CN208161043U - A kind of form deformation toy - Google Patents
A kind of form deformation toy Download PDFInfo
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- CN208161043U CN208161043U CN201820319251.XU CN201820319251U CN208161043U CN 208161043 U CN208161043 U CN 208161043U CN 201820319251 U CN201820319251 U CN 201820319251U CN 208161043 U CN208161043 U CN 208161043U
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Abstract
The utility model provides a kind of form deformation toy, including tooth case, transmission mechanism and actuating mechanism;The tooth case includes power transmission gear set and the power transmission shaft through the power transmission gear set;The transmission mechanism includes movable part and cam, and the movable part is flexibly connected with the actuating mechanism;The power transmission gear set is rotated power by the power transmission shaft band moving cam after storing power, and cam rotation triggers the movable part movement, actuating mechanism movement described in last triggering.The utility model can deform automatically, ingenious in design, and structure is simple, and price is low, ingenious in design, have higher safety and interest.
Description
Technical field
The utility model belongs to toy art, more particularly to a kind of toy that can be deformed.
Background technique
Toy is as the product for playing happy game for people especially children, in daily life in occupation of important point
Amount.Since children are in an amphibolia constantly grown up, they have different hobbies in different age levels, generally
There is the psychology abandoned the old for the new.Therefore, toy industry is gone on along on the type of abundant toy, the road of increase play function.
Assigning toy multiple use forms is the important means for increasing toy interest.Toy be to pass through in the quiescent state
It can be manually rotated, stretch, assembling, dismantling toy fittings to make toy become another form from a kind of form.This type toy needs
It to dismount manually, can not allow toy auto Deformation, interest is lower.Toy be then automatically to be controlled using remote controler etc.
System, deforms toy, and this type toy needs to realize the function of auto Deformation by complicated electronic system or chip, but
This type toy general structure is complicated, and price is more expensive.
Utility model content
The purpose of the utility model is to overcome the deficiencies in the prior art, and providing one kind can be with the toy of auto Deformation.
A kind of form deformation toy provided by the utility model includes tooth case, transmission mechanism and actuating mechanism.The tooth case includes
Power transmission gear set and power transmission shaft through the power transmission gear set.The transmission mechanism includes movable part and convex
Wheel, the movable part are flexibly connected with the actuating mechanism.The power transmission gear set is moved power by described after storing power
Power transmission axle band moving cam rotates, and cam rotation triggers the movable part movement, actuating mechanism movement described in last triggering.
Compared with the existing technology, the utility model stores power using the power transmission gear set in the tooth case, then will move
Power drives the cam rotation, after cam rotates to certain position, cam and the movable part by the power transmission shaft
Touching pushes the movable part to move, and the movable part motion triggers actuating mechanism movement is automatically performed toy from a kind of shape
Deformation of the state to another form.The utility model can deform automatically, ingenious in design, and structure is simple, and price is low, if
It counts ingenious, has higher safety and interest.
Further, the transmission mechanism further includes fixing piece and driving spring, and the fixing piece and the tooth case are opposite solid
Fixed, the movable part is connect by the driving spring with the fixing piece.After the cam rotates to certain position, cam
It is touched with the movable part, pushes the movable part to move, deformation occurs to make driving spring.When the cam continues to revolve
Turn, after being detached from the movable part, driving spring springs back to equilbrium position under the effect of deformation elastic force, while movable part being pulled to return
Return initial position.
Further, the form deformation toy further includes deceleration mechanism, and the deceleration mechanism is arranged on the power transmission shaft,
The cam is arranged in deceleration mechanism to reduce the power that power transmission shaft exports it.The power transmission gear set stores power
It is generally large, so that the power transmission shaft be made quickly to rotate, the angular speed of the cam can be made by the deceleration mechanism
It reduces, so as to slowly drive the movable part to move, makes the reduction of actuating mechanism deformation velocity, avoid actuating mechanism from occurring quick-fried
Hairdo deformation causes accessory damage, injury human health.
Further, the deceleration mechanism includes the first train of reduction gears and the second train of reduction gears.First reducing gear
Wheel group is set in the power transmission shaft, the second train of reduction gears diameter be greater than first train of reduction gears, and with
The first train of reduction gears engagement.The cam is set in the rotation axis of second train of reduction gears.
Further, the deceleration mechanism further includes third train of reduction gears, the 4th train of reduction gears, the 5th train of reduction gears
With the 6th train of reduction gears.The third train of reduction gears diameter is less than second train of reduction gears, and subtracts with described second
Fast gear set is set in same rotation axis.The 4th train of reduction gears diameter be greater than the third train of reduction gears, and with
The third train of reduction gears engagement.The 5th train of reduction gears diameter be less than the 4th train of reduction gears, and with it is described
4th train of reduction gears is set in same rotation axis.The 6th train of reduction gears diameter is greater than the 5th reduction gearing
Group, and engaged with the 5th train of reduction gears.The cam is set in the rotation axis of the 6th train of reduction gears.
Further, the first transmission clamping portion is provided on the movable part.The actuating mechanism includes the first movement matrix,
The first movement matrix is hinged by a torque spring and a pedestal, and is provided with the first movement on the first movement matrix
Clamping portion forms the first form when the first movement clamping portion engages with first transmission clamping portion, when described first
Movement clamping portion and first transmission clamping portion form the second form when unclamping.
