CN207384826U - Toy top - Google Patents

Abstract

The novel toy top that can postpone the resolving time of main body and axle portion is provided.It is with main body and axle portion,By making main body compared with axle portion to a direction relative rotation,Make the pawl of axle portion and the pawl engaging of main body,When axle portion and main body being made to be subject to the power to other direction relative rotation when because the impact being subject in rotation,The engaging with the pawl of main body of the pawl of axle portion is released from,Axle portion and main body depart from and decompose,The toy top is characterized in that,The guiding groove that the second position is connected from first position is formed with around rotation axis in axle portion,Distance between centers of the first position apart from axis of rotation is maximum,The second position is smaller than the distance between centers of the first position,The weight member that can be moved in the inside of the guiding groove is accommodated in guiding groove,When rotary speed increases,Weight member is moved from the lateral first position side in the second position,When be subject to axle portion and main body is made to be impacted to other direction relative rotation,Weight member is moved from the lateral second position side in first position.

Description

Toy top

Cross reference to related applications

This application claims the Japanese patent applications for enjoying on 2 27th, 2017 entitled " toy tops " submitted The priority of 2017-035083, the entire disclosure of which are herein incorporated by reference.

Technical field

The utility model is related to a kind of toy tops.

Background technology

As the battle game for using toy top, existing makes toy top collide with each other, and makes other side using its impact force Toy top stop rotating, the toy top bullet of other side flown, make battle game that the toy top of other side decomposes (for example, Referring to patent document 1).

For example, in the toy top disclosed in patent document 1, there is main body and axle portion, by making main body with respect to axle portion court One direction relative rotation engages the pawl of axle portion and the pawl of main body.Then, when the toy top of oneself and the gyro of other side are played In the case of tool collision, the rotation of main body temporarily ceases, and on the other hand, axle portion continues to rotate and make axle portion and main body towards the opposing party To relative rotation, the thus engaging of the pawl of the pawl and main body of axle portion is released from, and axle portion and main body separation, toy top decompose.

Prior art literature

Patent document

Patent document 1：No. 5959773 publications of Japanese Patent No.

Utility model content

Utility model problem to be solved

In such toy top, main body is provided with and resistance elements that axle portion both sides are intermeshed or contacted, make Main body and axle portion become slow to the relative rotation of off-direction so that the time until axle portion and main body are decomposed is elongated, energy It is enough muchly to enjoy battle game.

The purpose of this utility model is to provide can make what the resolving time of main body and axle portion postponed by other means Novel toy top.

The method for solving problem

First scheme is a kind of toy top, has main body and axle portion, by making main body compared with axle portion to a direction Relative rotation makes the holding section of the axle portion and the holding section engaging of the main body, makes institute due to because the impact being subject in rotation State axle portion and when the main body is subject to the power to other direction relative rotation, the engaging with the main body of the holding section of the axle portion The engaging in portion is released from, and axle portion and main body depart from and decompose,

The toy top is characterized in that, is formed in the axle portion around rotation axis from first position and is connected the second position Guiding groove, distance between centers of the first position apart from axis of rotation is maximum, and the second position is than the first position The distance between centers it is small, the guiding groove accommodate can the inside of the guiding groove move weight member, work as rotation When speed increases, the weight member is from the second position laterally first position side movement, when being made the axle portion With impact from the main body to the other direction relative rotation when, the weight member is from the lateral second in the first position Put side movement.

Alternative plan is on the basis of first scheme, which is characterized in that the guiding groove is with the distance between centers from institute State first position to the gradually smaller mode in the second position be formed as overlook observation when arc.

Third program is on the basis of first scheme or alternative plan, which is characterized in that the guiding groove is to clamp Configure the arch when mode of the second position is formed as overlook observation with stating first position.

Fourth program is on the basis of the either a program of first scheme to third program, which is characterized in that the guiding groove Position at two for being respectively formed in the clamping axis of rotation and standing facing each other.

