CN215585455U - Toy spinning-top vehicle - Google Patents

Abstract

The utility model discloses a toy spinning top vehicle, which comprises a vehicle body and a plurality of wheel rotating shafts, wherein each wheel rotating shaft is rotatably arranged on the vehicle body, and wheels are arranged on the wheel rotating shafts, and the toy spinning top vehicle is characterized in that: the gyroscope is provided with a gyroscope rotating shaft; the gyroscope driving mechanism and the gyroscope emitting mechanism are respectively arranged in an inner cavity of the vehicle body, and the power output end of the gyroscope driving mechanism corresponds to the tail end of the limiting notch; the gyro launching mechanism comprises a positioning component capable of moving along the limiting notch and a positioning component position switching mechanism capable of switching the position of the positioning component. The toy gyroscope car combines the gyroscope and the toy car, has high playability and can effectively enlighten the thinking of children.

Description

Toy spinning-top vehicle

Technical Field

The utility model relates to a toy car, in particular to a toy spinning top car.

Background

Along with the improvement of living standard of people, the toy has appeared in our life extensively, and toy and child's life are closely related, and people adopt the toy to teach in the mode of happy usually, edify children's thinking, can make children practice and take exercise when the practice and the practice of brain through the toy. The toy vehicles on the market are various at present, the toy vehicles serve as toys with high popularity for children, the driving mechanisms are arranged in the vehicle bodies, and the driving mechanisms drive the wheels to move during playing so as to enable the toy vehicles to move forwards or backwards.

Disclosure of Invention

The utility model aims to provide a toy spinning top vehicle, which combines a spinning top with the toy spinning top vehicle, has high playability and can effectively enlighten the thinking of children.

In order to solve the technical problems, the technical scheme is as follows:

the utility model provides a toy spinning top car, includes automobile body and a plurality of wheel pivot, and each wheel pivot is rotatable installs on the automobile body, installs wheel, its characterized in that in the wheel pivot: the gyroscope is provided with a gyroscope rotating shaft; the gyroscope driving mechanism and the gyroscope emitting mechanism are respectively arranged in an inner cavity of the vehicle body, and the power output end of the gyroscope driving mechanism corresponds to the tail end of the limiting notch; the gyro launching mechanism comprises a positioning component capable of moving along the limiting notch and a positioning component position switching mechanism capable of switching the position of the positioning component.

When the toy spinning top vehicle is used, the spinning top is stored with energy firstly: the gyro rotating shaft on the gyro is clamped in the positioning part and pushes the positioning part to move to the tail end of the limiting notch along the limiting notch, the positioning part is fixed at the tail end of the limiting notch by the positioning part position switching mechanism, the gyro rotating shaft is in transmission connection with the power output end of the gyro driving mechanism at the moment, and then the gyro driving mechanism drives the gyro rotating shaft to rotate so as to enable the gyro to store energy; after the energy storage of the gyroscope is completed and the gyroscope needs to be launched, the positioning part position switching mechanism enables the positioning part to be popped out from the tail end of the limiting notch to the opening of the limiting notch, and in the moving process of the positioning part, a gyroscope rotating shaft is pushed by the positioning part and finally separated from the positioning part, so that the gyroscope is launched from the opening of the limiting notch.

The position of the limiting notch close to the center of the vehicle body is the tail end.