Further, the movable part is additionally provided with the second transmission clamping portion.The actuating mechanism further includes the second movement base
Body, the second movement matrix is hinged by a torque spring and the pedestal, and the third acts and is provided with the on matrix
Two movement clamping portions form third form when the second movement clamping portion engages with second transmission clamping portion, work as institute
The 4th form is formed when stating the second movement clamping portion and first transmission clamping portion release.
Further, the actuating mechanism further includes third movement matrix, and the third movement matrix passes through another torsion bullet
Spring and the first movement matrix are hinged, and the third movement matrix is stuck in the first movement base in first form
Between body and the pedestal, is sprung back and be unfolded by torque spring in second form.Or the third movement matrix exists
It is unfolded in first form, is being stuck in second form between the first movement matrix and the pedestal.
Further, the movable part is additionally provided with third transmission clamping portion;The pedestal includes top cover and pedestal, the top
Lid is connect by a spring with the pedestal, and top cover clamping portion is provided on the top cover;When the top cover clamping portion with it is described
Third forms the 5th form when being driven clamping portion engaging, when the top cover clamping portion and the third are driven shape when clamping portion is unclamped
At the 6th form.
Further, the form deformation toy is toy car comprising at least one set of wheel, the tooth case are fixed on the pedestal
On.The wheel is set on the power transmission shaft.
Detailed description of the invention
Fig. 1 is the structural schematic diagram before the utility model embodiment 1 deforms;
Fig. 2 is the explosive view of the utility model embodiment 1;
Fig. 3 is the explosive view of 1 dens in dente case of the utility model embodiment, deceleration mechanism and transmission mechanism;
Fig. 4 is the deformed structural schematic diagram of the utility model embodiment 1;
Fig. 5 is the structural schematic diagram before the utility model embodiment 2 deforms;
Fig. 6 is the explosive view of the utility model embodiment 2;
Fig. 7 is the explosive view of 2 dens in dente case of the utility model embodiment, deceleration mechanism and transmission mechanism;
Fig. 8 is the deformed structural schematic diagram of the utility model embodiment 2;
Fig. 9 is the structural schematic diagram before the utility model embodiment 3 deforms;
Figure 10 is the explosive view of the utility model embodiment 3;
Figure 11 is the explosive view of 3 dens in dente case of the utility model embodiment, deceleration mechanism and transmission mechanism;
Figure 12 is the structural schematic diagram of 3 second form of the utility model embodiment.
Specific embodiment
The form deformation toy of the utility model is provided with core component tooth case, transmission mechanism and actuating mechanism.Wherein, the tooth
Case includes power transmission gear set and the power transmission shaft through the power transmission gear set.The transmission mechanism includes activity
Part and cam, the movable part are flexibly connected with the actuating mechanism.The power transmission gear set passes through power after storing power
The power transmission shaft band moving cam rotates, and cam rotation triggers the movable part movement, actuating mechanism fortune described in last triggering
It is dynamic, so that toy is automatically performed the deformation from a kind of form to another form.Below by taking Deformable toy car as an example, and in conjunction with attached drawing
It is described in detail, conveniently further understands form deformation toy described in the utility model.
Embodiment 1
Please refer to Fig. 1, Fig. 2 and Fig. 3, wherein Fig. 1 is the structural schematic diagram before the present embodiment 1 deforms, Fig. 2 and Fig. 3
It is the explosive view of form deformation toy shown in Fig. 1.Form deformation toy described in the present embodiment 1 includes pedestal 1a, wheel 2a, tooth case 3a, slows down
Mechanism 4a, transmission mechanism 5a, actuating mechanism 6a.
Specifically, the pedestal 1a includes pedestal 11a and top cover 12a, and the top cover 12a cooperation, which is arranged, is fixed on the bottom
On seat 12a.Chassis of the pedestal 12a as toy car, car bonnet of the top cover 12a as toy car.
The wheel 2a includes the first wheel group 21a of the sequence setting from back to front on pedestal 12a in the present embodiment 1
With the second wheel group 22a, wherein the wheel footpath of the first wheel group 21a as rear-wheel is greater than the wheel footpath of the wheel group in front of it.
The tooth case 3a includes power transmission gear set 31a and power transmission shaft 32a, the power transmission gear set 31a
It is arranged on the pedestal 12a, the power transmission shaft 32a runs through the power transmission gear set 31a and first vehicle
Wheel group 21a.After the first wheel group 21a obtains outer power drive, power to power is transmitted by the power transmission shaft 32a and is passed
Defeated gear set 31a is so that it stores power.
The deceleration mechanism 4a sequentially includes the first train of reduction gears 41a, the second train of reduction gears in the present embodiment 1
42a, third train of reduction gears 43a, the 4th train of reduction gears 44a, the 5th train of reduction gears 45a and the 6th train of reduction gears 46a.