The effect of utility model

According to first scheme, when toy top and the collision of the toy top of other side, since it impacts weight member because used Property power from the movement of the lateral second position in the first position of guiding groove.In guiding groove, compared with first position, second position distance The distance between centers of the axis of rotation of toy top is smaller, therefore, if weight member is moved to second position side, the rotation of axle portion Turn energy, rotary force becomes smaller.As a result, main body and axle portion is made to become slow to the relative rotation of off-direction, enable to straight Time until decomposition is elongated.

According to alternative plan, guiding groove is lateral from first position with the distance between centers at the center of guiding groove to axis of rotation The gradually smaller mode in second position side is formed as arc during overlook observation, therefore, weight member during external force is subject to guide It is swimmingly moved in slot.

According to third program, axle portion can be suitable for bidirectional rotation purposes, and therefore, a toy top is used in bidirectional rotation It is effective in the case of way, meanwhile, pass through the replacement of main body, additionally it is possible to play for the gyro of other counter-rotating purposes Tool, therefore can realize the higher toy top of availability.

According to fourth program, since guiding groove is respectively formed in position at clamp axis of rotation and stand facing each other two, energy Enough realize the good toy top of spin balancing.

Description of the drawings

Fig. 1 is that the method for gaming of an embodiment of the toy top involved by the utility model is illustrated Figure.

Fig. 2 is the exploded perspective view of the toy top of present embodiment.

Fig. 3 is the decomposition sectional stereogram of the toy top of present embodiment.

Fig. 4 is the exploded perspective view of the axle portion of the toy top of present embodiment.

Fig. 5 (A), Fig. 5 (B) represent the snap-fit relationship of the main body of toy top of present embodiment, axle portion and flywheel, figure 5 (A) are the figures for representing state when engaging releases, and Fig. 5 (B) is the figure for representing fastening state.

Fig. 6 is the stereogram of an example of the transmitter for the toy top for representing rotation driving present embodiment.

Fig. 7 (A), Fig. 7 (B) are for illustrating the figure of the movement of the weight member of the toy top of present embodiment.

Specific embodiment

Hereinafter, the toy top of the utility model is illustrated based on embodiment shown in the drawings.

《Overall structure》

Fig. 1 is that the method for gaming of an embodiment of the toy top involved by the utility model is illustrated Figure, Fig. 2 is the exploded perspective view of the toy top of present embodiment, and Fig. 3 is the decomposition section of the toy top of present embodiment Stereogram.In the present specification, up and down, left and right and front and rear refer to Fig. 2 and direction shown in Fig. 3.

The toy top 1 of embodiment is the toy top that can be used in so-called battle game.Specifically, should Toy top 1 can make the toy top 1 of other side as the right side of Fig. 1 using the impact force generated by mutual collision It is used in the battle game decomposed and won the victory.

As shown in FIG. 2 and 3, which is configured to include：Form infrastructure and as the axis of driver Portion 10；With as forming the performance variable loop 30 of laminated body of superstructure and main body 40.

《Detail section structure》

1. on axle portion 10

As shown in Fig. 2, axle portion 10 possesses rotation axis 11 in lower end, possesses flange 12 in vertical direction middle part, upper Portion possesses cylindrical portion 13.

Wherein, flange 12 and cylindrical portion 13 are integrally formed and form axle portion top, and the flange 12 and cylindrical portion 13 are opposite It is fixed in axle portion lower part by screw 11c (with reference to Fig. 4).

As shown in figure 4, axle portion lower part is configured to include：Bowl-shape matrix part 100 and it is embedded in the matrix part The insert portion 110 of 100 recess portion 101.Moreover, the circle for clasping spherical rotation axis 11 is formed on matrix part 100 Hole 102, meanwhile, on the outside of its radial direction, clamp rotation axis 11 axis at two that left and right directions stand facing each other position difference It is formed with guiding groove 103.Two guiding grooves 103 are located in same level.Spherical shape there are one respectively being accommodated in each guiding groove 103 Weight member 25.In addition, what rotation axis 11 can also be bar-like.In addition, two guiding grooves 103 can also be formed as from first It puts to the second position and with slightly downward inclination (gradient).In addition, two guiding grooves 103 can also be formed as from first It puts to the second position and with slightly upward inclination (gradient).However, it is necessary to do not interfering the effect of the utility model and effect Make its inclination in the range of fruit.