In a preferred scheme, the gyro driving mechanism comprises a first gear, a gear box and a gear set arranged in the gear box, wherein the first gear is arranged on a wheel rotating shaft, and a first-stage gear of the gear set is meshed with the first gear; the last gear of the gear set has a part extending out of the gear box and corresponding to the end position of the limit notch; and a second gear matched with the final gear of the gear set is arranged on the gyro rotating shaft. The arrangement enables the gyro driving mechanism to be linked with the wheel rotating shaft, and when the gyro rotating shaft on the gyro is clamped in the positioning part and pushes the positioning part to move to the tail end of the limiting notch along the limiting notch, the second gear is meshed with the final gear of the gear set; when the toy gyroscope vehicle advances, the wheel rotating shaft rotates, so that the first gear of the gear set is endowed with power through the first gear, and the second gear and the gyroscope are driven to rotate through the gear set. The body of the toy spinning top vehicle can be provided with no wheel shaft driving mechanism, and the spinning top vehicle is pushed to move forwards in a mode of pushing by children to store energy for spinning tops; the vehicle body can also be provided with a wheel shaft driving mechanism (for example, the wheel shaft driving mechanism comprises a motor, a battery box and a switch, an output shaft of the motor is matched with the wheel rotating shaft through a gear set, the battery box is electrically connected with the motor through the switch, when the switch is turned on, the motor drives the wheel rotating shaft to rotate through the gear set, meanwhile, a structure with a controller and a control circuit can be arranged according to requirements, the controller controls the motor to rotate forwards and backwards, and the like), the wheel shaft driving mechanism drives the wheel rotating shaft to rotate, so that the vehicle body is driven to automatically advance, and meanwhile, the gyro is subjected to energy storage.

In a further preferred scheme, each stage of gear in the gear set is provided with a gear shaft, a plurality of shaft holes matched with the gear shafts are formed in the gear box, and each stage of gear in the gear set is rotatably arranged in the corresponding shaft hole through each gear shaft; the section of the shaft hole corresponding to the penultimate gear of the gear set in the gear box is arc-shaped (the gear shaft of the penultimate gear is taken as the center of a circle). When the toy gyro vehicle moves forwards, the penultimate gear of the gear set can move forwards in the shaft hole and is meshed with the last gear, so that energy is stored for the gyro; the gear can be used as a clutch in the gear set, when the toy gyro vehicle moves backwards, the penultimate gear of the gear set can move backwards in the shaft hole and is separated from the meshing state with the final gear, and the final gear cannot rotate and cannot transmit power to the gyro.

In a further preferred embodiment, the first gear is a face gear.

In a preferable scheme, the positioning component comprises a positioning sliding seat, the lower surface of the positioning sliding seat is provided with a guide groove with a front-back trend (the guide groove is consistent with the trend of the long-strip-shaped limiting notch), the vehicle body is internally provided with a guide block matched with the guide groove (under the condition that the gyro driving mechanism comprises a gear box, the guide block can be arranged on the upper outer surface of the gear box), the positioning sliding seat is arranged in an inner cavity of the vehicle body, and the guide groove is matched with the guide block; the front end of the positioning part is provided with a positioning bayonet matched with the spinning top rotating shaft, and the positioning bayonet corresponds to the position of the limiting notch. When the gyroscope is stored, a gyroscope rotating shaft on the gyroscope is clamped with the positioning bayonet and pushes the positioning sliding seat to move backwards until the positioning bayonet reaches a position corresponding to the tail end of the limiting notch, the position of the positioning sliding seat is fixed by the position switching mechanism of the positioning part, and the first compression spring is compressed; after the top finishes the energy storage, when needing to launch the top, make the location slide no longer fixed through locating part position switching mechanism, at this moment, the location slide pops out fast under first compression spring's elasticity effect, makes the location bayonet socket pop out to the opening part of spacing breach from the end of spacing breach, and the location slide is blockked by the automobile body and is stopped removing, and the top is launched from the opening part of spacing breach under inertial effect.

In another preferred scheme, the lower surface of the positioning sliding seat can also be provided with a guide block which moves forwards and backwards, and the vehicle body is provided with a guide groove matched with the guide block (under the condition that the gyro driving mechanism comprises a gear box, the guide groove can be arranged on the upper outer surface of the gear box).