Wherein, the first train of reduction gears 41a is set on the power transmission shaft 32a of the tooth case 3a.Second reduction gearing
Group 42a is engaged with the first train of reduction gears 41a, and the diameter of the second train of reduction gears 42a is greater than described first
Train of reduction gears 41a.The third train of reduction gears 43a and the second train of reduction gears 42a are set in same rotation axis,
And the diameter of the third train of reduction gears 43a is less than the second train of reduction gears 42a.4th train of reduction gears
44a is engaged with the third train of reduction gears 43a, and the diameter of the 4th train of reduction gears 44a is greater than the third and subtracts
Fast gear set 43a.The 5th train of reduction gears 45a and the 4th train of reduction gears 44a are set in same rotation axis, and
And the diameter of the 5th train of reduction gears 45a is less than the 4th train of reduction gears 44a.The 6th train of reduction gears 46a
It is engaged with the 5th train of reduction gears 45a, and the diameter of the 6th train of reduction gears 46a is greater than the 5th reducing gear
Wheel group 45a.
The transmission mechanism 5a includes fixing piece 51a, movable part 52a, driving spring 53a and cam 54a.The fixing piece
51a is fixed on the pedestal 12a, and the movable part 52a is connect by the driving spring 53a with the fixing piece 51a.Institute
It states and is provided with the transmission clamping portion 522a of the first transmission clamping portion 521a and second on movable part 52a, make itself and actuating mechanism 6a card
It connects.The cam 54a is set in the rotation axis of the 6th train of reduction gears 46a, with the fortune of the 6th train of reduction gears 46a
It moves and rotates, the movable part 52a that rushes to summit loosens the clamping of itself and actuating mechanism 6a, so that actuating mechanism 6a is moved.
Specifically, the actuating mechanism 6a includes the first movement matrix 61a, the second movement matrix 62a in the present embodiment 1
Matrix 63a is acted with third.The first movement matrix 61a is used as movable car light in the present embodiment 1, passes through a torsion
The rear portion car bonnet (top cover 12a) is hingedly arranged in spring, and is provided with the first movement clamping portion 611a, first movement
The first transmission clamping portion on the movable part 52a that matrix 61a passes through its the first movement clamping portion 611a and transmission mechanism 5a
521a clamping, and can be separated by triggering.The second movement matrix 62a is used as movable preceding car bonnet in the present embodiment 1,
The front end two sides car bonnet (top cover 12a) are hingedly set by another torque spring, and are provided with the second movement clamping portion
On the movable part 52a of 621b, the second movement matrix 62a by its the second movement clamping portion 621a and transmission mechanism 5a
Second transmission clamping portion 522a clamping, and can pass through triggering separation.The third movement matrix 63a is logical in the present embodiment 1
Cross the wing for the first movement two sides matrix 61a that another torque spring is hingedly arranged in as car light.When the first movement base
When the first transmission clamping portion 521a on the movable part 52a of the body 61a and transmission mechanism 5a is clamped, the third acts matrix
63a is fastened between the first movement matrix 61a and car bonnet (top cover 12a), and entire toy forms the shape of vehicle;When described first dynamic
When making the first transmission clamping portion 521a release on the movable part 52a of the matrix 61a and transmission mechanism 5a, first movement
Matrix 61a is since the rebound effect of torque spring is turned over relative to car bonnet (top cover 12a), while the third acts base
Body 63a is stuck between the first movement matrix 61a and the car bonnet (top cover 12a).
The deformation principle of the form deformation toy of the utility model described further below.
Specifically, form deformation toy described in the utility model is pushed, the first wheel group 21a is rotated around a direction, band
The power transmission shaft 32a rotation is moved, kinetic energy is input in the power transmission gear set 31a, the power transmission tooth is made
Wheel group 31a stores power.Stop after pushing the form deformation toy, the power transmission shaft 32a also stops operating.Unclamp form deformation toy
Afterwards, the power transmission gear set 31a for storing power drives the power transmission shaft 32a rotation.The power transmission shaft 32a rotation
Output power, a part of power make form deformation toy advance for driving the first wheel group 21a to rotate backward;Another part
Power is for driving the first train of reduction gears 41a to rotate.
Since the first train of reduction gears 41a is set on the power transmission shaft 32a, first reducing gear
The angular velocity omega of wheel group 41a1Equal to the angular velocity omega of the power transmission shaft 32a0, i.e. ω1=ω0.Due to second deceleration
Gear set 42a is engaged with the first train of reduction gears 41a, therefore the linear velocity v of the second train of reduction gears 42a2It is equal to
The linear velocity v of the first train of reduction gears 41a1, i.e. v2=v1.The diameter of the second train of reduction gears 42a is greater than described the
One train of reduction gears 41a compares the angular speed of the first train of reduction gears 41a since angular speed and diameter are inversely proportional
ω1, the angular velocity omega of the second train of reduction gears 42a2Reduce, i.e. ω2<ω1.Therefore, by the second train of reduction gears 42a,
Angular speed is lowered.The third train of reduction gears 43a and the second train of reduction gears 42a are set in same rotation axis,
Therefore the angular velocity omega of the third train of reduction gears 43a3Equal to the angular velocity omega of the second train of reduction gears 42a2, i.e. ω3
=ω2.The 4th train of reduction gears 44a is engaged with the third train of reduction gears 43a, and the 4th train of reduction gears
The diameter of 44a is greater than the third train of reduction gears 43a, therefore the angular velocity omega of the 4th train of reduction gears 44a4Less than institute
State the angular velocity omega of third train of reduction gears 43a3, i.e. ω4<ω3.Therefore pass through the 4th train of reduction gears, angular speed is further
It reduces.And the 5th train of reduction gears 45a and the 4th train of reduction gears 44a are arranged on the same axis, therefore described the
The angular velocity omega of five train of reduction gears 45a5Equal to the angular velocity omega of the 4th train of reduction gears 44a4, i.e. ω5=ω4.It is described
6th train of reduction gears 46a is engaged with the 5th train of reduction gears 45a, and the diameter of the 6th train of reduction gears 46a is big
In the 5th train of reduction gears 45a, therefore the angular velocity omega of the 6th train of reduction gears 46a6Slow down less than the described 5th
The angular velocity omega of gear set 45a5, i.e. ω6<ω5.Therefore pass through the 6th train of reduction gears 46a, angular speed is further lowered.
