the pawl piece is propped against the ejection mechanism, and the other end of the pawl piece is propped against the carriage part; the bottom of the carriage part is twisted and arranged on the vehicle body seat, and the top of the carriage part is buckled through a magnetic elastic buckle.

In order to achieve better technical effects, the technical improvement further comprises that the ratchet mechanism comprises two ratchet groups symmetrically arranged on the rotating shaft, and the propping directions of the two ratchet groups are reversely arranged.

In order to achieve the better technical effect, the technical improvement further comprises that the ratchet wheel set comprises a ratchet wheel fixing piece, an inner pawl, a ratchet wheel pawl and a ratchet wheel rotating wheel, wherein the ratchet wheel fixing piece is coaxially arranged on the rotating shaft, the inner pawl is fixed on the outer circumferential surface of the ratchet wheel fixing piece, the inner pawl is movably propped against the inner side of the ratchet wheel pawl, and the ratchet wheel rotating wheel is arranged on the outer side of the ratchet wheel pawl.

In order to achieve better technical effects, the technical improvement further comprises that the ejection mechanism comprises an inertia wheel and an ejection seat, wherein a plurality of lower convex teeth are uniformly arranged on the lower edge of the inertia wheel, side convex teeth are arranged on the side wall of the upper edge of the inertia wheel, the ejection seat is fixed on the inner side above the inertia wheel, and the gyroscope body is movably arranged on the ejection seat.

In order to achieve better technical effects, further technical improvements include: the middle part of the pawl is fixed on the vehicle body seat through a torsion spring, one end of the pawl is propped against the side convex teeth of the inertia wheel, and the other end of the pawl is propped against the middle of the bottom of one side of the carriage part.

In order to obtain better technical effect, further technical improvement still includes, still includes the bullet casting die, the bullet casting die includes two bullet casting die, and the bottom of these two bullet casting die is fixed in the axis of rotation, and has all placed the spring in its section of thick bamboo, and the top roof pressure of spring is on the automobile body seat.

In order to obtain better technical effect, further technical improvement still includes, carriage portion is including the left carriage and the right carriage of symmetry setting on the automobile body seat, the bottom in left carriage and right carriage rotationally sets up on the automobile body seat respectively, and its top passes through the lock of magnetic spring fastener.

In order to achieve better technical effects, the further technical improvement comprises that the magnetic elastic fastener comprises a left magnet block, a pull rod, a left buckling rod, a right buckling rod and a right magnet block, wherein a through groove is formed in the upper portion of the left carriage, the magnet block is positioned at the tail end of the through groove, the left buckling rod is positioned at the front end of the through groove, the pull rod is positioned in the through groove, the two ends of the pull rod are respectively connected with the magnet block and the left buckling rod, and the right buckling rod is arranged on the right carriage and is in buckling connection with the left buckling rod; the right magnet block is arranged at the tail part of the right carriage, and the outward polarity of the right magnet block is opposite to that of the left magnet block.

In order to achieve better technical effects, further technical improvement further comprises that a pressing piece is arranged in the middle of the front end of the underframe, and the upper end of the pressing piece is pressed against the joint of the left carriage and the right carriage.

In order to achieve better technical effects, the further technical improvement further comprises that a containing space with an opening at the rear end is defined between the carriage part and the vehicle body seat, and the top body is positioned at the front end of the containing space.

Therefore, the gyro toy car can realize that the toy car can move forwards and backwards to store energy for the ejection mechanism through the ratchet mechanism arranged on the car underframe, meanwhile, the gyro body arranged on the ejection mechanism is driven to store energy, the magnetic buckling piece of the carriage part is triggered in a magnet switch mode, the carriage is opened to form a fight disc of the gyro body, and the ejection mechanism is triggered to enable the gyro body to be emitted, so that the gyro toy car has ingenious design, can combine the gyro body with the toy car to play at the same time, has a compact structure and strong connectivity, has multiple play methods, has a very strong play effect, and has very high market popularization value.

Drawings

FIG. 1 is a schematic diagram of a gyroscopic toy vehicle in accordance with the present invention;

FIG. 2 is an open schematic view of a wagon portion of the gyroscopic toy vehicle of the present invention;

FIG. 3 is an exploded schematic view of the gyroscopic toy vehicle of the present invention;

FIG. 4 is another exploded schematic view of the gyroscopic toy vehicle of the present invention;

FIG. 5 is a top view of the gyroscopic toy vehicle of the present invention;

FIG. 6 is a schematic structural view of an ejection mechanism of the gyroscopic toy vehicle of the present invention;

FIG. 7 is an exploded view of the ejection mechanism and ratchet mechanism of the present invention;

FIG. 8 is a schematic view of a two-part gyroscopic toy vehicle of the present invention in a docked orientation.