Fig. 7 (A), Fig. 7 (B) are the schematical top views of the toy top 1.As shown in the figure, each guiding groove 103 is formed For overlook observation when to rotation axis 11 the concave arch of center axis.In each guiding groove from the circumferencial direction of toy top 1 In the case of 103, it is set as the distance between centers maximum (first position) of central part and is somebody's turn to do from central part to guiding groove 103 The both ends distance between centers becomes smaller (two second positions) gradually.Guiding groove 103 herein is so as to being rotated clockwise Toy top 1 and arch when counterclockwise the 1 corresponding mode of toy top of rotation is formed as overlook observation.That is, though So toy top 1 herein can be changed direction of rotation by changing main body 40, but since same axle portion 10 can be used, Therefore each guiding groove 103 is formed as to arch during overlook observation.Therefore, axle portion 10 is only used for it is right handed In the case of any one in toy top 1, the toy top 1 counterclockwise rotated, as long as there are one first positions with tool The guiding groove 103 of arc is set with the mode of a second position.

In addition, insert portion 110 is embedded in the recess portion 101 of matrix part 100.The insert portion 110 will with embedded state The guiding groove 103 is closed and forms the roof of the guiding groove 103.It is consequently formed the path of navigation of weight member 25.Such as Fig. 3 institutes Show, on insert portion 110, be formed with cylindrical portion 111 prominent upward and cylindrical portion 112 prominent downwards.Cylinder Portion 111 is embedded in the cavity of aftermentioned cylinder 16.In addition, cylindrical portion 112 is embedded in above-mentioned hole 102 and to rotation axis 11 It presses downwards.

On flange 12 and cylindrical portion 13, clamping rotation axis 11 axis stand facing each other in the longitudinal direction two at position difference It is formed with hole 14.

In addition, in cylindrical portion 13, the axis of clamping rotation axis 11 stand facing each other in the lateral direction two at position difference shape Into there is protruding portion 15.The outer surface of the protruding portion 15 and the outer circumferential surface of flange 12 become a face.

In addition, as shown in figure 3, the medial shaft in cylindrical portion 13 erects and is equipped with cylinder 16.16 inside of cylinder is sky Hole and lower opening.In addition, as shown in figure 4, in the lower end of cylinder 16 in each formation in left and right there are one tab 16a, at it On be formed with screw insertion hole 16b.Moreover, blank part of the cylindrical portion 111 of insert portion 110 from downside insertion cylinder 16, The recess portion 113 of the tab 16a insertion insert portions 110 of cylinder 16.Moreover, it is inserted using the screw through matrix part 100 The screw 11c of the screw insertion hole 16b of hole 104 and tab 16a, axle portion top is installed on by cylinder 16 and axis lower part.

The upper end of the cylinder 16 is not particularly limited, but is disposed on position more higher than the upper end of cylindrical portion 13. The upper end of the cylinder 16, the axis of clamping rotation axis 11 stand facing each other in the longitudinal direction two at position be respectively formed oriented half The pawl (holding section) 17 stretched out on the outside of the direction of footpath.

In addition, axle portion 10 possesses cylindric pressing component 18.The pressing component 18 is arranged in the inside of cylindrical portion 13 The periphery of cylinder 16 is surrounded.

In addition, it is equipped with foot 18c in the periphery lower end of cylindrical portion 18a.Foot 18c is respectively formed in clamping rotation axis 11 axis stand facing each other in the longitudinal direction two at position.Moreover, it is exerted a force upward to the pressing component 18 using spring 20.Profit The movements of the foot 18c of the pressing component 18 upward, under normal conditions, the upper end of pressing component 18 are limited with the top edge in hole 14 It is located at sustained height position with the upper end of cylindrical portion 13.