In a further preferred scheme, the positioning component position switching mechanism comprises a lifting seat, a first compression spring, a second compression spring and a pressing piece, wherein a groove in the front-back direction is formed in the lower end of the lifting seat, the lifting seat is arranged in an inner cavity of the vehicle body, the positioning sliding seat extends into the groove and can move back and forth along the groove, first clamping blocks are respectively arranged on the inner sides of two side walls of the groove, a first inclined plane which gradually inclines upwards from front to back is arranged on the upper surface of each first clamping block, second clamping blocks which can be matched with the first clamping blocks are respectively arranged on two sides of the middle of the positioning sliding seat, and a second inclined plane which is matched with the first inclined plane is arranged on the lower surface of each second clamping block (the second inclined plane gradually inclines upwards from front to back); the rear end of the positioning sliding seat is provided with a first spring positioning column, a first compression spring is sleeved in the first spring positioning column, the front end of the first compression spring is contacted with the rear end of the positioning sliding seat, and the rear end of the first compression spring is contacted with the inner wall of the vehicle body; the upper end of the lifting seat is provided with a second spring positioning column, the upper end of the vehicle body is provided with a through hole, the second spring positioning column penetrates through the through hole and extends out of the vehicle body, the pressing piece is connected with the upper end of the second spring positioning column and is positioned outside the vehicle body, the second compression spring is sleeved on the second spring positioning column, the lower end of the second compression spring is in contact with the upper outer surface of the vehicle body, and the upper end of the second compression spring is in contact with the pressing piece. When the gyroscope is subjected to energy storage, a gyroscope rotating shaft on the gyroscope pushes the positioning sliding seat to move backwards, second inclined planes on two second clamping blocks on the positioning sliding seat are respectively contacted with first inclined planes of two first clamping blocks and extrude the lifting seat to move downwards, after the second clamping blocks pass through the first clamping blocks, the lifting seat moves upwards again under the action of a second compression spring, so that the first clamping blocks block the second clamping blocks, and the position of the positioning sliding seat is fixed by the lifting seat; after the top finishes energy storage, when needing to launch the top, only need press the pressing piece, make the lift seat descend, the second fixture block no longer is blockked by first fixture block this moment, and the location slide pops out fast under first compression spring's effect.

In another further preferred scheme, the positioning component position switching mechanism may also adopt a structure in which a lifting seat, a first compression spring, an extension spring and a pressing piece are matched, the extension spring is sleeved on the second spring positioning column, the lower end of the extension spring is fixedly connected with the upper end of the lifting seat, and the upper end of the extension spring is fixedly connected with the inner wall of the vehicle body.

In a further preferable scheme, a first convex strip arranged along the left-right direction is arranged in the middle of the positioning sliding seat, and two ends of the first convex strip respectively extend out of the left side and the right side of the positioning sliding seat to form two second clamping blocks; the upper surface of location slide is equipped with the reinforcing bar, and the reinforcing bar is connected with the front side or the rear side of first sand grip (reinforcing bar can with first sand grip body coupling). Through making two second fixture blocks stretch out the location slide by first sand grip and constitute to both ends set up the enhancement strip respectively around first sand grip, can effectively support the enhancement to the second fixture block, thereby prolong the life of second fixture block.

In a further preferred embodiment, the pressing element is formed as an animal-shaped head. The animal figure can be various animals, such as dragon, lion, tiger, leopard, wolf, dog, cat, horse, donkey, cow, pig or camel, which are popular with children.

In a preferable scheme, two positioning pieces extending forwards are arranged at the front end of the positioning component (in the case that the positioning component comprises a positioning sliding seat, the two positioning pieces extending forwards are arranged at the front end of the positioning sliding seat), the positioning bayonet is formed between the two positioning pieces, and second convex strips protruding inwards are further respectively arranged on the inner side walls of the two positioning pieces. When the top rotating shaft on the top is matched with the positioning bayonet, the two second convex strips can limit the top rotating shaft, so that the top cannot be separated when rotating.

The front and rear directions are determined according to the moving direction of the positioning slide, the moving direction of the positioning slide when pushing out the spinning top is front, and the moving direction of the positioning slide when pressing is rear.

The utility model has the beneficial effects that: this kind of toy top car combines together top and toy car, just can drive the top simultaneously through the traveling of automobile body and rotate the energy storage to can also launch the top after the top accomplishes the energy storage, its playability is high, can effectively enlighten children's thinking.