And the cam 54a and the 6th train of reduction gears 46a are arranged on the same axis, therefore the angular velocity omega of the cam 54a7
Equal to the angular velocity omega of the 6th train of reduction gears 46a6, i.e. ω7=ω6.In conclusion ω7=ω6<ω5=ω4<ω3=
ω2<ω1=ω0, therefore by the effect of the deceleration mechanism 4a, the angular velocity omega of the cam 54a7Far below the power
The angular velocity omega of transmission axle 32a0。
Therefore, the first train of reduction gears 41a rotation, by driving the second train of reduction gears 42a, third to slow down
Gear set 43a, the 4th train of reduction gears 44a, the 5th train of reduction gears 45a, the 6th train of reduction gears 46a rotation, it is final to drive
The cam 54a rotation.When the cam 54a rotates to some position, the cam 54a pushes the movable part 52a same
When along both horizontally and vertically moving, to keep the first transmission clamping portion 521a and the first movement clamping portion 611a de-
From.At this moment, the constraint that the first movement matrix 61a is driven clamping portion 521a departing from described first, in the bullet of torque spring
It turns under power effect relative to the car bonnet (top cover 12a).The third movement matrix 63a is stuck in described first simultaneously
It acts between matrix 61a and the car bonnet (top cover 12a).Meanwhile the second transmission clamping portion 522a and described second is acted
Clamping portion 621a is detached from, and makes the second movement matrix 62a under the elastic force effect of torque spring relative to the car bonnet (top cover
12a) turn over.Therefore, form deformation toy completes the deformation for becoming another form from a kind of form.
Deformed structural schematic diagram please refers to Fig. 4.After deformation, the first movement matrix 61a is relative to the car bonnet
(top cover 12a) turns over, and becomes horizontal body by plumbness;The second movement matrix 62a is relative to the car bonnet (top
Lid 12a) it turns over;The third movement matrix 63a is become to be stuck in the first movement matrix 61a and institute by unfolded state
State the state between car bonnet (top cover 12a).
In addition, deformation occurs by the driving spring 53a after the movable part 52a is moved.The form deformation toy deformation
Afterwards, the cam 54a continues to rotate.It is described when the cam 54a rotates to the position that can not push the movable part 52a
Movable part 52a loses motive force.Under the elastic force effect of the driving spring 53a that deformation occurs, the movable part 52a is returned
Initial position.The deformed first movement matrix 61a, the second movement matrix 62a and third movement matrix 63a are answered manually
Position, can occur repeatedly to deform.
Compared with the existing technology, the utility model drives the power using the power transmission gear set 31a for storing power
Transmission axle 32a rotation, then the power transmission shaft 32a drives the first wheel group 21a rotation, before pushing form deformation toy
Into.The power transmission shaft 32a drives the deceleration mechanism 4a rotation simultaneously, to drive the cam 54a to rotate, when described
After cam 54a rotates to certain position, the cam 54a pushes the movable part 52a movement, then the movable part 52a touching
Deformation of sending out actuating mechanism 6a described.The utility model can deform automatically in the process of moving, reach the second form, deformation
After can continue to advance, while can reset, support repeatedly to deform, and simple in sturcture, ingenious in design, part is hardly damaged, tool
Standby safety and interest.
Embodiment 2
The deformation position of Deformable toy car described in embodiment 1 is car light and the wing that the car light two sides are arranged in.This reality
The Deformable toy car playing method for applying example 2 is close with embodiment 1, but its deformation position is cabin and the vehicle that the cabin two sides are arranged in
The wing.
Please refer to Fig. 5, Fig. 6 and Fig. 7, wherein Fig. 5 is the structural schematic diagram before the present embodiment 2 deforms, Fig. 6 and Fig. 7
It is the explosive view of form deformation toy shown in Fig. 5.Form deformation toy described in the present embodiment 2 includes pedestal 1b, wheel 2b, tooth case 3b, slows down
Mechanism 4b, transmission mechanism 5b, actuating mechanism 6b.
Specifically, the pedestal 1b includes pedestal 11b and top cover 12b, and the top cover 12b cooperation, which is arranged, is fixed on the bottom
On seat 12b.Chassis of the pedestal 12b as toy car, the top cover 12b have fairshaped car bonnet as toy car.