Detailed Description

For further illustration of the various embodiments, the invention is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible implementations and advantages of the present invention.

Please refer to fig. 1 to 8.

A gyroscopic toy vehicle, which comprises a vehicle underframe 10, a ratchet mechanism 20, a vehicle body seat 11, a spring 30, an ejection mechanism 40, a gyroscope body 50, a pawl 60, a carriage part 70 and a magnetic spring 80; the front end of the chassis 10 is provided with a pair of front wheels 101, and the ratchet mechanism 20 is arranged on a rotating shaft 102 of the front wheels 101; the vehicle body seat 11 is arranged above the vehicle underframe 10, the ejection mechanism 40 is obliquely arranged on the vehicle body seat 11 towards the rear end of the vehicle underframe 10, and the ejection mechanism 40 is positioned above the ratchet mechanism 20; the top body 50 is movably arranged on the ejection mechanism 40, one end of the pawl 60 is propped against the ejection mechanism 40, and the other end is propped against the carriage part 70; the bottom of the carriage part 70 is arranged on the vehicle body seat 11 in a twisting way, and the top of the carriage part is buckled by a magnetic elastic buckle 80; the cabin portion 70 and the vehicle body seat 11 together define a receiving space with an open rear end, and the gyro body 50 is located at a front end of the receiving space.

Specifically, the vehicle chassis 10, the vehicle body seat 11, and the cabin portion 70 of the present invention constitute the vehicle body of the gyroscopic toy vehicle of the present invention. Wherein, a pair of front wheels 101 are arranged at the front end of the chassis 11, and at least a pair of rear wheels 103 are arranged at the rear end thereof; the front end of the body seat 11 is fixedly provided with the ejection mechanism 40, and preferably, the bottom of the top body 50 is movably sleeved in the ejection mechanism 40; in addition, the cabin portion 70 includes a left cabin 71 and a right cabin 72 symmetrically provided on the vehicle body seat 11, the bottoms of the left cabin 71 and the right cabin 72 are rotatably provided on the vehicle body seat 11, respectively, and the tops thereof are engaged by the magnetic snap members 80.

The ratchet mechanism 20 comprises two ratchet groups 21 symmetrically arranged on the rotating shaft 102, and the propping directions of the two ratchet groups 21 are opposite. Preferably, the ratchet set 21 includes a ratchet fixing member 22, an inner pawl 23, a ratchet pawl 24 and a ratchet rotating wheel 25, the ratchet fixing member 21 is coaxially disposed on the rotating shaft 102, the inner pawl 23 is fixed on the outer circumferential surface of the ratchet fixing member 22, the inner pawl 23 is movably pressed against the inner side of the ratchet pawl 24, and the ratchet rotating wheel 25 is disposed on the outer side of the ratchet pawl 24.

In this embodiment, when the magnetic latch 80 is activated, the left compartment 71 and the right compartment 72 are opened to both sides by the torsion springs, and together with the upper side of the body 11, a rail space with an opening at the rear end is defined.

The magnetic elastic fastener 80 of the invention comprises a left magnet block, a pull rod, a left buckling rod 81, a right buckling rod 82 and a right magnet block, wherein a through groove is arranged above the left carriage 71, the magnet block is positioned at the tail end of the through groove, the left buckling rod 81 is positioned at the front end of the through groove, the pull rod is positioned in the through groove, the two ends of the pull rod are respectively connected with the magnet block and the left buckling rod 81, and the right buckling rod 82 is arranged on the right carriage 72 and is in buckling connection with the left buckling rod 81; the right magnet block is mounted on the rear of the right car 82 with its outward polarity opposite to the outward polarity of the left magnet block. In this embodiment, the left magnet block, the pull rod, and the right magnet block are hidden inside the left carriage 71 and the right carriage 72, respectively, so that these components can be firmly placed, and the appearance is attractive, and the structural continuity of the left carriage 71 and the right carriage 72 is not affected.

Further, a pressing member 90 is provided at the middle part of the front end of the underframe 10, and the upper end of the pressing member 90 is pressed against the junction of the left compartment 71 and the right compartment 72; and, the rear end of the underframe 10 is provided with a protrusion 104 and a groove 105 in this order rearward, and the protrusion 104 can be just fitted in the groove 105. In addition, the spring 30 includes two spring cylinders 31, the bottoms of the two spring cylinders 31 are fixed on the rotating shaft 102, springs are placed in the cylinders, and the top ends of the springs are pressed against the vehicle body seat 11.