Drawings

FIG. 1 is a schematic diagram of a toy spinning top vehicle according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of the embodiment of the present invention with the pressing member removed;

FIG. 3 is a schematic structural diagram of a gyro drive mechanism and a gyro launch mechanism in an embodiment of the present invention;

FIG. 4 is an exploded view of FIG. 3;

fig. 5 is a schematic structural diagram of a lifting seat in an embodiment of the utility model.

Detailed Description

The utility model is further described with reference to the following figures and specific embodiments:

as shown in fig. 1-5, a toy spinning top vehicle comprises a vehicle body 1, a spinning top 2, a spinning top driving mechanism 3, a spinning top launching mechanism 4 and a plurality of wheel rotating shafts 5, wherein each wheel rotating shaft 5 is rotatably arranged on the vehicle body 1, wheels 501 are arranged on the wheel rotating shafts 5, and spinning top rotating shafts 201 are arranged on the spinning top 2; the vehicle body 1 is provided with a long limiting notch 101; the gyro driving mechanism 3 comprises a first gear 301, a gear box 302 and a gear set 303 arranged in the gear box 302, wherein the first gear 301 is arranged on a wheel rotating shaft 5, the first gear 301 is an end face gear, and a first-stage gear of the gear set 303 is meshed with the first gear 301; the last gear of the gear set 303 has a part extending out of the gear box 302 and corresponding to the end position of the limit notch 101; a second gear 2011 matched with the final gear of the gear set 303 is arranged on the gyro rotating shaft 201; the gyro launching mechanism 4 comprises a positioning component capable of moving along the limiting notch 101 and a positioning component position switching mechanism capable of switching the position of the positioning component, the positioning component comprises a positioning sliding seat 401, the lower surface of the positioning sliding seat 401 is provided with a guide groove (not visible in the figure) in the front-back direction, the upper surface of the gear box 302 is provided with a guide block 3021 matched with the guide groove, the positioning sliding seat 401 is arranged in the inner cavity of the vehicle body 1, and the guide groove is matched with the guide block 3021; the front end of the positioning sliding seat 401 is provided with a positioning bayonet 4011 matched with the spinning top spindle 201, and the positioning bayonet 4011 corresponds to the position of the limit notch 101; the positioning component position switching mechanism comprises a lifting seat 402, a first compression spring 403, a second compression spring 404 and a pressing piece 405, wherein a groove 4021 which runs forward and backward is arranged at the lower end of the lifting seat 402, the lifting seat 402 is arranged in an inner cavity of the vehicle body 1, the positioning slide seat 401 extends into the groove 4021 and can move back and forth along the groove 4021, first clamping blocks 40211 are respectively arranged on the inner sides of two side walls of the groove 4021, a first inclined plane 402111 which gradually inclines upwards from front to back is arranged on the upper surface of the first clamping block 40211, a first convex strip 4012 which is arranged along the left and right direction is arranged in the middle of the positioning slide seat 401, two ends of the first convex strip 4012 respectively extend out of the left and right sides of the positioning slide seat 401 and form two second clamping blocks 40121 which can be matched with the first clamping blocks 40140211, and a second inclined plane 401211 which is matched with the first inclined plane 402111 is arranged on the lower surface of the second clamping block 21 (the second inclined plane 401211 gradually inclines upwards from front to back); the upper surface of the positioning sliding seat 401 is provided with a reinforcing strip 4013, the reinforcing strip 4013 is connected with the rear side of the first convex strip 4012, and the reinforcing strip 4013 is integrally connected with the first convex strip 4012; a first spring positioning column 4014 is arranged at the rear end of the positioning sliding seat 401, the first compression spring 403 is sleeved in the first spring positioning column 4014, the front end of the first compression spring 403 is in contact with the rear end of the positioning sliding seat 401, and the rear end of the first compression spring 403 is in contact with the inner wall of the vehicle body 1; the upper end of the lifting seat 402 is provided with a second spring positioning column 4022, the upper end of the vehicle body 1 is provided with a through hole, the second spring positioning column 4022 penetrates through the through hole to extend out of the vehicle body 1, the pressing piece 405 is connected with the upper end of the second spring positioning column 4022 and is positioned outside the vehicle body 1, the second compression spring 404 is sleeved on the second spring positioning column 4022, the lower end of the second compression spring 404 is in contact with the upper outer surface of the vehicle body 1, and the upper end of the second compression spring 404 is in contact with the pressing piece 405; the front end of the positioning slide base 401 is provided with two positioning pieces 4015 extending forwards, a positioning bayonet 4011 is formed between the two positioning pieces 4015, and the inner side walls of the two positioning pieces 4015 are respectively provided with a second convex strip 40151 protruding inwards.