The wheel 2b includes the first wheel group of the sequence setting from back to front on pedestal 12b in the present embodiment 2
21b, the second wheel group 22b and third wheel group 23b, wherein the wheel footpath of the first wheel group 21b as rear-wheel is greater than its front
Wheel group wheel footpath.
The tooth case 3b includes power transmission gear set 31b and power transmission shaft 32b, the power transmission gear set 31b
It is arranged on the pedestal 12b, the power transmission shaft 32b runs through the power transmission gear set 31b and first vehicle
Wheel group 21b.After the first wheel group 21b obtains outer power drive, power to power is transmitted by the power transmission shaft 32b and is passed
Defeated gear set 31b is so that it stores power.
The deceleration mechanism 4b sequentially includes the first train of reduction gears 41b, the second train of reduction gears in the present embodiment 2
42b, third train of reduction gears 43b, the 4th train of reduction gears 44b, the 5th train of reduction gears 45b and the 6th train of reduction gears 46b.
Wherein, the first train of reduction gears 41b is set on the power transmission shaft 32b of the tooth case 3b.Second reduction gearing
Group 42b is engaged with the first train of reduction gears 41b, and the diameter of the second train of reduction gears 42b is greater than described first
Train of reduction gears 41b.The third train of reduction gears 43b and the second train of reduction gears 42b are set in same rotation axis,
And the diameter of the third train of reduction gears 43b is less than the second train of reduction gears 42b.4th train of reduction gears
44b is engaged with the third train of reduction gears 43b, and the diameter of the 4th train of reduction gears 44b is greater than the third and subtracts
Fast gear set 43b.The 5th train of reduction gears 45b and the 4th train of reduction gears 44b are set in same rotation axis, and
And the diameter of the 5th train of reduction gears 45b is less than the 4th train of reduction gears 44b.The 6th train of reduction gears 46b
It is engaged with the 5th train of reduction gears 45b, and the diameter of the 6th train of reduction gears 46b is greater than the 5th reducing gear
Wheel group 45b.
The transmission mechanism 5b includes fixing piece 51b, movable part 52b, driving spring 53b and cam 54b.The fixing piece
51b is fixed on the pedestal 12b, and the movable part 52b is connect by the driving spring 53b with the fixing piece 51b.Institute
It states and is provided with the first transmission clamping portion 521b on movable part 52b, be clamped it with actuating mechanism 6b.The cam 54b is set in
In the rotation axis of the 6th train of reduction gears 46b, rotated, the work of rushing to summit with the movement of the 6th train of reduction gears 46b
Moving part 52b loosens the clamping of itself and actuating mechanism 6b, so that actuating mechanism 6b is moved.
Specifically, the actuating mechanism 6b includes that the first movement matrix 61b and third act matrix in the present embodiment 2
63b.The first movement matrix 61b is used as movable cabin in the present embodiment 2, is hingedly arranged in by a torque spring
On car bonnet (top cover 12b), and be provided with the first movement clamping portion 611b, the first movement matrix 61b by its
The first transmission clamping portion 521b clamping on the movable part 52b of the one movement clamping portion 611b and transmission mechanism 5b, and can lead to
Cross triggering separation.The third movement matrix 63b is hingedly to be arranged in by another torque spring as cabin in the present embodiment 2
First movement the two sides matrix 61b wing.As the movable part 52b of the first movement the matrix 61b and the transmission mechanism 5b
On the first transmission clamping portion 521b clamping when, third movement matrix 63b is fastened on the first movement matrix 61b and car bonnet
Between (top cover 12b), entire toy forms the shape of vehicle;When the work of the first movement the matrix 61b and the transmission mechanism 5b
When the first transmission clamping portion 521b on moving part 52b unclamps, rebound masterpiece of the first movement matrix 61b due to torque spring
It is dug upwards with relative to car bonnet (top cover 12b), while the third acts matrix 63b since the effect of torque spring is beaten outward
It opens, to complete a kind of deformation of form to another form.
The deformation principle of the form deformation toy of the utility model described further below.
Specifically, form deformation toy described in the utility model is pushed, the first wheel group 21b is rotated around a direction, band
The power transmission shaft 32b rotation is moved, kinetic energy is input in the power transmission gear set 31b, the power transmission tooth is made
Wheel group 31b stores power.Stop after pushing, the power transmission shaft 32b also stops operating.After unclamping form deformation toy, the described of power is stored
Power transmission gear set 31b drives the power transmission shaft 32b rotation.The power transmission shaft 32b rotation output power, one
Sub-power makes form deformation toy advance for driving the first wheel group 21b to rotate backward;Another part power is for driving institute
State deceleration mechanism 4c rotation.The deceleration mechanism 4c drives the cam 54c rotation, while making the angular speed of the cam 54c
Far below the angular speed of the power transmission shaft 32c.
When the cam 54b rotates to some position, the cam 54b pushes the movable part 52b mobile, to make
The first transmission clamping portion 521b and the first movement clamping portion 611b are detached from.At this moment, the first movement matrix 61b is de-
From it is described first transmission clamping portion 521b constraint, torque spring elastic force effect under relative to car bonnet (top cover 12b) to
On dig.The third movement matrix 63b is detached from the constraint of the first movement the matrix 61b and car bonnet (top cover 12b) simultaneously,
It is outwardly opened under the elastic force effect of torque spring.Therefore, form deformation toy completes the deformation for becoming another form from a kind of form.