In addition, the upper surface of the top wall portion in pressing component 18, the axis of clamping rotation axis 11 stands facing each other in the lateral direction Two at position be respectively formed with along radial direction extend raised line (protrusion) 21.

2. on performance variable loop 30

In the present embodiment, using flywheel as performance variable loop 30.The performance variable loop 30 is formed as plate.Such as figure Shown in 3, in the bottom surface of the performance variable loop 30, the annular step portions for the flange 12 that can accommodate axle portion 10 from below are formed with 31.In addition, as shown in Figures 2 and 3, in the upper surface of the performance variable loop 30, the axis of rotation axis 11 is clamped in left and right directions Position is respectively formed with the protruding portion 32 stretched out upward at the two of upper face-off.Energy is formed in the lower portion of each protruding portion 32 The recess portion 33 of enough protruding portions 15 for accommodating axle portion 10 from below.In addition, in the upper surface of performance variable loop 30, in close proximity to each protrusion The outside in portion 32 is formed with the tongue piece 34 extended upward.Side is prominent more up than protruding portion 32 for tongue piece 34.In addition, as this property Can variable loop 30, can be instead of flywheel or with flywheel one, outer circumferential surface have protruding portion and be easy to attack other side The component of toy top 1 has recess portion in outer circumferential surface and is difficult to be subject to the component of the attack of the toy top 1 from other side.

3. on main body 40

Main body 40 is formed as discoid.As shown in Fig. 2, the main body 40 possesses：Matrix 400 and in plan view with base 400 same shape of body is covered in the transparent cover 401 on matrix 400.

Concave-convex 40a is formed in the periphery of main body 40.In addition, it is formed with circular hole 41 in the center of matrix 400.It is above-mentioned transparent Cover body 401 covers the part in addition to circular hole 41 and aftermentioned arcuate slots 46.Further, in the lower surface of main body 40 It is formed with the annular recessed portion 42 for the protruding portion 32 that can accommodate performance variable loop 30 from below.

The inner peripheral surface lower end of the internal perisporium 43a of the annular recessed portion 42 is formed in division, clamps the axis of rotation axis 11 preceding Position is provided projectingly the pawl (holding section) 44 stretched out on the inside of oriented radial direction respectively at two to stand facing each other in rear direction.

In addition, the vertical direction middle part of the inner peripheral surface in internal perisporium 43a, clamps the axis of rotation axis 11 in left and right directions Position is provided projectingly the protrusion 47 stretched out on the inside of oriented radial direction respectively at the two of upper face-off.

Further, in the lower face of internal perisporium 43a, the axis of clamping rotation axis 11 stand facing each other in the lateral direction two at portion Position is separately and continuously formed with bumps so as to be formed with the undulation portion 45 engaged with above-mentioned raised line 21.

In addition, on the roof 43b for the annular recessed portion 42 for forming main body 40 in division, performance can be inserted into from below by being formed with The arcuate slots 46 of the tongue piece 34 of variable loop 30.The length of the arcuate slots 46 is the length that tongue piece 34 can be made fully mobile.

4. on identification component 60

Identification component 60 is installed on circular hole 41.The identification is with component 60 for the identification of toy top 1, the knowledge of player Not.

Although not shown in embodiment, in order to carry out the identification, and prepare to have mutually different pattern and/ Or the component of color is used as identification component 60 using protrusion 47 with an identification for spirally therefrom selecting player Component 60 is installed on circular hole 41.

《Assemble method》

Next, an example of the assemble method of toy top 1 is illustrated.In addition, axle portion 10 is set to herein Assembling has been completed.Also, it is set to identification also to have been completed with installation of the component 60 to circular hole 41.