When the toy spinning top vehicle is used, the spinning top 2 is stored: the spinning top rotating shaft 201 on the spinning top 2 is clamped on the positioning bayonet 4011 of the positioning sliding seat 401, the two second convex strips 40151 limit the spinning top rotating shaft 201, then the positioning sliding seat 401 is pushed to move backwards, in the process that the positioning sliding seat 401 moves backwards, the second inclined surfaces 401211 on the two second clamping blocks 40121 on the positioning sliding seat 401 are respectively contacted with the first inclined surfaces 402111 of the two first clamping blocks 40211 and extrude the lifting seat 402 to move downwards, after the second clamping block 40121 passes through the first clamping blocks 40211, the lifting seat 402 moves upwards again under the action of the second compression spring 404, the first clamping blocks 40211 block the second clamping blocks 40121, at the moment, the position of the positioning sliding seat 401 is fixed by the lifting seat 402, and the first compression spring 403 is compressed; when the positioning bayonet 4011 reaches a position corresponding to the tail end of the limiting notch 101, the second gear 2011 is meshed with a final gear of the gear set 303, and then the toy gyro vehicle only needs to advance, and the wheel rotating shaft 5 rotates, so that the first gear 301 gives power to the first gear of the gear set 303, and the gear set 303 drives the second gear 2011 and the gyro 2 to rotate, so that the gyro 2 stores energy; after top 2 finishes the energy storage, when top 2 needs to be launched, only need press pressing piece 405, make lift seat 402 descend, second fixture block 40121 is no longer blockked by first fixture block 40211 this moment, location slide 401 pops out fast under the effect of first compression spring 403, make location bayonet 4011 pop out to the opening part of spacing breach 101 from the end of spacing breach 101, location slide 401 is blockked by automobile body 1 and is stopped removing, top 2 launches from the opening part of spacing breach 101 under inertial effect. Through making two second fixture blocks 40121 stretch out location slide 401 by first sand grip 4012 and constitute to set up enhancement strip 4013 respectively at first sand grip 4012's front and back both ends, can effectively support the enhancement to second fixture block 40121, thereby prolong second fixture block 40121's life.

The position of the limit notch 101 near the center of the vehicle body 1 is the tail end.

Each gear in the gear set 303 is provided with a gear shaft, the gear box 302 is provided with a plurality of shaft holes matched with the gear shafts, and each gear in the gear set 303 is rotatably arranged in the corresponding shaft hole through each gear shaft; the section of the shaft hole 3022 of the gear case 302 corresponding to the penultimate gear 3031 of the gear set 303 is arc-shaped (with the gear shaft of the penultimate gear as the center of circle). When the toy gyro vehicle moves forwards, the penultimate gear 3031 of the gear set 303 can move forwards in the shaft hole and is meshed with the last gear, so that energy is stored for the gyro 2; gear 3031 may be used as a clutch in gear set 303, and when the toy top vehicle moves backward, the penultimate gear 3031 of gear set 303 may move backward in shaft hole 3022 and disengage from the final gear, and the final gear will not rotate and will not transmit power to top 2.

Among the above-described front and rear directions, the direction in which the positioning slider 401 moves when pushing out the spinning top 2 is front, and the direction in which the positioning slider 401 moves when being pressed is rear, depending on the moving direction of the positioning slider 401.