Deformed structural schematic diagram please refers to Fig. 8.After deformation, the first movement matrix 61b is relative to the top cover
12b is dug upwards, and the third movement matrix 63b is rotated and outwardly opened relative to the first movement matrix 61b.
In addition, deformation occurs by the driving spring 53b after the movable part 52b is moved.The form deformation toy deformation
Afterwards, the cam 54b continues to rotate.It is described when the cam 54b rotates to the position that can not push the movable part 52b
Movable part 52b loses motive force.Under the elastic force effect of the driving spring 53b, the movable part 52b returns to initial position.
The deformed first movement matrix 61b and third movement matrix 63b are resetted manually, can occur repeatedly to deform.
Compared with the existing technology, the utility model drives the power using the power transmission gear set 31b for storing power
Transmission axle 32b rotation, then the power transmission shaft 32b drives the first wheel group 21b rotation, before pushing form deformation toy
Into.The power transmission shaft 32b drives the deceleration mechanism 4b rotation simultaneously, so that the cam 54b be driven to rotate.When described
After cam 54b rotates to certain position, the cam 54b pushes the movable part 52b movement, then the movable part 52b touching
Send out actuating mechanism 6b deformation.The utility model can deform automatically in the process of moving, can continue to advance after deformation, together
When can reset, support repeatedly to deform, and simple in sturcture, ingenious in design, part is hardly damaged, and has safety and interest.
Embodiment 3
The deformation position of Deformable toy car described in embodiment 1 is car light and the wing that the car light two sides are arranged in, and
The deformation position of preceding car bonnet, Deformable toy car described in embodiment 2 is cabin and the wing that the cabin two sides are arranged in.This implementation
The Deformable toy car playing method of example 3 is close with embodiment 1,2, but Deformable toy car form is set as forklift, and deformation position is
Vehicle shovel and car bonnet.
Please refer to Fig. 9, Figure 10 and Figure 11, wherein Fig. 9 is the structural schematic diagram before the present embodiment 3 deforms, Tu10He
Figure 11 is the explosive view of Deformable toy car shown in Figure 10.Form deformation toy described in the present embodiment 3 includes pedestal 1c, wheel 2c, tooth case
3c, deceleration mechanism 4c, transmission mechanism 5c, actuating mechanism 6c.
Specifically, the pedestal 1c includes that pedestal 11c and top cover 12c, the top cover 12c pass through a spring and the pedestal
11c connection, and top cover clamping portion 121c is provided on the top cover 12c.Chassis of the pedestal 12c as toy car, it is described
Car bonnet of the top cover 12c as toy car.
The wheel 2c includes the first wheel group 21c of the sequence setting from back to front on pedestal 12c in the present embodiment 3
With the second wheel group 22c, wherein the wheel footpath of the first wheel group 21c as rear-wheel is greater than the wheel footpath of the wheel group in front of it.
The tooth case 3c includes power transmission gear set 31c and power transmission shaft 32c, the power transmission gear set 31c
It is arranged on the pedestal 12c, the power transmission shaft 32c runs through the power transmission gear set 31c and first vehicle
Wheel group 21c.After the first wheel group 21c obtains outer power drive, power to power is transmitted by the power transmission shaft 32c and is passed
Defeated gear set 31c is so that it stores power.
The deceleration mechanism 4c sequentially includes the first train of reduction gears 41c, the second train of reduction gears in the present embodiment 3
42c, third train of reduction gears 43c, the 4th train of reduction gears 44c, the 5th train of reduction gears 45c and the 6th train of reduction gears 46c.
Wherein, the first train of reduction gears 41c is set on the power transmission shaft 32c of the tooth case 3c.Second reduction gearing
Group 42c is engaged with the first train of reduction gears 41c, and the diameter of the second train of reduction gears 42c is greater than described first
Train of reduction gears 41c.The third train of reduction gears 43c and the second train of reduction gears 42c are set in same rotation axis,
And the diameter of the third train of reduction gears 43c is less than the second train of reduction gears 42c.4th train of reduction gears
44c is engaged with the third train of reduction gears 43c, and the diameter of the 4th train of reduction gears 44c is greater than the third and subtracts
Fast gear set 43c.The 5th train of reduction gears 45c and the 4th train of reduction gears 44c are set in same rotation axis, and
And the diameter of the 5th train of reduction gears 45c is less than the 4th train of reduction gears 44c.The 6th train of reduction gears 46c
It is engaged with the 5th train of reduction gears 45c, and the diameter of the 6th train of reduction gears 46c is greater than the 5th reducing gear
Wheel group 45c.
The transmission mechanism 5c includes fixing piece 51c, movable part 52c, driving spring 53c and cam 54c.The fixing piece
51c is fixed on the pedestal 12c, and the movable part 52c is connect by the driving spring 53c with the fixing piece 51c.Institute
It states and is provided with the first transmission clamping portion 521c on movable part 52c, be clamped it with actuating mechanism 6c, while being additionally provided with third biography
Dynamic clamping portion 523c is clamped the top cover clamping portion 121c of itself and the top cover 12c.The cam 54c is set in the described 6th
In the rotation axis of train of reduction gears 46c, rotated with the movement of the 6th train of reduction gears 46c, the movable part 52c that rushes to summit makes
The clamping of itself and actuating mechanism 6c and top cover 12c loosen, so that actuating mechanism 6c and top cover 12c movement.