First, the protruding portion 15 of axle portion 10 is made to be aligned from below with the recess portion of performance variable loop 30 33, by axle portion 10 and property Energy variable loop 30 is assembled into chimerism.Then, make the assembly from below close to main body 40.At this point, make above-mentioned assembly The tongue piece 34 of performance variable loop 30 and the defined end alignment (Fig. 5 (A)) of the arcuate slots 46 of main body 40.The state is axle portion 10 pawl 17 and the pawl 44 of main body 40 nonoverlapping state in the up-down direction.The state is engagement released state.It afterwards, will be upper The axle portion 10 for stating assembly is pressed to 40 side of main body.Then, first, performance variable loop 30 is pressed against the following table of main body 40 Face.Further, spring 20 compresses, and the pawl 17 of axle portion 10 is relatively raised to the position closer to the top of the pawl 44 than main body 40. Then, axle portion 10 is made integrally to be rotated with performance variable loop 30 compared with main body 40, until tongue piece 34 is moved to and above-mentioned regulation The opposite side in end end (Fig. 5 (B)).The rotation of such case is that main body 40 and performance variable loop 30 are opposite with axle portion 10 Rotation, in Fig. 5 (B), showing makes 40 side of main body compared with 30 postrotational state of main body 40 and performance variable loop.Then, The state being overlapped as the pawl 17 of axle portion 10 and the pawl of main body 40 about 44.Then, when hand is decontroled from axle portion 10, because of spring The upper surface of 20 applied force, the lower surface of the pawl 17 of axle portion 10 and the pawl 44 of main body 40 abuts.

The state that the lower surface of the pawl 17 of axle portion 10 and the upper surface of the pawl 44 of main body 40 abut is fastening state.As a result, Axle portion 10, performance variable loop 30 and main body 40 are combined, so as to be assembled into toy top 1.

《Method for gaming》

Then, an example of the method for gaming to using the toy top 1 illustrates.

In an example of the method for gaming, toy top 1 is made to rotate and fought with the toy top of other side 1.

In this case, such transmitter 50 carries out as shown in Figure 6 for the application of the rotary force of toy top 1.It should Transmitter 50 is configured to, and possesses plectane (not shown) inside it, if being rotated with disc spring (not shown) to the plectane to one While direction exerts a force, the rope (not shown) around plectane is pulled with handle 51, then rotates plectane, and makes gyro Holder 53 rotates.The rotation of the gyro holder 53 passes to top by the clamp forks (fork) 54 for being provided projectingly on lower section Spiral shell toy 1 rotates toy top 1.In this case, clamp forks 54 are inserted into the arcuate slots 46 of main body 40.So Afterwards, when moving the handle 51 of transmitter 50 to bottom, the rotation of plectane or even gyro holder 53 stops, on the other hand, gyro For toy 1 since inertia force can also be rotated, toy top 1 follows the inclined surface 54a of clamp forks 54 from gyro holder 53 depart from.In addition, in figure 6, symbol 52 is the bar that can be passed in and out compared with gyro holder 53.It is assembled by toy top 1 When on gyro holder 53, which is pressed and submerged to gyro holder 53 by the upper surface of toy top 1.The bar 52 Such as being detected to the dismounting of toy top 1.

The toy top 1 so launched rotates in defined place, when with the collision of the toy top 1 of other side, leads to Impact force, friction etc. caused by collision are crossed, the direction of rotation phase having with axle portion 10 and performance variable loop 30 is acted in main body 40 The power in anti-direction, as a result, main body 40 compared with the direction of rotation of axle portion 10 and performance variable loop 30 in the opposite direction relatively Rotation.

Then, raised line 21 is engaged with the undulation portion 45 of main body 40.In this case, since the applied force of spring 20 acts on In raised line 21, therefore, whenever the effect of impact force is caused because of collision, axle portion 10 is relatively rotated compared with main body 40 and changed The position of engagement, as a result, when reaching locking releasing position, the pawl 44 of main body 40 departs from from the pawl 17 of axle portion 10, therefore, because of bullet The applied force of spring 20, main body 40 are separated from axle portion 10.Then, as shown in the right side of Fig. 1, toy top 1 decomposes.