Claims (9)

1. The utility model provides a toy spinning top car, includes automobile body and a plurality of wheel pivot, and each wheel pivot is rotatable installs on the automobile body, installs wheel, its characterized in that in the wheel pivot: the gyroscope is provided with a gyroscope rotating shaft; the gyroscope driving mechanism and the gyroscope emitting mechanism are respectively arranged in an inner cavity of the vehicle body, and the power output end of the gyroscope driving mechanism corresponds to the tail end of the limiting notch; the gyro launching mechanism comprises a positioning component capable of moving along the limiting notch and a positioning component position switching mechanism capable of switching the position of the positioning component.

2. A toy spinning top vehicle as claimed in claim 1, wherein: the gyro driving mechanism comprises a first gear, a gear box and a gear set arranged in the gear box, the first gear is arranged on a wheel rotating shaft, and a first-stage gear of the gear set is meshed with the first gear; the last gear of the gear set has a part extending out of the gear box and corresponding to the end position of the limit notch; and a second gear matched with the final gear of the gear set is arranged on the gyro rotating shaft.

3. A toy spinning top vehicle as claimed in claim 2, wherein: each level of gear in the gear set is provided with a gear shaft, a plurality of shaft holes matched with the gear shafts are arranged in the gear box, and each level of gear in the gear set is rotatably arranged in the corresponding shaft hole through each gear shaft; the section of the shaft hole in the gear box corresponding to the penultimate gear of the gear set is arc-shaped.

4. A toy spinning top vehicle as claimed in claim 2, wherein: the first gear is a face gear.

5. A toy spinning top vehicle as claimed in claim 1, wherein: the positioning component comprises a positioning sliding seat, the lower surface of the positioning sliding seat is provided with a guide groove in the front-back direction, a guide block matched with the guide groove is arranged in the vehicle body, the positioning sliding seat is arranged in an inner cavity of the vehicle body, and the guide groove is matched with the guide block; the front end of the positioning part is provided with a positioning bayonet matched with the spinning top rotating shaft, and the positioning bayonet corresponds to the position of the limiting notch.

6. A toy spinning top vehicle according to claim 5, characterized in that: the position switching mechanism of the positioning component comprises a lifting seat, a first compression spring, a second compression spring and a pressing piece, wherein a groove with a front-back direction is formed in the lower end of the lifting seat, the lifting seat is arranged in an inner cavity of the vehicle body, the positioning sliding seat extends into the groove and can move back and forth along the groove, first clamping blocks are respectively arranged on the inner sides of two side walls of the groove, a first inclined plane which gradually inclines upwards from front to back is arranged on the upper surface of each first clamping block, second clamping blocks which can be matched with the first clamping blocks are respectively arranged on two sides of the middle of the positioning sliding seat, and second inclined planes which are matched with the first inclined planes are arranged on the lower surfaces of the second clamping blocks; the rear end of the positioning sliding seat is provided with a first spring positioning column, a first compression spring is sleeved in the first spring positioning column, the front end of the first compression spring is contacted with the rear end of the positioning sliding seat, and the rear end of the first compression spring is contacted with the inner wall of the vehicle body; the upper end of the lifting seat is provided with a second spring positioning column, the upper end of the vehicle body is provided with a through hole, the second spring positioning column penetrates through the through hole and extends out of the vehicle body, the pressing piece is connected with the upper end of the second spring positioning column and is positioned outside the vehicle body, the second compression spring is sleeved on the second spring positioning column, the lower end of the second compression spring is in contact with the upper outer surface of the vehicle body, and the upper end of the second compression spring is in contact with the pressing piece.

7. A toy spinning top vehicle according to claim 6, wherein: the middle part of the positioning sliding seat is provided with a first convex strip arranged along the left-right direction, and two ends of the first convex strip respectively extend out of the left side and the right side of the positioning sliding seat to form two second clamping blocks; the upper surface of location slide is equipped with the enhancement strip, and the enhancement strip is connected with the front side or the rear side of first sand grip.

8. A toy spinning top vehicle according to claim 6, wherein: the pressing piece is made into an animal-shaped head.

9. A toy spinning top vehicle as claimed in claim 1, wherein: the front end of the positioning component is provided with two positioning pieces extending forwards, the positioning bayonet is formed between the two positioning pieces, and the inner side walls of the two positioning pieces are respectively provided with second convex strips protruding inwards.

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