Specifically, the actuating mechanism 6c includes the first movement matrix 61c in the present embodiment 3.The first movement base
Body 61c is shoveled in the present embodiment 3 as movable vehicle, is hingedly arranged on top cover 12c by a torque spring, and thereon
It is provided with the first movement clamping portion 611c, the first movement matrix 61c passes through its first movement clamping portion 611c and the biography
The first transmission clamping portion 521c clamping on the movable part 52c of motivation structure 5c, and can be separated by triggering.When first movement
When the first transmission clamping portion 521c on the movable part 52c of the matrix 61c and transmission mechanism 5c is clamped, the first movement base
Body 61c is located at the rear portion of the top cover 12c;When on the movable part 52c of the first movement matrix 61c and transmission mechanism 5c
First transmission clamping portion 521c unclamp when, it is described first movement matrix 61c due to torque spring rebound effect relative to
Top cover 12c is overturn forward.
The deformation principle of the form deformation toy of the utility model described further below.
Specifically, form deformation toy described in the utility model is pushed, the first wheel group 21c a direction rotation drives
The power transmission shaft 32c rotation, kinetic energy is input in the power transmission gear set 31c, the power transmission gear is made
Group 31c stores power.Stop after pushing, the power transmission shaft 32c also stops operating.After unclamping form deformation toy, the described dynamic of power is stored
Power transmits gear set 31c and drives the power transmission shaft 32c rotation.The power transmission shaft 32c rotates output power, a part
Power makes form deformation toy advance for driving the first wheel group 21c to rotate backward;Another part power is described for driving
Deceleration mechanism 4c rotation.The deceleration mechanism 4c drives the cam 54c rotation, while keeping the angular speed of the cam 54c remote
Lower than the angular speed of the power transmission shaft 32c.
When the cam 54c rotates to some position, the cam 54c pushes the movable part 52c simultaneously along level
It is mobile with vertical direction, so that the first transmission clamping portion 521c and the first movement clamping portion 611c be made to be detached from.At this moment,
The constraint that the first movement matrix 61c is driven clamping portion 521c departing from described first, under the elastic force effect of torque spring
It is overturn forward relative to top cover 12c.The top cover clamping portion 121c of third transmission the clamping portion 523c and the top cover 12c simultaneously
It is detached from, then the top cover 12c is moved under the elastic force effect of spring relative to the pedestal 11c.To the present embodiment 3
Deformable toy car complete a kind of deformation of emerging tower to another form.
Deformed structural schematic diagram please refers to Figure 12.After deformation, the first movement matrix 61c is relative to the top cover
12c is flipped, and the front of top cover 12c is turned to from the rear portion of the top cover 12c;The top cover 12c is relative to the pedestal
Movement has occurred in 11c upwards.
In addition, deformation occurs by driving spring 53c after the movable part 52c is moved.After the form deformation toy deformation,
The cam 54c continues to rotate.When the cam 54c rotates to the position that can not push the movable part 52c, the activity
Part 52c loses motive force.Under the elastic force effect of the driving spring 53c, the movable part 52c returns to initial position.Manually
The deformed first movement matrix 61c and top cover 12c is resetted, can occur repeatedly to deform.
Compared with the existing technology, the utility model drives the power using the power transmission gear set 31c for storing power
Transmission axle 32c rotation, then the power transmission shaft 32c drives the first wheel group 21c rotation, before pushing form deformation toy
Into.The power transmission shaft 32c drives the deceleration mechanism 4c rotation simultaneously, so that the cam 54c be driven to rotate.When described
Cam 54c pushes the movable part 52c to move after rotating to certain position.Then the movable part 52c triggers the movement machine
The structure 6c and top cover 12c is mobile.The utility model can deform automatically in the process of moving, reach the second form, become
It can continue to advance after shape, while can reset, support repeatedly to deform, and is simple in sturcture, ingenious in design, part is hardly damaged,
Have safety and interest.
First movement matrix, the second movement matrix and third movement matrix described in the utility model and corresponding transmission clamping
Portion is alternatively matched, the pedestal, wheel, tooth case, deceleration mechanism, transmission mechanism and actuating mechanism can also be designed to it is various
Shape.
The utility model is not limited to embodiment of above, and those skilled in the art can make phase according to the utility model
It perhaps deforms its change if should change or deforms the spirit and scope for not departing from the utility model, belong to the utility model
Claim and equivalency range in, then the utility model be also intended to encompass these change and deformation.
Claims (10)
1. a kind of form deformation toy, it is characterised in that:Including tooth case, transmission mechanism and actuating mechanism;The tooth case includes that power passes
Defeated gear set and power transmission shaft through the power transmission gear set;The transmission mechanism includes movable part and cam, institute
Movable part is stated to be flexibly connected with the actuating mechanism;Power is passed through into the power transmission after the power transmission gear set storage power
Axis band moving cam rotates, and cam rotation triggers the movable part movement, actuating mechanism movement described in last triggering.