The ejection mechanism 40 of the invention comprises an inertia wheel 41 and an ejection seat 42, wherein a plurality of lower convex teeth 43 are uniformly arranged on the lower edge of the inertia wheel 41, side convex teeth 44 are arranged on the side wall of the upper edge of the inertia wheel, the ejection seat 42 is fixed on the upper inner side of the inertia wheel 41, and the gyroscope body 50 is movably arranged on the ejection seat 42. In order to realize that the gyroscope body 50 can be ejected into the fence space after being ejected, the ejection mechanism 40 of the invention is obliquely arranged towards the tail of the vehicle body seat 11.

In addition, the middle of the pawl 60 is fixed to the vehicle body seat 11 by a torsion spring, one end of the pawl 60 is pressed against the side lobe 44 of the flywheel 41, the other end is pressed against the bottom middle of the right compartment 82, and when the right compartment 82 is opened, the right compartment 82 presses the pawl 60 so that the pawl 60 is pressed against one end of the side lobe 44 of the flywheel 41 to disengage from the side lobe 44, thereby triggering the flywheel 41.

The following illustrates the principle of operation of the gyroscopic toy vehicle of the present invention:

the gyroscopic toy vehicle of the present invention has a variety of play methods, including essentially a play mode of the toy vehicle body, a play mode of the toy vehicle in combination with the top body 50, and a play mode of the two gyroscopic toy vehicles of the present invention in combination.

Specifically, when the toy car body is used as a playing mode of the toy car body, the toy car body is normally pushed forwards and backwards, and the playing method is common and has no other continuous actions, so that the toy car is easy and simple.

When the toy car is combined with the top body 50, the carriage part 70 is pressed downwards to enable the flywheel 41 of the ejection mechanism 40 to be meshed with the ratchet mechanism 20, and simultaneously the front wheel is pushed forwards or backwards to store energy, so that the top body 50 on the ejection seat 42 is driven to store energy together, after the energy is stored to a certain extent, a magnet is used for absorbing a left magnet block to enable the left pull rod 81 and the right pull rod 82 to be released from the card, the left carriage 71 and the right carriage 72 are simultaneously opened, the pawl 60 is pressed through the middle of the bottom of the right carriage 72 to trigger the flywheel 41, at the moment, the flywheel 41 rotates rapidly, the top body 50 is ejected out due to the centrifugal force in the rotating process, the top body 50 jumps to the rail space with the opening at the rear end, and the top body 50 can continuously jump out of the rail space through the opening at the rear end of the rail space.

When the two gyroscopic toy vehicles are combined together to play, the two gyroscopic toy vehicles are firstly stored with energy, then the tail parts of the two gyroscopic toy vehicles are butted, so that the carriage parts 70 are respectively triggered and opened through the magnetic elastic fasteners 80 on the two gyroscopic toy vehicles, the carriage parts 70 of the two gyroscopic toy vehicles are jointly enclosed into a enclosed fence space after being opened, at the moment, the top bodies 50 on the two gyroscopic toy vehicles are respectively pressed against the pawl pieces 60 at the middle of the bottom parts of the right carriage 72 to trigger the inertia wheels 41, the inertia wheels 41 rapidly rotate, and the top bodies 50 are ejected out due to the action of centrifugal force in the rotating process, and jump to the enclosed fence space for the two gyroscopic toy vehicles to jointly play a fight mode.

When the rotating shaft 102 rotates clockwise, the top of the inner pawl 23 of one ratchet mechanism 20 pushes the ratchet pawl 24 clockwise and drives the ratchet rotating wheel 25 to rotate at the same time, so that the flywheel 41 is driven to store energy in a rotating way; the other ratchet mechanism 20 is arranged in the opposite direction of the tightening direction, and at this time, the arc-shaped surface of the inner pawl 23 of the ratchet mechanism 20 rotates relative to the ratchet pawl 24, instead of the top of the inner pawl 23 pushing against the ratchet pawl 24 to rotate, so that when the rotating shaft 102 rotates clockwise, one ratchet mechanism 20 does not block the other ratchet mechanism 20 to drive the flywheel 41 to store energy.

Similarly, when the rotating shaft 10 rotates anticlockwise, one ratchet mechanism 20 does not block the other ratchet mechanism 20 to drive the flywheel 41 to store energy.