(effect of guiding groove 103 and weight member 25 and effect)

Weight member 25 is because centrifugal force, inertia force are mobile from the lateral first position in the second position of guiding groove 103 and keep The state (Fig. 7 (A)).Then, when the collision (not shown) of the toy top of toy top 1 and other side, due to the collision counterweight Component 25 is because the direction of rotation of inertia force and toy top 1 is accordingly from the lateral second in the first position of guiding groove 103 It puts mobile (Fig. 7 (B)).That is, weight member 25 in guiding groove 103 to the center spacing of the axis of rotation apart from toy top 1 It is moved from the smaller second position.If weight member 25 is moved to second position side, rotating energy, the rotary force of axle portion 10 become It is small.As a result, main body 40 and axle portion 10 can be made to become slow to the relative rotation of off-direction so that until decomposition Time is elongated.Therefore, although in the present embodiment, raised line 21 being formed in axle portion 10 and has been formed in main body 40 Volt portion 45 is used as rotational resistance, but in the case that desired, can also omit the rotational resistance.

《The variation of the utility model》

More than, although the embodiment of the utility model is illustrated, but it is clear that the utility model is not limited to The above embodiment can carry out various modifications in the range of its purport is not departed from.

For example, it in the above-described embodiment, as the rotational resistance of axle portion 10 and main body 40, is formed in axle portion 10 convex Item 21 and undulation portion 45 is formed in main body 40, but protrusion and the recess portion of other shapes can also be formed.In addition, it is counted Amount is also not limited to the above embodiment.Further, rotational resistance can also be that the opposed faces in axle portion 10 and main body 40 are formed Rubber etc. resistance.In this case, due to gradually being solved from external impact force etc., axle portion 10 and main body 40 to combination The direction relative rotation removed.

In addition, in the above-described embodiment, the half of guiding groove 103 is formed as arc, it is integrally formed as arch, But the half of guiding groove 103 can also be formed as linear, it is integrally formed as V-shaped.Certainly, when for the side of rotation In the case of specific toy top, it can also only be formed as the half of the guiding groove 103 of V-shaped.

Symbol description

1 toy top

10 axle portions

23 groove portions

24 stepped parts

25 weight members

30 performance variable loops

34 tongue pieces

40 main bodys

46 arcuate slots

50 transmitters

103 guiding grooves

Claims (5)

1. a kind of toy top has main body and axle portion, by the way that main body is made, to a direction relative rotation, to make institute compared with axle portion The holding section of axle portion and the holding section engaging of the main body are stated, makes the axle portion and the master due to because the impact being subject in rotation When body is subject to the power to other direction relative rotation, the engaging with the holding section of the main body of the holding section of the axle portion is solved It removes, axle portion and main body depart from and decompose,

The toy top is characterized in that,

The guiding groove that the second position is connected from first position, the first position distance rotation are formed with around rotation axis in the axle portion The distance between centers of the shaft heart is maximum, and the second position is smaller than the distance between centers of the first position, in the guiding Slot accommodates the weight member that can be moved in the inside of the guiding groove, and when rotary speed increases, the weight member is from institute The second position laterally first position side movement is stated, when being made the axle portion and the main body opposite to the other direction During the impact of rotation, the weight member is moved from the lateral second position side in the first position.

2. toy top according to claim 1, which is characterized in that

The guiding groove by the distance between centers from the first position to the second position it is gradually smaller in a manner of formed For overlook observation when arc.

3. toy top according to claim 1 or 2, which is characterized in that

The bow when guiding groove is formed as overlook observation in a manner of configuring the second position with clamping the first position Shape.

4. toy top according to claim 1 or 2, which is characterized in that

The guiding groove is respectively formed in position at two for clamping the axis of rotation and standing facing each other.

5. toy top according to claim 3, which is characterized in that

The guiding groove is respectively formed in position at two for clamping the axis of rotation and standing facing each other.