2. form deformation toy according to claim 1, it is characterised in that:The transmission mechanism further includes fixing piece and transmission bullet
Spring, the fixing piece and the tooth case are relatively fixed, and the movable part is connect by the driving spring with the fixing piece.
3. form deformation toy according to claim 1 or claim 2, it is characterised in that:It further include deceleration mechanism, the deceleration mechanism setting
On the power transmission shaft, the cam is arranged in deceleration mechanism to reduce the power that power transmission shaft exports it.
4. form deformation toy according to claim 3, it is characterised in that:The deceleration mechanism includes the first train of reduction gears and the
Two train of reduction gears;First train of reduction gears is set in the power transmission shaft, the second train of reduction gears diameter
It is engaged greater than first train of reduction gears, and with first train of reduction gears;The cam is set in described second and slows down
In the rotation axis of gear set.
5. form deformation toy according to claim 4, it is characterised in that:The deceleration mechanism further include third train of reduction gears,
4th train of reduction gears, the 5th train of reduction gears and the 6th train of reduction gears;The third train of reduction gears diameter is less than described
Second train of reduction gears, and be set in same rotation axis with second train of reduction gears;4th train of reduction gears is straight
Diameter is greater than the third train of reduction gears, and engages with the third train of reduction gears;The 5th train of reduction gears diameter is small
It is set in same rotation axis in the 4th train of reduction gears, and with the 4th train of reduction gears;6th reducing gear
Wheel group diameter is greater than the 5th train of reduction gears, and engages with the 5th train of reduction gears;The cam is set in described
In the rotation axis of 6th train of reduction gears.
6. form deformation toy according to claim 1,2,4 or 5, it is characterised in that:The first transmission is provided on the movable part
Clamping portion;The actuating mechanism includes the first movement matrix, and the first movement matrix is cut with scissors by a torque spring and a pedestal
It connects, and is provided with the first movement clamping portion on the first movement matrix, when the first movement clamping portion and described first passes
The first form is formed when dynamic clamping portion engaging, is formed when the first movement clamping portion is unclamped with first transmission clamping portion
Second form.
7. form deformation toy according to claim 6, it is characterised in that:The movable part is additionally provided with the second transmission clamping portion;
The actuating mechanism further includes the second movement matrix, and the second movement matrix is cut with scissors by another torque spring and the pedestal
It connects, and is provided with the second movement clamping portion on the second movement matrix, when the second movement clamping portion and described second passes
Third form is formed when dynamic clamping portion engaging, is formed when the second movement clamping portion is unclamped with first transmission clamping portion
4th form.
8. form deformation toy according to claim 6, it is characterised in that:The actuating mechanism further includes third movement matrix, institute
It is hinged by another torque spring and the first movement matrix to state third movement matrix, the third acts matrix described the
It is stuck in one form between the first movement matrix and the pedestal, is sprung back in second form by torque spring
Expansion;Or the third movement matrix is unfolded in first form, is stuck in described first in second form
It acts between matrix and the pedestal.
9. according to the form deformation toy of claim 7 or 8, it is characterised in that:The movable part is additionally provided with third transmission clamping
Portion;The pedestal includes top cover and pedestal, and the top cover is connect by a spring with the pedestal, and top is provided on the top cover
Lid clamping portion;The 5th form is formed when the top cover clamping portion engages with third transmission clamping portion, when the top cover card
Socket part and third transmission clamping portion form the 6th form when unclamping.
10. form deformation toy according to claim 9, it is characterised in that:The form deformation toy is toy car comprising at least one
Group wheel, the tooth case are fixed on the base;The wheel is set on the power transmission shaft.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820319251.XU CN208161043U (en) | 2018-03-08 | 2018-03-08 | A kind of form deformation toy |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820319251.XU CN208161043U (en) | 2018-03-08 | 2018-03-08 | A kind of form deformation toy |
Publications (1)
Publication Number | Publication Date |
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CN208161043U true CN208161043U (en) | 2018-11-30 |
Family
ID=64385127
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820319251.XU Withdrawn - After Issue CN208161043U (en) | 2018-03-08 | 2018-03-08 | A kind of form deformation toy |
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Country | Link |
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CN (1) | CN208161043U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108325217A (en) * | 2018-03-08 | 2018-07-27 | 广州灵动创想文化科技有限公司 | A kind of form deformation toy |
WO2021036710A1 (en) * | 2019-08-27 | 2021-03-04 | 广州奥飞文化传播有限公司 | Motion triggering assembly of toy and time-delayed triggering toy |
-
2018
- 2018-03-08 CN CN201820319251.XU patent/CN208161043U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108325217A (en) * | 2018-03-08 | 2018-07-27 | 广州灵动创想文化科技有限公司 | A kind of form deformation toy |
CN108325217B (en) * | 2018-03-08 | 2020-03-31 | 广州灵动创想文化科技有限公司 | Transformable toy |
WO2021036710A1 (en) * | 2019-08-27 | 2021-03-04 | 广州奥飞文化传播有限公司 | Motion triggering assembly of toy and time-delayed triggering toy |
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GR01 | Patent grant | ||
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AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20181130 Effective date of abandoning: 20200331 |