Compared with the prior art, the gyro toy car disclosed by the invention has the advantages that the toy car can move back and forth to store energy for the ejection mechanism through the ratchet mechanism arranged on the car underframe, meanwhile, the gyro body arranged on the ejection mechanism is driven to store energy, the magnetic buckling piece of the carriage part is touched in a magnet switch mode, the carriage is opened to form a fight disc of the gyro body, and the ejection mechanism is touched to enable the gyro body to be emitted, so that the gyro toy car is novel in design, can be combined with the toy car to play, is compact in structure, has strong connectivity, has a plurality of play methods, has a very strong play effect, and has very high market popularization value.

The foregoing examples illustrate only a few embodiments of the present invention and are described in detail with particularity and detail in connection with the accompanying drawings, which are not to be construed as limiting the scope of the inventive gyroscopic toy vehicle. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention.

Claims (7)

1. A gyroscopic toy vehicle, comprising: comprises a chassis, a ratchet mechanism, a chassis seat, an ejection mechanism, a top body, a pawl piece, a carriage part and a magnetic elastic fastener; the front end of the chassis is provided with a pair of front wheels, and the ratchet mechanism is arranged on a rotating shaft of the front wheels; the vehicle body seat is arranged above the vehicle underframe; the ejection mechanism is obliquely arranged on the vehicle body seat towards the rear end of the vehicle underframe, and is positioned above the ratchet mechanism; the top body is movably arranged on the ejection mechanism, one end of the pawl piece is propped against the ejection mechanism, and the other end of the pawl piece is propped against the carriage part; the bottom of the carriage part is twisted and arranged on the vehicle body seat, and the top of the carriage part is buckled through a magnetic elastic buckle; the ratchet mechanism comprises two ratchet groups symmetrically arranged on the rotating shaft, and the propping directions of the two ratchet groups are reversely arranged; the ejection mechanism comprises an inertia wheel and an ejection seat, wherein a plurality of lower convex teeth are uniformly arranged on the lower edge of the inertia wheel, side convex teeth are arranged on the side wall of the upper edge of the inertia wheel, the ejection seat is fixed on the upper inner side of the inertia wheel, and the gyroscope body is movably arranged on the ejection seat; the automobile body seat is characterized by further comprising a spring piece, wherein the spring piece comprises two spring barrels, the bottoms of the two spring barrels are fixed on the rotating shaft, springs are placed in the barrels, and the top ends of the springs are propped against the automobile body seat.

2. The gyroscopic toy vehicle of claim 1, in which: the ratchet wheel set comprises a ratchet wheel fixing piece, an inner pawl, a ratchet wheel pawl and a ratchet wheel rotating wheel, wherein the ratchet wheel fixing piece is coaxially arranged on a rotating shaft, the inner pawl is fixed on the outer circumferential surface of the ratchet wheel fixing piece, the inner pawl movably pushes against the inner side of the ratchet wheel pawl, and the ratchet wheel rotating wheel is arranged on the outer side of the ratchet wheel pawl.

3. The gyroscopic toy vehicle of claim 1, in which: the middle part of the pawl is fixed on the vehicle body seat through a torsion spring, one end of the pawl is propped against the side convex teeth of the inertia wheel, and the other end of the pawl is propped against the middle of the bottom of one side of the carriage part.

4. The gyroscopic toy vehicle of claim 1, in which: the carriage part comprises a left carriage and a right carriage which are symmetrically arranged on the vehicle body seat, the bottoms of the left carriage and the right carriage are respectively and rotatably arranged on the vehicle body seat, and the tops of the left carriage and the right carriage are buckled through magnetic elastic fasteners.

5. The gyroscopic toy vehicle of claim 4, in which: the magnetic elastic fastener comprises a left magnet block, a pull rod, a left buckling rod, a right buckling rod and a right magnet block, wherein a through groove is formed in the upper side of the left carriage, the magnet block is positioned at the tail end of the through groove, the left buckling rod is positioned at the front end of the through groove, the pull rod is positioned in the through groove, the two ends of the pull rod are respectively connected with the magnet block and the left buckling rod, and the right buckling rod is arranged on the right carriage and is in buckling connection with the left buckling rod; the right magnet block is arranged at the tail part of the right carriage, and the outward polarity of the right magnet block is opposite to that of the left magnet block.

6. The gyroscopic toy vehicle of claim 4, in which: the middle part of the front end of the underframe is provided with a pressing piece, and the upper end of the pressing piece is pressed at the joint of the left carriage and the right carriage.

7. The gyroscopic toy vehicle of claim 1, in which: the carriage part and the vehicle body seat jointly enclose a containing space with an opening at the rear end, and the top body is positioned at the front end of the containing space.